| Document | Document Title |
|---|---|
| US11546376B2 |
Systems and methods for securing user domain credentials from phishing attacks
A computer system is provided. The computer system includes a memory and at least one processor coupled to the memory and configured to recognize a user input field of a web site displayable in a browser, the website identified as a security risk based on a whitelist of website addresses; determine that a sequence of characters within the user input field matches one or more entries in a list of partial passwords in response to the web site being identified as a security risk; and prevent the user from entering additional characters into the user input field in response to the determination, to block receipt of the password by the web site. The determination may be performed in response to a count of characters in the sequence of characters exceeding a threshold. |
| US11546373B2 |
Cryptocurrency based malware and ransomware detection systems and methods
Cryptocurrency based malware and ransomware detection systems and methods are disclosed herein. An example method includes analyzing a plurality of malware or ransomware attacks to determine cryptocurrency payment address of malware or ransomware attacks, building a malware or ransomware attack database with the cryptocurrency payment addresses of the plurality of malware or ransomware attacks, identifying a proposed cryptocurrency transaction that includes an address that is included in the malware or ransomware attack database, and denying the proposed cryptocurrency transaction. |
| US11546372B2 |
Method, system, and apparatus for monitoring network traffic and generating summary
The present invention provides a method, a system, and a device for a hash generation and network traffic detection. It uses a method of storing intermediate calculation results to perform hash calculation for streaming data, and uses a matrix multiplication operation as a strong hash algorithm to reduce memory occupation. The present invention can generate hash in real time in the case of streaming data comprising defects, unordered, and overlapping, which is suitable for detecting files from network traffic, and is applicable to virus detection, intrusion detection, data anti-leakage, network content review, digital forensics, digital rights protection, and other fields. |
| US11546368B2 |
Network security system including a multi-dimensional domain name system to protect against cybersecurity threats
A method performed by a security system that can analyze a vulnerability or a risk applicable to a network entity to identify a cybersecurity threat and associated risk level. The security system can store indications of cybersecurity threats and risk levels in a database of a Domain Name System (DNS). The security system can monitor and resolve network traffic to determine IP addresses or URLs associated with the cybersecurity threats. The security system stores a map of the cybersecurity threats and IP addresses or URLs such that the security system can protect a network entity by processing network traffic to sources or destinations of network traffic that can harm particular network entities, and execute personalized security procedures to protect the network entities. |
| US11546366B2 |
Threat information sharing based on blockchain
Systems and methods provide a platform for threat information sharing. A method comprises transmitting an access permission request to a blockchain network. The request asks for access to cyber threat information stored in at least one cyber threat information storage system. The information may come from a plurality of organizations. The blockchain network may include a blockchain ledger storing access control information from the plurality of organizations. Upon receipt of a reference to an access permission token generated by the blockchain network using at least one smart contract, a transaction request to the cyber threat information server may be sent. In response to the transaction request including the reference to the access permission token, the requested cyber threat information may be retrieved from the cyber threat information server. |
| US11546355B2 |
Supplemental attack surface scanner
Apparatus and the methods for security scanning. The apparatus may include a data collection machine. The data collection machine may be configured to transmit an executable file, from an enterprise monitoring process, to a computing machine. The computing machine may be set to be accessed only by a group of users. The computing machine may be a machine that does not have a pipeline to the Internet. The data collection machine may be configured to cause the computing machine to execute the executable file. The data collection machine may be configured to derive, from an output of the executable file, a monitoring condition in the computing machine. The enterprise monitoring process may be a process that includes only individuals that may be not part of the group. |
| US11546352B2 |
Risk based priority processing of data
Utilities (e.g., methods, systems, apparatuses, etc.) for use in generating and making use of priority scores for data generated by one or more data systems that more accurately prioritize those events and other pieces of data to be addressed by analysts and troubleshooters before others (e.g., collectively taking into account threats posed by origin host components and risks to impacted host components) to work the highest risk events and alarms first and to effectively and efficiently spend their alarm monitoring time. |
| US11546350B2 |
Data provenance
Methods, systems, and devices for wireless communications are described. Aspects include a device generating data to be sent to a receiving device and determining to provide provenance for the data. The device may generate a data identifier based on an identifier generation key and encrypt the data using an encryption key generated from a key associated with an owner of the device. The device may sign they encrypted data transmission using a signing key where the signing key is based on the encrypted data and the data identifier. In some cases, the device may send the data to a receiving device via one or more proxy devices. In some cases, multiple device may send signed data transmissions to a proxy device and the proxy device may process the multiple data transmission and send the processed data to the receiving device. The receiving device may verify provenance of the data. |
| US11546342B2 |
Information processing apparatus and network connection determining method
An information processing apparatus includes a first port, a second port, a storage device, and a determining unit. The first port is to be connected to a first network having a first security level. The second port is to be connected to a second network having a second security level. The second security level is lower than the first security level. The storage device holds first setting information for connection to the first network and second setting information for connection to the second network. The determining unit makes network connection to at least the first port in accordance with the second setting information and determines, on the basis of a result from the network connection to at least the first port in accordance with the second setting information, whether the network connection to the first port is made properly. |
| US11546338B1 |
Digital account controls portal and protocols for federated and non-federated systems and devices
Systems, methods, and apparatuses for a secure digital controls portal enabling enhanced control over account functionalities and usage of secure information provided to third party systems and devices maintained by various federated and non-federated provider computing systems of various product and service providers. The secure digital controls portal can interface with various provider computing systems via custom APIs protocols. The API protocols may utilize APIs that are particular to the software and hardware operated by the various provider computing systems. The secure digital controls portal can also standardize information from the various provider computing systems. The secure digital controls portal can be a central portal accessible via a client application running on a user device that enhances one-stop switch control and security of a user's digital footprint. |
| US11546336B1 |
Independently configurable access device stages for processing interconnect access requests
Access control lookups may be implemented that support user-configurable and host-configurable processing stages. A request may be received and evaluated to determine whether bypass of user-configured access request processing stages should be bypassed. A lookup may be determined for user-configured access controlled decisions, and the access control decisions can be applied, if not bypassed. A lookup may be determined for a host-configured access control decisions and the access control decisions applied. |
| US11546333B2 |
Blockchain-based service processing methods, apparatuses, devices, and storage media
Disclosed herein are methods, systems, and apparatus, including computer programs encoded on computer storage media, for blockchain-based service processing. One of the methods includes receiving a service processing request by a first service processing platform from a first user. The first service processing platform is one of a plurality of service processing platforms that access a blockchain network, and service data of the first user is shared between the plurality of service processing platforms over the blockchain network. In response to a determination that the service processing request involves a second service processing platform of the plurality of service processing platforms, it is determined whether the service processing request is permitted to be executed. In response to determining that the service processing request is permitted to be executed, the service processing request is executed over the blockchain network. |
| US11546332B2 |
User ID codes for online verification
Methods and systems for establishing a chain of relationships are disclosed. An identity verification platform receives a first request for registration comprising an identification of a first user, identification of an entity, and a relationship between the first user and the entity; verifies the identity of the first user and the relationship between the first user and the entity; and verifies that the entity is legitimate. Once a relationship between a first individual, invited by the first user, and the entity is confirmed, the platform creates a custom badge representing the relationship between the first individual and the entity for display on the entity's website. The platform receives an identification of a selection by an end user of the custom badge and, responsive to receiving the identification of the selection, renders, on a domain controlled by the identity verification platform, a verification that the relationship between the first individual and the entity is valid. |
| US11546330B2 |
Method and device for cross-domain strong logical isolation and secure access control in the internet of things
Embodiments of the present disclosure provide a method and a device for cross-domain strong logically isolation and secure access control in the Internet of Things (IoT). The method includes the following. When one IoT gateway receives the identity authentication request, the IoT gateway sends the identity authentication request to all IoT gateways in the domain excluding that IoT gateway. When all IoT gateways in the domain receive the identity authentication request, all IoT gateways verify separately whether the identity authentication request is legal. After a certain IoT gateway obtains the identity authentication result, a distributed consensus procedure is initiated. The IoT gateways in the domain reach a consensus on the identity authentication result through a distributed consensus mechanism, and the identity authentication result is written and stored to a block of a blockchain. |
| US11546329B2 |
Portable communication terminal control system, portable communication terminal and recording medium
A portable communication terminal control system includes a plurality of first portable communication terminals and a second portable communication terminal. A first processor in the first portable communication terminal performs a first portable communication terminal side determination process which determines whether communication connection is in an established state between a first portable communication terminal and the second portable communication terminal. The first processor performs a transmission control process in which, in response to determination that the communication connection with the other first portable communication terminal is in the established state and that the communication connection with the second portable communication terminal is in the established state, a release signal is transmitted to the second portable communication terminal. The second portable communication terminal includes a second processor which, in response to receiving the release signal, shifts the second portable communication terminal to the released state. |
| US11546328B2 |
Continuous multifactor device authentication
A device is authenticated for communication over a network based on a sensor data signature and a traffic pattern signature. The sensor data signature and the traffic pattern signature identify the device. A determination is made whether the sensor data signature corresponds to one of a plurality of recognized sensor data signatures. A determination is also made whether the traffic pattern signature of the device corresponds to one of a plurality of recognized traffic pattern signatures. The device is authenticated for communication over the network responsive to determining that the sensor data signature corresponds to one of the plurality of recognized sensor data signatures and the traffic pattern signature corresponds to one of the plurality of recognized traffic pattern signatures. |
| US11546326B2 |
Card-personalization system
A personalized card may be generated using a card-personalization system accessible via multiple access points on a network. In some aspects, the personalized card may include a physical card having an image selected by a user in a card-personalization process. The user may be assigned a code that may both authenticate the user to access the card-personalization system and identify a position of the user in the card-personalization process. The card-personalization process may include a selection process for selecting an image, an approval process for approving the image, and a creation process for generating the personalized card including the image. |
| US11546324B1 |
Single use execution environment with scoped credentials for on-demand code execution
Systems and methods are provided for scoped credentials within secure execution environments executing within virtual machines instances in an on-demand code execution system. In the on-demand code execution system, the execution environments are reset after every request or session. By resetting the single execution environment after each request or session, security issues are addressed, such as side-channel attacks and persistent malware. Additionally, the use of scoped credentials improves security by limiting the access rights for each code execution request or session to the smallest atomic level for the request or session. Following the request or session, the scoped credential is invalidated. |
| US11546319B2 |
Domain name management with network entity authentication using self-signed certificates
A method for using a self-signed digital certificate for establishing a secure connection between an Extensible Provisioning Protocol (EPP) client and a server on a communications network, including: receiving a communicated self-signed certificate from the EPP client; obtaining a unique identifier of the EPP client, the unique identifier associated with a domain name stored in a Domain Name System (DNS); using the unique identifier to access a designated DNS record in a DNS zone of the DNS associated with the domain name; retrieving the copy of the digital certificate from the designated DNS record, the copy of the digital certificate containing a public key of the EPP client bound to the domain name; authenticating the copy of the digital certificate with the communicated self-signed certificate; and receiving a generated session key from the EPP client to establish the secure connection over the communications network with the EPP client. |
| US11546316B1 |
System and method for receiving information among computer systems without enabling log ins if the user identifiers are compromised
A system and method allows a matching system to mediate requests for information among different computer systems without storing information that can be used to log into those computer systems. |
| US11546314B2 |
Computer-readable medium, information processing device, and method for providing better accessibility to cloud server
A non-transitory computer-readable medium stores computer-readable instructions executable by a processor of an information processing device communicably connected with an image processing apparatus and a cloud server. The computer-readable instructions realize an application configured to, when executed by the processor, cause the processor to perform, in response to receiving an import instruction to import a workflow, reading, from an export file, workflow information representing the workflow that is a sequence of processes using the image processing apparatus and the cloud server, and selecting one of a plurality of methods to obtain authentication information for accessing the cloud server to perform the workflow represented by the read workflow information, and access, in response to receiving a workflow execution instruction to perform the workflow, the cloud server by using the authentication information obtained in the selected method. |
| US11546310B2 |
Apparatus, methods and articles of manufacture for messaging using message level security
Methods include establishing a transport layer security connection between the client and a server that provides the web service, identifying at least one cryptographic key for communication with the web service in the connection, closing the connection and communicating between the client and the web service using a web service token that is signed and encrypted according to the identified at least one cryptographic key. Communicating between the client and the web service using a web service token may not require creation of a new transport layer security connection. Further embodiments provide a computer configured to perform operations as described above and computer-readable medium storing instructions that, when executed by a computer, perform operations as described above. |
| US11546309B2 |
Secure session capability using public-key cryptography without access to the private key
A first server receives a set of cryptographic parameters from a second server. The set of cryptographic parameters is received from the second server as part of a secure session establishment between a client device and the second server. The first server accesses a private key that is not stored on the second server. The first server signs the set of cryptographic parameters using the private key. The first server transmits the signed set of cryptographic parameters to the second server. The first server receives, from the second server, a request to generate a premaster secret using a value generated by the second server that is included in the request and generates the premaster secret. The first server transmits the premaster secret to the second server for use in the secure session establishment between the client device and the second server. |
| US11546304B2 |
Multi-domain message routing with E2E tunnel protection
Systems and techniques to enable message routing among multiple devices and device domains, via end-to-end tunneling techniques, are disclosed. In an example, techniques and device configurations involving the use of RESTful protocols that communicate OSCORE (Object Security for Constrained RESTful Environments) payloads over OSCORE tunnels, involve receiving an OSCORE message having an encrypted COSE (Concise Binary Object Representation (CBOR) Object Signing and Encryption) object payload and inserting the OSCORE message into an OSCORE tunnel message to implement a tunneled communication with a receiving device. Here, the tunnel message includes the OSCORE message within an envelope encrypted COSE object payload. The OSCORE tunnel message may then be transmitted to the receiving device. Further techniques and device configurations for the receipt, processing, conversion, and decryption of such tunneled messages are also disclosed. |
| US11546303B2 |
Automatic establishment of network tunnels by an SDWAN controller based on group and role assignments of network devices
Systems and methods are described for automatically building up a VPN to facilitate full-mesh communication within a private network of an organization based on group and role settings of participating network devices. According to one embodiment, configuration information, including a group setting, indicating a group with which the particular network device is associated, and a role setting, specifying a role of the particular network device within the group as either a hub or an edge, is received by an SDWAN controller associated with the private network for each network device of the private network. Based on the configuration information, IPsec configuration information is determined for establishment of VPN links between a hub of each group and one or more edges of the group. Full-mesh communication among the groups is enabled by causing the hubs to set up IPsec tunnels between each pair of hubs based on the IPsec configuration information. |
| US11546301B2 |
Method and apparatus for autonomous firewall rule management
In accordance with an embodiment, described herein is a system and method for autonomous firewall rule management, for use with cloud computing environments or other types of network environments. A firewall rule management automation framework provides rule management for firewalls deployed across availability domains. The system is adapted to automatically determine firewalls that can receive network traffic from a given source subnet or destination subnet; configure the firewalls with required firewall rules; monitor the firewall rules through collection of metrics snapshots and rule hit counts; and purge underused or potentially obsolete firewall rules, for example those having zero hits over a particular period of time or number of snapshots. The system provide generic support for different types of firewall devices, and autonomous management of firewall rules within large heterogeneous computer networks that may include several types of firewalls. |
| US11546300B2 |
Firewall system with application identifier based rules
A firewall service for a cloud computing environment is described that uses an application identifier-based ruleset to process data packets. An application identifier-based rule may provide an action to be taken on a received packet based on the source application identifier, the destination application identifier, and/or an identification token associated with the source application. A firewall controller may verify applications of the computing environment, provide unique application identifiers, and manage the application identifier rules for one or more firewalls of the computing environments. |
| US11546293B2 |
Multi-tenant aware dynamic host configuration protocol (DHCP) mechanism for cloud networking
An approach includes providing support multi-tenancy support on a DHCP protocol. The approach includes receiving a dynamic host configuration protocol (DHCP) packet, inserting a tenant-specific option information within the DHCP packet, and transmitting the DHCP packet with the tenant-specific option information. |
| US11546292B1 |
Identifying hybrid connectivity for traffic flows in a multi-cloud environment
An example method of identifying a hybrid connection associated with a network flow in a multi-cloud computing system includes: obtaining, by a network analyzer, network information from a plurality of data centers in the multi-cloud computing system, the plurality of data centers corresponding to a respective plurality of namespaces; identifying Internet Protocol (IP) subnetworks associated with the hybrid connection from the network information; generating connection indexes for the namespaces relating source IP subnetworks of the IP subnetworks, destination IP subnetworks of the IP subnetworks, and an identifier for the hybrid connection; searching a source IP address and a destination IP address of a flow record for the network flow in the connection indexes to obtain the identifier for the hybrid connection; and tagging the flow record with the identifier for the hybrid connection. |
| US11546287B2 |
Multi-device workspace notifications
Methods and systems for a centralized notification service are described herein. The centralized notification service may store notification data received from a plurality of devices and workspaces in a notification database. The notification database may store user account information, associated device and workspace information, associated application information, and notifications received or retrieved from each device and application associated with a user account. The notification service may receive notification data from a plurality of applications based on hooks injected into applications or into a notification manager service. |
| US11546285B2 |
Intelligent transaction scoring
Systems and methods provide a flexible environment for intelligently scoring transactions from data sources. An example method includes providing a user interface configured to generate a rubric by receiving selection of one or more one or more conditions, each condition identifying a tag generated by a classifier in the library of classifiers and for each identified tag, receiving selection of a value for the tag that satisfies the condition and receiving selection of an outcome attribute for the condition. The outcome attribute may be a weight for the tag or an alert condition. The method includes storing the rubric in a data store and applying the stored rubric to scoring units of a transaction. The method also includes aggregating scores for transactions occurring during a trend period and displaying the trend score. In some implementations, at least one classifier in the library is a rule-based classifier defined by a user. |
| US11546283B2 |
Notifications based on user interactions with emails
In some implementations, a method includes extracting message attributes of an email associated with a user from the email. User interaction data is identified that is generated by the user in association with display of the email based on sensor data from one or more sensors. It is determined that the user interaction data corresponds to a routine of the user based on a routine-related aspect generated from a user routine model representing the routine. A time to present a notification of the email is determined based on the routine. The notification is provided to the user on a user device based on the determined time to present the notification. |
| US11546279B1 |
Enhancements to rich communication group messaging
A fifth generation (5G) network can provide Rich Communication Services (RCS) between multiple user equipment (UE) of different device types and/or different operating systems. An RCS server in an IP Multimedia Subsystem (IMS) can be used to format data associated with a chat between UEs having different operating systems. The RCS server can initiate, establish, maintain, format, augment, or otherwise determine a rich communication chat message between the UEs over the 5G network. |
| US11546276B2 |
Communication input-output device
In a recording device, a data memory including a DRAM having a write pointer for each of banks, and a queue control memory that stores an active flag is provided. When frame data is written into a write-target queue, a bank for which an active flag indicates an activated state is selected as a write-target bank among the banks to write the frame data, and if there is no bank for which an active flag indicates an activated state, a bank for which an active flag indicates a deactivated state is selected as a write-target bank, a row address of a write pointer of the bank is activated, and thereafter the frame data is written. |
| US11546275B2 |
Near-hitless upgrade or fast bootup with mobile virtualized hardware
An embodiment is directed to switchover operations with a mobile virtualized network device in a mobile device. The mobile virtualized hardware switchover operations may be used to selectively and temporarily provide virtualized control-plane operations to the data-plane of a non-redundant network device undergoing an upgrade or a reboot of its control plane. A non-redundant network device may operate hitless, or near hitless, operation even when its control plane is unavailable. |
| US11546271B2 |
System and method for tag based request context in a cloud infrastructure environment
Systems and methods described herein support tag based request context in a cloud infrastructure environment. Cloud administrators do not generally have the ability to restrict resource usage in existing clouds. Granting a user permission to create resources allows them to create and/or terminate any number of resources up to a predefined account limit. Tags are associated with requests for resources for allowing administrators to restrict a user's handling of resources to the appropriate level by allowing fine-tuned control of access to the resources based on the context of the request for the resources. Request context information of the request is compared against a required credential gate level for permitting handling of resources in a tenancy having the first privilege level classification, and the request is selectively granted based on the request context information matching the first required credential gate level. |
| US11546270B2 |
Methods and apparatus to throttle media access by web crawlers
Methods, apparatus, systems and articles of manufacture are disclosed to throttle resource access by web crawlers. An example method disclosed herein includes obtaining, at a server, a media request message for media hosted by the server, the media request message requesting access to the media, characterizing a media-requesting source associated with the media request message, and inserting a time delay in a media response message to the media-requesting source based on the characterization. |
| US11546265B2 |
Data transmission method, network device, and server for transmitting assistance data
One example transmission method includes receiving, by a network device, a first transmission parameter that is sent by a server and that is used to transmit assistance data, where the first transmission parameter includes configuration information and/or priority information, and the configuration information is used to indicate a transmission cycle of each of one or more system messages and/or a size of a data volume that can be carried in each of the one or more system messages, and sending, by the network device, first configuration information to the server according to the first transmission parameter, where the first configuration information is used to indicate a transmission cycle of a first system message and a size of a data volume that can be carried in the first system message, and the one or more system messages include the first system message. |
| US11546264B2 |
Efficient evaluation of session activity
A network device includes one or more communication ports, a packet processing circuit and an activity evaluation circuit. The one or more communication ports are configured to communicate packets over a network. The packet processing circuit is configured to process the packets. The activity evaluation circuit is configured to generate a sequence of multiple evaluation times independently of the packets, and, for each evaluation time among at least some of the evaluation times in the sequence, for any packet that is processed by the packet processing circuit at the evaluation time, to identify a session to which the packet belongs and issue an increment event associated with the identified session. |
| US11546259B2 |
Packet sending method, network device, and computer-readable storage medium
This application provides wireless communications configuration methods and apparatuses. One method includes: receiving, by a service node of a server, a first packet sent by a client device, wherein a destination address of the first packet is an internet protocol (IP) address of the server; sending, by the service node, a second packet to the client device, wherein the second packet comprises the IP address of the service node; and receiving, by the service node, a third packet sent by the client device, wherein a destination address of the third packet is the IP address of the service node that is different from the destination address of the first packet. |
| US11546258B2 |
Method and apparatus for switching of data channels provided in electromagnetic waves
Aspects of the subject disclosure may include, a first waveguide system that receives first electromagnetic waves that propagate along a transmission medium where the transmission medium comprises an external surface where the first electromagnetic waves propagate along the transmission medium without requiring an electrical return path, and where the first electromagnetic waves convey data. The first waveguide system can generate, according to the first electromagnetic waves, first signals, where the first signals convey the data. The first waveguide system can provide the first signals to a switching device that facilitates generating and providing, according to the first signals and routing information conveyed by the first signals, second signals to a second waveguide system selected from among a group of waveguide systems communicatively coupled to the switching device, where the second signals convey at least a first portion of the data. Other embodiments are disclosed. |
| US11546257B1 |
Scalable SD-WAN topology and route automation
An example network infrastructure device of a software defined wide area network (SD-WAN) comprises processing circuitry and a memory including instructions that cause the network infrastructure device to advertise a set of SD-WAN overlay tunnels terminating at the network infrastructure device, receive a network connectivity graph including a categorized set of network infrastructure devices that are members of an advertisement area and links between the set of network infrastructure devices, receive data traffic intended for a destination device of the set of network infrastructure devices, determine, based on the network connectivity graph, a preferred path to the destination device, and transmit the data traffic via an interface associated with the preferred path. |
| US11546256B2 |
Multi-region virtual overlay wide area network
Disclosed herein are systems and methods for the creation, management, and utilization of a multi-region virtual overlay wide area network from a plurality of special purpose network appliances. In exemplary embodiments, multiple regions are created for the virtual overlay wide area network, each region having its own network topology. At least one network appliance from each region is in communication with at least one network appliance from each other region, for inter-region connectivity within the virtual overlay wide area network. A subnet sharing protocol can be utilized to exchange routing information among each network appliance within each region, and between each region. |
| US11546253B2 |
Fast reroute for ethernet virtual private networks—virtual extensible local area network
Techniques are described for providing fast reroute for traffic in EVPN-VXLAN. For example, a backup PE device of an Ethernet segment is configured with an additional tunnel endpoint address (“reroute tunnel endpoint address”) for a backup path associated with a second split-horizon group that is different than a tunnel endpoint address and first split-horizon group for another path used for normal traffic forwarding. The backup PE device sends the reroute tunnel endpoint address to a primary PE device of the Ethernet segment, which uses the reroute tunnel endpoint address to configure a backup path to the backup PE device over the core network. For example, the primary PE device may install the reroute tunnel endpoint address within its forwarding plane and one or more operations to cause the primary PE device to encapsulate a VXLAN header including the reroute tunnel endpoint address when rerouting the packet along the backup path. |
| US11546251B2 |
System and method for securing communication between devices on a network with multiple access points
Systems and methods for managing communication of a plurality of devices in a computer network having a plurality of access points, including identifying, by a second access point of the computer network, a communication request from at least one device of the plurality of devices; sending, by a first access point of the computer network, at least one communication rule to the second access point, the at least one communication rule including conditions for communication corresponding to the identified communication request; and blocking, by the second access point, communication to the second access point when the received communication request is inadmissible according to the at least one communication rule. |
| US11546246B2 |
Minimizing or reducing traffic loss when an external border gateway protocol (eBGP) peer goes down
A router configured as an autonomous system border router (ASBR) in a local autonomous system (AS), includes: (1) a control component for communicating and computing routing information, the control component running a Border Gateway Protocol (BGP) and peering with at least one BGP peer device in an outside autonomous system (AS) different from the local AS; and (2) a forwarding component for forwarding packets using forwarding information derived from the routing information computed by the control component, wherein the control component (i) receives reachability information for an external prefix corresponding to a device outside the local AS, and (ii) associates the external prefix, as a BGP next hop (B_NH), an abstract next hop (ANH) that identifies a set of BGP (eBGP) sessions that contains at least one eBGP session over which given external prefix has been learned, each of the at least one eBGP sessions being between the ASBR and a BGP peer device in an AS outside the AS, wherein the device located outside the local AS is reachable via the BGP peer device. |
| US11546243B1 |
Unified interface and tracing tool for network function virtualization architecture
A system instantiates a unified interface for a telecommunications network including a Network Function Virtualization (NFV) architecture of an IP multimedia subsystem (IMS) with multiple Virtual Network Functions (VNFs) that each have multiple component VNFs. The system instantiates a tracing tool configured to evaluate performance of the IMS in response to execution of a test case, which includes a test script to test a computing product and where the performance of the IMS is based on packets captured concurrently from VNFs. The test script causes capture and analysis of parameters extracted from packets of the VNFs. In response to completing the test case, the system reports test results indicating the performance of the IMS relative to pass/fail criteria, where the test results are presented through the unified interface. |
| US11546237B2 |
Multi-access edge computing architecture and detection method thereof
The present invention relates to a detection method for a multi-access edge computing architecture. The multi-access edge computing architecture uses the technology of bump-in-the-wire (BITW) to be deployed between the user device and the core network. The multi-access edge computing architecture includes a baseboard management controller, an edge computing service module, a central processing unit module, and a switching module. When any function in the multi-access edge computing architecture fails, the detection method of the present invention is used to actively detect and directly connect the base station to the core network. When the function is restored, the detection method of the present invention can actively restore the original path of the base station and the core network connected to the multi-access edge computing architecture to achieve seamless debugging and other purposes. |
| US11546235B2 |
Action based on advertisement indicator in network packet
Examples disclosed herein relate to performing an action based on an advertisement indicator is present in a network packet. In one example, a network packet identified by a network infrastructure device as matching criteria associated with a pre-identified request is received. A parameter within the network packet is identified. A rule is used to determine whether the parameter indicates that an advertisement indicator is present in a flow associated with the network packet. An action is performed based on whether the advertisement indicator is present in the network packet. |
| US11546231B2 |
Network management system and method for access network
A premises networking device includes hardware components including speakers, microphone, infrared sensor, spectrum analyzer and wireless interfaces. A touch screen display presents a user interface that provides information about network conditions and configuration settings and a menu for setting and changing configuration settings. Different versions of the user interface are displayed based on whether a user is in proximity to the device. The user interface includes shapes representing user devices, the visual characteristics of which change based on the current network conditions. A health score, which is an evaluation of network performance based on measurements of aspects of the conditions of the network, is displayed in real time. A network management system includes a network management platform for storing network conditions and configuration information and pushing the information to premises networking devices. An application programming interface allows third-party applications to send instructions to and access data from various system processes. |
| US11546230B2 |
Real time streaming analytics platform
System(s) and method(s) for processing one or more real time data streams captured in a distributed computing environment. In accordance with the system(s) and method(s), a GUI may be provided that enables a user to design a GUI pipeline comprising multiple sub-systems executing logic associated with a plurality of applications. Each of the sub-systems in the pipeline may be configured with different parameters by the user using the GUI. Further, the user may configure to integrate the multiple sub-systems through the GUI. Further, the user may control and/or update the configuration of the logic, configuration of the parameters, and the integration of the multiple sub-systems through the GUI. The updating of the configuration is automatically notified to the running pipeline in real time. Further, the GUT facilitates to monitor performance of the running pipeline in real time. |
| US11546228B2 |
Zero-touch configuration of network devices using hardware metadata
The present is directed to systems, methods, and devices for Zero Touch Provisioning (“ZTP”). The system can include a data center computing network, and at least one server coupled with the data center computing network. The server can receive a trigger signal from a triggering device coupled to a data center hardware network, transmit an executable script to the triggering device, which executable script instructs the triggering device to generate a definition file including a unique identifier of the triggering device, receive the definition file from the triggering device, identify a configuration file associated with the triggering device based at least in part on the unique identifier, and provision the triggering device by delivering the configuration file to the triggering device. |
| US11546225B1 |
Methods and systems for network planning with availability guarantees
A system and method for network planning with certain guarantees is disclosed. The system receives data characterizing various aspects of a backbone network, such as the nodes of the backbone network, how the nodes are connected by network links, the maximum available capacities of the network assets, network costs, and network asset reliability information. The system also receives data characterizing the requirements of different data communications, or flows, within the backbone network. For example, the backbone network may need to provide a flow a minimum amount of bandwidth or throughput, and the flow may have a minimum required uptime or availability. Based on the network data and flow data, the system generates a network plan that describes how capacity should be provided by different components of the network in a manner that guarantees satisfying flow requirements while balancing other considerations, such as network costs. |
| US11546223B2 |
Systems and methods for conducting more reliable assessments with connectivity statistics
Systems and methods for social graph data analytics to determine the connectivity between nodes within a community are provided. A user may assign user connectivity values to other members of the community, or connectivity values may be automatically harvested, calculated, or assigned from third parties or based on the frequency of interactions between members of the community. Connectivity values may represent such factors as alignment, reputation, status, and/or influence within a social graph within the network community, or the degree of trust. The paths connecting a first node to a second node may be retrieved, and social graph data analytics may be used to determine a network connectivity value from all or a subset of all of the retrieved paths and/or one or more connectivity statistics value associated with the first node and/or the second node. A parallel computational framework may operate in connection with a key-value store to perform some or all of the computations related to the connectivity determinations. Network connectivity values and/or other social graph data may be outputted to third-party processes and services for use in initiating automatic transactions or making automated network-based or real-world decisions. |
| US11546221B2 |
Link capacity adjustment method and device
Provided are a link capacity adjustment method and device. The method includes: a node device obtains a latency of a Physical Layer (PHY) for link capacity adjustment of a Flex Ethernet (FlexE) group; and clock offsets of all the PHYs in the FlexE group are aligned according to the obtained latency. According to embodiments of the present disclosure, the clock offsets of all the PHYs in the FlexE group are aligned, thereby preventing data loss caused by the clock offsets of the PHYs in the FlexE group during link capacity adjustment. |
| US11546219B1 |
User-defined virtual regions in a cloud provider network
Techniques are described for enabling users of a cloud provider network to define and use custom “virtual regions” comprised of selected sets of cloud provider network infrastructure locations. A cloud provider network enables users to obtain information about available infrastructure locations and to identify locations that satisfy a set of performance characteristics and other parameters. Once a set of desirable infrastructure locations have been identified, users can request the creation of a virtual region to be associated with their user account, where the request specifies a set of infrastructure locations to comprise the virtual region. Once a virtual region is created, users can cause computing resources to be launched into or otherwise associated with the virtual region in a manner similar to the use of existing regions and availability zones. |
| US11546217B1 |
Detecting configuration anomaly in user configuration
One aspect of the instant application facilitates detection of configuration anomaly. During operation, a system can convert a set of rules associated with configuration syntax information for a feature in a respective feature document to at least a structured regular expression. Then the system generates a set of configuration templates with a respective configuration template including the structured regular expression corresponding to the feature document. The system can select, based on a target configuration associated with the network device, a subset of the configuration templates and can extract, based on a match between the selected configuration templates and the target configuration, a set of features. The system can determine one or more rules associated with the extracted features. Based on the one or more rules the system can determine an anomaly in the target configuration and generate at least one recommended configuration to alleviate the anomaly. |
| US11546216B2 |
Real time performance tuning of network devices
A network device (ND) includes packet processing circuitry and performance optimization circuitry. The packet processing circuitry is connected to a network and is configured to process communication packets for communicating over the network. The packet processing circuitry includes a plurality of configuration registers for setting one or more operation parameters of the ND. The performance optimization circuitry is configured to improve a performance measure of the ND by iteratively calculating the performance measure and adjusting values of one or more of the configuration registers based on the performance measure. |
| US11546215B2 |
Method, system, and device for data flow metric adjustment based on communication link state
Embodiments of this application provide a network optimization method, a network optimization system, and a network device, and relate to the communications field. A first network device adjusts, if it is detected that a communications link between the first network device and a second network device is in an abnormal state, a metric of at least one data flow received by the first network device; and the first network device selects a transmission path for the at least one data flow based on adjusted metric, and transmits the at least one data flow to the selected transmission path. In this way, load of the communications link is reduced, and the communications link is restored to a normal state. |
| US11546213B2 |
Cloud node routing
A router architecture that facilitates cloud exchange point routing is disclosed. The architecture relies upon B-nodes to connect branch network to cloud, S-nodes to connect services, and V-nodes to connect cloud to cloud. The nodes can be essentially stateless with node configuration stored outside a router, which facilitates ripping and replacement of nodes. Multiple virtual private clouds can be implemented with respective pluralities of Kubernetes pods and a master Kubernetes cluster. Consumer premises equipment is coupled to a first virtual private cloud that forms a virtual extensible local area network with a second private cloud. |
| US11546209B2 |
Asset packaging for multiple applications sharing common assets
Systems and techniques for providing more efficient remote provisioning of assets for software applications are provided. Such systems and techniques allow for more flexible distribution of such assets while reducing bandwidth consumption and storage requirements on provisioned devices and reducing delay time from requesting a software application on a remote device and then having the remote device actually execute the requested software application. |
| US11546208B2 |
Multi-site hybrid networks across cloud environments
A method of deploying a network service across a plurality of data centers, includes the steps of: in response to a request for or relating to a network service, identifying virtual network functions associated with the network service and determining network connectivity requirements of the virtual network functions, issuing commands to provision a first virtual link between at least two of the data centers in which the virtual network functions are to be deployed, and issuing commands to provision a second virtual link to one of the data centers in which the virtual network functions are to be deployed. |
| US11546198B2 |
Virtual splits using power domain NOMA
The present disclosure relates to multi-MAC controller and single PHY systems and methods. An example method may include transmitting, via a first device in a Data Over Cable Service Interface Specification (DOCSIS) network, a first block of data within a first time slot and at a first power level, the first power level being based on an attenuation of a first network tap device associated with the first device. The example method may also include transmitting, via a second device in the DOCSIS network, a second block of data within the first time slot and at a second power level, the second power level being based on an attenuation of a second network tap device associated with the second device, the first power level being different than the second power level. |
| US11546196B2 |
Secure long training field (LTF)
This disclosure provides methods, devices and systems for generating a secure long training field (LTF). In some implementations, the secure LTF may include a randomized bit sequence that is difficult, if not impossible, to replicate by any device other than the transmitting device and the intended receiving device. For example, the transmitting device may use a block cipher or stream cipher to generate a pseudorandom bit sequence and may select a subset of bits of the pseudorandom bit sequence to be mapped to a sequence of modulation symbols representing an LTF symbol of the secure LTF. More specifically, each of the modulation symbols is mapped to a respective one of a number of subcarriers spanning a bandwidth of the secure LTF. The transmitting device may further transmit a physical layer convergence protocol (PLCP) protocol data unit (PPDU) that includes the secure LTF to the receiving device. |
| US11546191B2 |
Methods and devices for channel estimation
The present disclosure provides a method (100) in a network device for channel estimation. The method (100) includes: transmitting (110) to a terminal device an instruction to precode each of a number, L, of DeModulation Reference Signals, DMRSs, using a number, N, of linearly independent precoders, respectively; receiving (120) from the terminal device L*N precoded DMRSs; estimating (130) an equivalent channel associated with an uplink channel from the terminal device to the network device based on one or more of the L*N precoded DMRSs; and determining (140) the uplink channel from the equivalent channel based on the N precoders. |
| US11546187B2 |
Large packet daisy chain serial bus
A communication system for an industrial process includes multiple slave modules connected in series with a master controller. The master controller stores a communication schedule that defines an ordered sequence of messages and identifiers associated with each message. The master controller transmits messages downstream through the slave modules to a terminal one of the slave modules. The terminal slave module generates a return message that is transmitted upstream to the master controller. Each slave module receives each downstream message, identifies based on the message identifier whether the message is associated with response information from the slave module, and inserts the response information into corresponding upstream messages. |
| US11546184B2 |
Selecting a rendezvous point in an IP multicast-capable network
Some examples relate to selection of a rendezvous point in an IP multicast network managing multicast group traffic. An example includes transmitting, from a controller in a cloud computing system, messages to a source device and a host device in an IP multicast-capable network, which may include two peer network devices that are virtualized to function as one virtual device. Based on the response to the messages, the controller may determine that the source device is present in OSI layer 3 and the host device is present in OSI layer 2. The controller may determine that the peer network are located downstream in relation to the determined layer of the source device. The controller may select a non-peer network device as a rendezvous point in the IP multicast-capable network. Further to the selection, the controller may synchronize an active-active configuration between the peer network devices. |
| US11546179B2 |
Power distribution over ethernet connection
In an embodiment, an apparatus includes a source device including a first current limiter and a second current limiter in parallel with each other and a first transformer and a second transformer; a load device includes a third transformer and a fourth transformer in parallel with each other; and an Ethernet cable is electrically coupled between the source device and the load device, the Ethernet cable including first twisted pair lines and second twisted pair lines. A direct current (DC) voltage is provided to the first current limiter and the second current limiter, the first transformer is electrically coupled to an output of the first current limiter, and the second transformer is electrically coupled to an output of the second current limiter. The DC voltage is transmitted to the third transformer and the fourth transformer in parallel with each other via the first twisted pair lines and the second twisted pair lines. The first twisted pair lines and second twisted pair lines are included in an Ethernet cable electrically coupled between the source device and the load device. |
| US11546176B2 |
System and method for authentication and cryptographic ignition of remote devices
A method of remotely initializing at least one device is disclosed. The method includes initializing at a local host a cryptographic authorization sequence after receiving a secure input value. The method further includes receiving at a local host cryptographic controller a first authorization request from a first remote device. After a challenge-response authentication protocol, the first remote device is authenticated and receives a public key infrastructure certificate. The method includes receiving at a first remote cryptographic controller a second request from a second remote device. After a challenge-response authentication protocol, the first remote device is authenticated, but does not receive a public key infrastructure certificate. A system for remotely initiating at least one device is also disclosed. |
| US11546175B2 |
Detecting and isolating an attack directed at an IP address associated with a digital certificate bound with multiple domains
An attack is detected on a first IP address and a determination is made that the first IP address is associated with a primary digital certificate that is bound with multiple different domains. For each of these domains, a secondary certificate is accessed that is bound only to that domain and that secondary certificate is associated with a unique IP address such that each of the different domains has a unique IP address associated with its secondary certificate respectively. The attack is isolated to the domain the attack follows. |
| US11546174B2 |
Wireless terminal authentication
A device for wireless terminal authentication may include at least one processor configured to receive, from a wireless terminal device, a request for user information, the request comprising a certificate corresponding to the wireless terminal device. The at least one processor may be further configured to verify the certificate based at least in part on a public key stored on the electronic device. The at least one processor may be further configured to, when the certificate is verified, determine whether the certificate indicates that the wireless terminal device is authorized to receive the requested user information. The at least one processor may be further configured to transmit, to the wireless terminal device, the requested user information when the certificate indicates that the wireless terminal device is authorized to receive the requested user information. |
| US11546169B2 |
Dynamic response signing capability in a distributed system
A system that provides responses to requests obtains a key that is used to digitally sign the request. The key is derived from information that is shared with a requestor to which the response is sent. The requestor derives, using the shared information, derives a key usable to verify the digital signature of the response, thereby enabling the requestor to operate in accordance with whether the digital signature of the response matches the response. |
| US11546167B2 |
System and method for using a distributed ledger gateway
System and method for using a distributed ledger gateway are disclosed. In one embodiment, in an information processing apparatus comprising at least one computer processor, a method for interacting with a plurality of distributed ledgers may include: (1) receiving a client request comprising a payload to be written to one of a plurality of distributed ledgers and metadata extracted from the client request; (2) identifying a destination distributed ledger of the plurality of distributed ledgers; (3) logging a source of the request and the destination distributed ledger; (4) encrypting the payload; and (5) routing the encrypted payload to the destination distributed ledger. |
| US11546166B2 |
Hash tree computation device
Some embodiments are directed to a hash tree computation device. The hash tree computation device computes a top hash of a hash tree. A hash preimage of a leaf node of the hash tree comprises a type of the leaf node. A hash preimage of an internal node of the hash tree comprises a type count comprising a number of descendants of the internal node having a given type. The hash tree computation device computes the top hash by computing hashes of a current node and of its ancestors, where a hash of an ancestor is computed based on its type count, the type count being computed from types or type counts of its descendants. |
| US11546165B2 |
Attestation using device-specific and application-specific attestation messages
A method comprises: a first data processing device requesting attestation of a second data processing device; the second data processing device generating a device-specific attestation message in dependence upon a device-specific key, a hardware configuration of the second data processing device and a software configuration of software running on the second data processing device; the second data processing device generating an application-specific attestation message in dependence upon an interaction protocol by which the first data processing device and the second data processing device interact; the second data processing device cryptographically binding the application-specific attestation message to the device-specific attestation message; the first data processing device verifying the application-specific attestation message, the verifying step comprising detecting a trusted status of the application-specific attestation message by verifying the device-specific attestation message cryptographically bound to the application-specific attestation message; and the first data processing device establishing an interaction with the second data processing device according to the interaction protocol, in dependence upon the verified application-specific attestation message. |
| US11546162B2 |
Systems and methods for ensuring correct execution of computer program using a mediator computer system
In a distributed system, a first computer system may require computationally verifiable assurances of the authenticity and integrity of computations (e.g., performed as part of the execution of a program) performed by a second computer system. Methods described herein may be utilized to enforce and/or ensure the correct execution of a program. The first computer system may delegate execution of a program to a second computer system and a protocol may be employed to constrain the second computer system to perform a correct execution of the program. The protocol may include mitigation and correction routines that mitigate and/or correct the incorrect execution of a program. In various systems and methods described herein, the protocol may utilize a blockchain network such as a Bitcoin-based blockchain network. |
| US11546161B2 |
Zero knowledge proof hardware accelerator and the method thereof
A hardware accelerator for accelerating the zero knowledge succinct non-interactive argument of knowledge (zk-SNARK) protocol by reducing the computation time of the cryptographic verification is disclosed. The accelerator includes a zk-SNARK engine having one or more processing units running in parallel. The processing unit can include one or more multiply-accumulate operation (MAC) units, one or more fast Fourier transform (FFT) units; and one or more elliptic curve processor (ECP) units. The one or more ECP units are configured to reduce a bit-length of a scalar di in an ECP algorithm used for generating a proof, thereby the cryptographic verification requires less computation power. |
| US11546160B2 |
Pixel streamed NFT-based living artwork and queue-based live event viewing
A method provides a set of credentials for accessing a live event as a spectator. The credentials includes tiered credentials with respect to access privileges from a queue imposed to access the live event. The access privileges specify a queued order based spectator access time and a spectator access duration. The method evaluates the credentials received from users seeking to access the live event as spectators including determining whether a provided credential pertains to a non-owning viewer or an owning viewer of a subject of the live event. The method controls, by a real-time visual media generation engine of a streaming server, the spectator access time and the spectator access duration of each of the users to the live event as the spectators based on the credentials by placing the users in predetermined queuing positions associated with corresponding levels of the credentials. The live event is a living artwork. |
| US11546155B2 |
Data managing apparatus, data processing apparatus, and data managing method
The present disclosure is designed to properly prevent tampering of data, which might take place in a data collection route. Data managing apparatus 100 includes a reception processing unit 131 configured to receive processing history information related to a history of processing performed on collected data and encrypted information of a first hash value generated from the processing history information using a public key associated with the processing, a generation processing unit 133 configured to generate a second hash value from the processing history information, and a maintaining unit 135 configured to maintain the processing history information when the first hash value, decrypted from the encrypted information using a private key associated with the data collection process, and the second hash value match. |
| US11546154B2 |
Apparatus/system for voice assistant, multi-media capture, speech to text conversion, plurality of photo/video image/object recognition, fully automated creation of searchable metatags/contextual tags, storage and search retrieval
This invention relates to a network interface device. A first capture device interfaces with a first external information source to capture first external information. A processor processes the captured first external information and stores it in a first media. The processor initiates the storage of the first captured information at an initial time and completes storage of the first captured information at a completion time, thus providing a stored defined set of first captured information. A transmitter transmits the defined set of stored captured information to a remote location on a network. A remote processing system is disposed at the remote node on the network and includes a database and a receiver for receiving the transmitted defined set of first captured information. A data converter is operable to convert the received defined set of first captured information to a second format. The database stores the set of converted captured information. |
| US11546151B2 |
System for securing deployed security cameras
Example embodiments provide systems and methods for securing a deployed camera. A security apparatus is coupled to the deployed camera and accesses video content from the coupled camera. The security apparatus accesses video content from the coupled camera, splits the video content within a plurality of RTP packets, encrypts payloads of the RTP packets, embeds in a header of the encrypted RTP packets, at least two key identifications for decryption of the encrypted RTP packets, and transmits the plurality of RTP packets over a network to a video management system. |
| US11546150B2 |
Secure scalable link key distribution using bootsrapping
An electronic device (such as an IoT controller) that distributes a link key is described. During operation, while an administrator is logged in, the electronic device may receive the link key using a secure widget, where the link key may facilitate secure communication via a link. Then, the electronic device may generate an access key, and may generate an encrypted version of the link key based at least in part on the access key and the link key, where the access key enables access to the link key based at least in part on the encrypted version of the link key. Next, the electronic device may store the link key, the access key and/or the encrypted version of the link key in a trusted envelope or partition in the memory with encryption. Moreover, when the administrator logs out, the electronic device may disable access to the trusted envelope. |
| US11546145B2 |
Scalable byzantine fault-tolerant protocol with partial tee support
A method is provided for preparing a plurality of distributed nodes to perform a protocol to establish a consensus on an order of received requests. The plurality of distributed nodes includes a plurality of active nodes, the plurality of active nodes including a primary node, each of the plurality of distributed nodes including a processor and computer readable media. The method includes preparing a set of random numbers, each being a share of an initial secret. Each share of the initial secret corresponds to one of the plurality of active nodes. The method further includes encrypting each respective share of the initial secret, binding the initial secret to a last counter value to provide a commitment and a signature for the last counter value, and generating shares of a second and of a plurality of subsequent additional secrets by iteratively applying a hash function to shares of each preceding secret. |
| US11546142B1 |
Cryptography key generation method for encryption and decryption
This disclosure is directed to generating a set of data elements for more secure encryption or more resilient decryption associated with generating a target set of conditional data elements. The target set of conditional data elements may fulfill a condition. Public keys associated with an encrypted message may be associated with conditional data elements of the target set of conditional data elements. By performing at least one cycle of decryption associated with the public keys, an encrypted message may be decrypted. |
| US11546134B2 |
Method and apparatus for processing ciphertext based on homomorphic encryption
A method and apparatus for processing a ciphertext based on homomorphic encryption. The method includes determining an approximate polynomial corresponding to a modulus reduction for bootstrapping a ciphertext based on samples extracted from the modulus reduction, and bootstrapping the ciphertext based on the approximate polynomial. |
| US11546130B2 |
Control method of optical transceiver and optical transceiver
A control method for an optical transceiver includes interrupting internal repetitive internal processing in response to a command from a host apparatus and executing an interrupt process for transmitting monitoring data. The method sets a processing mode of the interrupt process to a first processing mode when a processing time necessary to execute the interrupt process and one cycle of the repetitive processing is shorter than a threshold value, and to a second processing mode when the processing time necessary to execute the interrupt process and one cycle of the repetitive processing is longer than the threshold value. In the first mode, the interrupt process stores first monitoring data read out from a memory unit in a transmission register, stops the stretching of a clock signal, and subsequently reads out second monitoring data from the memory unit to follow the first monitoring data. In the second mode, the interrupt process stores the first monitoring data read out from the memory unit in the transmission register, reads out the second monitoring data from the memory unit, and subsequently stops the stretching of the clock signal. |
| US11546128B2 |
Device and computing system including the device
Interface devices and systems that include interface devices are disclosed. In some implementations, a device includes a transceiver configured to transmit and receive data, a lane margining controller in communication with the transceiver and configured to control the transceiver to transmit, through a margin command, to an external device, a request for requesting a state of an elastic buffer of the external device, and control the transceiver to receive the state of the elastic buffer of from the external device, and a port setting controller adjust a clock frequency range of a spread spectrum clocking scheme based on the state of the elastic buffer. |
| US11546126B2 |
Asymmetric TDD in flexible use spectrum
Method and systems are provided for receiving and transmitting signals over a time division duplex communication path (the “Path”). Operations may include sending a first signal via an uplink portion of the Path, and receiving a second signal via a downlink portion of the Path. The Path operates over a first band having a first frequency range and during a communication time including an uplink period (TU) and a downlink period (TD). The uplink portion is sent during the uplink period, uses a first portion of the first frequency range and is disposed between a first uplink guard band portion and a second uplink guard band portion. The guard bands are allocated from a second portion and a third portion of the first band. The first band is disposed between a second band, providing a second communication path, and a third band providing an FDD communication path. |
| US11546123B2 |
Wireless communication method and device
Provided are a wireless communication method and device. The method includes: a network device sending first indication information, wherein the first indication information is used for indicating the format of a first downlink control channel, and the first downlink control channel is used for carrying hybrid automatic repeat request (HARQ) feedback information about a physical uplink shared channel (PUSCH) of at least one terminal device; and the network device sending the first downlink control channel having the format. |
| US11546121B2 |
Operation method of terminal and base station in wireless communication system supporting unlicensed band and device for supporting same
The present invention discloses an operation method of a terminal and a base station in a wireless communication system supporting an unlicensed band and a device for supporting same. The present invention discloses an operation method of a terminal and a base station and a device for supporting same, according to one specific embodiment, wherein the method is based on signaling, to the terminal, whether or not the base station is occupied by each channel access procedure (CAP) subband through downlink control information (DCI) including slot format information for one or more slots. |
| US11546120B2 |
Techniques and apparatuses for channel state information feedback performance for introduction of 64-QAM in machine type communication devices
A method, an apparatus, and a computer program product for wireless communication are provided. The apparatus may determine channel state information (CSI) feedback based at least in part on a channel quality information (CQI) table and a CSI reference resource size of the apparatus, wherein at least one of the CSI feedback or the CQI table is modified based at least in part on a modulation configuration of the apparatus; and report the CSI feedback. Numerous other aspects are provided. |
| US11546118B2 |
Method for transmitting control information in wireless communication system and apparatus therefor
A method of generating Acknowledgement/Negative Acknowledgement (ACK/NACK) information by a user equipment (UE) in a wireless communication system is discussed. The method includes receiving, by the UE from a base station (BS), a plurality of codewords through a plurality of downlink frequency bands related to a plurality of downlink carriers, wherein the UE is configured with a 1-codeword mode or a 2-codeword mode for each of the plurality of downlink frequency bands independently, and wherein a number of supported codewords is one for the 1-codeword mode or two for the 2-codeword mode; determining, by the UE, a total number of ACK/NACK bits, wherein the total number of ACK/NACK bits is determined based on a total number of the plurality of downlink carriers and the number of supported codewords; and generating, by the UE, a sequence of the ACK/NACK bits based on the total number of the ACK/NACK bits. |
| US11546113B2 |
Resource allocation signaling
There is disclosed a method of operating a radio node in a Radio Access Network, the method including communicating utilizing frequency resources based on allocation information received in a message, the message having an allocation information structure containing the allocation information. |
| US11546112B2 |
Resource-efficient custom downlink search-space in 5G/6G
In 5G and 6G, a user device is expected to perform an arduous blind search in each downlink control space to detect its DCI (downlink control information) messages. To save energy and complexity, especially for reduced-capability IoT applications, low-complexity procedures are disclosed that enable each user to request a custom search-space comprising one or more specific times and frequencies. Each downlink control or data message then starts in the custom search-space. The data or control messages may include the user's ID code, in plain text (as opposed to complex encoding) and/or the length of the message, so that the user can readily identify its messages. The user device may thereby readily separate its messages from the stream of incoming data. Result: saved time and energy, fewer dropped messages, and generally improved network performance, especially for simpler processors and devices. |
| US11546110B2 |
Method and device for multi-antenna transmission in user equipment (UE) and base station
The present disclosure discloses a method and device for multi-antenna transmission in UE and base station. The user equipment receives a first radio signal at first, then receives a first signaling. The first radio signal is transmitted by K antenna port groups, and the first signaling is used to determine a first time resource pool; a second antenna virtualization vector is associated with the first antenna port group; the second antenna virtualization vector is an antenna virtualization vector available to the user equipment in the first time resource pool. The invention effectively reduces signaling overhead of wireless resource dynamic scheduling of a massive MIMO system. |
| US11546106B2 |
Method and device for determining beam failure detection reference signal resource
Embodiments of this disclosure provide a method and a device for determining a beam failure detection reference signal (BFD RS) resource, applied to a user-side device. The method includes: determining the BFD RS resource based on a Transmission Configuration Indication (TCI) state of a control resource set when no BFD RS resource used for measurement of a BFD RS is configured. |
| US11546102B2 |
Data sending method, information sending method, and apparatus
Methods, apparatus, and systems for data or information transmission are provided. In one aspect, a data sending method by a terminal device includes: determining indication information, determining, based on the indication information, a transport block size (TBS) used to send data, and sending the data based on the determined TBS. The terminal device can determine at least two of first information indicating that the TBS is a first TBS, second information indicating that the TBS is a second TBS, or third information indicating the terminal device to select a TBS from a TBS set as a third TBS used by the terminal device to send data. The TBS set is determined based on the first TBS, and can include at least one of the second TBS or the third TBS. The indication information includes one of the at least two of the first, second, or third information. |
| US11546101B2 |
Cloud-based Wi-Fi network system using immediate ACK in uplink data transmission
A cloud-based Wi-Fi network architecture consisting of a CU and RAUs is proposed as an improvement on the conventional Wi-Fi architecture with traditional access points (APs). In addition, a method for uplink data transmission in a cloud-based Wi-Fi network is proposed. In a conventional Wi-Fi network with independently operating APs, APs close to each other may not be able to utilize the same frequency band efficiently because of significant amounts of interference. However, in a cloud-based Wi-Fi network, the CU coordinates RAUs so that they can operate in the same frequency band by transmitting or receiving signals through the shared wireless medium to improve spectral efficiency. For each frequency band, the proposed system utilizes a diversity combining that combines multiple signals and introduces a single improved signal with high signal-to-noise ratio for uplink transmission in the cloud-based Wi-Fi network. In proposed uplink transmission method for a cloud-based Wi-Fi network, diversity combining is utilized with the immediate acknowledgement (ACK) transmission method that transmits the ACK frame to the client immediately before decoding. The proposed uplink data transmission method mitigates the performance degradation caused by the fronthaul propagation delay between the CU and RAUs, without significant modification of the IEEE 802.11 standard. |
| US11546100B2 |
Operation of automatic repeat request
There is disclosed a node for a wireless communication system. The node may comprise a receiver for receiving a data packet, a status report and an acknowledgement (ACK), a transmitter for transmitting the packet, the status reports and the ACK and a processor for selectively operating in a first mode and a second mode, for determining a mode switching criterion. |
| US11546097B2 |
HARQ feedback for multicast/unicast
In an aspect of the disclosure, a method, a computer-readable medium, and an apparatus are provided. The apparatus may be a UE. The apparatus may receive from a second device a first data packet in one or more receiving slots of a time division duplex frame that includes a plurality of slots. The apparatus may determine whether the first data packet is received incorrectly. The apparatus may wait until the end of the one or more receiving slots and may transmit to the second device a first NACK in a NACK feedback symbol in a configured slot after the end of the one or more receiving slots in response to determining that the first data packet was not received correctly. |
| US11546095B2 |
Sidelink HARQ feedback transmission method and device thereof
Provided are a method and device for providing vehicle-to-everything (V2X) services in next generation wireless access technology (New RAT). The method controls the sidelink HARQ feedback operation by a terminal. A PSSCH scheduled by a PSCCH including sidelink control information is received from a transmitting terminal. Wireless resources of a PSFCH including HARQ feedback information regarding the PSSCH are determined and allocated in one symbol. The PSFCH, allocated in the one symbol, are repeatedly transmitted to the transmitting terminal in two consecutive symbols. |
| US11546092B2 |
Method and apparatus for HARQ-ACK feedback for carrier aggregation
Embodiments of the present application relate to a method and apparatus for hybrid automatic repeat request-acknowledge (HARQ-ACK) feedback for carrier aggregation (CA). A method according an embodiment of the present application may include receiving at least one downlink transmission; generating a first HARQ-ACK sub-codebook for the at least one downlink transmission; determining whether to generate a second HARQ-ACK sub-codebook; and transmitting a HARQ-ACK codebook. The HARQ-ACK codebook includes the first HARQ-ACK sub-codebook in response to the second HARQ-ACK sub-codebook determined not to be generated, or includes the first HARQ-ACK sub-codebook and the second HARQ-ACK sub-codebook in response to the second HARQ-ACK sub-codebook determined to be generated. The present application avoids misunderstanding between a base unit and a remote unit when generating the HARQ-ACK feedback for CA. |
| US11546090B2 |
Hybrid automatic repeat request process
A wireless device receives a first downlink control information (DCI) comprising a first hybrid automatic request (HARQ) process identifier and a first new data indicator (NDI). A second DCI is received with the first HARQ process identifier and a second NDI. The second NDI is considered as toggled regardless of a value of the second NDI in response to the first DCI indicating postponing a HARQ acknowledgement transmission for a HARQ process identified by the first HARQ process identifier. The wireless device flushes a HARQ buffer associated with the HARQ process based on the second NDI being toggled. |
| US11546088B2 |
Check code processing method, electronic device and storage medium
Disclosed in embodiments of this disclosure are a check code processing method, an electronic device and a storage medium. The check code processing method comprising: performing operations on m bits of the nth byte of a code block to obtain the nth bit of a first sequence; and performing operation on the first sequence of the code block with a same transmission period to obtain a check code. |
| US11546083B2 |
Method, system and apparatus for time and frequency synchronization for high speed moving platforms
According to an aspect, a method in a wireless communication receiver comprises receiving a radio frequency (RF) signal, delaying the RF signal with a set of time delays, shifting the RF signal with a set of offset frequencies, compressing in time the RF signal with a set of compression factors, correlating the RF signal after subjecting to said delaying, shifting and compressing in time with a reference signal, and selecting a first delay, first offset frequency, and first compression ratio that corresponds to a peak resulting from said correlating, wherein the said first delay, first offset frequency, and first compression ration representing the difference between the RF signal and the reference signal. |
| US11546081B2 |
Method and apparatus for configuring uplink time-frequency resource set, and method and apparatus for receiving uplink time-frequency resource set
A method and an apparatus for configuring an uplink time-frequency resource set, and a method and an apparatus for receiving an uplink time-frequency resource set. The configuration method includes: configuring at least one uplink time-frequency resource set for a user configured with an uplink transmission multiplexing mode, wherein the uplink time-frequency resource set includes time-frequency resource units on which the user performs rate matching; and transmitting one or more indication groups to the user to indicate at least one of the uplink time-frequency resource sets, wherein each uplink time-frequency resource set is indicated by at least one of the indication groups. |
| US11546079B2 |
Protection of channel connections in an optical network
An optical end terminal in which protection switching is implemented by using (i) the optical data receiver thereof for detecting a path failure and (ii) the optical data transmitter thereof for signaling the detected path failure to the protection-switching circuit. In an example embodiment, the optical data receiver is configured to detect a path failure based on the presence of certain data-recovery errors. The optical data transmitter is operatively connected to the optical data receiver and configured to generate an in-band dither tone of a predetermined frequency in response to such failure detection. The protection-switching circuit is configured to (i) detect dither tones in the optical signals passing therethrough and (ii) connect the optical data receiver to the protection path instead of the working path in response to detecting the dither tone of the predetermined frequency. |
| US11546077B2 |
Scalable, ultra-low-latency photonic tensor processor
Deep neural networks (DNNs) have become very popular in many areas, especially classification and prediction. However, as the number of neurons in the DNN increases to solve more complex problems, the DNN becomes limited by the latency and power consumption of existing hardware. A scalable, ultra-low latency photonic tensor processor can compute DNN layer outputs in a single shot. The processor includes free-space optics that perform passive optical copying and distribution of an input vector and integrated optoelectronics that implement passive weighting and the nonlinearity. An example of this processor classified the MNIST handwritten digit dataset (with an accuracy of 94%, which is close to the 96% ground truth accuracy). The processor can be scaled to perform near-exascale computing before hitting its fundamental throughput limit, which is set by the maximum optical bandwidth before significant loss of classification accuracy (determined experimentally). |
| US11546075B2 |
Method and device for pilot sequence transmission
Methods, systems, and devices are disclosed for digital wireless communication, and more specifically, for the use of pilot sequences that improves performance of channel estimation. In one exemplary aspect, a method of wireless communication performed by a communication node is disclosed. The method includes determining, using a first index, a mask sequence from a plurality of pre-determined mask sequences, wherein the plurality of pre-determined mask sequences is determined based on permutations of values 1, −1, i, and −i or permutations of values 1+i, or 1−i, or −1+i, or −1−i; determining a Walsh sequence using a second index, wherein the Wash sequence has a same length as the mask sequence; generating a pilot sequence by combining the mask sequence and the Walsh sequence; and performing a wireless transmission using the pilot sequence. |
| US11546072B2 |
Systems and methods to improve holdover performance in R-PHY network architectures
Systems and methods for retaining synchronization between a CMTS core and an RPD when the RPD loses synchronization to a timing grandmaster, where both the core and the RPD are configured for individual synchronization in a slave configuration to the timing grandmaster, by operating the core as a boundary clock that sends timing information to the RPD. |
| US11546071B2 |
Modifying playback of content using pre-processed profile information
Example methods and systems for modifying the playback of content using pre-processed profile information are described. Example instructions, when executed, cause at least one processor to access a media stream that includes media and a profile of equalization parameters, the media stream provided to a device via a network, the profile of equalization parameters included in the media stream selected based on a comparison of a reference fingerprint to a query fingerprint generated based on the media, the profile of equalization parameters including an equalization parameter for the media; and modify playback of the media based on the equalization parameter specified in the accessed profile. |
| US11546069B2 |
Doubly selective channel emulator, stationary or non-stationary in time, with non-separable scattering function
The present development details a method and apparatus for performing channel emulation of doubly selective scenarios, where the simulation and emulation duration is arbitrarily long for a stationary or non-stationary channel, with non-separable dispersion which is achieved by combining the techniques of channel orthogonalization, decomposition of the correlation tensor in the Doppler domain into frequency-dependent correlation matrices, followed by a matrix factorization of each of the mentioned matrices and, finally, the use of the windowing method to generate arbitrarily long achievements which thereby allows the concatenation of channel realizations coming from the same or different NSSF, thus achieving reproduction of stationary or non-stationary channels, respectively. |
| US11546064B2 |
Optical transmission system and transmission mode selecting method
An optical transmission system including an optical transmission device and an optical reception device that receives, via an optical transmission line, a signal transmitted from the optical transmission device, the optical transmission system including a transmission-mode selection unit that selects transmission mode information in descending order of priority out of transmission mode information, which is combinations of a plurality of parameters concerning transmission performance, the transmission mode information being a plurality of kinds of the transmission mode information common to the transmission performance of the optical transmission device and the optical reception device, a signal transmission unit that transmits, to the optical reception device, a signal modulated based on the selected transmission mode information, and a signal reception unit that receives the signal and modulates the received signal based on the transmission mode information selected by the transmission-mode selection unit. |
| US11546060B2 |
Submarine optical transmission apparatus and submarine optical communication system
An object to provide a submarine optical transmission apparatus capable of efficiently housing optical components and electric components. First component housing units can house either or both of an optical component and an electric component and are stacked in a Z-direction. A case can house the first component housing units and a longitudinal direction thereof is an X-direction. A heat dissipating member is disposed in the case and conducts heat generated in the first component housing units to the case. |
| US11546055B2 |
Optical transceiver loopback eye scans
An optical transceiver can be calibrated using an internal receiver side eye scan generator, and calibration values (e.g., modulator values) can be stored in memory for recalibration of the optical transceiver. The eye scan generator can receive data from the transmitter portion via an integrated and reconfigurable loopback path. At a later time, different calibration values can be accessed in memory and used to recalibrate the optical transceiver or update the calibrated values using the receive-side eye scan generator operating in loopback mode. |
| US11546054B2 |
Utilizing leftover return channel bandwidth in a satellite system
An apparatus and method for using a bandwidth (BW) allocation in a Time Division Multiple Access (TDMA) network. The method includes filling a buffer having a buffer length with a demand-inducing stream data until either the demand-inducing stream data is exhausted or the buffer length equals the BW allocation, determining a leftover BW as the BW allocation minus the buffer length after the filling, composing a leftover buffer when demand-deferring stream data is present, where the leftover buffer includes a transmission header (TH) and a transmission data (TD) includes a portion of a demand-deferring stream data, and transmitting the buffer and the leftover buffer in a time slot associated with the BW allocation. In the method, a length of the TH plus a length of the TD is less than or equal to the leftover BW. |
| US11546051B2 |
Timing synchronization for non-terrestrial cellular wireless communication networks
The invention provides a method and an architecture for deploying non-terrestrial cellular network base stations, so as to enable cellular network coverage in remote areas, where no fixed infrastructure is available. The proposed methods allow for efficient power management at the terminal devices that need to synchronize to the airborne or spaceborne cellular base stations. This is particularly important for IoT devices, which have inherently limited power are computing resources. |
| US11546049B1 |
System to manage satellite communications
Satellites provide communication between devices such as user terminals (UTs) and ground stations that are in turn connected to points-of-presence (PoP) that connect to other networks, such as the Internet. Many factors affect latency for data passing between the PoP and the UT. The PoP accepts downstream data addressed to the UT and determines a target delivery window (TDW) indicating a window of time within which the downstream data is expected to be delivered. Communication resources are allocated to the downstream data based on the TDW. At subsequent points, such as at the ground station, the TDW is assessed to determine whether to continue sending the downstream data or to use a different communication resource. For example, a first ground station will forward the downstream data to a second ground station if the uplink will not be able to deliver the downstream data before expiration of the TDW. |
| US11546045B2 |
Radio link failure declaration for full-duplex
Wireless communication systems and methods related radio link failure monitoring and handling in full-duplex communications are provided. A user equipment communicates, with a base station, in a full-duplex mode using a first uplink beam and a first downlink beam. The user equipment detects a beam failure of at least one of the first uplink beam or the first downlink beam. The user equipment determines whether the beam failure is associated with self-interference in the full-duplex mode. The user equipment determines, based at least in part on the determination that the beam failure is associated with the self-interference in the full-duplex mode, to refrain from declaring a radio link failure. |
| US11546044B2 |
Wireless communication method, terminal device and network device
Embodiments of the present disclosure provide a wireless communication method, a terminal device, and a network device. The method is applied to a CA scenario, and there are at least one primary cell and at least one secondary cell for serving a terminal device. The method comprises: determining, by the terminal device, whether there is a candidate beam that satisfies a first condition among at least one candidate beam when a beam failure occurs in a first secondary cell, wherein the first condition is that at least one of RSRP, RSRQ, and SINR of a signal is greater than a first threshold, and the first secondary cell belongs to the at least one secondary cell; and determining, by the terminal device, whether to perform beam failure recovery for the first secondary cell according to a determination result. |
| US11546043B2 |
Quasi co-location reset for a user equipment supporting a single active transmission configuration indication state
Methods, systems, and devices for wireless communications are described. A user equipment (UE) with the capability to support a single active TCI state may receive configuration signaling which configures the UE with an active transmission configuration indication (TCI) state corresponding to a first beam for a control resource set and a shared data channel. The UE may perform a random access channel procedure to select a second beam from a set of different beams. The UE may update a quasi co-location (QCL) assumption for the control resource set to correspond to the second beam and deactivate the active TCI state based on updating the QCL assumption. The UE may then monitor the control resource set, the shared data channel, or both, using the second beam. The UE may deactivate the TCI state and use the indicated downlink beam so that the UE does not exceed its capability. |
| US11546038B2 |
Beam sweeping patterns for single frequency network broadcast channel
Methods, systems, and devices for wireless communications are described. The method includes a method for wireless communications at a base station. The method includes transmitting a message to a number of user equipments (UEs) over a single frequency network channel using a first beam sweep pattern. The method also includes identifying a second beam sweep pattern from a plurality of beam sweep patterns that is different from the first beam sweep pattern for retransmissions of the message. The method further includes transmitting a retransmission of the message to the plurality of UEs over the single frequency network channel using the second beam sweep pattern. |
| US11546029B2 |
Hybrid channel state feedback
Methods, systems, and devices for wireless communications are described. Techniques described herein provide for a user equipment (UE) receiving a set of downlink reference signals associated with a downlink channel. In some cases, the set of downlink reference signals may include a channel state information reference signals (CSI-RS). The UE may calculate a transmission rank and a channel quality based on the received set of downlink reference signals. In some cases, the indication of the transmission rank may include a rank indication (RI), and the indication of the channel quality includes a channel quality indicator (CQI). The UE may then transmit the indications of the transmission rank and the channel quality using an uplink control channel, and may transmit an indication of a remaining channel state feedback using a precoded uplink reference signal. |
| US11546028B2 |
Codebook for full-dimension multiple input multiple output communications
Various embodiments include an apparatus to be employed by an enhanced Node B (eNB), the apparatus comprising communication circuitry to receive, from a user equipment (UE), feedback information and control circuitry, coupled with the communication circuitry, to identify a codeword from a three-dimensional codebook based on the feedback information received from the UE, wherein the communication circuitry is further to precede data to be transmitted to the UE based on the codeword. An apparatus to be employed by a UE and additional methods are described. |
| US11546025B2 |
Precoders for multi-panel uplink transmission
Certain aspects of the present disclosure provide techniques for precoding for multi-panel uplink transmission. For codebook-based uplink transmission, a user equipment (UE) can determine one or more preferred or selected precoders for uplink transmission. The precoders can be from an expanded UE codebook that maps a first number of transmit layers at the UE to a second number of antenna ports at the UE, the layers and/or antenna ports associated with multiple uplink transmit panels at the UE. The UE sends an indication to a base station (BS) of the determined precoders and/or sends an uplink transmission using the determined precoders. For non-codebook based uplink transmission the UE receives first and second reference signals (RSs), from first and second ports of a BS, with first and second UE antenna panels. The UE computes precoders to use for uplink transmission based on the RSs. |
| US11546024B2 |
System and method for dynamic single-radio and dual-radio mode selection for DL MU-MIMO
Systems and methods are provided for optimizing channel bandwidth while increasing downlink multi-user, multiple-input, multiple-output (DL MU-MIMO) gain. Depending on the access point (AP) platform, for example, APs exhibit certain characteristics regarding DL MU-MIMO gain as a function of the number of DL MU-MIMO clients associated to the AP. Accordingly, APs can be configured to operate in accordance with an algorithm that checks the number of DL MU-MIMO capable clients are associated to an AP, and dynamically switch between single- and dual-radio modes of operation to take advantage of those DL MU-MIMO gains. |
| US11546020B2 |
Communication method, communications apparatus, network device, and terminal
This application discloses a communication method, a communications apparatus, a network device, and a terminal. Quasi co-location QCL beam information is determined. The QCL beam information includes beam information that has a QCL relationship with a reference signal antenna port. The QCL beam information is sent. A terminal receives the QCL beam information. The QCL beam information includes the beam information that has the QCL relationship with the reference signal antenna port. The terminal determines, based on the beam information that is included in the QCL beam information and that has the QCL relationship with the reference signal antenna port, a beam that has the QCL relationship with the reference signal antenna port. |
| US11546017B2 |
System and method of power line communication
Disclosed is a system and method for power line control of devices. The system operates in two modes. In mode one, the system operates on an open loop architecture with a controller generating a sinusoidal wave using a crystal oscillator. Control information is added to the sinusoidal wave by alternating the output of two phase shifted waves which have the same frequency and amplitude to form a control signal. The resulting control signal is sent on a power line. The control signal is received using a crystal filter, decoded and converted to executable instructions for the devices and data parameters for sensors. In mode two, the system operates on a hybrid open loop/closed loop architecture where devices are jointly controlled by the controller and the sensors. |
| US11546011B1 |
RF device with biasing circuit for PIN diode and related methods
An RF device may include RF circuitry having a PIN diode configured to switch an RF signal, and a biasing circuit. The biasing circuit may include a controllable power supply having a control input and an current output coupled to the PIN diode to selectively bias the PIN diode into an ON state, and a feedback circuit coupled between the current output and the control input of the controllable power supply to set a current delivered to the PIN diode in the ON state. |
| US11546006B2 |
Mitigation of intermodulation distortion
A method of a wireless transmitter is disclosed. The method is for mitigation of distortion caused by non-linear hardware components of the transmitter, wherein mitigation of distortion comprises mitigating at least one intermodulation component, wherein the transmitter is configured to process an input signal having an input signal spectrum, and wherein the transmitter comprises two or more signal branches, each signal branch comprising a respective non-linear hardware component. The method comprises modifying the input signal for a first one of the signal branches by applying a first phase shift to a first part of the input signal spectrum, wherein the first phase shift has a first sign and a first absolute value, and applying a second phase shift to a second part of the input signal spectrum. The second phase shift has a second sign which is opposite to the first sign, and a second absolute value which is equal to the first absolute value. The first and second parts are non-overlapping. The method also comprises modifying the input signal for a second one of the signal branches by applying the first phase shift to the second part of the input signal spectrum, and applying the second phase shift to the first part of the input signal spectrum. The method further comprises feeding the modified input signals to respective ones of the signal branches. Corresponding apparatus, wireless transmitter, communication device, and computer program product are also disclosed. |
| US11546003B2 |
Radio frequency module and communication device
A radio frequency module includes: a module substrate including a first principal surface and a second principal surface opposite to each other; a plurality of external-connection terminals (e.g., a plurality of post electrodes) disposed on the second principal surface; a semiconductor component disposed on the second principal surface and including a first low-noise amplifier and/or a second low-noise amplifier; and a metal member set at a ground potential and covering at least part of a surface of the semiconductor component, the surface being opposite to a surface that faces the module substrate. |
| US11546002B2 |
Transmitter, receiver and transceiver
A transmitter, a receiver and a transceiver are provided. The transceiver includes a hybrid transceiving circuit and a common-mode voltage control circuit. The hybrid transceiving circuit includes a digital-to-analog converter (DAC) circuit, a line driver coupled to the DAC circuit, a filtering and/or amplifying circuit coupled to the line driver, and an analog-to-digital converter (ADC) circuit coupled to the filtering and/or amplifying circuit. The common-mode voltage control circuit is electrically connected to a node of the hybrid transceiving circuit and is configured to detect a common-mode voltage of the node and to adjust the common-mode voltage of the node. |
| US11545998B2 |
Offset value determination in a check node processing unit for message-passing decoding of non-binary codes
Embodiments of the invention provide an elementary check node processing unit (300) implemented in a check node processing unit of a non-binary error correcting code decoder, the elementary check node processing unit (300) being linked to a variable node processing unit (305) and being configured to receive a first message and a second message, each message comprising at least two components. The elementary check node processing unit (300) comprises a calculation unit (301) which determines two or more auxiliary components from the components comprised in the first message and from the components comprised in the second message, an auxiliary component comprising an auxiliary reliability metrics. The calculation unit (301) also determines, in association with each of the two or more auxiliary components, decoding performance values. The elementary check node processing unit (300) also comprises a selection unit (303) which selects, among the two or more auxiliary components, the auxiliary component that is associated with the optimal decoding performance values and determines an offset value from the auxiliary reliability metrics comprised in the selected auxiliary component. The elementary check node processing unit (300) then transmits the offset value and a selected set of auxiliary components among the two or more auxiliary components to the variable node processing unit (305). |
| US11545997B2 |
Device and method for processing a binary-coded structure document
A binary-coded structure document, (e.g., in an EXI format which is based on a structure document designed in a text-based description language, such as XML), is provided with a binary-coded index document, which is based on a structural part of the structure document. A storage representation of the binary-coded index document is stored in a working storage unit of the device, and the binary-coded structure document is stored in a background storage unit assigned to the device. A processing operation or a request by at least one processing process is carried out by accessing the storage representation of the binary-coded index document via an object interface, and in certain examples, fragments of the binary-coded structure document are loaded into the working storage unit by the object interface. By carrying out processing operations on the binary-coded index document, faster request operations are facilitated in that specific requests may already be processed using the index document BCI without the involvement of the binary-coded structure document. |
| US11545995B1 |
Methods, devices, and systems for demodulation
Disclosed herein are devices, systems, and methods for improved demodulation. In one embodiment, a demodulator includes an input port configured to receive an analog input signal having a first frequency spectrum, a delta-sigma modulator electrically coupled with the input port, a digital downconverter electrically coupled with the delta-sigma modulator, and a filter electrically coupled with the digital downconverter. The filter is configured for a passband having a second frequency spectrum. The demodulator also includes an output port electrically coupled with the filter. The output port is configured to provide an output signal having the second frequency spectrum. |
| US11545990B2 |
Duty-cycled analog-to-digital converter system with programmable foreground calibration
An analog-to-digital conversion (ADC) system is operated with a duty cycle. During the ON period, the ADC circuits perform analog-to-digital conversions of an analog input signal. During the Standby period, the ADC system is in either a standby state or a foreground calibration state. The ADC system operates in a reduced-power mode in the standby state. In the foreground calibration state, the ADC system performs a portion of a foreground calibration cycle during a calibration time slot. The foreground calibration cycle is performed over multiple calibration time slots. The foreground calibration cycle and the calibration time slots are configurable by changing the values of control registers that represent calibration parameters. |
| US11545989B2 |
Time-interleaved analog-to-digital converter
An ADC includes a plurality of sub ADCs configured to operate in a time-interleaved manner and a sampling circuit configured to receive an analog input signal of the ADC, wherein the sampling circuit is common to all sub ADCs. The ADC includes a test signal generation circuit configured to generate a test signal for calibration of the ADC. The sampling circuit has a first input configured to receive the analog input signal and a second input configured to receive the test signal. The sampling circuit includes an amplifier circuit and a first feedback switch connected between an output of the amplifier circuit and an input of the amplifier circuit. The first feedback switch is configured to be closed during a first clock phase and open during a second clock phase, which is non-overlapping with the first clock phase. |
| US11545984B2 |
Charge pump with wide current range
A charge pump has a first branch that includes a first node connected between a first pull-up switch and a first pull-down switch and a second branch that includes a second node connected between a second pull-up switch and a second pull-down switch. The second branch is connected in parallel with the first branch. The charge pump has a voltage equalization circuit to equalize a first voltage at the first node and a second voltage at the second node. A third branch includes a third node that is connected between a third pull-up switch and a third pull-down switch. The third node is connected to the second node. The third pull-up switch and the first pull-up switch are controlled by a common pull-up signal. The third pull-down switch and the first pull-down switch are controlled by a common pull-down signal. |
| US11545982B2 |
Type-I PLLs for phase-controlled applications
A type I phase locked loop (PLL) includes an oscillator and a feedback path to a phase detector. The PLL is configured to lock a first frequency and first relative phase of a first output signal to a frequency and a phase of a first input signal, and lock a second frequency and second relative phase of a second output signal to a frequency and a phase of a second input signal. A steady state phase lag of the PLL resulting from the difference between the first frequency and the second frequency is estimated, and the estimated steady state phase lag is used to determine a total phase shift (ΔΦLO,steady) between the second input signal and the second output signal. The PLL for the phase shift can be compensated. The determined total phase shift can be used in a distance estimation. |
| US11545981B1 |
DLL-based clocking architecture with programmable delay at phase detector inputs
A delay-locked loop (DLL) and corresponding method improve frequency of a chip. The DLL comprises a first programmable delay element configured to output a first clock, a second programmable delay element configured to output a second clock a phase detector. The phase detector includes a first clock input and a second clock input. The first and second programmable delay elements are further configured, in combination, to introduce a controllable skew between the first and second clocks. The DLL is configured to input the first and second clocks to the first and second clock inputs of the phase detector, respectively. The controllable skew is configured to improve the frequency of the chip. |
| US11545978B2 |
Control device
Main wiring including a plurality of differential transmission lines for transmitting differential signals is formed on a motherboard. Termination resistors, provided at both ends of each of the plurality of differential transmission lines, connect the plurality of differential transmission lines to each other. A plurality of daughter boards are connected in parallel to each other via the main wiring. A line characteristic impedance of each differential transmission line is higher than a termination resistance value, which is a resistance value of the termination resistor. |
| US11545972B2 |
Overcurrent protection circuit for switching element turned on and off based on control voltage
An overcurrent protection circuit is provided for a switching element turned on/off based on a control voltage. The overcurrent protection circuit includes a first transistor and a second transistor. The first transistor is a PNP bipolar transistor and has an emitter connected to the control voltage. The second transistor is an NPN bipolar transistor and has a base connected to a collector of the first transistor, a collector connected to a base of the first transistor and pulled up to a predetermined pull-up voltage, and a grounded emitter. When the control voltage exceeds a predetermined first threshold voltage, the first and second transistors are turned on, the control voltage is dropped by drop of the pull-up voltage, and thus the overcurrent protection circuit starts a protection operation of turning off the switching element. |
| US11545969B1 |
Gate-to-source monitoring of power switches during runtime
A driver circuit may be configured to control a power switch. The driver circuit may comprise an output pin configured to deliver signals to a gate of the power switch to control an ON/OFF state of the power switch, and a comparator configured to compare a gate-to-source voltage of the power switch to a first threshold when the power switch is ON and to compare the gate-to-source voltage of the power switch to a second threshold when the power switch is OFF. |
| US11545968B1 |
Active suppression circuitry
Various embodiments provide for active suppression circuitry. The active suppression circuitry can be used with a circuit for a memory system, such as a dual data rate (DDR) memory system. For example, some embodiments provide an active suppression integrated circuit. The active suppression integrated circuit can be used by a memory system to efficiently suppress power supply noise caused by resonance of a power delivery network (PDN) of the memory system, thereby improving power integrity of the memory system input/output. |
| US11545967B1 |
Power supply with startup circuit for low power devices
An integrated circuit (IC) includes an input/output (I/O) circuitry with a first circuitry section including I/O pins and a second circuitry section including I/O pins. The first and second circuitry sections are mutually exclusive sections of the I/O ring. The first circuitry section includes a first I/O pin configured to receive an input voltage from a first energy source and a second I/O pin connectable to an external startup capacitor. A startup circuit is coupled to the first I/O pin and the second I/O pin. Upon receiving the input voltage from the first energy source, the startup circuit enters a during the startup phase and isolates the first circuitry section from the second circuitry section, and provides charge to the external startup capacitor. In response to achieving a predetermined minimum charge on the external startup capacitor, the first circuitry section is connected to the second circuitry section, and the startup phase ends and the IC transitions to a functional mode of operation. |
| US11545966B2 |
Injection locking oscillator circuit and operating method
An injection locking oscillator (ILO) circuit includes; an injection circuit that receives input signals having a phase difference and provides injection signals respectively corresponding to the input signals based on a voltage level difference between each input signal and an oscillation signal at an output terminal, and a poly-phase signal output circuit that provides poly-phased signals having a phase difference between signals fixed to a defined phase difference upon receiving the injection signals from the input terminals. |
| US11545964B2 |
High speed flipflop circuit
High-speed flipflop circuits are disclosed. The flipflop circuit may latch a data input signal or a scan input signal using a first signal, a second signal, a third signal, and a fourth signal generated inside the flipflop circuit, and may output an output signal and an inverted output signal. The flipflop circuit includes a first signal generation circuit configured to generate the first signal; a second signal generation circuit configured to generate the second signal; a third signal generation circuit configured to receive the second signal and generate the third signal; and an output circuit configured to receive the clock signal and the second signal, and output an output signal and an inverted output signal. |
| US11545962B2 |
Phase shifting device, driving method thereof and antenna
The present disclosure provides a phase shifting device, a driving method thereof, and an antenna. The phase shifting device of the present disclosure includes: data lines, scan lines and phase shifting units. Each phase shifting unit includes: a switch sub-circuit and a phase shifter. Control terminals of the switch sub-circuits in a same row are coupled to a same scan line, first terminals of the switch sub-circuits in a same column are coupled to a same data line, and a second terminal of each switch sub-circuit is coupled to a phase shifter included in the phase shifting unit to which the switch sub-circuit belongs. Each switch sub-circuit is configured to transmit, in response to a switch control signal provided by the scan line, a data voltage signal provided by the data line to the phase shifter to drive the phase shifter. |
| US11545959B1 |
Resonator electrode shields
A microelectromechanical system (MEMS) resonator includes a resonant semiconductor structure, drive electrode, sense electrode and electrically conductive shielding structure. The first drive electrode generates a time-varying electrostatic force that causes the resonant semiconductor structure to resonate mechanically, and the first sense electrode generates a timing signal in response to the mechanical resonance of the resonant semiconductor structure. The electrically conductive shielding structure is disposed between the first drive electrode and the first sense electrode to shield the first sense electrode from electric field lines emanating from the first drive electrode. |
| US11545947B2 |
Amplifier having envelope control
In some embodiments, an amplifier system can include an amplifier circuit having first and second amplifiers configured to amplify respective first and second portions of an input signal. Each of the first and second amplifiers can include a cascode stage with input and output transistors arranged in a cascode configuration. The amplifier system can further include an envelope tracking bias circuit coupled to the amplifier circuit and configured to provide a bias signal to the output transistor of the cascode stage of at least one of the first and second amplifiers. The amplifier system can further include a supply circuit configured to provide a non-envelope tracking supply voltage to the output transistor of the cascode stage of the at least one of the first and second amplifiers. |
| US11545946B2 |
Amplifier with built in time gain compensation for ultrasound applications
An ultrasound circuit comprising a trans-impedance amplifier (TIA) with built-in time gain compensation functionality is described. The TIA is coupled to an ultrasonic transducer to amplify an electrical signal generated by the ultrasonic transducer in response to receiving an ultrasound signal. The TIA is, in some cases, followed by further analog and digital processing circuitry. |
| US11545945B2 |
Apparatus and method for calibrating an envelope tracking lookup table
An apparatus and method for calibrating an envelope tracking (ET) lookup table (LUT) are provided. An ET power management apparatus includes a power amplifier configured to amplify a radio frequency (RF) signal from a time-variant input power to a time-variant output power linearly related to the time-variant input power. A calibration circuit is employed to receive a time-variant output power feedback nonlinearly related to the time-variant input power, determine a linear relationship between the time-variant input power and the time-variant output power based on the time-variant output power feedback, and calibrate the ET LUT based on the determined linear relationship. As a result, it is possible to improve accuracy of the ET LUT to thereby improve operating efficiency and linearity of the power amplifier. |
| US11545942B2 |
Push-pull class E amplifier
Example embodiments relate to push-pull class E amplifiers. One example push-pull class E amplifier includes an input configured for receiving a signal to be amplified. The push-pull class E amplifier also includes an output configured for outputting the signal after amplification. Additionally, the push-pull class E amplifier includes a printed circuit board having a first dielectric layer and a second dielectric layer. Further, the push-pull class E amplifier includes a first amplifying unit and a second amplifying unit. Yet further, the push-pull class E amplifier includes a balun, a capacitive unit, a first line segment, a second line segment, a third line segment, and a fourth line segment. The first line segment and the second line segment are arranged on the first dielectric layer. A combined length of the third line segment and the fourth line segment corresponds to a quarter wavelength of an operational frequency of the amplifier. |
| US11545941B2 |
Electronic system of active power control for automotive audio amplifiers
A power control system for audio power amplifiers, especially in the automotive segment, dynamically controlling the output voltage through the reading of the input and output currents, and other parameters, automatically adjusting the amplifier to the load and to the operation conditions, allowing that the amplifier always operates within the safe operation range. |
| US11545938B2 |
Power amplification system with adjustable common base bias
Power amplification system with adjustable common base bias. A power amplification system can include a cascode amplifier coupled to a radio-frequency input signal and coupled to a radio-frequency output. The power amplification system can further include a biasing component configured to apply one or more biasing signals to the cascode amplifier, the biasing component including a bias controller and one or more bias components. Each respective bias component may be coupled to a respective bias transistor. |
| US11545936B2 |
Amplifier biasing techniques
Techniques for biasing output transistor of a push-pull amplifier output stage are provided. In certain applications the techniques can improve efficiency of the amplifier. In an example, a circuit can include an output stage including first and second output transistors, a first scaled replica transistor corresponding to the first output transistor, and an amplifier circuit in a feedback arrangement for biasing a gate of the first output transistor at a level that, at a specified stand-by current level of the first output transistor, reproduces a voltage difference between the drain and source terminals of the first output transistor across the drain and source terminals of the first replica transistor. |
| US11545933B2 |
Real-time correction method for oven controlled crystal oscillator and electromagnetic receiver
The present disclosure provides a real-time correction method for an Oven Controlled Crystal (Xtal) Oscillator (OCXO) and an electromagnetic receiver. The real-time correction method for an OCXO includes: performing frequency multiplication on a reference clock signal to generate a first measurement signal and a second measurement signal; identifying a rising edge of each pulse per second on the basis of the first measurement signal to obtain a gate time T; obtaining a frequency of the second measurement signal according to the gate time T; and adjusting a frequency of the reference clock signal at least on the basis that an absolute value of a difference between two adjacent frequencies obtained of the second measurement signal is greater than a standard frequency difference. |
| US11545932B2 |
Photovoltaic and thermal solar panel
The invention relates to a hybrid solar panel comprising: a photovoltaic module; a heat exchanger arranged opposite in the rear surface of said photovoltaic module; a cooling fluid circulating in said exchanger; the heat exchanger including a heat exchange area; inner channels extending over the entire surface of the exchange area; the heat exchange area is made up of a double cellular plate with cells provided in the form of adjacent inner channels in fluid communication with the intake and discharge areas, characterised in that: the side ends are sealed; the plate comprises openings made in the lower wall in order to establish fluid communication between each channel and the intake and discharge areas, respectively; and the intake and discharge areas are provided in the form of collectors placed on the lower wall at the openings, so that said upper wall remains planar over the entire surface thereof. |
| US11545931B2 |
Optimizing hybrid inverter system
The present invention relates to resiliency in photovoltaically produced power generation and utilization. This invention comprises a system of elements that combine to minimize the cost and complexity of a backup-capable solar power system. An element of this system is a prior-art balancer-based photovoltaic panel power optimizer whose power electronics are time-shared to allow an array of battery modules to power or provide supplemental or surge power to an inverter. Further elements of the system provide for rapid and low-cost installation, reliability, and easy and safe maintenance. |
| US11545930B2 |
Photovoltaic frame, photovoltaic module and method for manufacturing photovoltaic frame
Disclosed are a photovoltaic frame and a photovoltaic module. The photovoltaic frame includes a top support portion, a bottom support portion, a transverse edge portion, a first side edge portion and a second side edge portion. The top support portion, the transverse edge portion and the second side edge portion enclose a holding slot. The photovoltaic frame further includes a first weather-resistant protective layer configured to cover a part of outer surfaces of the top support portion, the bottom support portion, the first side edge portion, the second side edge portion and the transverse edge portion, and a second weather-resistant protective layer configured to cover at least part of the outer surfaces that are not covered by the first weather-resistant protective layer. A thickness of the second weather-resistant protective layer is less than a thickness of the first weather-resistant protective layer. |
| US11545926B1 |
Power generator system with modular blades
Power generation systems comprising modular blades and a secondary power source, and methods of manufacturing the same employing additive manufacturing. Various features of the system are described, including a rotor, spoke and support base. A slip gear assembly is described to coordinate the wiring of the secondary power sources. |
| US11545925B2 |
Rotary electric machine control device and electric power steering device using same
A rotary electric machine control device for controlling a rotary electric machine having multiple winding sets includes multiple inverter circuits, multiple power supply relays, and multiple controllers provided for respective systems. Each of the controllers is configured to monitor an abnormality of a subject system and an abnormality of a different system and is configured to turn off a power supply relay in the subject system when an abnormality requiring a power supply stop occurs in the subject system. Each of the controllers is further configured to acquire power supply relay information related to a state of the power supply relay of the different system through a signal line, and is configured to monitor the abnormality of the different system based on the power supply relay information. |
| US11545923B2 |
Motor driving apparatus and method
A motor driving apparatus may include a first inverter circuit including a plurality of first switching devices and connected to a first end portion of each of a plurality of windings in a motor corresponding to a plurality of phases of the motor, respectively, a second inverter circuit including a plurality of second switching devices and connected to a second end portion of each of the plurality of windings, and a plurality of selection switching devices having first end portions connected to a node to which the plurality of windings and the plurality of second switching devices are connected and second end portions connected to each other. |
| US11545916B2 |
Vibration-type actuator including member that restrains movement of vibrating body with respect to supporting member, and apparatus that uses the same
A vibration-type actuator, which achieves high accuracy and durability, includes a vibrating body, a contact body, a supporting member, and at least one positioning and holding member. The vibrating body includes an elastic body with grooves and projecting portions alternately formed in a direction of relative movement of the vibrating body and the contact body, and further includes an electromechanical transducer mounted on the elastic body. The at least one positioning and holding member restrains movement of the vibrating body with respect to the supporting member in the relative movement direction, and includes an interposing portion interposed between a plurality of the projecting portions and a mounting portion mounted on the supporting member. The supporting member includes a receiving portion onto which the mounting portion is mounted with a clearance formed between the mounting portion and the receiving portion in the relative movement direction. |
| US11545914B2 |
Triboelectric generating device and manufacturing method thereof
Disclosed are a triboelectric power generating device and a manufacturing method thereof, which does not require a physical space to generate friction motions unlike conventional pressured induced electric power generating devices, maximizes a surface area by the junction friction portion of a friction material composite that is inexpensive and easy to mass-produce, thereby improving the durability of a generating device, and effectively producing electricity. The triboelectric power generating device includes a triboelectric generation layer (300) including a friction portion having a junction structure which is located at a central portion and made of two or more different polymers, a first electrode (100) which is located to face one surface of the triboelectric generation layer (300), and a second electrode (200) which is located to face the other surface of the triboelectric generation layer (300). |
| US11545913B2 |
Hopf oscillator based device comprising inverters
The present disclosure relates to a device, comprising a first inverter, wherein the first inverter is configured to invert a DC input voltage into an AC output voltage, a first controller, wherein the first controller is configured to provide a reference voltage for the first inverter on the basis of an AC output current of the first inverter, a second inverter, wherein the second inverter is configured to invert a DC input voltage into an AC output voltage, a second controller, wherein the second controller is configured to provide a reference voltage for the second inverter on the basis of an AC output current of the second inverter, wherein the first inverter and the first controller form a first Hopf oscillator, wherein the second inverter and second controller form a second Hopf oscillator, and wherein the first Hopf oscillator is coupled to the second Hopf oscillator. |
| US11545911B2 |
Inverter power supply
Provided is an inverter power supply including a measurement function of measuring deterioration of a rectifier element such as a diode.The inverter power supply includes a step-down stabilization unit that applies a reverse voltage increasing gradually to diodes, an isolation amplifier that detects a current value of a current flowing to the diodes when the reverse voltage is applied, and an inverter control unit that decides that the diodes have deteriorated when the detected current value is larger than a determination current value for determining deterioration of the diodes, and decides that the diodes have not deteriorated when the detected current value is smaller than the determination current value. |
| US11545909B2 |
Flyback power converter and active clamp snubber thereof
A flyback power converter includes: a power transformer, a primary side control circuit, a secondary side control circuit, and an active clamp snubber including a snubber switch and a control signal generation circuit. The control signal generation circuit controls the snubber switch to be conductive during a soft switching period in an OFF period of a primary side switch within a switching period of the switching signal, whereby the primary side switch achieves soft switching. A starting time point of the soft switching period is determined by a current threshold, so that a secondary side current is not lower than the current threshold at the starting time point, whereby the secondary side control circuit keeps the SR switch conductive at the starting time point. The secondary side control circuit turns OFF the SR switch when the secondary side current is lower than the current threshold. |
| US11545908B2 |
Flyback power converter and conversion controller circuit
A flyback power converter circuit includes a transformer, a blocking switch, a primary side switch, a primary side controller circuit and a secondary side controller circuit. The transformer is coupled between an input voltage and an internal output voltage in an isolated manner. The blocking switch controls the electric connection between the internal output voltage and an external output voltage. In a standby mode, the internal output voltage is regulated to a standby voltage, and the blocking switch is controlled to be OFF; in an operation mode, the internal output voltage is regulated to an operating voltage, and the blocking switch is controlled to be ON, such that the external output voltage has the operating voltage. The standby voltage is smaller than the operating voltage, so that the power consumption of the flyback power converter circuit is reduced in the standby mode. |
| US11545906B2 |
Phase-shifted full-bridge converter with half-current multiplier output and control method thereof
A phase-shifted full-bridge converter and a control method thereof are disclosed. The proposed control method of a phase-shifted full-bridge converter, wherein the phase-shifted full-bridge converter includes a full-bridge switching circuit having a first and a second output terminals, a main transformer having a primary winding and coupled to the switching circuit, and an autotransformer having a primary winding and coupled to the main transformer, includes providing an induced common current flowing through the primary winding of the autotransformer; and causing the induced common current being reflected to the primary winding of the main transformer to cause a primary side current flowing through the primary winding of the main transformer to increase both slopes of a valid duty cycle and a dead-zone period such that the primary side current has a relatively lower transition level and a relatively shorter transition time. |
| US11545905B2 |
Multi-stage driver system architecture
A multi-stage driver system includes a switched mode power circuit for providing power to different electrical load(s). Multi-stage driver system includes a control block including at least one microcontroller coupled to control operations of the switched mode power circuit. Switched mode power circuit includes a high voltage region, a low voltage region, and an isolation barrier. High voltage region of the switched mode power circuit includes a switched rectifier and a switched bridge circuit configured to produce a high voltage bidirectional pulse train signal for output to an isolation barrier. Low voltage region of the switched mode power circuit includes a rectification circuit coupled to the isolation barrier and at least one switched converter circuit coupled to the rectification circuit. Control block receives real-time input signals (e.g., analog voltage reading(s)) from the high and low voltage regions and responsively produces control signals to the high and low voltage regions. |
| US11545904B2 |
Power controllers and power converters with configurable feedback loop for different nominal output voltages
A power controller is in use of a power converter whose output voltage can be regulated at a first nominal output voltage or a second nominal output voltage less than the first nominal output voltage. An ON-time controller controls an ON time of a driving signal provided to a power switch according to a compensation signal. A frequency controller controls, based on the compensation signal and a feedback signal, a switching frequency of the driving signal. If the compensation signal has an input waveform and when the output voltage is regulated at the first or second nominal output voltage, the frequency controller provides first or second settling time to stabilize the switching frequency, respectively. The second settling time is longer than the first settling time. |
| US11545903B1 |
Controller for driving a power switch in slave phase of a multiphase power converter and power converter comprising the same
A power converter includes a controller for driving a power switch in one phase of a plurality of phases of the power converter. The controller may have a first terminal for receiving an input switch driving signal which is used to drive a power switch in another phase of the power converter, and a second terminal for providing an output switch driving signal to drive the power switch in the one phase. The controller draws power from the input switch driving signal received at the first terminal, and is configured to provide the output switch driving signal based on the input switch driving signal. |
| US11545901B1 |
Control system for buck converter
The present disclosure provides a control system of a buck converter, relating to the field of Internet of Things. The control system of a buck converter provided in an embodiment of the present disclosure includes a first control module, a second control module, and a mode selector. The first control module is turned on and the second control module is turned off through an analog current sensor in the mode selector when an IoT device switches from a transmission mode to a sleep mode or a standby mode, so that the first control module outputs a first voltage pulse to the driving and level shifter module, wherein a frequency of the first voltage pulse is determined by a frequency of a first clock in the first control module, and a width of the first voltage pulse is determined by a frequency of a second clock in the first control module. |
| US11545900B2 |
Efficient wide voltage range quasi-parallel voltage regulator
Aspects of an efficient, wide voltage range, power converter system are described. In one example, a power converter system includes a first power converter, a second power converter, and a controller for the power converter. An input of the first power converter and an input of the second power converter are connected in series across an input voltage for the power converter system, and an output of the first power converter and an output of the second power converter are connected in parallel at an output of the power converter system. The controller is configured to regulate the second power converter and to determine whether or not to regulate the first power converter based on the input voltage for the power converter system and an output voltage of the power converter system, among other factors, for greater efficiency of the power converter system over wider input and output voltage ranges. |
| US11545896B1 |
Power supply conversion structure and electronic device including the same
A power supply conversion structure and an electronic device including the same are provided. By providing a voltage regulating module connected to a switched capacitor converter, the voltage regulating module receives a first voltage of the switched capacitor converter and converts the first voltage into a second voltage, and the second voltage is higher than a voltage of a current battery, so that in the use process of the electronic device, if a voltage output to a load of the electronic device is reduced below a threshold voltage, the voltage output to the load of the electronic device is boosted to be higher than the voltage of the current battery, thus avoiding bad customer experience such as black screen and even shutdown of the electronic device. As the switched capacitor converter and the voltage regulating module operate cooperatively, the number of switches can be reduced. |
| US11545895B2 |
Precharge in a switched capacitor (SC) converter
A switched capacitor (SC) power stage includes a first stage circuit with a set of switches coupled in series, a first flying capacitor coupled to a first node between a first and second switch and to a second node between a fifth and sixth switch, a second flying capacitor coupled to a third node between the second and a third switch and to a fourth node between a seventh and eighth switch, and a third flying capacitor coupled to a fifth node between a third and fourth switch and a second terminal coupled to the second node. A control circuit establishes a first configuration of the switches to precharge the first, second, and third flying capacitors to a first voltage, and a second configuration of the switches to precharge the first and second flying capacitors to a second voltage while the third flying capacitor remains charged at the first voltage. |
| US11545894B2 |
Electromagnetic interference reducing circuit
An electromagnetic interference reducing circuit is provided. A first random number generator generates a plurality of first random number signals each having a plurality of triangular waves. Each of the triangular waves has a plurality of steps. The first random number generator generates a plurality of first random numbers and modulates each of the first random number signals according to the first random numbers. The first random number generator repeatedly counts, repeatedly removes, or does not count time of the steps of each of the triangular waves of each of the first random number signals according to one of the first random numbers. A first oscillator generates a first oscillating signal. A motor controller circuit controls a plurality of switch components of a motor respectively according to the first random number signals based on the first oscillating signal. |
| US11545891B2 |
Power device and operation method thereof
A power device includes a power factor corrector, an auxiliary capacitor, a switching device, an auxiliary boost circuit, a controller and a voltage conversion device. The switching device has a first end electrically connected to the output end of the power factor corrector, and a second end electrically connected to one end of the auxiliary capacitor. An output end of the auxiliary boost circuit is electrically connected to the output end of the power factor corrector, an input end of the auxiliary boost circuit is electrically connected to a middle end of the switching device, and a ground end of the auxiliary boost circuit is electrically connected to another end of the auxiliary capacitor. The controller is electrically connected to the switching device and the auxiliary boost circuit. The input end of the voltage conversion device is electrically connected to the output end of the power factor corrector. |
| US11545889B2 |
Deadtime optimization for GaN half-bridge and full-bridge switch topologies
Disclosed is a method for deadtime optimization in a half-bridge switch or full-bridge switch wherein high-side and low-side switches comprise GaN transistors; a circuit for implementing the method; and a power switching system comprising a GaN half-bridge or a GaN full-bridge and a deadtime optimization system. The circuit comprises a drain current bump filter for generating a current charge output; and circuit elements for comparing the current charge output to a reference current charge Coss and generating a deadtime adjust signal. The deadtime adjust signal may be used to adjust deadtime to reduce or minimize deadtime, and deadtime losses, while avoiding cross-conduction. |
| US11545876B2 |
Motor device
A motor device includes a motor, a first substrate, a second substrate, a first heat sink, and a second heat sink. The second substrate is placed to face the first substrate in the plate-thickness direction of the second substrate. A second element group provided on the second substrate has a heat generation amount larger than that of a first element group provided on the first substrate. The first heat sink is placed between the first substrate and the second substrate so as to promote heat dissipation from the first element group and the second element group. The second heat sink is placed on the opposite side of the second substrate from the first heat sink and is configured to promote heat dissipation from the second element group. |
| US11545873B2 |
Rotary actuator
A rotary actuator for a shift-by-wire system of a vehicle includes a motor with a motor shaft, an output shaft disposed in parallel with the motor shaft, a speed-reducing mechanism configured to reduce a rotational speed of the motor and transmit the rotation of the motor to the output shaft, and a case housing the motor and the speed-reducing mechanism. The speed-reducing mechanism includes a first speed-reducing portion including a ring gear and a sun gear, and a second speed reducing portion including a drive gear and a driven gear. The drive gear and the driven gear are coaxially disposed with the motor shaft and the output shaft, respectively, to serve as parallel shafts type gears. The drive gear is disposed between the motor and the first speed-reducing portion in an axial direction of the motor. |
| US11545871B2 |
Tool housing and motor exhaust management
A motorized hand tool such as a cordless ratchet wrench that has a motor, and a housing that encloses or houses the motor. The motor includes one or more exhaust ports that expel exhaust air out of the motor. The housing includes one or more exhaust ports and inwardly projecting protrusions or deflectors that extend around the exhaust ports. The inwardly projecting protrusions/deflectors extend in a direction towards the motor exhaust ports, and/or are at least partially disposed in the motor exhaust ports to direct exhaust air out of the housing and prevent exhaust air from recirculating near the motor and electronic components of the tool. |
| US11545870B2 |
Motor
The present disclosure provides a motor with a grounded rotor. The motor includes a stator and a rotor. The stator includes a bearing seat, a conductive plate and an elastic element. The bearing seat receives a first bearing and a second bearing. The conductive plate is disposed in the bearing seat and has at least one overlapping foot convexly formed thereon. The elastic element is arranged between the first bearing and the second bearing, and integrally formed with the at least one overlapping foot into one piece. The rotor includes a rotating shaft. The rotating shaft is inserted in the first bearing and the second bearing along the axial direction. The conductive plate and the rotating shaft are electrically connected to each other. |
| US11545869B2 |
Motor having frame with axial vent hole
A motor includes a support frame, a stator, a bearing member, and a rotor. The support frame includes first and second tubular parts, and a vent hole. The second tubular part is disposed radially outside the first tubular part. The vent hole, extending axially, is provided between the first and second tubular parts. The stator is disposed radially outside the second tubular part, and supported by the second tubular part. The bearing member is disposed inside and supported by the first tubular part. The rotor includes a rotor frame, a shaft, and a permanent magnet. The rotor frame is disposed on a first side with respect to the support frame in the axial direction. The shaft is fixed to the rotor frame. The shaft is attached rotatably to the support frame through the bearing member. The permanent magnet is disposed radially outside the stator, and supported by the rotor frame. |
| US11545867B2 |
Bus bar assembly for electric machine winding
An electric machine includes a stator assembly and a bus bar assembly. The stator assembly includes a core with windings positioned on the core. The windings include in-slot portions, end turns, and leads. The leads extend from the in-slot portions at one of the ends of the core with ends of the leads extending axially past the end turns. The leads include a first plurality of leads positioned on a first side of the stator opposite a second plurality of leads positioned on a second side of the stator. The bus bar is substantially circular in shape and positioned radially inward from the end turns. The bus bar assembly includes three bus bars, each bus bar connecting at least one of the first plurality of leads to at least one of the second plurality of leads. |
| US11545864B2 |
Electric motor and compressor
An electric motor including a motor rotor and a motor stator including a stator core including a plurality of stator teeth spaced along a circumferential direction of the stator core, a plurality of coil groups, wherein each of the plurality of coil groups includes a plurality of coils wound on a corresponding stator tooth, and an incoming line terminal and an outgoing terminal both comprising a same number of coil ends, and two motor lead groups, wherein a number of the plurality of motor leads of each of the two motor lead groups is equal to a number of the plurality of coil groups, and wherein each of the plurality of motor leads is connected to one incoming line terminal or one outgoing line terminal of one corresponding coil group of the plurality of coil groups. |
| US11545855B2 |
Receiver device for facilitating transaction of energy wirelessly received by the receiver device
Disclosed herein is a receiver device for facilitating transaction of energy wirelessly received by the receiver device, in accordance with some embodiments. Accordingly, the receiver device comprises a receiver transceiver. Further, the energy comprises terahertz electromagnetic wave energy. Further, a receiver enclosure of the receiver transceiver stores the terahertz electromagnetic wave energy and converts the terahertz electromagnetic wave energy into electrical energy. Further, the receiver transceiver transmits a registration request to the transmitter device and transmits the electrical energy associated with an energy asset to an electrical load. Further, the receiver device generates the energy asset, accesses a second distributed block-chain, and creates an entry for a transaction of the energy asset in the second distributed block-chain. Further, the transmitter device analyzes the registration request, accesses a distributed block-chain, authenticates the receiver device, and transmits the energy wirelessly to the receiver transceiver. |
| US11545853B2 |
DC encoding on AC driven systems
The present application relates to AC driven control systems that attains high level of functional integrity at one or more location. The present application discloses an AC driven control system that implements the technique of segregating domains of plurality of AC supply based functions using DC encoding thereby attaining high level of functional integrity of load devices that are being remotely operated. |
| US11545847B2 |
Charging device and charging method
A charging device for charging a lithium-ion secondary battery based on at least a constant voltage method is provided. In the charging device, before starting charging with a constant voltage or while performing charging with a constant voltage, a first current pulse having a peak current value i1 larger than a charge current value i0 is applied at least once. |
| US11545838B2 |
Half-bridge circuit using separately packaged GaN power devices
GaN-based half bridge power conversion circuits employ control, support and logic functions that are monolithically integrated on the same devices as the power transistors. In some embodiments a low side GaN device communicates through one or more level shift circuits with a high side GaN device. Various embodiments of level shift circuits and their inventive aspects are disclosed. |
| US11545829B2 |
Power prediction system, power prediction device, power prediction method, program, and storage medium
A power prediction system includes a battery removably mounted on an electric power device using electric power, a charging device configured to charge the battery, and a power prediction device configured to predict an amount of electric power capable of being supplied by the charging device to outside of the charging device through machine learning on the basis of usage information indicating at least one of the usage state and the usage environment of the charging device. |
| US11545826B2 |
Electrical power distribution systems with a bypass unit that couples to a load and electrically engages one of two alternate units for powering the load and related methods
Electrical power distribution systems with a bypass unit that electrically engages one of two alternate units for powering a load while electrically isolating the other using a power transfer switch with first and second contactors and mechanical and electrical interlocks to allow a technician to access one of the alternate units when de-energized and in position while the other of the alternate units is energized and powering the load. |
| US11545825B2 |
Open neutral detector
An apparatus for detecting an open neutral condition in a split phase power system is described. The apparatus includes two powered lines providing output electricity to an electrical distribution system and a shared neutral line providing a grounded neutral to the first and second powered lines. The apparatus is configured for detecting when an open neutral condition is present in the split phase power system by determining when a power current is present on one or both of the first and second powered lines while a return current is not present on the neutral line; and in response to detecting that the open neutral condition is present, causing an interrupter to interrupt the power supplied by the first and second powered lines or to generate a signal indicating an open condition. |
| US11545820B2 |
Electrical connection box
An electrical connection box capable of suppressing ingression of liquid is provided. The electrical connection box is configured to house an electrical device, to interconnect a plurality of in-vehicle device via the housed electrical device, and to be provided in a vehicle, and includes an insertion port that passes through a side wall and into which an electric wire to be connected to the electrical device is inserted, and an eave portion that is provided along an upper edge portion of the insertion port and protrudes outwardly by a predetermined length. |
| US11545817B2 |
Electrically conductive surface and a process for producing the same
Load-bearing apparatus/systems for location in the vicinity of energized power lines are provided. The apparatus includes a base member. The base member has an upper layer and a backing surface layer. An uppermost surface of the upper layer is adapted to support on it at least power line workers and/or related stringing equipment. At least the uppermost surface of the upper layer is adapted to be electrically conductive. Methods for forming the apparatus are also provided. |
| US11545816B2 |
Spark plug with multiple spark gaps
A spark plug having multiple spark gaps, where at least one of the spark gaps is located within a prechamber. The spark plug may include a first center wire assembly, a second center wire assembly, an insulator, a metallic shell, a first sparking area with a prechamber cap and a ground electrode for a prechamber spark gap, and a second sparking area with a ground electrode for a main chamber spark gap. The spark plug is designed to maximize engine performance and/or operation by utilizing the multiple spark gaps, where the prechamber spark gap may be used for certain operating conditions where such a spark gap is advantageous and the separate main chamber spark gap may be used for other conditions where a main chamber spark gap is advantageous. |
| US11545815B1 |
Compact laser source with frequency modulators generating multiple lines
A compact laser source and a single sideband modulator used therein is disclosed. The compact laser source includes a seed laser and one or more channels, with each channel generating one or more output laser beams having corresponding different wavelengths. The compact laser source can be formed in whole or in part on a single optical motherboard to thereby minimize space and power requirements. By employing the disclosed single sideband modulator, harmonics in the generated output laser beams can be minimized. The compact laser source finds application in an atom interferometer (AI) system, which may be used to measure gravity, acceleration, or rotation of the AI system. |
| US11545812B2 |
Semiconductor laser element
A semiconductor laser element includes: a substrate; and a laser array portion that includes a plurality of light emitting portions arranged side by side, and is stacked above the substrate, wherein a stacked body of the substrate and the laser array portion includes a pair of resonator end faces on opposite faces, and a groove portion that extends from the laser array portion into the substrate is provided on at least one of the pair of resonator end faces between two adjacent light emitting portions among the plurality of light emitting portions. |
| US11545811B2 |
Laser driver designs to reduce or eliminate fault laser firing
Laser driver designs that aim to reduce or eliminate the problem of fault laser firing are disclosed. Various laser driver designs presented herein are based on providing a current dissipation path that is configured to start providing a resistance for dissipating at least a portion, but preferably substantially all, of the negative current from the laser diode. Dissipating at least a portion of the negative current may decrease the unintentional increase of the voltage at the input to the laser diode and, therefore, reduce the likelihood that fault laser firing will occur. A control logic may be used to control the timing of when the current dissipation path is activated (i.e., provides the resistance to dissipate the negative current from the laser diode) and when it is deactivated. |
| US11545803B1 |
Connector loading assembly for electrical connector assembling machine
An electrical connector assembling machine includes a connector strip distribution unit including a reel cradle for holding a reel of the connector strip and a roller for rotating the reel of the connector strip to unwind the connector strip from the reel. The electrical connector assembling machine includes a connector strip feed unit including a feeding device configured to index the connector strip through a feed track in successive feed strokes. The electrical connector assembling machine includes a connector strip notching unit including a notching device configured to cut notches in the connector strip at designated locations. The electrical connector assembling machine includes a contact loading unit loading contacts into the connector strip and an electrical connector separating unit for separating the electrical connector from the connector strip. |
| US11545801B2 |
Systems and methods for flat cable installation
A device is provided for aligning a ribbon cable relative to an electrical connector to crimp the electrical connector onto the ribbon cable with a tool. The device includes a side portion and a central piece. The side portion includes an upper end and a cable track having a width sized to receive the ribbon cable. The central piece is coupled to the side portion and includes an upper surface. The upper surface of the central piece and the upper end of the side portion at least partially define a connector retaining segment sized to receive the electrical connector. |
| US11545790B2 |
Methods and apparatus for rendering electrical cables safe
A “safe grounding apparatus” (SGA) for safely grounding or neutralizing the electrical conductors for permanent magnet motor (PMM) powered artificial lift systems and methods of practicing the same are disclosed. The SGA of the present invention ameliorates some of the dangers associated with PMM's. Methods of shorting, grounding, testing and monitoring the electrical conductors of a permanent magnet motor in order to safely manipulate the conductors are also disclosed. |
| US11545788B2 |
Terminal assembly and electrical connector
A terminal assembly and an electrical connector, the terminal assembly comprises a plurality of ground terminals, a plurality of signal terminals, and an insulating body. Each ground terminal comprises a ground terminal body, a ground pin, and a plurality of ground assembling pins. The plurality of signal terminals and the plurality of ground terminals are alternately arranged and disposed at intervals along a first direction. At least one signal terminal is disposed between two adjacent ground terminals. Each signal terminal comprises a signal terminal body, a signal pin, and a signal assembling pin. The insulating body is disposed on the plurality of ground terminal bodies and the plurality of signal terminal bodies. A plurality of first distances exist between the plurality of ground pins and the plurality of signal pins. A plurality of second distances exist between the plurality of ground assembling pins and the plurality of signal assembling pins. |
| US11545784B2 |
Coaxial RF connector
A coaxial RF connector with inner and outer conductors has an outer conductor with a plurality of longitudinal slits forming a plurality of spring loaded contact elements. A contact sleeve is arranged movable in axial direction surrounding coaxially the outer conductor. The contact sleeve has a radial contact face which is in contact with the spring loaded contact elements and an axial contact face which has a plane orthogonal to the center axis of the connector for contacting a counter connector. |
| US11545782B2 |
Connector with waterproof structure
A connector includes a connector housing and a shield shell. A terminal electrically connected to an end part of a wire is arranged inside the connector housing. The connector housing includes an inserting portion to be inserted into a mounting hole provided in a conductive case for accommodating an inverter and an outer arrangement portion integral with the inserting portion and to be arranged outside the case. A case-side sealing member seals between the outer peripheral surface of the inserting portion and the inner peripheral surface of the mounting hole. The shield shell is electrically connected to the case and covers the outer periphery of the outer arrangement portion. The inserting portion includes a first intrusion suppressing groove continuously provided over the entire periphery of the inserting portion in a part of the outer peripheral surface of the inserting portion between the case-side sealing member and the outer arrangement portion. |
| US11545781B2 |
Connector and connection device for electronic equipment
The length of a waterproof and dustproof connector can be reduced to decrease its occupation area so as to secure the occupied area of the circuit board for electronic equipment and so as to design the layout of the electronic equipment more freely and so as to downsize the electronic equipment. The connector for electronic equipment includes an approximately cylindrical housing 2, a support 21 provided in the form of a wall in the housing 2, a contact terminal 3 and a power terminal 4 supported by the support 21, a shell 5 mounted inside the housing 2, and a seal 6 provided along the outer circumference adjacent to the end on the connection terminal inserting side of the housing 2. Preferably, the seal 6 is welded to the housing 2 and made of a resin softer than the resin of the housing 2. |
| US11545780B1 |
Purpose built cable connector
A cable connector including a housing with a main body having a front face opposite a rear face and pin holes formed through the main body extending between the front face and the rear face, a first arm and second arm extending from the main body distal from the rear face; a cover removably coupled to the front face, the cover including receivers configured to align with the pin holes to receive either a pin or a socket connected at a terminal end of a wire; fasteners removably coupled to the cover and the housing; at least one guide post extending from an outer surface of the cover; a collar supported between the first arm and the second arm; and a predetermined pattern of the wire coupled to at least one of the pin and the socket, wherein either the pin or the socket are insertable in the pin hole. |
| US11545775B2 |
Connector and conductive terminal module
A connector for electrically connecting to a conductor comprises a pair of conductive terminals, each including a U-shaped fixing portion and an elastic contact arm extending from the U-shaped fixing portion. The connector further includes a pair of pressing members, each having a U-shaped holding portion and an elastic support arm extending from the U-shaped holding portion. Each of the pressing members is fit within the U-shaped fixing portion of the respective conductive terminal by the U-shaped holding portion, and at least a portion of the elastic support arm is abutted against the elastic contact arm. |
| US11545772B2 |
Connector
A connector includes: a terminal fitting; a housing including a smooth terminal lead-out area where a terminal outlet for projecting a conductor connection part of the terminal fitting on the inner side toward an outer side is provided; a conductive component shaped in a sheet-like form with a conductor and an insulator exhibiting flexibility, the conductive component including a conductor connection area that physically and electrically connects the conductor to the conductor connection part, and a conductor lead-out area led out from the conductor connection area toward a lead-out direction projecting from the housing; and a reinforcing plate shaped in a planar shape with an insulating material, the reinforcing plate being sandwiched between the conductor connection area and the terminal lead-out area. The housing includes a protruded body protruded toward the conductor lead-out area side of the conductive component than a same plane with the terminal lead-out area. |
| US11545767B2 |
Terminal block
A terminal block includes a base, a support provided on the support, and a first terminal pair, a second terminal pair and a third terminal pair each supported by the support. A coupling line of the first electric wire is arranged along a first straight line, and a coupling line of the second electric wire is arranged along a second straight line. The base includes a support protrusion that extends to a coupling line of the third electric wire through between the coupling line of the first electric wire and the coupling line of the second electric wire and supports the coupling line of the third electric wire. |
| US11545766B2 |
Terminal block
A terminal block includes a pedestal and a terminal attached to the pedestal. A fastening portion of a connection terminal is overlapped on a fixing face of the terminal and is fastened to a fastening position on the fixing face. The connection terminal is brought close to and disposed at the fastening position of the terminal from a side. The pedestal has a guide face that guides the fastening portion of the connection terminal that approaches from a side upward from the fixing face toward the fastening position. The fastening portion passes beyond an edge portion of the guide face and arrives at the fastening position so as to be overlapped on the fixing face. |
| US11545765B2 |
Conductive fastening mechanism
A conductive fastening mechanism including a nut connected to an energy load module and electrically connected to a power supply through a power switch S0; an anti-rotating seat located above the nut; a conducting element arranged in the anti-rotating seat and electrically connected to a load; a connecting piece penetrating the anti-rotating seat and the conducting element and selectively connected to the nut, used for on-off between the load and the power supply; a handle rotatably arranged on the connecting piece, where the handle is configured to be selectively clamped in the anti-rotating seat to limit the connecting piece. The handle is rotatably arranged on the connecting piece and can be selectively clamped on the anti-rotating seat, such that the handle plays a role in preventing the connecting piece from rotating, so as to achieve the purpose of anti-vibration and anti-loosening, prevent damage and other safety accidents, and improve safety. |
| US11545764B2 |
Spring-loaded terminal connection
A spring-loaded terminal connection having a busbar and a clamping spring, which has a clamping arm, wherein the clamping arm extends towards the busbar and has a spring clamping edge for clamping an electrical conductor and wherein the busbar has a busbar clamping edge for fixing the electrical conductor to be clamped, wherein the busbar clamping edge has a radius less than or equal to 0.2 mm. |
| US11545760B1 |
Broadband metamaterial reflector
A versatile metamaterial reflector is constructed of at least one pair of first and second reflectors each having a frequency-dependent phase shifting of a reflected waveform but together providing, between them, a constant phase difference. As few as two different types of reflectors (for example, a zero and relative pi radian reflector) are used to construct a variety of metamaterial reflectors. |
| US11545759B2 |
Method and apparatus for transmitting and receiving signal in a wireless communication system
A method and apparatus for transceiving a signal in a wireless communication system is provided. A base station for transceiving a signal in a wireless communication system includes a transceiver and at least one processor. The transceiver includes an antenna unit and a metamaterial unit. The metamaterial unit includes a metamaterial lens unit and a metamaterial lens controller, and the at least one processor is configured to generate a first beam via hybrid beamforming in the antenna unit; transmit the generated first beam to the metamaterial lens unit, generate a second beam from the first beam, by adjusting the metamaterial lens unit, based on a control signal generated by the metamaterial lens controller, and transmit a downlink signal to a terminal by using the generated second beam. |
| US11545758B2 |
Planar multiband frequency selective surfaces with stable filter response
A frequency selective surface (FSS) having periodicity between one eighth and one quarter of an operational wavelength of the FSS and a low profile. The FSS has multiple pattern elements which are used to produce multiple transmission poles, and in some embodiments multiple transmission zeros. The transmission poles and transmission zeros are in the Ka and Ku bands, making the FSS applicable to 5G application. The transmission poles and transmission zeros also have high angular stability an oblique incident angle as high as 60°, as well as polarization insensitivity. |
| US11545756B2 |
Phase shifter, antenna system, and communications device
A phase shifter includes a radio frequency input transmission line, a radio frequency output transmission line, and a first branch and a second branch coupled in parallel between the radio frequency input transmission line and the radio frequency output transmission line, the first branch includes first switch components and first transmission lines coupled in series, and the second branch includes a second transmission line including a first terminal coupled to the radio frequency input transmission line and a second terminal, a third transmission line including a third terminal coupled to the second terminal and a fourth terminal coupled to the radio frequency output transmission line, second switch components, where one terminal of each of the second switch components is coupled to a connection node of the second transmission line and the third transmission line, and the other terminal is coupled to a corresponding grounding component. |
| US11545754B2 |
Antenna oscillator unit
An antenna oscillator unit includes a radiator and a balun support. The radiator is fixed to the balun support and includes a plurality of low-frequency oscillator arms circumferentially distributed along the balun support. Each of the low-frequency oscillator arms includes two radiating sections connected to each other and a connecting section connecting the two radiating sections to form a closed loop. The two radiating sections are substantially perpendicular to each other. The antenna oscillator unit of some embodiments can avoid mutual coupling of signals from the antenna oscillator unit and an adjacent high-frequency oscillator and can improve the capability to radiate electromagnetic signals. |
| US11545748B2 |
Ultra-wideband circular beamformer
An ultra-wideband (UWB) beam forming system is disclosed. In one or more embodiments, the UWB beam forming system includes a plurality of radiating elements forming a circular, cylindrical, conical, spherical, or multi-faceted array and a beamformer coupled to the radiating elements. The beamformer includes one or more transformable reconfigurable integrated units (TRIUNs) configured to independently control individual radiating elements or groups of radiating elements of the plurality of radiating elements. |
| US11545745B2 |
Antenna and communications device
The application provides an antenna and a communications device, and pertains to the field of antenna technologies. The antenna includes a horizontally polarized antenna and a vertically polarized antenna that are disposed in a superposition manner. The horizontally polarized antenna includes a metal sheet, and the metal sheet can be separately connected to a double-sided parallel strip line in the horizontally polarized antenna and a first conductor of a coaxial cable. A diameter of a maximum inscribed circle of the metal sheet is greater than a line width of the double-sided parallel strip line, and both the metal sheet and the coaxial cable are located on a first side of a substrate. Therefore, the metal sheet can effectively suppress an induced current in the coaxial cable, and impact of the induced current on the vertically polarized antenna can be reduced. |
| US11545744B2 |
Decorative antenna
Disclosed is a decorative antenna having an antenna body, a first cap, a first decorative sleeve, a second cap, and a second decorative sleeve. The antenna body includes an internal cavity extending from a proximal end towards a distal end, and a mast portion between the distal end and the proximal end. The first cap is adapted to removably secure against the distal end. The first decorative sleeve is adapted to be removably placed over the first decorative surface. The second cap includes a second decorative surface. The second cap is adapted to be removably secured against the distal end. The second cap is adapted to removably receive the securing portion. The second cap is adapted to removably secure against a signal source and maintain electrical communication between the signal source and the securing portion. The second decorative sleeve is adapted to be removably placed over the second decorative surface. |
| US11545743B2 |
Additively manufactured mesh cavity antenna
An antenna device is disclosed, including a cavity structure having a floor portion and a perimeter wall portion connected to the floor portion. A dipole structure extends upward from a center region of the floor portion inside the cavity structure. At least one of the wall portion and the dipole structure has an opening small enough relative to an expected radio frequency wavelength to avoid affecting antenna performance. |
| US11545740B2 |
Communication apparatus for vehicle
Provided is a communication apparatus for a vehicle. The communication apparatus for a vehicle comprises: a first case forming an external surface; a communication interface unit including a processor arranged inside the first case and a plurality of first connection terminals electrically connected to the processor and arranged on a first side of the first case; and a first antenna module including a plurality of first access terminals respectively coupled to be directly separable from the plurality of first connection terminals, and a first antenna electrically connected to at least one of the plurality of first access terminals, wherein the communication interface unit and the first antenna module are coupled to each other as one body when the plurality of first connection terminals are connected to the plurality of first access terminals. |
| US11545738B2 |
Adjustable antenna system for unmanned aerial vehicle
An antenna system for an unmanned aerial vehicle (UAV) includes one or more antennas, a reflector, and a control system. The control system is configured to determine a density of antenna towers near the UAV, determine a position for an active antenna of the one or more antennas based on the density, and adjust the active antenna to the determined position. In some embodiments, the antenna system further includes one or more switches, each of the one or more antennas is a different distance from the reflector, and the switches are used to adjust the active antenna to the determined position by selecting a one of the one or more antennas closest to the determined position as the active antenna. In some embodiments, the antenna system further includes an actuator and the active antenna is moved to the determined position using the actuator. |
| US11545737B2 |
Multiple antenna system and method for mobile platforms
A method and system facilitate communication between a constellation of satellites and a mobile platform-mounted mobile communicator. The method and system may include the use of a first antenna suited for operation using a first frequency band in a first geographic region and a second antenna suited for operation using either the first or a second frequency band in a second geographic region. The method and system may use a controller to determine which antenna to activate based on one or more of a geographic indicator or a signal indicator. The system used by the method to facilitate the communication may have one or more enclosures over the antennas and controller for mounting to a mobile platform. |
| US11545734B2 |
Antenna apparatus
An antenna device is provided. The antenna device includes an antenna body portion configured to transmit and/or receive a radio frequency (RF) signal, and including a dielectric material having a first dielectric constant; a metal layer configured to contact the antenna body portion; a first insulation layer configured to cover at least a part of the metal layer; and an electrical connection structure configured to be electrically connected to the metal layer, wherein the first dielectric constant of the antenna body portion is larger than a dielectric constant of the first insulation layer, and is smaller than a dielectric constant of the metal layer. |
| US11545732B2 |
Wireless communication device
An RFID tag is provided as a wireless communication device for transmitting and receiving a communication signal. The RFID tag includes a base material, antenna patterns formed on the base material, an RFIC package that is a feeder circuit connected to the antenna patterns, and an LC resonance circuit that is adjacent to the antenna patterns and resonates at a frequency higher than the frequency of the communication signal. |
| US11545728B2 |
Battery control system for a hybrid or electric vehicle
A vehicle includes an electric machine, a battery, an electrical circuit, an overcharge limit device, and a controller. The electric machine is configured to propel the vehicle. The battery has a plurality of cells and is configured to provide electrical power to the electric machine. The electrical circuit is configured to deliver the electrical power from the battery to the electric machine. The overcharge limit device is configured to individually disconnect each of the plurality cells from the circuit in response to an internal pressure of a respective cell exceeding a pressure threshold. The controller is programmed to, in response to detecting a first set of parameters that are indicative of a first of the cells being disconnected from the electrical circuit via the overcharge limit device, discontinue control the first of the cells. |
| US11545726B2 |
Electrode assembly and battery
An electrode assembly including a first electrode plate, a second electrode plate and a separator between the first electrode plate and the second electrode plate. The separator includes an extension portion extending to the outside of the first electrode plate and the second electrode plate in a length direction of the electrode assembly. The extension portion is provided with a glue layer including a first bonding portion extending in a width direction of the electrode assembly. The first bonding portion is parallel to the width direction. |
| US11545723B2 |
Sodium electrochemical interfaces with NaSICON-type ceramics
The present invention is directed to the modification of sodium electrochemical interfaces to improve performance of NaSICON-type ceramics in a variety of electrochemical applications. Enhanced mating of the separator-sodium interface by means of engineered coatings or other surface modifications results in lower interfacial resistance and higher performance at increased current densities, enabling the effective operation of molten sodium batteries and other electrochemical technologies at low and high temperatures. |
| US11545713B2 |
Housing having at least one first and one second housing part
A housing, particularly a battery housing, includes at least one first housing part, at least one second housing part, and at least one connecting member connecting the first housing part to the second housing part. The first housing part and the second housing part are configured such that, in an interconnected state, they separate a housing interior space from an environment situated on the other side of the first housing part and the second housing part. The housing is characterized in that the at least one connecting member is configured as a profile rail engaged with the first housing part and with the second housing part. |
| US11545712B2 |
Shape correction device for frame body, and method for manufacturing electrolyte film/electrode structure provided with resin frame for fuel cell
The present invention relates to: a shape correction device for a frame body; and a method for manufacturing an electrolyte film/electrode structure that is provided with a resin frame for a fuel cell. A shape correction device, which corrects the shape of a frame body that is provided with a rectangular opening, is equipped with a pressing mechanism that applies, to each side of the frame body, a pressing force directed from the inner side to the outer side of the opening. The pressing mechanism may have a first bar and a second bar, which apply the pressing force by being in contact with inner wall surfaces of each side of the frame body. |
| US11545711B2 |
Battery module including unit body
Provided is a battery module in which a heat radiation effect and manufacturing efficiency are effectively improved. The battery module includes a cell assembly including at least one unit body, each unit body including at least two secondary batteries stacked in a first direction. Each unit body includes an integrated unit sheet folded to surround a top portion, a left surface, a right surface, and a bottom portion of the at least two secondary batteries, opposite ends of a top portion of the integrated unit sheet being positioned to contact each other on any one of the top portion, the left surface, the right surface, and the bottom portion of the at least two secondary batteries, and an electric insulating material coated on at least a part of a perimeter portion of the integrated unit sheet. |
| US11545707B2 |
Battery case comprising various kinds of metal barrier layers and battery cell including the same
Disclosed herein is a pouch-shaped battery case configured to receive an electrode assembly having a separator interposed between positive and negative electrodes, together with an electrolytic solution, the pouch-shaped battery case including an outer coating layer defining an outer surface of the battery case and configured to protect the electrode assembly from an outside of the battery case, the outer coating layer made of a polymer resin, a metal barrier layer located between the outer coating layer and an inner surface of the battery case, the metal barrier layer having high moisture-blocking efficiency and high thermal conductivity, and an inner sealant layer located between the metal barrier layer and an inner surface of the battery case, the inner sealant layer made of a polymer resin that has high thermal fusibility, the metal barrier layer includes a first metal that has high formability and a second metal that has high rigidity. |
| US11545699B2 |
Solid state battery and solid state battery manufacturing method
What is provided is a solid state battery and a solid state battery manufacturing method capable of more reliably preventing short-circuiting. A solid state battery includes: a first electrode piece in which a first electrode active material layer is formed on a first current collector layer; a second electrode piece in which a second electrode active material layer is formed on a second current collector layer; and a bag-shaped solid electrolyte layer which accommodates the first electrode piece, wherein the first electrode piece accommodated in the bag-shaped solid electrolyte layer and the second electrode piece are laminated so as to overlap each other in a plan view so that the first electrode active material layer and the second electrode active material layer are disposed so as to face each other with the solid electrolyte layer interposed therebetween. |
| US11545697B2 |
Additive for non-aqueous electrolyte solution, electrolyte solution for non-aqueous electrolyte solution battery, and non-aqueous electrolyte solution battery
An additive for a non-aqueous electrolyte solution that can suppress the initial gas generation amount when used in a non-aqueous electrolyte solution battery. The additive for a non-aqueous electrolyte solution is represented by any one of formulae [1] to [4]: wherein R1, R2, R3, R4, X1, X2 and Y are as defined in the specification. |
| US11545695B2 |
All-solid-state battery
An all-solid-state battery includes a positive electrode layer, a solid electrolyte layer, and a negative electrode layer. The solid electrolyte layer separates the positive electrode layer from the negative electrode layer. The positive electrode layer includes a positive electrode active material, a conductive material, an oxide-based lithium ion conductor, and a sulfide-based solid electrolyte. A cross section of the positive electrode layer satisfies a relational expression (1): 3%≤SB/SA≤30%. In the relational expression (1), “SA” represents a partial area of the oxide-based lithium ion conductor that is in contact with the positive electrode active material, and “SB” represents a partial area of the oxide-based lithium ion conductor that is surrounded by the sulfide-based solid electrolyte. |
| US11545694B2 |
Solid state electrolytes for safe metal and metal-ion batteries
A Li or Li-ion or Na or Na-ion battery cell is provided that comprises anode and cathode electrodes, a separator, and a solid electrolyte. The separator electrically separates the anode and the cathode. The solid electrolyte ionically couples the anode and the cathode. The solid electrolyte also comprises a melt-infiltration solid electrolyte composition that is disposed at least partially in at least one of the electrodes or in the separator. |
| US11545691B2 |
Redox flow battery
A redox flow battery includes a cathode, an anode, a charge-carrying electrolyte, and an (a) oxidized and a (b) reduced form of an active material. The active material has the following formula: (D)-(L)-(A)-[(L)-(A)]V-DZ(F1) or (D)-(L)-(A)-(L-D)X (F2). In these formulae, each D is covalently bonded to an L, each L is covalently bonded to an A, x is a number from 0 to 5, v is a number from 0 to 5 and z is 0 or 1. D is an electron donor compound, L is a linker, and A is an electron acceptor compound. Each of D, L, and A has a particular structure. |
| US11545686B2 |
Fuel cell system
A fuel cell system includes a fuel cell stack in which a plurality of unit cells is stacked, a detection unit configured to detect a cell voltage of at least one of the unit cells, a converter configured to regulate an output current of the fuel cell stack, and a control device configured to control the converter. The control device executes current reduction processing for reducing the output current in a stepwise manner when the cell voltage detected by the detection unit is a negative voltage. |
| US11545685B2 |
Operation control system and method of fuel cell vehicle
An operation control system and method of a fuel cell vehicle are provided. The system includes a fuel cell, an air supply device operated by a motor, to supply air to the fuel cell and a sensing unit that senses an abnormal operation of the air supply device. A calculation unit calculates a lower-limit voltage of the air supply device required for normal operation of the air supply device when the sensing unit senses abnormal operation of the air supply device. A controller then adjusts a voltage supplied to the air supply device based on the calculated lower-limit voltage. |
| US11545680B2 |
Fuel cell system
A fuel cell system includes a fuel cell stack, a plurality of injectors capable of adjusting a flow rate of anode gas supplied to the fuel cell stack, and an ECU causing the plurality of injectors to operate. The plurality of injectors include a main injector, and a BP injector that operates when power that exceeds a prescribed power generation amount is generated. The ECU performs an operational check of causing the BP injector to operate at least once and judging whether the BP injector is normal or abnormal, during a period from when the fuel cell system is activated to when the fuel cell system stops. |
| US11545678B2 |
Test chamber and control method
A method for controlling a climate test chamber for conditioning air and a test chamber includes a fuel cell assembly exposed to at least one physical test condition in a test space. The fuel cell assembly includes at least one electrochemical fuel cell having an anode compartment and a cathode compartment each having a feed opening for introducing reactants and a discharge opening for discharging waste products of the fuel cell assembly. The fuel cell assembly is operated in the test space, and a fuel gas and an oxidation gas is fed to the fuel cell assembly as reactants. The test space is supplied with conditioned supply air and exhaust air is discharged from the test space by an air conditioning and ventilation system. An oxygen concentration is determined using a sensor and a controller controls the oxygen concentration. |
| US11545676B2 |
Cooling and gas dehumidifying system, transport means, and method for operating a cooling and gas dehumidifying system
A cooling and gas dehumidifying system comprising a cooling circuit in which a thermal fluid is circulated. The system further comprises a cooling arrangement arranged in the cooling circuit and configured to cool the thermal fluid flowing therethrough. A consumer gives up heat energy to the thermal fluid flowing through the cooling circuit. A gas dehumidifier having a heat exchanger arrangement is configured to be thermally coupled in a gas dehumidifying operating state with the thermal fluid flowing through the cooling circuit downstream of the cooling arrangement and having a first temperature, and thereby give up heat energy to the thermal fluid, and to be thermally coupled in a de-icing operating state with the thermal fluid flowing through the cooling circuit downstream of the consumer and having a second temperature, and thereby absorb heat energy from the thermal fluid, the second temperature being higher than the first temperature. |
| US11545675B2 |
Catalytic cathode for a lithium-oxygen battery
A metal-air battery includes an anode; a low-dimensional catalyst cathode; and an electrolyte; wherein: the low-dimensional catalyst cathode comprises a functional metal layer on a carbon support overcoated with a catalyst layer; the electrolyte comprises an aprotic solvent that is an ether-based solvent, a fluorinated ether-based solvent, an oligo (ethylene oxide) solvent, or a mixture of any two or more thereof; and the electrolyte is free of carbonate solvents. |
| US11545674B2 |
Electrode catalyst layer and polymer electrolyte fuel cell
Provided are an electrode catalyst layer for a polymer electrolyte fuel cell, which is capable of improving drainage property and gas diffusion properties and capable of high output, and a polymer electrolyte fuel cell provided with the same. An electrode catalyst layer (2, 3) bonded to a polymer electrolyte membrane (1) includes a catalyst (13), carbon particles (14), a polymer electrolyte (15) and fibrous material (16), in which the electrode catalyst layer (2,3) has a density falling within a range of 500 mg/cm3 to 900 mg/cm3, or has a density falling within a range of 400 mg/cm3 to 1000 mg/cm3, and the mass of the polymer electrolyte (15) falls within a range of 10 mass % to 200 mass % with respect to the total mass of the carbon particles (14) and the fibrous material (16). |
| US11545673B2 |
Catalyst complex for fuel cell, method of manufacturing the catalyst complex, electrolyte membrane including the catalyst complex and method of manufacturing the electrolyte membrane
Disclosed are a catalyst complex and a method of manufacturing the same. The catalyst complex may be manufactured by uniformly depositing metal catalyst particles on pretreated support particles through an atomic layer deposition process using a fluidized-bed reactor, which may be then uniformly dispersed throughout the ionomer solution. As such, manufacturing costs may be reduced due to the use of a small amount of metal catalyst particles and the durability of an electrolyte membrane and OCV may increase. Further disclosed are a method of manufacturing the catalyst complex, an electrolyte membrane including the catalyst complex, and a method of manufacturing the electrolyte membrane. |
| US11545668B2 |
Method of producing electrode material for lithium-ion secondary battery and lithium-ion battery using such electrode material
A method for producing an electrode material for a lithium-ion secondary battery. The method includes the following steps: (a) mixing components of a basic ingredient or active substance of electrode material and a conductive carbon material to obtain a conductive carbon material-composited material; (b) mixing the conductive carbon material-composited material and a surface layer-forming material; an (c) burning the mixture obtained at step (b) to obtain the electrode material. Also, a lithium-ion secondary battery including an electrode which comprises the material. |
| US11545665B2 |
Carbon-polymer complex
A carbon-polymer complex is provided and includes a porous carbon material and a binder, wherein the porous carbon material includes a material obtained from carbonization of a raw material including rice husk, the raw material having a silicon content of at least 5 wt %, the raw material is heat treated before carbonization, and the raw material is treated by an alkali treatment after carbonization to reduce the silicon content, the porous carbon material having a specific surface area of at least 10 m2/g as measured by the nitrogen BET method, a pore volume of at least 0.1 cm3/g as measured by the BJH method and MP method, and an R value of 1.5 or greater, wherein the porous carbon material includes mesopores having pore sizes from 2 nm to 50 nm and obtained from the alkali treatment of the raw material after carbonization, the porous carbon material further includes macropores and micropores. |
| US11545663B2 |
Nickel composite hydroxide and manufacturing method thereof, cathode active material for nonaqueos-electrolyte secondary battery and manufacturing method thereof, and nonaqueous-electrolyte secondary battery
Provided are a cathode active material having a suitable particle size and high uniformity, and a nickel composite hydroxide as a precursor of the cathode active material. When obtaining nickel composite hydroxide by a crystallization reaction, nucleation is performed by controlling a nucleation aqueous solution that includes a metal compound, which includes nickel, and an ammonium ion donor so that the pH value at a standard solution temperature of 25° C. becomes 12.0 to 14.0, after which, particles are grown by controlling a particle growth aqueous solution that includes the formed nuclei so that the pH value at a standard solution temperature of 25° C. becomes 10.5 to 12.0, and so that the pH value is lower than the pH value during nucleation. The crystallization reaction is performed in a non-oxidizing atmosphere at least in a range after the processing time exceeds at least 40% of the total time of the particle growth process from the start of the particle growth process where the oxygen concentration is 1 volume % or less, and with controlling an agitation power requirement per unit volume into a range of 0.5 kW/m3 to 4 kW/m3 at least during the nucleation process. |
| US11545662B2 |
Positive active material for nonaqueous electrolyte secondary battery, method of producing positive active material for nonaqueous electrolyte secondary battery, positive electrode for nonaqueous electrolyte secondary battery, and nonaqueous electrolyte secondary battery
Disclosed is a positive active material for a nonaqueous electrolyte secondary battery containing a lithium transition metal composite oxide, in which the lithium transition metal composite oxide has an α-NaFeO2 structure, a molar ratio Li/Me of Li and a transition metal (Me) of 1.05≤Li/Me≤1.4, and a porosity of 5 to 15%. |
| US11545661B2 |
High-capacity and long-life negative electrode hydrogen storage material of La—Mg—Ni type for secondary rechargeable nickel-metal hydride battery and method for preparing the same
A high-capacity and long-life negative electrode hydrogen storage material of La—Mg—Ni type for secondary rechargeable nickel-metal hydride battery and a method for preparing the same are provided in the present invention. A chemical formula of the negative electrode hydrogen storage material of La—Mg—Ni type is La1-x-yRexMgy(Ni1-a-bAlaMb)z, wherein Re is at least one of Ce, Pr, Nd, Sm, Y, and M is at least one of Ti, Cr, Mo, Nb, Ga, V, Si, Zn, Sn; 0≤x≤0.10, 0.3≤y≤0.5, 0 |
| US11545660B2 |
Long-life and ultra-high energy density lithium secondary battery
A lithium secondary battery, wherein there is a pre-lithiated negative electrode such that a total irreversible capacity of a positive electrode is greater than a total irreversible capacity of the negative electrode while satisfying 150< (negative electrode discharge capacity/lithium secondary battery discharge capacity)×100<300, and a relative potential of the negative electrode with respect to lithium metal in an operating voltage range of the lithium secondary battery is in a range of −0.1 V to 0.7 V. Such a lithium secondary battery is capable of maintaining a capacity retention of 60% or more even after 500 cycles or more while achieving an energy density per volume of 800 Wh/L or more. |
| US11545657B2 |
Cathode active material including lithium composite oxide having a layered crystal structure
A cathode active material includes a lithium composite oxide having a crystal structure which belongs to a layered structure. The lithium composite oxide has a BET specific surface area of not less than 5 m2/g and not more than 10 m2/g. The lithium composite oxide has an average particle size of not less than 3 μm and not more than 30 μm. The lithium composite oxide, an average crystallite size calculated by an X-ray diffraction method is not less than 150 Å and not more than 350 Å. |
| US11545654B2 |
Method for producing a substrate, which is coated with an alkali metal, by means of a promoter layer, and a coated substrate
The present invention relates to a method for producing a substrate (2) which is coated with an alkali metal (1), in which method a promoter layer (3) which is composed of a material which reacts with the alkali metal (1) by at least partial chemical reduction of the promoter layer (3) is applied to a surface of the substrate (2) and a surface of the promoter layer (3) is acted on by an alkali metal (1) and then the alkali metal (1) is converted into the solid phase and a coating containing the alkali metal is formed. |
| US11545651B2 |
Optical film, display screen assembly and display device
An optical film, a display screen assembly and a display device are disclosed. The optical film includes a light transmitting film and a light blocking film; the light transmitting film is a double-sided adhesive film, and the light blocking film is a flexible film and is connected with a periphery of the light transmitting film. |
| US11545648B2 |
Light emitting display device and method of fabricating the same
According to an aspect of the present disclosure, a light emitting display device includes a substrate defined by a plurality of sub-pixels and a first overcoating layer disposed on the substrate, a connection electrode and a sacrificial layer disposed on the first overcoating layer, a first electrode disposed on the connection electrode, a second overcoating layer disposed on the sacrificial layer and including an opening that exposes a portion of the first electrode, a dummy first electrode disposed on a top surface of the second overcoating layer and a side surface of the opening and separated from the first electrode, a bank layer covering the dummy first electrode and a portion of the first electrode, and an emission layer and a second electrode disposed on the first electrode and the bank layer. |
| US11545647B2 |
Light-emitting apparatus having a groove in the insulating layer between the light-emitting region and an end of the insulating layer
A light-emitting apparatus includes an insulating layer including a light-emitting region including a light-emitting element, and a groove provided in the insulating layer. The groove is provided in a portion between the light-emitting region and an end of the insulating layer, and has a zigzag pattern or a wrapping pattern. |
| US11545645B2 |
Method for preparing organic electronic device
Provided is a method for preparing an organic electronic device, comprising steps of: applying an ink composition on a substrate, on which an organic electronic element is formed; applying heat thereto before curing the applied ink composition; and curing the applied ink composition by irradiating with light having a wavelength in a range of 300 nm to 450 nm. Also provided is an organic electronic device, comprising a substrate, an organic electronic element formed on the substrate, and an organic layer sealing the entire surface of the organic electronic element, wherein after the organic layer is maintained at 110° C. for 30 minutes, the out-gas amount measured using Purge & Trap-gas chromatography/mass spectrometry is less than 150 ppm. |
| US11545640B2 |
Photoisomeric compounds and device comprising the same
Disclosed are a series of photoisomeric compounds, preparation method therefor and device comprising the compounds, wherein a photoisomeric compound-graphene molecular junction device is formed by linking the photoisomeric compound to a gap of two-dimensional monolayer graphene having a nano-gap array via an amide covalent bond. When a single photoisomeric compound is bridged to the gap of the two-dimensional monolayer graphene having a nano-gap array, the devices have a reversible light-controlled switching function and a reversible electrically-controlled switching function. A molecular switch device prepared by the method can achieve a high reversibility and a good reproducibility. The number of light-controlled switching cycles can exceed 104, and the number of electrically-controlled switching cycles can reach about 105 or greater. Moreover, the above-mentioned reversible molecular switch device remains stable within a period of more than one year. In addition, flexible non-losable organic memory transistor devices and light-responsive organic transistor devices can be constructed using the above-mentioned series of photoisomeric compounds. |
| US11545639B2 |
Display device
A display device includes: a flexible display panel; a support member below the flexible display panel and having a rigid property; a first impact absorption member below the support member and having a modulus of 0.01 Mpa to 500 Mpa; and a housing having at least a portion below the first impact absorption member and configured to accommodate the flexible display panel, the support member, and the first impact absorption member. |
| US11545638B2 |
Organic compound and manufacturing method thereof, and organic light emitting diode electroluminescent device
An organic compound and a manufacturing method thereof, and an organic light emitting diode electroluminescent device are provided. The organic compound has a suitable HOMO energy level and a high hole mobility. Compared with traditional hole transport materials, when the organic compound is applied in a hole transport layer of the organic light emitting diode electroluminescent device, the organic light emitting diode electroluminescent device has enhanced maximum current efficiency, maximum external quantum efficiency, and service lifespans. |
| US11545636B2 |
Organic electroluminescent materials and devices
Metal complexes with ligands bearing a five member aromatic moiety fused with dibenzofuran or its analogues useful as electroluminescence materials in OLEDs are disclosed. |
| US11545631B2 |
Organic electroluminescence device and polycyclic compound for organic electroluminescence device
An organic electroluminescence device in which a polycyclic compound including an electron donor and an electron acceptor is included in an emission layer is provided. The electron donor contains an acridine derivative or a dibenzo-azasiline derivative, and the electron acceptor contains B as a ring-forming atom, O or S directly bonded to B, and a heterocyclic group in which three or five hexagonal rings are condensed. Accordingly, an organic electroluminescence device having high efficiency may be achieved. |
| US11545630B2 |
Compound and organic electroluminescent device comprising the same
Organic electroluminescent devices with lowered driving voltages, and enhanced efficiencies and lifetimes are provided. |
| US11545629B2 |
Organic light-emitting diode with high efficiency and low voltage
Disclosed herein is an organic light-emitting diode capable of operating at a low voltage with high efficiency. It comprises: a first electrode; a second electrode facing the first electrode; and a light-emitting layer interposed between the first electrode and the second electrode, wherein the light-emitting layer comprises at least one of the amine compounds represented by the following Chemical Formula A or B, and the compound represented by the following Chemical Formula C. Chemical Formulas A, B and C are as described in the Specification. |
| US11545626B2 |
Deposition mask assembly for display devices
A deposition mask assembly for manufacturing a plurality of display devices includes a frame having an opening area, a first open mask disposed on the frame and having a first body portion defining a plurality of patterns overlapping the opening area, and a second open mask disposed on the first open mask and having a second body portion defining a plurality of opening portions overlapping the patterns of the first open mask, in which each of the patterns includes an auxiliary pattern spaced apart from the first body portion and a first bridge pattern connecting the first body portion and the auxiliary pattern. |
| US11545625B2 |
Tapered memory cell profiles
Methods, systems, and devices for tapered memory cell profiles are described. A tapered profile memory cell may mitigate shorts in adjacent word lines, which may be leveraged for accurately reading a stored value of the memory cell. The memory device may include a self-selecting memory component with a bottom surface and a top surface opposite the bottom surface. In some cases, the self-selecting memory component may taper from the bottom surface to the top surface. In other examples, the self-selecting memory component may taper from the top surface to the bottom surface. The top surface of the self-selecting memory component may be coupled to a top electrode, and the bottom surface of the self-selecting memory component may be coupled to a bottom electrode. |
| US11545624B2 |
Phase change memory cell resistive liner
A phase change memory (PCM) cell includes a first electrode, a heater electrically connected to the first electrode, a PCM material electrically connected to the heater, a second electrode electrically connected to the PCM material, and a resistive liner in direct contact with and electrically connected to a sidewall of the heater and to the PCM material. |
| US11545621B2 |
Layer stack for magnetic tunnel junction device
The disclosed technology relates generally to semiconductor devices, and more particularly to a layer stack for a magnetic tunnel junction (MTJ) device, and a method of forming the same. According to an aspect, a layer stack for a (MTJ) device comprises a seed layer structure, a pinning layer structure arranged above the seed layer structure, and above the pinning layer structure a Fe-comprising reference layer structure and a free layer structure separated by a tunnel barrier layer. The seed layer structure comprises a Ru-comprising layer and a Cr-comprising layer. The Cr-comprising layer forms an upper layer of the seed layer structure. |
| US11545618B2 |
Spin element and reservoir element including high resistance layer
A spin element includes a wiring, a laminated body including a first ferromagnetic layer laminated on the wiring, a first conductive part and a second conductive part which sandwich the first ferromagnetic layer in a plan view in a laminating direction, and a first high resistance layer which is in contact with the wiring between the first conductive part and the wiring and has an electrical resistivity equal to or higher than that of the wiring. |
| US11545608B2 |
Reducing dissipation and frequency noise in quantum devices using a local vacuum cavity
A device includes: a substrate including a superconductor quantum device, the superconductor quantum device including a superconductor material that exhibits superconducting properties at or below a corresponding critical temperature; a cap layer bonded to the substrate; and a sealed cavity between the cap layer and the substrate. |
| US11545600B2 |
LED package
A LED package comprises an LED chip, a reflective structure which encloses the LED chip, a wavelength conversion structure placed on the LED chip, and an absorbing structure which encloses or is placed on the reflective structure. |
| US11545598B2 |
Wavelength conversion element and projection apparatus
A wavelength conversion element includes a substrate, an adhesion layer and a wavelength conversion material. The substrate has a bearing surface having an adhesion zone. The adhesion zone has a central portion and two edge portions respectively on two sides of the central portion. The adhesion layer is disposed on the adhesion zone and includes a first adhesive and a second adhesive. The first adhesive is disposed at the edge portions. The second adhesive is disposed at the central portion. Operating temperature of the first adhesive is lower than operating temperature of the second adhesive. Viscosity of the first adhesive is larger than viscosity of the second adhesive. The wavelength conversion material is fixed on the bearing surface by the first adhesive and the second adhesive. A projection apparatus having the wavelength conversion element is provided, and the durability of the wavelength conversion element and the projection apparatus is improved. |
| US11545597B2 |
Fabrication for precise line-bond control and gas diffusion between LED components
A light emitting device includes an LED having a (e.g., top) light output surface, a ceramic phosphor, and an adhesive layer positioned to attach the top of the LED to the ceramic phosphor. In one embodiment the adhesive layer is composed of multiple separate patches (regions) that define at least one channel therebetween, with the channel being open to an environment to permit oxygen permeation. The adhesive layer can be applied by a patternable dispensing system. |
| US11545594B2 |
Display panel and display device
A display panel and a display device are provided in the present disclosure. The display panel includes a substrate and an array layer on the substrate, where the array layer includes a plurality of control units, one control unit includes a plurality of thin-film transistors, and the plurality of thin-film transistors in a same control unit is sequentially arranged along a ring-shaped path. The display panel further includes a plurality of light-emitting units on a side of the array layer away from the substrate. The plurality of light-emitting units and the plurality of control units are in a one-to-one correspondence. A light-emitting unit includes a plurality of light-emitting devices each having a first electrode. A plurality of first electrodes in a same light-emitting unit is sequentially arranged along an arrangement direction of the plurality of thin-film transistors in a control unit corresponding to the same light-emitting unit. |
| US11545586B2 |
Group III-nitride Schottky diode
A Group III-Nitride (III-N) device structure is provided which comprises: a heterostructure having three or more layers comprising III-N material, an anode within a recess that extends through two or more of the layers, wherein the anode is in electrical contact with the first layer, a cathode comprising donor dopants, wherein the cathode is on the first layer of the heterostructure; and a conducting region in the first layer in direct contact to the cathode and conductively connected to the anode. Other embodiments are also disclosed and claimed. |
| US11545584B2 |
Memory device having recessed active region
A memory device includes an active region, a select gate, a control gate, and a blocking layer. The active region includes a bottom portion and a protruding portion protruding from the bottom portion. A source is in the bottom portion and a drain is in the protruding portion. The select gate is above the bottom portion. A top surface of the select gate is lower than a top surface of the protruding portion. The control gate is above the bottom portion. The blocking layer is between the select gate and the control gate. |
| US11545580B2 |
Metal oxide (MO semiconductor and thin-film transistor and application thereof
The present invention discloses a metal oxide (MO) semiconductor, which is obtained by doping a small amount of rare-earth oxide (RO) as a photo-induced carrier transportion center into an indium-containing MO semiconductor to form a (In2O3)x(MO)y(RO)z semiconductor material. According to the present invention, a charge transportion center can be formed by utilizing the characteristics that the radius of rare-earth ions is equal to that of indium ions, and 4f orbitals in the rare-earth ions and 5s orbitals of the indium ions, so as to improve the stability under illumination. The present invention further provides a thin-film transistor based on the MO semiconductor and application thereof. |
| US11545579B2 |
Semiconductor device and method for manufacturing the same
Many of the physical properties of a silicon semiconductor have already been understood, whereas many of the physical properties of an oxide semiconductor have been still unclear. In particular, an adverse effect of an impurity on an oxide semiconductor has been still unclear. In view of the above, a structure is disclosed in which an impurity that influences electrical characteristics of a semiconductor device including an oxide semiconductor layer is prevented or is eliminated. A semiconductor device which includes a gate electrode, an oxide semiconductor layer, and a gate insulating layer provided between the gate electrode and the oxide semiconductor layer and in which the nitrogen concentration in the oxide semiconductor layer is 1×1020 atoms/cm3 or less is provided. |
| US11545574B2 |
Single diffusion breaks including stacked dielectric layers
Structures for a single diffusion break and methods of forming a structure for a single diffusion break. A cut is formed in a semiconductor fin. A single diffusion break includes a first dielectric layer in the cut and a second dielectric layer over the first dielectric layer. The first dielectric layer is comprised of a first material, and the second dielectric layer is comprised of a second material having a different composition than the first material. The second dielectric layer includes a first portion over the first dielectric layer and a second portion over the first portion. The first portion of the second dielectric layer has a first horizontal dimension, and the second portion of the second dielectric layer has a second horizontal dimension that is greater than the first horizontal dimension. |
| US11545571B2 |
Semiconductor device and manufacturing method thereof
The semiconductor device includes a first source/drain layer, a dielectric layer, a channel, a gate electrode, a first gate dielectric layer, a seed layer, a conductive layer, and a second source/drain layer. The dielectric layer is disposed on the first source/drain layer, in which the dielectric layer has a hole penetrating the dielectric layer. The channel is disposed in the hole and extends substantially perpendicular to an upper surface of the first source/drain layer. The gate electrode surrounds the channel. The first gate dielectric layer is disposed between the gate electrode and the channel. The seed layer is disposed between the gate electrode and the dielectric layer and on an upper surface of the dielectric layer, in which the seed layer covers a portion of a sidewall of the hole. |
| US11545570B2 |
High-voltage devices integrated on semiconductor-on-insulator substrate
The present disclosure generally to semiconductor devices, and more particularly to semiconductor devices having high-voltage transistors integrated on a semiconductor-on-insulator substrate and methods of forming the same. The present disclosure provides a semiconductor device including a semiconductor-on-insulator (SOI) substrate having a semiconductor layer, a bulk substrate and an insulating layer between the semiconductor layer and the bulk substrate, a source region and a drain region disposed on the bulk substrate, an isolation structure extending through the insulating layer and the semiconductor layer and terminates in the bulk substrate, and a gate structure between the source region and the drain region, the gate structure is disposed on the semiconductor layer. |
| US11545567B2 |
Methods for forming fluorine doped high electron mobility transistor (HEMT) devices
A semiconductor device includes a substrate, a channel layer, a barrier layer, a compound semiconductor layer, a source/drain pair, a fluorinated region, and a gate. The channel layer is disposed over the substrate. The barrier layer is disposed over the channel layer. The compound semiconductor layer is disposed over the barrier layer. The source/drain pair is disposed over the substrate, wherein the source and the drain are located on opposite sides of the compound semiconductor layer. The fluorinated region is disposed in the compound semiconductor layer. The gate is disposed on the compound semiconductor layer. |
| US11545558B2 |
Method of manufacturing a transistor
There is provided a method of manufacturing a transistor, the method comprising: (a) providing a substrate having a semiconductor surface; (b) providing a graphene layer structure on a first portion of the semiconductor surface, wherein the graphene layer structure has a thickness of n graphene monolayers, wherein n is at least 2; (c) etching a first portion of the graphene layer structure to reduce the thickness of the graphene layer structure in said first portion to from n−1 to 1 graphene monolayers; (d) forming a layer of dielectric material on the first portion of the graphene layer structure; and (e) providing: a source contact on a second portion of the graphene layer structure; a gate contact on the layer of dielectric material; and a drain contact on a second portion of the semiconductor surface of the substrate. |
| US11545548B1 |
Gate contacts with airgap isolation
Structures for a semiconductor device including airgap isolation and methods of forming a semiconductor device structure that includes airgap isolation. The structure includes a trench isolation region, an active region of semiconductor material surrounded by the trench isolation region, and a field-effect transistor including a gate within the active region. The structure further includes a dielectric layer over the field-effect transistor, a first gate contact coupled to the gate, and a second gate contact coupled to the gate. The first and second gate contacts are positioned in the dielectric layer over the active region, and the second gate contact is spaced along a longitudinal axis of the gate from the first gate contact. The structure further includes an airgap including a portion positioned in the dielectric layer over the gate between the first and second gate contacts. |
| US11545542B2 |
Display panel, display device, and method for manufacturing display panel
A display panel, a display device, and a method for manufacturing a display panel are disclosed. The display panel includes a first power bus and a first power line. A display region of the display panel includes a first region and a second region, the first region and the second region include a plurality of first pixel units, respectively, the first power bus is between the first region and the second region, and the first power line is electrically connected to the first power bus and extends from the first power bus to the first region and the second region, respectively, so as to supply power to the plurality of first pixel units in the first region and the second region, respectively. |
| US11545541B2 |
Display device including light emitting element including reflection electrode on which multiple metallic conductive layers are stacked and method for manufacturing same
A wiring line is provided on a TFT layer, in which the wiring line is formed in the same layer and formed of the same material as those of a reflection electrode. The reflection electrode includes a plurality of metallic conductive layers made up of a low resistance metallic material, an oxide-based lower transparent conductive layer provided on a lower surface side of a lowermost metallic conductive layer constituting a lowermost layer, an oxide-based upper transparent conductive layer having light reflectivity and provided on an upper surface side of an uppermost metallic conductive layer constituting an uppermost layer, and an oxide-based intermediate transparent conductive layer provided between the plurality of metallic conductive layers. |
| US11545535B2 |
Stretchable display panel and display device
The present disclosure provides a stretchable display panel and a display device. The stretchable display panel includes: a flexible substrate which is divided into a plurality of display areas and non-display areas located between the display areas; wherein the display areas include light-emitting devices and driving circuits coupled to the light-emitting devices; and the non-display areas include wiring areas and a plurality of opening areas located between the wiring areas, the wiring areas include wires coupled to the driving circuits, and the opening areas are of a hollow structure. The plurality of opening areas are formed in the non-display areas, and the flexible substrate in the opening areas is of a hollow structure, that is, no film layer is reserved in the opening areas, thus when the display panel is stretched, the display panel can be stretched in any direction, and the stretching effect of the display panel is improved. |
| US11545531B2 |
Display device comprising a conductor having a width of the first portion in the second direction being greater than a width of the second portion in the first direction
A display device includes a substrate having a first side and a second side, a display region having a light-emitting element that includes an electrode, a pixel electrode disposed between the substrate and the electrode in a thickness direction of the substrate, and a light-emitting function layer disposed between the pixel electrode and the electrode in the thickness direction, a drive circuit disposed between the first side and the display region in plan view, and a conductive layer having a first portion extending between the first side and the display region in plan view and along the first direction, and a second portion extending between the second side and the display region in plan view and along the second direction, wherein a width of the first portion in the second direction is greater than a width of the second portion in the first direction. |
| US11545526B2 |
Image sensors
An image sensor includes a substrate including a first surface and a second surface, a first transmission gate electrode on the first surface of the substrate, a storage node on the first surface of the substrate and including a first storage gate electrode isolated from direct contact with the first transmission gate electrode, a dielectric layer on the first storage gate electrode, and a semiconductor layer on the dielectric layer. The image sensor may include a first cover insulating layer on the semiconductor layer and vertically overlapping the first transmission gate electrode, and an organic photoelectric conversion layer on an upper surface of the semiconductor layer and an upper surface of the first cover insulating layer. |
| US11545525B2 |
Imaging device
An exemplary imaging device according to the present disclosure includes: an imaging region including a plurality of pixels; a peripheral region located outside of the imaging region; and a blockade region located between the imaging region and the peripheral region Each of the plurality of pixels includes a photoelectric conversion layer, a pixel electrode to collect a charge generated in the photoelectric conversion layer, and a first doped region electrically connected to the pixel electrode. In the peripheral region, a circuit to drive the plurality of pixels is provided. The blockade region includes a second doped region of a first conductivity type located between the imaging region and the peripheral region and a plurality of first contact plugs connected to the second doped region. |
| US11545520B2 |
Display device
The display device includes a first unit, and a plurality of second units. The first unit includes a first substrate, and a light blocking structure disposed on the first substrate. The light blocking structure has a plurality of first openings. Each one of the second units includes a second substrate, and a plurality of light emitting diodes disposed on the second substrate. The light emitting diodes correspond to a portion of the first openings. The second units are adhered to the first unit. |
| US11545519B2 |
Member for solid-state image pickup device and method for manufacturing solid-state image pickup device
A member for a solid-state image pickup device having a bonding plane with no gaps and a method for manufacturing the same are provided. The manufacturing method includes the steps of providing a first substrate provided with a photoelectric converter on its primary face and a first wiring structure, providing a second substrate provided with a part of a peripheral circuit on its primary face and a second wiring structure, and performing bonding so that the first substrate, the first wiring structure, the second wiring structure, and the second substrate are disposed in this order. In addition, at least one of an upper face of the first wiring structure and an upper face of the second wiring structure has a concave portion, and a conductive material forms a bottom face of the concave portion. |
| US11545518B2 |
Image sensor and method for fabricating the same
A method for fabricating an image sensor is described which includes forming an insulating layer on a semiconductor substrate and forming a recess in the semiconductor substrate and the insulating layer. An epitaxial structure is grown in the recess. A first polish treatment is then performed to the insulating layer and the epitaxial structure. The insulating layer is detected to obtain a signal intensity, and the signal intensity increases as a thickness of the insulating layer decreases. The first polish treatment stops when the signal intensity reaches a target value. |
| US11545517B2 |
Chip package structure, electronic device and method for preparing a chip package structure
The present application provides a chip package structure and an electronic device, which could reduce a chip package thickness and implement ultra-thinning of chip package. The chip package structure includes a chip, a substrate, a lead and a lead protection adhesive; the lead is configured to electrically connect the chip and the substrate; the lead protection adhesive is configured to support the lead, where a highest point of the lead protection adhesive is not higher than a highest point of an upper edge of the lead. |
| US11545515B2 |
Sensors having visible and near infra-red light sensors and optical filter and electronic devices including same
A sensor includes a visible light sensor configured to sense light in a visible wavelength spectrum, a near infra-red light sensor on the visible light sensor and configured to sense light in a near infra-red wavelength spectrum, and an optical filter on the near infra-red light sensor and configured to selectively transmit the light in the visible wavelength spectrum and the light in the near infra-red wavelength spectrum, and an electronic device. |
| US11545510B2 |
Array substrate, and production method thereof, display panel, and display apparatus
This disclosure discloses an array substrate, and a production method, a display panel, and a display apparatus thereof. Particularly, this disclosure proposes a method of producing an array substrate, having the following steps: providing a substrate having a drive transistor region and a switch transistor region thereon; forming an preset layer for active layer on a side of the substrate; patterning the preset layer for active layer to form a drive active layer and a switch active layer, wherein an orthographic projection of the drive active layer on the substrate is located in the drive transistor region, an orthographic projection of the switch active layer on the substrate is located in the switch transistor region, and a carrier concentration in the drive active layer is less than a carrier concentration in the switch active layer. |
| US11545503B2 |
Semiconductor device, systems and methods of manufacture
A semiconductor memory device includes a stack of word lines and insulating patterns. Cell pillars extend vertically through the stack of word lines and insulating patterns with memory cells being formed at the junctions of the cell pillars and the word lines. A ratio of the thickness of the word lines to the thickness of immediately neighboring insulating patterns is different at different locations along one or more of the cell pillars. Related methods of manufacturing and systems are also disclosed. |
| US11545500B2 |
Three-dimensional memory device and method
In an embodiment, a device includes: a first dielectric layer having a first sidewall; a second dielectric layer having a second sidewall; a word line between the first dielectric layer and the second dielectric layer, the word line having an outer sidewall and an inner sidewall, the inner sidewall recessed from the outer sidewall, the first sidewall, and the second sidewall; a memory layer extending along the outer sidewall of the word line, the inner sidewall of the word line, the first sidewall of the first dielectric layer, and the second sidewall of the second dielectric layer; and a semiconductor layer extending along the memory layer. |
| US11545494B2 |
Semiconductor device having low-k spacer and converting spacer and method for fabricating the same
A method for fabricating a semiconductor device includes forming a line structure including a first contact plug on a semiconductor substrate and a conductive line on the first contact plug, forming a low-k layer having a first low-k, which covers a top surface and side walls of the line structure, performing a converting process on the low-k layer to form a non-converting portion adjacent to side walls of the first contact plug and maintains the first low-k and a converting portion adjacent to side walls of the conductive line and having a second low-k that is lower than the first low-k, and forming a second contact plug which is adjacent to the first contact plug with the non-converting portion therebetween while being adjacent to the conductive line with the converting portion therebetween. |
| US11545493B2 |
Memory devices and methods of fabricating the same
A method of fabricating a memory device includes forming an oxide layer on a semiconductor substrate, and forming an isolation structure in the semiconductor substrate and the oxide layer to define an active area. The method also includes forming a word line and a bit line in the semiconductor substrate, wherein the bit line is above the word line. The method further includes removing the oxide layer to form a recess between the isolation structure and the bit line, and forming a storage node contact in the recess. In addition, from a top view, the storage node contact of the memory device overlaps a corresponding portion of the active area. |
| US11545491B2 |
Fin field-effect transistor and method of forming the same
A semiconductor device includes a semiconductor substrate. The semiconductor device includes a first fin protruding from the semiconductor substrate and extending along a first direction. The semiconductor device includes a second fin protruding from the semiconductor substrate and extending along the first direction. A first epitaxial source/drain region coupled to the first fin and a second epitaxial source/drain region coupled to the second fin are laterally spaced apart from each other by an air void. |
| US11545490B2 |
Semiconductor structure and method for forming the same
A semiconductor structure is provided. The semiconductor structure includes a first gate-all-around FET over a substrate, and the first gate-all-around FET includes first nanostructures and a first gate stack surrounding the first nanostructures. The semiconductor structure also includes a first FinFET adjacent to the first gate-all-around FET, and the first FinFET includes a first fin structure and a second gate stack over the first fin structure. The semiconductor structure also includes a gate-cut feature interposing the first gate stack of the first gate-all-around FET and the second gate stack of the first FinFET. |
| US11545486B2 |
Integrated thin film resistor and metal-insulator-metal capacitor
The present disclosure relates to semiconductor structures and, more particularly, to an integrated thin film resistor with a metal-insulator-metal capacitor and methods of manufacture. The structure includes: a first buffer contact on a substrate; a second buffer contact on the substrate, the second buffer contact being on a same wiring level as the first buffer contact; a resistive film contacting the first buffer contact and the second buffer contact, the resistive film extending on the substrate between the first buffer contact and the second buffer contact; and electrical contacts landing on both the first buffer contact and the second buffer contact, but not directly contacting with the resistive film. |
| US11545485B2 |
Type III-V semiconductor substrate with monolithically integrated capacitor
A semiconductor die includes a barrier layer of type III-V semiconductor material, a channel layer of type III-V semiconductor material disposed below the barrier layer, the channel layer forming a heterojunction with the barrier layer such that a two-dimensional charge carrier gas is disposed in the channel layer near the heterojunction, a high-electron mobility transistor disposed in a first lateral region of the semiconductor die, the high-electron mobility transistor comprising source and drain electrodes that each are in ohmic contact with the two-dimensional charge carrier gas and a gate structure that is configured to control a conductive connection between the source and drain electrodes, and a capacitor that is monolithically integrated into the semiconductor die and is disposed in a second lateral region of the semiconductor die, a dielectric medium of the capacitor includes a first section of the barrier layer. |
| US11545484B2 |
Method of dummy pattern layout
A design method of a dummy pattern layout including the following steps is provided. An integrated circuit layout design including resistor elements is obtained via a computer. The locations of dummy conductive structures are configured, wherein the dummy conductive structures are aligned with the resistor elements. The locations of dummy support patterns are configured, wherein each of the dummy support patterns is configured between two adjacent dummy conductive structures, and each of the dummy conductive structures is equidistant from the dummy support patterns on both sides. |
| US11545477B2 |
Logic drive based on standardized commodity programmable logic semiconductor IC chips
A chip package includes an interposer comprising a silicon substrate, multiple metal vias passing through the silicon substrate, a first interconnection metal layer over the silicon substrate, a second interconnection metal layer over the silicon substrate, and an insulating dielectric layer over the silicon substrate and between the first and second interconnection metal layers; a field-programmable-gate-array (FPGA) integrated-circuit (IC) chip over the interposer; multiple first metal bumps between the interposer and the FPGA IC chip; a first underfill between the interposer and the FPGA IC chip, wherein the first underfill encloses the first metal bumps; a non-volatile memory (NVM) IC chip over the interposer; multiple second metal bumps between the interposer and the NVM IC chip; and a second underfill between the interposer and the NVM IC chip, wherein the second underfill encloses the second metal bumps. |
| US11545476B2 |
Display device and method of fabricating the same
A method of fabricating a display device includes forming a circuit layer on a base layer, forming a first preliminary electrode and a second preliminary electrode on the circuit layer, forming a photoresist layer on the first preliminary electrode and the second preliminary electrode, patterning the photoresist layer to form a photoresist pattern, treating a region of each of the first preliminary electrode and the second preliminary electrode to form a first electrode and a second electrode having regions of lower and higher electrical resistance, and disposing a light-emitting element on the first electrode and the second electrode at regions having lower electrical resistance. |
| US11545474B2 |
Method and system for transferring alignment marks between substrate systems
A method for transferring alignment marks between substrate systems includes providing a substrate having semiconductor devices and alignment marks in precise alignment with the semiconductor devices; and physically transferring and bonding the semiconductor devices and the alignment marks to a temporary substrate of a first substrate system. The method can also include physically transferring and bonding the semiconductor devices and the alignment marks to a mass transfer substrate of a second substrate system; and physically transferring and bonding the semiconductor devices and the alignment marks to a circuitry substrate of a third substrate system. A system for transferring alignment marks between substrate systems includes the substrate having the semiconductor devices and the alignment marks in precise alignment with the semiconductor devices. The system also includes the first substrate system, and can include the second substrate system and the third substrate system. |
| US11545473B2 |
Light-emitting device
A light-emitting device according to the present invention comprises: a mounting board; a plurality of light-emitting elements that each include a supporting substrate and a semiconductor structure layer, the supporting substrate being disposed on the mounting board, and the semiconductor structure layer being formed on the supporting substrate and including a light-emitting layer, a wavelength conversion member that covers the plurality of light-emitting elements above the light-emitting elements and converts a wavelength of a light emitted from the light-emitting layer; a translucent member that covers a lower surface of the wavelength conversion member and covers the semiconductor structure layer on the supporting substrate; and a resin member filled between the plurality of light-emitting elements, the resin member being formed of a resin material containing particles having a light reflectivity. The translucent member includes a thin film portion having a constant film thickness between the wavelength conversion member and the resin member in a region between the plurality of light-emitting elements, and the constant film thickness is smaller than a distance between a top surface of the supporting substrate and a lower surface of the wavelength conversion member. |
| US11545470B2 |
Semiconductor module
In a semiconductor module, semiconductor chips are each provided with a drain portion on one of a pair of surfaces facing each other, and a source portion and a gate portion on the other surface. Substrates each include three power supply patterns capable of transmitting power supplied from a power supply, and at least two signal patterns capable of transmitting a control signal. The three power supply patterns and the two signal patterns extend in parallel to each other along a first direction. Among the three power supply patterns, two of them are capable of mounting the semiconductor chips and connectable to the drain portions of the mounted semiconductor chips, and remaining one of them is connectable to the source portions of the semiconductor chips. The two signal patterns are connectable to the gate portions of the semiconductor chips. |
| US11545467B2 |
IC die to IC die interconnect using error correcting code and data path interleaving
A multi-chip module includes a first Integrated Circuit (IC) die a second IC die. The first IC die includes an array of first bond pads, a plurality of first code group circuits, and first interleaved interconnections between the plurality of first code group circuits and the array of first bond pads, the first interleaved interconnections including a first interleaving pattern causing data from different code group circuits to be coupled to adjacent first bond pads. The second IC die includes a second array of bond pads that electrically couple to the array of first bond pads, a plurality of second code group circuits, and second interleaved interconnections between the plurality of second code group circuits and the array of second bond pads, the second interleaved interconnections including a second interleaving pattern causing data from different code groups to be coupled to adjacent second bond pads. |
| US11545462B2 |
Mounting apparatus and mounting system
A mounting apparatus for stacking and mounting two or more semiconductor chips at a plurality of locations on a substrate includes: a first mounting head for forming, at a plurality of locations on the substrate, temporarily stacked bodies in which two or more semiconductor chips are stacked in a temporarily press-attached state; and a second mounting head for forming chip stacked bodies by sequentially finally press-attaching the temporarily stacked bodies formed at the plurality of locations. The second mounting head includes: a press-attaching tool for heating and pressing an upper surface of a target temporarily stacked body to thereby finally press-attach the two or more semiconductor chips configuring the temporarily stacked body altogether; and one or more heat-dissipation tools having a heat-dissipating body which, by coming into contact with an upper surface of another stacked body positioned around the target temporarily stacked body, dissipates heat from the another stacked body. |
| US11545456B2 |
Microelectronic devices, electronic systems having a memory array region and a control logic region, and methods of forming microelectronic devices
A microelectronic device comprises a first die and a second die attached to the first die. The first die comprises a memory array region comprising a stack structure comprising vertically alternating conductive structures and insulative structures, vertically extending strings of memory cells within the stack structure, and first bond pad structures vertically neighboring the vertically extending strings of memory cells. The second die comprises a control logic region comprising control logic devices configured to effectuate at least a portion of control operations for the vertically extending string of memory cells, second bond pad structures in electrical communication with the first bond pad structures, and signal routing structures located at an interface between the first die and the second die. Related microelectronic devices, electronic systems, and methods are also described. |
| US11545454B2 |
Semiconductor device
A semiconductor device includes an insulating layer, a barrier electrode layer formed on the insulating layer, a Cu electrode layer that includes a metal composed mainly of copper and that is formed on a principal surface of the barrier electrode layer, and an outer-surface insulating film that includes copper oxide, that coats an outer surface of the Cu electrode layer, and that is in contact with the principal surface of the barrier electrode layer. |
| US11545451B2 |
Semiconductor package
A semiconductor package includes a semiconductor chip having at least one chip pad disposed on one surface thereof; a wiring pattern disposed on top of the semiconductor chip and having at least a portion thereof in contact with the chip pad to be electrically connected to the chip pad; and a solder bump disposed on outer surface of the wiring pattern to be electrically connected to the chip pad through the wiring pattern. |
| US11545450B2 |
Interlocked redistribution layer interface for flip-chip integrated circuits
This disclosure provides an integrated circuit device that includes a RDL that is interlocked with a bump (or “pillar”). The interlocked interface provides the contact RDL-bump interface with increased structural stability that can better withstand the thermal stresses associated with high performance devices IC devices. The interlock structure mitigates crack/delamination that occurs at the RDL-bump interface in large IC chips that are generally subjected to higher stresses during operation. |
| US11545448B2 |
Moisture-resistant electronic component and process for producing such a component
An electronic component includes a first set comprising an interconnect layer and an electronic circuit having a front face and a back face, which is connected to the interconnect layer by the front face, wherein the first set comprises a metal plate having a front face and a back face joined to the back face of the electronic circuit; a coupling agent between the front face of the metal plate and the back face of the electronic circuit, configured to thermally and electrically connect the metal plate to the electronic circuit; and in that the electronic component comprises: one or more layers made of organic materials stacked around the first set and the metal plate using a printed circuit-type technique and encapsulating the electronic circuit; a thermally conductive metal surface arranged at least partially in contact with the back face of the metal plate. |
| US11545441B2 |
Semiconductor package having wafer-level active die and external die mount
Semiconductor packages and package assemblies having active dies and external die mounts on a silicon wafer, and methods of fabricating such semiconductor packages and package assemblies, are described. In an example, a semiconductor package assembly includes a semiconductor package having an active die attached to a silicon wafer by a first solder bump. A second solder bump is on the silicon wafer laterally outward from the active die to provide a mount for an external die. An epoxy layer may surround the active die and cover the silicon wafer. A hole may extend through the epoxy layer above the second solder bump to expose the second solder bump through the hole. Accordingly, an external memory die can be connected directly to the second solder bump on the silicon wafer through the hole. |
| US11545438B2 |
Semiconductor packages and methods of forming the same
A semiconductor package includes a first interposer, a second interposer, a first die, a second die and at least one bridge structure. The first interposer and the second interposer are embedded by a first dielectric encapsulation. The first die is disposed over and electrically connected to the first interposer. The second die is disposed over and electrically connected to the second interposer. The at least one bridge structure is disposed between the first die and the second die. |
| US11545429B2 |
Interconnect structures having lines and vias comprising different conductive materials
Embodiments described herein relate generally to one or more methods for forming an interconnect structure, such as a dual damascene interconnect structure comprising a conductive line and a conductive via, and structures formed thereby. In some embodiments, an interconnect opening is formed through one or more dielectric layers over a semiconductor substrate. The interconnect opening has a via opening and a trench over the via opening. A conductive via is formed in the via opening. A nucleation enhancement treatment is performed on one or more exposed dielectric surfaces of the trench. A conductive line is formed in the trench on the one or more exposed dielectric surfaces of the trench and on the conductive via. |
| US11545427B2 |
Capacitor bank structure and semiconductor package structure
A capacitor bank structure includes a plurality of capacitors, a protection material, a first dielectric layer and a plurality of first pillars. The capacitors are disposed side by side. Each of the capacitors has a first surface and a second surface opposite to the first surface, and includes a plurality of first electrodes and a plurality of second electrodes. The first electrodes are disposed adjacent to the first surface for external connection, and the second electrodes are disposed adjacent to the second surface for external connection. The protection material covers the capacitors, sidewalls of the first electrodes and sidewalls of the second electrodes, and has a first surface corresponding to the first surface of the capacitor and a second surface corresponding to the second surface of the capacitor. The first dielectric layer is disposed on the first surface of the protection material, and defines a plurality of openings to expose the first electrodes. The first pillars are disposed in the openings of the first dielectric layer and protrude from the first dielectric layer. |
| US11545422B2 |
Fan-out semiconductor package including under-bump metallurgy
A fan-out semiconductor package includes: a support wiring structure including a support wiring conductive structure, a plurality of support wiring insulating layers including a first support wiring insulating layer having a recess area and a second support wiring insulating layer on the first support wiring insulating layer and enveloping the support wiring conductive structure, a pad layer enveloped by the second support wiring insulating layer and connected to the support wiring conductive structure, and an under-bump metallurgy (UBM) layer enveloped by the first support wiring insulating layer and connected to the pad layer; and a semiconductor chip on the support wiring structure, wherein the UBM layer includes a body portion and a protrusion protruding from the body portion and arranged in the recess area. |
| US11545421B2 |
Package including multiple semiconductor devices
In a general aspect, an apparatus can include an inner package including a first silicon carbide die having a die gate conductor coupled to a common gate conductor, and a second silicon carbide die having a die gate conductor coupled to the common gate conductor. The apparatus can include an outer package including a substrate coupled to the common gate conductor, and a clip coupled to the inner package and coupled to the substrate. |
| US11545419B2 |
Semiconductor package having an additional material with a comparative tracking index (CTI) higher than that of encapsulant resin material formed between two terminals
A semiconductor device includes a first switching element; a second switching element; a first metal member; a second metal member; a first terminal that has a potential on a high potential side; a second terminal that has a potential on a low potential side; a third terminal that has a midpoint potential; and a resin part. A first potential part has potential equal to potential of the first terminal. A second potential part has potential equal to potential of the second terminal. A third potential part has potential equal to potential of the third terminal. A first creepage distance between the first potential part and the second potential part is longer than a minimum value of a second creepage distance between the first potential part and the third potential part and a third creepage distance between the second potential part and the third potential part. |
| US11545416B2 |
Minimization of insertion loss variation in through-silicon vias (TSVs)
An electronic device package is described. The electronic device package includes one or more dies. The electronic device package includes an interposer coupled to the one or more dies. The electronic device package also includes a package substrate coupled to the interposer. The electronic device package includes a plurality of through-silicon vias (TSVs) in at least one die of the one or more dies, or the interposer, or both. The electronic device package includes a passive equalizer structure communicatively coupled to a TSV pair in the plurality of TSVs. The passive equalizer structure is operable to minimize a level of insertion loss variation in the TSV pair. |
| US11545415B2 |
Pressure controllable encapsulated liquid thermal interface
Heat is transferred to a cold plate from one or more subassemblies in an array of subassemblies in an electronic package. The cold plate has a thermally conductive cold plate substrate, a pressure header, a pressure passage, and one or more pressure connections. Each of the pressure connections connects through a housing opening to housing volume defined by a flexible housing in an encapsulated liquid thermal interface (LTI). The flexible housing is in physical and thermal contact with one of the subassemblies through a housing bottom and a top surface of one or more components in the subassembly. A thermally conductive fluid fills the housing volume, housing opening, pressure connections, pressure passage, and pressure header which are all in fluid communication along with one or more other connections, housing openings, and LTIs on other subassemblies. The system transfers heat from the subassemblies to the cold plate while maintaining a constant pressure/stress on each of the subassemblies. The system pressure on each of the subassemblies is equal. The system pressure can be controlled to a preloaded pressure to insure good electrical contact between components. Shear on the subassemblies is minimized by the LTIs. |
| US11545414B2 |
Enhancing convection and cooling in a circuit breaker
A circuit breaker with enhanced convection and cooling comprises a housing having a first portion and a second portion. The circuit breaker further comprises one or more first orientation features formed onto the first portion of the housing. The circuit breaker further comprises one or more second orientation features formed onto the second portion of the housing such that the one or more first orientation features are different from the one or more second orientation features and the first portion of the housing is different than the second portion of the housing. The one or more first orientation features and the one or more second orientation features are assembled together to form air channels to allow air to go in and out while preventing a solid object from protruding and from touching inside components of the circuit breaker. |
| US11545413B2 |
Thermal conduction sheet and heat dissipating device including thermal conduction sheet
Provided is a thermal conduction sheet, including graphite particles (A) of at least one kind selected from the group consisting of flake-shaped particles, ellipsoidal particles, and rod-shaped particles, in which: when the graphite particles (A) are flake-shaped particles, a planar direction of the graphite particles (A) is oriented in a thickness direction of the thermal conduction sheet, when the graphite particles (A) are ellipsoidal particles, a major axis direction of the graphite particles (A) is oriented in the thickness direction of the thermal conduction sheet, when the graphite particles (A) are rod-like particles, a longitudinal direction of the graphite particles (A) is oriented in the thickness direction of the thermal conduction sheet, the thermal conduction sheet has an elastic modulus of 1.4 MPa or less under a compression stress of 0.1 MPa at 150° C., and the thermal conduction sheet has a tack strength of 5.0 N·mm or higher at 25° C. |
| US11545412B2 |
Package structure and manufacturing method thereof
A package structure including a circuit board and a heat generating element is provided. The circuit board includes a plurality of circuit layers and a composite material layer. A thermal conductivity of the composite material layer is between 450 W/mK and 700 W/mK. The heat generating element is disposed on the circuit board and electrically connected to the circuit layers. Heat generated by the heat generating element is transmitted to an external environment through the composite material layer. |
| US11545403B2 |
Semiconductor package having a multilayer structure and a transport tray for the semiconductor structure
When a semiconductor package is stored in a transport tray and when a semiconductor package is transported by a transport tray, the semiconductor package comes into contact with the side wall of the transport tray, so that the end face of the semiconductor package is chipped and dust is generated from the end face of the semiconductor package. Provided is a technology for a semiconductor package that includes a multilayer structure having at least a synthetic resin layer and includes an outermost edge portion such that the end face of the synthetic resin layer protrudes outward compared to the end faces of the other layers constituting the multilayer structure. |
| US11545401B2 |
Isolated semiconductor layer stacks for a semiconductor device
In one aspect, a method of forming a semiconducting device can comprise forming, on a substrate surface, a stack comprising semiconductor material sheets and a bottom semiconductor nanosheet; forming a trench through the stack vertically down through the bottom semiconductor nanosheet, thereby separating the stack into two substacks; selectively removing the bottom semiconductor nanosheet, thereby forming a bottom space extending under the substacks; and filling the bottom space and the trench with a dielectric material to provide a bottom isolation and formation of a dielectric wall between the substacks. |
| US11545400B2 |
Methods of cutting metal gates and structures formed thereof
A method includes forming a gate stack, which includes a gate dielectric and a metal gate electrode over the gate dielectric. An inter-layer dielectric is formed on opposite sides of the gate stack. The gate stack and the inter-layer dielectric are planarized. The method further includes forming an inhibitor film on the gate stack, with at least a portion of the inter-layer dielectric exposed, selectively depositing a dielectric hard mask on the inter-layer dielectric, with the inhibitor film preventing the dielectric hard mask from being formed thereon, and etching to remove a portion of the gate stack, with the dielectric hard mask acting as a portion of a corresponding etching mask. |
| US11545392B2 |
Semiconductor component having through-silicon vias
A semiconductor component includes a substrate having an opening. The semiconductor component further includes a first dielectric liner in the opening, wherein the first dielectric liner having a thickness T1 at a first end of the opening, and a thickness T2 at a second end of the opening, and R1 is a ratio of T1 to T2. The semiconductor component further includes a second dielectric liner over the first dielectric liner, wherein the second dielectric liner having a thickness T3 at the first end of the opening, a thickness T4 at the second end of the opening, R2 is a ratio of T3 to T4, and R1 is greater than R2. |
| US11545389B2 |
Titanium-containing diffusion barrier for CMP removal rate enhancement and contamination reduction
A semiconductor device is provided. The semiconductor device includes a dielectric layer over a substrate and a contact structure embedded in the dielectric layer. The contact structure includes a diffusion barrier contacting the dielectric layer, the diffusion barrier including a titanium (Ti)-containing alloy. The contact structure further includes a liner on the diffusion barrier, the liner including a noble metal. The contact structure further includes a conductive plug on the liner. |
| US11545386B2 |
Workpiece unit
A workpiece unit that includes a workpiece, a tape stuck to the workpiece; and an annular frame to which an outer circumferential edge of the tape is stuck and which has an opening defined centrally therein. The workpiece is disposed in the opening in the annular frame and supported on the annular frame by the tape, and at least one of the tape and the annular frame has an irreversible discoloring section that discolors in response to an external stimulus. Such a configuration makes it possible to determine whether or not a process involving an external stimulus has been carried out on the workpiece unit, based on the appearance of the workpiece unit (i.e., based on whether the irreversible discoloring section has been discolored or not). |
| US11545385B2 |
Method for fabricating electronic package and carrier structure thereof
A carrier structure having a strengthening layer is provided. The strengthening layer comprises 5 to 30% by weight polysiloxane, 1 to 20% by weight silicon dioxide, and 60 to 85% by weight polyethylene terephthalate (PET) film. The carrier structure is used in a semiconductor packaging process for improving the process reliability. |
| US11545383B2 |
Substrate positioning apparatus, substrate positioning method, and bonding apparatus
A substrate positioning apparatus includes a holder and a rotating device. The holder is configured to hold a substrate. The rotating device is configured to rotate the holder. The rotating device includes a rotation shaft, a bearing member, a base member, a driving unit and a damping device. The rotation shaft is fixed to the holder. The bearing member is configured to support the rotation shaft in a non-contact state. The bearing member is fixed on the base member. The driving unit is configured to rotate the rotation shaft. The damping device includes a rail connected to the base member and a slider connected to the rotation shaft, and is configured to produce a damping force against a relative operation between the rotation shaft and the base member by a resistance generated between the rail and the slider. |
| US11545374B2 |
Transferring of electronic components from a first to a second carrier
A device for transferring components from a first carrier to a second carrier. A first receptacle receives the first carrier so that components carried by the first carrier are oriented towards a second receptacle. A separating device separates the components from the first carrier for transfer to the second carrier. A first conveyor moves the first receptacle transverse to the conveying direction of the second carrier. A second conveyor moves the separating device transverse to the conveying direction of the second carrier. A first inspection device detects one of the components in its position relative to a storage position on the second receptacle guiding the second carrier. A second inspection device is arranged upstream of the storage position and detects one of the subassemblies on the second carrier relative to the second receptacle and signals the position of the subassembly to a controller. |
| US11545371B2 |
Platen shield cleaning system
In a chemical mechanical polishing system, a platen shield cleaning assembly is installed on a rotatable platen in a gap between the rotatable platen and a platen shield. The assembly includes a sponge holder attached to the platen and a sponge. The sponge is held by the sponge holder such that an outer surface of the sponge is pressed against an inner surface of the platen shield. |
| US11545368B2 |
Phosphorus fugitive emission control
A method of processing and passivating an implanted workpiece is disclosed, wherein, after passivation, the fugitive emissions of the workpiece are reduced to acceptably low levels. This may be especially beneficial when phosphorus, arsine, germane or another toxic species is the dopant being implanted into the workpiece. In one embodiment, a sputtering process is performed after the implantation process. This sputtering process is used to sputter the dopant at the surface of the workpiece, effectively lowering the dopant concentration at the top surface of the workpiece. In another embodiment, a chemical etching process is performed to lower the dopant concentration at the top surface. After this sputtering or chemical etching process, a traditional passivation process can be performed. |
| US11545363B2 |
Formation and in-situ etching processes for metal layers
The present disclosure relates to a semiconductor device and a manufacturing method of fabricating a semiconductor structure. The method includes forming an opening in a substrate and depositing a conformal metal layer in the opening. The depositing includes performing one or more deposition cycles. The deposition includes flowing a first precursor into a deposition chamber and purging the deposition chamber to remove at least a portion of the first precursor. The method also includes flowing a second precursor into the deposition chamber to form a sublayer of the conformal metal layer and purging the deposition chamber to remove at least a portion of the second precursor. The method further includes performing a metallic halide etching (MHE) process that includes flowing a third precursor into the deposition chamber. |
| US11545362B2 |
Manufacturing method of a semiconductor device with efficient edge structure
A manufacturing method of an electronic device includes: forming a drift layer of an N type; forming a trench in the drift layer; forming an edge-termination structure alongside the trench by implanting dopant species of a P type; and forming a depression region between the trench and the edge-termination structure by digging the drift layer. The steps of forming the depression region and the trench are carried out at the same time. The step of forming the depression region comprises patterning the drift layer to form a structural connection with the edge-termination structure having a first slope, and the step of forming the trench comprises etching the drift layer to define side walls of the trench, which have a second slope steeper than the first slope. |
| US11545359B2 |
Method of heating SOC film on wafer by electromagnetic wave generator and heating apparatus using the same
The present disclosure provides a method of heating a spin on coating (SOC) film on a wafer. The method includes actions S401 to S405. In action S401, a heating apparatus is provided. The heating apparatus includes a bake plate and an electromagnetic wave generator. In action S402, the bake plate is heated by a heating unit disposed in the bake plate. In action S403, the wafer is placed on the bake plate of the heating apparatus. In action S404, the electromagnetic wave generator generates an electromagnetic wave to heat the SOC film. The electromagnetic wave generated by the electromagnetic wave generator has a frequency within a range of 1 THz to 100 THz. In action S405, the wafer is removed from the bake plate of the heating apparatus. |
| US11545357B2 |
Formation of a Ga-doped SiGe and B/Ga-doped SiGe layers
A method for forming a Ga-doped SiGe layer comprises depositing, in the presence of a C-containing Ga precursor, Ga-doped SiGe on a substrate, thereby forming a first portion of the Ga-doped SiGe layer. The method further comprises depositing, in the absence of the C-containing Ga precursor, SiGe on the first portion, thereby forming a second portion of the Ga-doped SiGe layer. |
| US11545356B2 |
Polycrystalline ceramic substrate, bonding-layer-including polycrystalline ceramic substrate, and laminated substrate
Provided is a polycrystalline ceramic substrate to be bonded to a compound semiconductor substrate with a bonding layer interposed therebetween, wherein at least one of relational expression (1) 0.7<α1/α2<0.9 and relational expression (2) 0.7<α3/α4<0.9 holds, where α1 represents a linear expansion coefficient of the polycrystalline ceramic substrate at 30° C. to 300° C. and α2 represents a linear expansion coefficient of the compound semiconductor substrate at 30° C. to 300° C., and α3 represents a linear expansion coefficient of the polycrystalline ceramic substrate at 30° C. to 1000° C. and α4 represents a linear expansion coefficient of the compound semiconductor substrate at 30° C. to 1000° C. |
| US11545355B2 |
Substrate processing method and substrate processing apparatus
A method for processing a substrate includes: (a) exposing a substrate with a pattern formed on a surface thereof to a first reactive species in a chamber, thereby adsorbing the first reactive species onto the surface of the substrate; (b) exposing the substrate to plasma formed by a second reactive species in the chamber, thereby forming a film on the surface of the substrate; and (c) repeating a processing including (a) and (b) two or more times while changing a residence amount of the first reactive species at a time of starting (b). |
| US11545353B2 |
Logical operations in mass spectrometry
The invention generally relates to logical operations in mass spectrometry. The system comprising a mass spectrometer comprising one or more ion traps; and a central processing unit (CPU), and storage coupled to the CPU for storing instructions that when executed by the CPU cause the system to apply one or more scan functions to the one or more ion traps, the scan functions being combine together. |
| US11545351B2 |
Apparatus for electrospray emission
An electrospray apparatus including a plurality of emitters, disposed on a substrate, wherein the plurality of emitters can have a narrow parameter distribution. |
| US11545350B2 |
Method for structural analysis of organic compound
One mode is a method for the structural analysis of an organic compound by MALDI mass spectrometry, including: a sample preparation process (S1) which includes preparing a sample by mixing a specimen containing an organic compound to be analyzed with a predetermined matrix at a mixture ratio within a range from 1:5 to 1:5000 in molar ratio; a mass spectrometry process (S3) which includes irradiating the prepared sample with a laser beam having a spot size equal to or smaller than 15 μm to generate ions originating from a component of the specimen in the sample, and performing a mass spectrometric analysis of the generated ions; and an analyzing process (S4) which includes detecting, from a mass spectrum acquired in the mass spectrometry process, ions including product ions resulting from in-source decay, and estimating the structure of the organic compound to be analyzed based on information concerning the ions. |
| US11545348B2 |
Imaging mass spectrometer and method for imaging mass spectrometry
A measurement section (1) performs a mass spectrometric analysis for each micro area within a measurement area on a sample. A dimension reduction processor (23) performs data processing by non-linear dimension reduction using manifold learning on mass spectrometric data for each micro area, to obtain, for each micro area, a set of data reduced to three dimensions from the dimensions corresponding to the number of mass-to-charge-ratio values. A display color determiner (24) determines a color for each of the points corresponding to the data of the micro areas after the dimension reduction, by arranging those points within a three-dimensional space having three axes representing the three dimensions, with three primary colors respectively assigned to the three axes. A segmentation image creator (25) creates a segmentation image corresponding to the measurement area or a partial area in the measurement area, by arranging, on two dimensions, pixels which respectively correspond to the points within the three-dimensional space, where each pixel has a color given to the point corresponding to the pixel and is located according to the position within the measurement area of the micro area corresponding to the point. |
| US11545347B2 |
Internally divisible process chamber using a shutter disk assembly
Apparatus and methods for forming and using internally divisible physical vapor deposition (PVD) process chambers using shutter disks are provided herein. In some embodiments, an internally divisible process chamber may include an upper chamber portion having a conical shield, a conical adaptor, a cover ring, and a target, a lower chamber portion having a substrate support having inner and outer deposition rings, and wherein the substrate support is vertically movable, and a shutter disk assembly configured to internally divide the process chamber and create a separate sealed deposition cavity and a separate sealed oxidation cavity, wherein the shutter disk assembly includes one or more seals disposed along its outer edges and configured to contact at least one of the conical shield, the conical adaptor, or the deposition rings to form the separate sealed deposition and oxidation cavities. |
| US11545346B2 |
Capacitive sensing data integration for plasma chamber condition monitoring
Capacitive sensors and capacitive sensing data integration for plasma chamber condition monitoring are described. In an example, a plasma chamber monitoring system includes a plurality of capacitive sensors, a capacitance digital converter, and an applied process server coupled to the capacitance digital converter, the applied process server including a system software. The capacitance digital converter includes an isolation interface coupled to the plurality of capacitive sensors, a power supply coupled to the isolation interface, a field-programmable gate-array firmware coupled to the isolation interface, and an application-specific integrated circuit coupled to the field-programmable gate-array firmware. |
| US11545339B2 |
Multi-charged particle beam writing apparatus, and multi-charged particle beam writing method
A multi-charged particle beam writing apparatus according to one aspect of the present invention includes a region setting unit configured to set, as an irradiation region for a beam array to be used, the region of the central portion of an irradiation region for all of multiple beams of charged particle beams implemented to be emittable by a multiple beam irradiation mechanism, and a writing mechanism, including the multiple beam irradiation mechanism, configured to write a pattern on a target object with the beam array in the region of the central portion having been set in the multiple beams implemented. |
| US11545338B2 |
Charged particle beam apparatus and method of controlling sample charge
A charged particle beam apparatus with a charged particle source to generate a primary charged particle beam, a sample holder to hold a sample for impingement of the primary charged particle beam on the sample, a pulsed laser configured to generate a pulsed light beam for impingement onto an area on the sample, and an electrode to collect electrons emitted from the sample in a non-linear photoemission. |
| US11545333B2 |
X-ray source voltage shield
A shield around an x-ray tube, a voltage multiplier, or both can improve the manufacturing process by allowing testing earlier in the process and by providing a holder for liquid potting material. The shield can also improve voltage standoff. A shielded x-ray tube can be electrically coupled to a shielded power supply. |
| US11545332B1 |
Anode shield
Technology is described for an anode including a substrate, a target, and an anode shield. The substrate including a substrate material includes a first portion with a first cross-sectional dimension, and a second portion with a second cross-sectional dimension greater than the first cross-sectional dimension. The target includes a target material attached to a first surface of the first portion of the substrate. The anode shield includes a shield material attached to a second surface of the second portion of the substrate, and the substrate material differs from the target material and the shield material. |
| US11545331B2 |
X-ray imaging apparatus
The X-ray imaging apparatus includes: a main power supply operation unit for switching ON/OFF of power supply to the X-ray imaging apparatus; a braking unit for decelerating a rotation speed of the anode to a predetermined braking speed lower than a resonance range which is a rotation speed of the anode at which resonance occurs in the X-ray tube; and a non-braking stop prediction unit configured to detect a predetermined situation in which a non-braking stop state is predicted, the non-braking stop state being a state in which the main power supply operation unit is operated to be turned to an OFF state without decelerating the rotating anode by the braking unit. The non-braking stop prediction unit activates the braking unit by detecting the predetermined situation to decrease the rotation speed of the anode to the braking speed. |
| US11545324B2 |
Controlling a controllably conductive device based on zero-crossing detection
A load control device may control power delivered to an electrical load from an AC power source. The load control device may include a controllably conductive device adapted to be coupled in series electrical connection between the AC power source and the electrical load, a zero-cross detect circuit configured to generate a zero-cross signal representative of the zero-crossings of an AC voltage. The zero-cross signal may be characterized by pulses occurring in time with the zero-crossings of the AC voltage. The load control device may include a control circuit operatively coupled to the controllably conductive device and the zero cross detect circuit. The control circuit may be configured to identify a rising-edge time and a falling-edge time of one of the pulses of the zero-cross signal, and may control a conductive state of the controllably conductive device based on the rising-edge time and the falling-edge time of the pulse. |
| US11545322B2 |
Gas circuit breaker
A gas circuit breaker includes a trigger electrode which is arranged to be movable between a first arc contactor and a second arc contactor, a compression chamber for pressurizing arc-extinguishing gas, the compression chamber being formed by a cylinder which has an outer wall and an inner wall, each being formed in a cylindrical shape, and which is provided to the second arc contactor, and a piston that slides between the outer wall and the inner wall in conjunction with the trigger electrode, and an insulation nozzle that guides the arc-extinguishing gas pressurized in the compression chamber to an arc ignited between the first arc contactor and the second arc contactor. The insulation nozzle is supported by the inner wall of the cylinder. |
| US11545321B2 |
System and method for operating an electrical switch
A switch including a first electrical terminal, the first electrical terminal including a blade pivotable between an open position and a closed position, and a rod extending from the first electrical terminal parallel to the blade. The switch further includes a second electrical terminal configured to receive the blade when in the closed position, the second electrical terminal including a vacuum interrupter, wherein the vacuum interrupter engages the rod when in the closed position. Rotating the first electrical terminal in a first direction causes the blade to disengage from the second electrical terminal at a first point, and further rotating the first electrical terminal in the first direction causes the rod to disengage from the vacuum interrupter at a second point. |
| US11545319B2 |
Mechanical computer keyboard with analog input
A mechanical computer keyboard including a plurality of keys and an input/output (i/o) interface for output of registration of pressing one or more of the plurality of keys. Each key includes a keycap, a key switch including a stem, a key registration unit for registering a keystroke, and a spring for forcing the keycap in a neutral release position and providing a perceptible increase in pressing force. The keyboard further includes an analog-to-digital converter and the keys include a distance sensor unit for determining a travel distance of the pushing-down of the keycap by measuring a complex electrical impedance corresponding to the travel distance of the pushing-down the keycap, wherein the analog-to-digital converter is configured to convert the complex electrical impedance to a digital input signal including a digitalized keystroke travel distance for outputting of the digital input signal by the i/o interface towards the computer. |
| US11545318B2 |
Keyboard containing recycled and renewable polymeric compositions
A keyboard having a total recycled and renewable content of equal to or greater than 35 wt. %, based on the total weight of the keyboard is described. The keyboard contains a key cap containing a mechanically recycled polycarbonate polymer or a chemically recycled cellulose based polymer, a pair of cross arms forming a scissor-shaped structure containing a polymeric composition containing 60 wt. % to 100 wt. % of a polyoxymethylene polymer, and 0 wt. % to 40 wt. % of a filler containing glass, and a back light module containing a renewably source polycarbonate polymer or a chemically recycled polyester polymer. |
| US11545316B2 |
Input device and image forming apparatus including ihe same
An input device including an operation key arranged in an opening of a panel is provided. The input device also includes a light source and a push button switch each being arranged in a position opposite an opening on a board. The operation key includes: a key top having a pressing part extending toward the push button switch. The pressing part is arranged in a position separated from a center position in planar view of the key top on a line that is parallel to a line connecting connection parts of the key top, which are connected with one pair out of one or more pairs of arms, and passes through the center position. The push button switch is arranged in a position on the board opposite an arrangement position of the pressing part. |
| US11545313B2 |
Load transfer switch for on-load tap changer, and on-load tap changer
A diverter switch is for an on-load tap-changer. The diverter switch includes: at least one vacuum interrupter; an actuating element, which is mechanically connected at a first end of the vacuum interrupter and has a roller at a second end; and an actuating body having a base body and having at least one cam. The vacuum interrupter is configured to be actuated via the actuating element as a result of the roller moving over the actuating body. At least one part of the cam has a higher strength than the base body. |
| US11545312B2 |
Switching device with improved closing prevention
A stored energy-type circuit breaker includes a sensor that operates as a full open sensor, and that is used to prevent the circuit breaker from closing in response to either a closing signal or a manual operation. The full open sensor exhibits a first output condition when the moveable contact is in a fully open position and a second output condition when the moveable contact begins to leave the fully open position. An electronic trip unit (ETU) is electrically connected to the sensor and, when in a close break mode, blocks the circuit breaker from closing. The ETU does this by, upon detecting that the sensor is in the second output condition, generating a signal that will cause the breaker's opening spring to return the moveable contact to the fully open position. |
| US11545310B2 |
High capacitance composites
A composite with high energy storage capacity for use in energy storage devices includes graphene and mesoporous graphitic carbon nitride (mc@g-C3N4). The graphitic carbon nitride is coated on mesoporous carbon (mc@g-C3N4) at a concentration ranging from 3% to 33%. The graphitic carbon nitride is obtained from condensation of mesoporous carbon and urea or a precursor thereof. Electrodes may be prepared from the composite. High energy high power storage devices such as the Electric Double Layer Capacitor (EDLC) may be fabricated with these electrodes. |
| US11545309B2 |
Multilayered graphene and methods of making the same
The present invention relates in part to a method of fabricating graphene structures from graphene oxide by reducing the graphene oxide on a patterned substrate. The invention also relates in part to graphene structures produced using said method and electrodes and capacitors comprising said graphene structures. |
| US11545308B2 |
Liquid composition and method for producing electrochemical device
A liquid composition includes particles and a solvent, wherein a contact angle of the liquid composition with respect to a substrate is greater than a contact angle of the solvent with respect to the substrate, and the contact angle of the substrate with respect to water observed 9 seconds after the substrate comes into contact with the water is 45 degrees to 75 degrees. |
| US11545307B2 |
Fabrication of capacitors and recovery of capacitor fabrication matertials
A capacitor is fabricated by generating a sheet of material that has a first active region that includes tunnels extending into an electrode metal. The sheet of material has a first inactive region that includes the electrode metal but does not include the tunnels extending into the electrode metal. The first inactive region has a first shape that includes multiple first projections that each projects from a perimeter of a circle. An electrode is removed from the sheet of material such that the electrode includes a portion of the inactive region. Additionally or alternately, fabricating a capacitor include using a first etching solution to etch a first sheet of material so as to generate a spent etchant. At least one chemical component is recovered from the spent etchant. A second etching solution is used to etch a second sheet of material. The second etchant includes at least one of the chemical components that was recovered from the spent etchant. |
| US11545300B2 |
Ignition coil for internal combustion engine
An ignition coil for an internal combustion engine includes a primary bobbin including a winding cylinder part and a connection part between the winding cylinder part and a connector part, a primary coil including a primary main coil and a primary sub coil, and a secondary coil. When one of the primary main coil and the primary sub coil that includes an innermost coil part around the winding cylinder part is defined as a firstly-wound coil and the other is defined as a secondly-wound coil, firstly-wound ends, which are ends of the firstly-wound coil, and secondly-wound ends, which are ends of the secondly-wound coil, are attached to the connection part, and a shortest distance from a central axis of the winding cylinder part to each of the firstly-wound ends is smaller than a shortest distance from the central axis of the winding cylinder part to each of the secondly-wound ends. |
| US11545298B2 |
Method of forming entangled inductor structures
An entangled inductor structure generates opposite polarity internal magnetic fields therein to substantially reduce, or cancel, external magnetic fields propagating outside of the entangled inductor structure. These reduced external magnetic fields propagating outside of the entangled inductor structure effectively reduce a keep out zone (KOZ) between the entangled inductor structure and other electrical, mechanical, and/or electro-mechanical components. This allows the entangled inductor structure to be situated closer to these other electrical, mechanical, and/or electro-mechanical components within the IC as compared to conventional inductors which generate larger external magnetic fields. |
| US11545297B2 |
Functionally graded thermal vias for inductor winding heat flow control
Embodiments of the disclosure relate to apparatuses for enhanced thermal management of an inductor assembly using functionally-graded thermal vias for heat flow control in the windings of the inductor. In one embodiment, a PCB for an inductor assembly includes a top surface and a bottom surface. Two or more electrically-conductive layers are embedded within the PCB and stacked vertically between the top surface and the bottom surface. The two or more electrically-conductive layers are electrically connected to form an inductor winding. A plurality of thermal vias thermally connects each of the two or more electrically-conductive layers to a cold plate thermally connected to the bottom surface. A number of thermal vias thermally connecting each electrically-conductive layer to the cold plate is directly proportional to a predetermined rate of heat dissipation from the electrically-conductive layer. |
| US11545295B2 |
Coil component
A coil component includes first and second wires wound around a winding core portion of a core, and third and fourth wires wound around outside a portion of the first and the second wires wound around the winding core portion in an opposite direction to a winding direction of the first and second wires. The portion of the first and second wires wound around the winding core portion has a first twisted wire portion twisted together. A length of the first wire or a length of the second wire of the portion of the first and second wires wound around the winding core portion is configured to be equal to a length of the third wire or a length of the fourth wire of the portion of the third and fourth wires wound around outside the portion of the first and second wires wound around the winding core portion. |
| US11545293B1 |
Bobbin for edge-mounted magnetic core
An edge mount magnetic component includes a bobbin and two E-core halves. The bobbin is configured to receive the two E-core halves when body portions of the two E-core halves are positioned vertically. The bobbin includes a first outer flange, a second outer flange, and a passageway spanning therebetween. The bobbin further includes first, second, third, and fourth pin supports. The first and second pin supports are connected to an outer surface of the first end flange and are spaced apart by at least a width of the passageway. The third and fourth pin supports are connected to an outer surface of the second end flange and are spaced apart by at least the width of the passageway. The bobbin further includes slots for routing a winding to a pin and includes walls to ensure the winding is electrically separated from the E-core halves. |
| US11545292B2 |
Reactor
Provided is a reactor including a coil having a pair of winding portions; and a ring-shaped magnetic core, the magnetic core including: a pair of inner core portions arranged inside of the winding portions; and a pair of outer core portions respectively arranged outside of one end and outside of another end in an axial direction of the winding portions, the reactor including a non-magnetic reinforcing member that is arranged between the pair of winding portions and is coupled to the inner end surfaces of the pair of outer core portions. An axial rigidity of the reinforcing member is 2×107 N/m or more. Here, the axial rigidity is a value obtained by multiplying the cross-sectional area of the reinforcing member perpendicular to the axial direction of the winding portions and the Young's modulus of the reinforcing member, and dividing the result by the length of the reinforcing member. |
| US11545290B2 |
Magnetoresistive element having a giant interfacial perpendicular magnetic anisotropy
A magnetoresistive element comprises a novel iPMA cap layer on a surface of a ferromagnetic recording layer. The iPMA cap layer introduces giant interfacial magnetic anisotropy energies (G-iMAE) on the interface between the recording layer and the iPMA cap layer, yielding a giant interfacial perpendicular magnetic anisotropy (G-iPMA) of the recording layer. |
| US11545287B2 |
Dust core
A dust core including a metal magnetic powder and a resin, in which the metal magnetic powder shows a particle diameter of more than 0 μm and 200 μm or less, a number percentage of 5.0% or more of metal magnetic particles among the metal magnetic particles composing the metal magnetic powder are at least partially surface-coated with an inorganic compound including an alkaline earth metal, in a coating part coating the metal magnetic particles, an amount of the alkaline earth metal is 10.0 mass % or more, when a total amount of a metal element included in the coating part is 100 mass %, is provide. The dust core is superior in a corrosion-resistance. |
| US11545283B2 |
Anisotropic conductive film (ACF) structure and hot-pressing method and hot-pressing assembly thereof
An anisotropic conductive film (ACF) structure and a hot-pressing method and a hot-pressing assembly thereof are provided. The ACF structure includes an ACF and a copper/gold foil surface layer as a substrate. The ACF structure is hot-pressed by a hot-pressing method, which includes the following steps: allowing, when the ACF is in a molten state, the copper/gold foil surface layer and a bonded part to be conductive respectively to generate a magnetic field around to enhance the attraction of the copper/gold foil surface layer and the bonded part to conductive particles inside the ACF; and applying, when the ACF is in a curing stage, a closed circuit to ends of the copper/gold foil surface layer and the bonded part to perform real-time detection on the ACF to ensure the effectiveness of the hot pressing. |
| US11545280B2 |
Cable hose with embedded features
A cable hose suitable for welding or cutting systems includes one or more conductors and monolithic tubing that extends around and between the one or more conductors. The monolithic tubing defines one or more discrete passageways for the one or more conductors that provide a closed path from a first end of the cable hose to a second end of the cable hose for the one or more conductors. The monolithic tubing also defines an inner conduit configured to allow a gas to flow from the first end of the cable hose to the second end of the cable hose. The cable hose may be formed by arranging the one or more conductors in a specific configuration and overmolding an insulator onto the one or more conductors to secure the one or more conductors in a specific configuration. |
| US11545277B2 |
Copper alloy wire, cable, and method of manufacturing copper alloy wire
Bendability of a copper alloy wire is improved without decrease in an electrical conductivity of the copper alloy wire made of copper alloy containing zirconium. A cable includes: a two-core stranded wire formed by intertwining two electrical wires made of a conductor and an insulating layer covering the conductor; a filler formed around the two-core stranded wire; and a sheath formed around the filler and the electrical wire. The conductor is a copper alloy wire in which a precipitate containing the zirconium disperses, and has a crystal gain diameter that is equal to or smaller than 1 μm, an electrical conductivity that is equal to or higher than 87% IACS, and a tensile stress that is equal to or larger than 545 MPa. |
| US11545275B2 |
Shielding facility and methods of making thereof
The present disclosure, in an embodiment, is a facility that includes a device configured to generate a beam having an energy range of 5 MeV to 500 MeV, a first radiation shielding wall surrounding the device, a second radiation shielding wall surrounding the first radiation shielding wall, radiation shielding fill material positioned between the first radiation shielding wall and the second radiation shielding wall forming a first barrier. In embodiments, the radiation shielding fill material includes at least fifty percent by weight of an element having an atomic number from 12 to 83, and a thickness of the first barrier is 0.5 meter to 6 meters. |
| US11545270B1 |
Dossier change control management system
A dossier change control management system periodically ingests data regarding a regulated product from multiple data stores. The dossier change control management system updates dossier data describing a dossier history for the regulated product using the received data. The dossier includes multiple documents in a standardized format and is updated based on a data mapping indicating correspondence between fields of the documents and portions of the received data. An out-of-expectation scenario for the dossier is identified based on regulatory requirements and an alert generated. A report with information about the out-of-expectation scenario is provided for display at a client device based on the alert. |
| US11545267B2 |
Methods and apparatus for the application of reinforcement learning to animal medical diagnostics
Methods and apparatus for the application of reinforcement learning to animal medical diagnostics. In one embodiment, a system is disclosed that utilizes two (2) RL agents that are arranged sequentially and that are optimized independently from one another. The first RL agent is an assessment RL agent which takes as input from one or more of: outputs from classification artificial intelligence (AI) engines; outputs from subjective biological data storage devices, and outputs from objective biological data storage devices. Using these input(s), the assessment RL agent outputs a set of assessments which evaluate a set of conditions associated with an animal. This set of assessments is then provided as input to a second RL agent known-as a plan RL agent which determines a set of treatment recommendations and diagnostics based off this determined set of assessments. Methods and computer-readable media are also disclosed. |
| US11545263B2 |
Multiple wavelength sensor emitters
A physiological sensor has light emitting sources, each activated by addressing at least one row and at least one column of an electrical grid. The light emitting sources are capable of transmitting light of multiple wavelengths and a detector is responsive to the transmitted light after attenuation by body tissue. |
| US11545257B1 |
Methodologies for a health insurance exchange platform
A method for facilitating employee selection of one or more health insurance products includes displaying specific defined contribution amounts for health insurance products; receiving, from the user, input corresponding to selection of a health insurance product; displaying, to the user, information regarding the selected insurance product including an estimated cost of a plan including the selected health insurance product, a coupon amount the cost of the plan will be discounted based on a specific defined contribution amount for the class of the selected health insurance product, a lump sum defined contribution amount the cost of the plan will be discounted, and an estimated monthly cost after the coupon amount and lump sum defined contribution amount are applied. |
| US11545249B1 |
Matching of inhalers to patient vocal tract for optimization of particle dispersion
An optimization methodology is employed to match vibratory inhaler devices having certain characteristics to the particular anatomical and acoustic properties of a patient's vocal tract, in order to achieve the most effective dispersion of a dry powder medicament using inspiratory effort of a user of the inhaler. In embodiments, optimization involves employing one or more measurements of acoustic frequency spectrum properties as well as one or more anatomical/geometric measurements of the structures comprising the particular patient's mouth, pharynx, and upper respiratory tract and matching a vibratory inhalation device that corresponds thereto. |
| US11545234B2 |
Decoding approaches for protein identification
Methods and systems are provided for accurate and efficient identification and quantification of proteins. In an aspect, disclosed herein is a method for identifying a protein in a sample of unknown proteins, comprising receiving information of a plurality of empirical measurements performed on the unknown proteins; comparing the information of empirical measurements against a database comprising a plurality of protein sequences, each protein sequence corresponding to a candidate protein among a plurality of candidate proteins; and for each of one or more of the plurality of candidate proteins, generating a probability that the candidate protein generates the information of empirical measurements, a probability that the plurality of empirical measurements is not observed given that the candidate protein is present in the sample, or a probability that the candidate protein is present in the sample; based on the comparison of the information of empirical measurements against the database. |
| US11545230B2 |
Manufacturer self-test for solid-state drives
An apparatus includes a memory and a controller. The memory may be configured to store data. The controller may be configured to process a plurality of input/output requests to a plurality of blocks of the memory that are not marked as bad on a block list, perform a code rate test that programs the plurality of blocks of the memory at three or more code rates of an error correction code scheme, and mark any of the plurality of blocks identified as bad during the code rate test on the block list. |
| US11545226B1 |
Systems and methods for compensating for erase speed variations due to semi-circle SGD
Non-volatile memory systems are disclosed. The memory systems include rows of memory holes FC-SGD and SC-SGD, the latter of which may be created by a SHE cutting operation. The SC-SGD include erase speeds slower than those of FC-SGD. In order to overcome the erase speed disparities, SC-SGD are programmed to a higher Vt as compared to FC-SGD. By programming SC-SGD to a higher Vt, the erase speed increases and matches the erase speed of FC-SGD. Further, different SC-SGDs are cut to different amounts, creating different erase speeds among SC-SGD. SC-SGDs with a greater degree/amount of cut have slower erase speeds as compared to SC-SGDs with a lesser degree/amount of cut. However, verify levels among SC-SGDs can differ to produce SC-SGDs with Vt's such that their erase speeds match with each other as well as with FC-SGD. |
| US11545224B2 |
Nonvolatile memory device and operating method of the same
A nonvolatile memory device and an operating method thereof are provided. The nonvolatile memory device includes a memory cell array including first to third memory cells sequentially arranged in a vertical stack structure and a control logic configured to apply a first non-selection voltage to the first memory cell, apply a second non-selection voltage different from the first non-selection voltage to the third memory cell, apply a selection voltage to the second memory cell, and select the second memory cell as a selection memory cell. |
| US11545221B2 |
Concurrent programming of multiple cells for non-volatile memory devices
Technology is disclosed herein for concurrently programming the same data pattern in multiple sets of non-volatile memory cells. Voltage are applied to bit lines in accordance with a data pattern. A select voltage is applied to drain select gates of multiple sets of NAND strings. The system concurrently applies a program pulse to control gates of a different set of selected memory cells in each respective set of the multiple sets of the NAND strings while the select voltage is applied to the drain select gates of the multiple sets of the NAND strings and the voltages are applied to the plurality of bit lines to concurrently program the data pattern into each set of the selected memory cells. |
| US11545220B2 |
Split-gate memory cells
Memory might include an array of memory cells having a plurality of strings of series-connected split-gate memory cells each including a primary memory cell portion and an assist memory cell portion, a plurality of primary access lines each connected to a control gate of the primary memory cell portion of a respective split-gate memory cell of each string of series-connected split-gate memory cells of the plurality of strings of series-connected split-gate memory cells, and a plurality of assist access lines each connected to a control gate of the assist memory cell portion of its respective split-gate memory cell of each string of series-connected split-gate memory cells of the plurality of strings of series-connected split-gate memory cells. |
| US11545219B2 |
Memory device with single transistor drivers and methods to operate the memory device
A memory device with single transistor drivers and methods to operate the memory device are described. In some embodiments, the memory device may comprise memory cells at cross points of access lines of a memory array, a first even single transistor driver configured to drive a first even access line to a discharging voltage during an IDLE phase, to drive the first even access line to a floating voltage during an ACTIVE phase, and to drive the first even access line to a read/program voltage during a PULSE phase, and a first odd single transistor driver configured to drive a first odd access line, the first odd access line physically adjacent to the first even access line, to the discharging voltage during the IDLE phase, to drive the first odd access line to the floating voltage during the ACTIVE phase, and to drive the first odd access line to a shielding voltage during the PULSE phase. |
| US11545209B2 |
Power savings mode toggling to prevent bias temperature instability
Systems and methods for injecting a toggling signal in a command pipeline configured to receive a multiple command types for the memory device. Toggling circuitry is configured to inject the toggling signal into at least a portion of the command pipeline when the memory device is in a power saving mode and the command pipeline is clear of valid commands. The toggling is blocked from causing writes by disabling a data strobe when a command that is invalid in the power saving mode is asserted during the power saving mode. |
| US11545208B2 |
Power-efficient generation of voltage
Methods, systems, and devices for power-efficient generation of voltage are described. A driver circuit in a memory device may produce a voltage on an output node for other components in the memory device to use. To produce the voltage, the driver circuit may use a first voltage supply to charge the output node to a first threshold voltage level. The driver may then use a second voltage source to charge the output node to a second threshold voltage level that is different than (e.g., higher than) the first threshold voltage level. |
| US11545206B2 |
Differential amplifier sensing schemes for non-switching state compensation in a memory device
Methods, systems, and devices for differential amplifier schemes for non-switching state compensation are described. During a read operation, a first node of a memory cell may be coupled with an input of differential amplifier while a second node of the memory cell may be biased with a first voltage (e.g., to apply a first read voltage across the memory cell). The second node of the memory cell may subsequently be biased with a second voltage (e.g., to apply a second read voltage across the memory cell), which may support the differential amplifier operating in a manner that compensates for a non-switching state of the memory cell. By compensating for a non-switching state of a memory cell during read operations, read margins may be increased. |
| US11545204B1 |
Non-linear polar material based memory bit-cell with multi-level storage by applying different voltage levels
A high-density low voltage ferroelectric (or paraelectric) memory bit-cell that includes a planar ferroelectric or paraelectric capacitor. The memory bit-cell comprises 1T1C configuration, where a plate-line is parallel to a word-line, or the plate-line is parallel to a bit-line. The memory bit-cell can be 1TnC, where ‘n’ is a number. In a 1TnC bit-cell, the capacitors are vertically stacked allowing for multiple values to be stored in a single bit-cell. The memory bit-cell can be multi-element FE gain bit-cell. In a multi-element FE gain bit-cell, data sensing is done with signal amplified by a gain transistor in the bit-cell. As such, higher storage density is realized using multi-element FE gain bit-cells. In some examples, the 1T1C, 1TnC, and multi-element FE gain bit-cells are multi-level bit-cells. To realize multi-level bit-cells, the capacitor is placed in a partially switched polarization state by applying different voltage levels or different time pulse widths at the same voltage level. |
| US11545202B2 |
Circuit design and layout with high embedded memory density
Various embodiments of the present disclosure are directed towards a memory device. The memory device has a first transistor having a first source/drain and a second source/drain, where the first source/drain and the second source/drain are disposed in a semiconductor substrate. A dielectric structure is disposed over the semiconductor substrate. A first memory cell is disposed in the dielectric structure and over the semiconductor substrate, where the first memory cell has a first electrode and a second electrode, where the first electrode of the first memory cell is electrically coupled to the first source/drain of the first transistor. A second memory cell is disposed in the dielectric structure and over the semiconductor substrate, where the second memory cell has a first electrode and a second electrode, where the first electrode of the second memory cell is electrically coupled to the second source/drain of the first transistor. |
| US11545199B2 |
Methods for on-die memory termination and memory devices and systems employing the same
Methods, systems, and apparatuses related to memory operation with on-die termination (ODT) are provided. A memory device may be configured to provide ODT at a first portion (e.g., rank) during multiple communications at a second portion (e.g., rank). For example, a memory device may receive a first command instructing a first portion to perform a first communication and instructing a second portion to enter an ODT mode. The device may perform, with the first portion, the first communication with a host while the second portion is in the ODT mode. The device may receive a second command instructing the first portion to perform a second communication, and the device may perform, with the first portion, the second communication while the second portion remains in the ODT mode. The second portion may persist in the ODT mode for an indicated number of communications, or until instructed to exit the ODT mode. |
| US11545198B2 |
Multi-sense amplifier based access to a single port of a memory cell
A memory device includes a memory array of memory cells, wordlines and bitlines connected to the memory cells, a first read multiplexor and a second read multiplexor connected to the bitlines, a first sense amplifier connected to the first read multiplexor, a second sense amplifier connected to the second read multiplexor, a first data path connected to the first sense amplifier, and a second data path connected to the second sense amplifier. Each of the memory cells is connected to only one pair of the bitlines and only one of the wordlines. The first read multiplexor is adapted to connect the first sense amplifier to the bitlines during a first portion of a clock cycle and the second read multiplexor is adapted to connect the second sense amplifier to the bitlines during a second portion of a clock cycle that is different from the first portion of the clock cycle. |
| US11545196B2 |
Apparatus, memory device, and method for storing multiple parameter codes for operation parameters
Provided are an apparatus, a memory device, and a method for storing a plurality of parameter codes for an operation parameter. The memory device includes a mode register and a control logic circuit. To set a first operating condition and a second operating condition for one operation parameter, the mode register stores a first parameter code for the operation parameter and a second parameter code, which is expressed as an offset value from the first parameter code. The control logic circuit sets the first operating condition as a current operating condition of the memory device by using the first parameter code based on a first control code and sets the second operating condition as the current operating condition of the memory device by using the first parameter code and the second parameter code based on a second control code. |
| US11545195B2 |
Memory system
According to one embodiment, a memory system includes a non-volatile semiconductor memory with a plurality of dies and a memory controller. A temperature sensor is provided for each of the dies. The temperature sensors measures a temperature of each die. The memory controller schedules execution of access commands for each of the dies based on the measured die temperature, a predetermined limit temperature for each of the dies, and the type of access command that has been received by the memory controller. |
| US11545194B2 |
Dynamic read voltage techniques
Methods, systems, and devices for dynamic read voltage techniques are described. In some examples, a memory device may include one or more partitions made up of multiple disjoint subsets of memory arrays. The memory device may receive a read command to read the one or more partitions and enter a drift determination phase. During the drift determination phase, the memory device may concurrently apply a respective voltage of a set of voltages to each disjoint subset and determine a quantity of memory cells in each disjoint subset that have a threshold voltage below the applied voltage. Based on a comparison between the determined quantity of memory cells and a predetermined quantity of memory cells, the memory device may select a voltage from the set of voltages and utilize the selected voltage to read the one or more partitions. |
| US11545184B1 |
Joined multi-module tape recording head
The present disclosure is generally related to a tape drive comprising a tape head and a controller. The tape head comprises a first assembly and a second assembly disposed adjacent to the first assembly, each assembly comprising a write module comprising a plurality of write heads and a read module comprising a plurality of read heads. When a tape moves in a first direction, the controller is configured to control the tape head to write data to the tape using the write module of the first module and read data from the tape using the read module of the first assembly. When the tape moves in a second direction opposite the first direction, the controller is configured to control the tape head to write data to the tape using the write module of the second module and read data from the tape using the read module of the second assembly. |
| US11545182B2 |
Encryption method, decryption method, encryption system and decryption system
An encryption method includes an operation method of an encryption system and is a method of encrypting encryption target information. |
| US11545181B2 |
Rotating ramp with retraction capability for a disk drive
A data storage system include a disk drive having a rotating ramp assembly that may be moved between an engaged and disengaged position. The rotating ramp assembly may include a ramp extension that is not disposed in overlapping relation to a data storage disk location in the drive when in the disengaged position. However, in the engaged position, the ramp extension may overhang a portion of the data storage disk location. In turn, the head extension may include a ramp surface that allows a head assembly to move to a head parking surface when the rotating ramp assembly is in the engaged position. IN turn, the rotating ramp assembly may be rotated while maintaining the head assembly on the head parking surface, which may be arcuate and extend about at least a portion of the rotating ramp assembly. |
| US11545180B1 |
Heat-assisted magnetic recording head with a near-field oscillator pair
A heat-assisted magnetic recording head includes a near-field transducer (NFT). The NFT includes a plasmonic disk and a near-field oscillator pair. The near-field oscillator pair includes a receiving oscillator and an emitting oscillator. The receiving oscillator is operatively coupled to the plasmonic disk and configured to receive localized surface plasmons from the plasmonic disk and amplify a near field of the localized surface plasmons. The emitting oscillator is configured to receive the near field from the receiving oscillator and emit the near field toward a surface of a magnetic disk. |
| US11545179B2 |
Information storage medium having multiple recording layers
An information recording medium and a method for producing the same according to the present disclosure are configured to have an information layer in which a larger amount of light for reproduction can be obtained, so that the medium is suitable for recording information at high recording density and is useful for a multi-layer optical disc that records a large amount of contents. |
| US11545178B2 |
Substrate for magnetic disk and magnetic disk
A non magnetic substrate for a magnetic disk includes a substrate main body having two opposing main surfaces and being a glass substrate main body or an aluminum alloy substrate main body, and a metal film made of an Ni—P alloy and provided on the main surfaces and an outer circumferential edge surface of the substrate main body. The non magnetic substrate has a thickness (T+D) of 0.57 mm or less, which is the sum of a thickness T of the substrate main body and a thickness D of the metal film. The non magnetic substrate has a diameter of 90 mm or more. A ratio D/T is 0.025 or more. The outer circumferential edge surface of the substrate main body forming an interface with the metal film has a surface roughness maximum height Rz of 0.5 μm or more. |
| US11545175B2 |
Writer with laterally graded spin layer MsT
A method of forming a spin transfer torque reversal assisted magnetic recording (STRAMR) writer is disclosed wherein a spin torque oscillator (STO) has a flux guiding layer (FGL) wherein magnetization flips to a direction substantially opposing the write gap (WG) field when sufficient current (IB) density is applied across the STO between a trailing shield and main pole (MP) thereby enhancing the MP write field. The FGL has a center portion with a larger magnetization saturation×thickness (MsT) than in FGL outer portions proximate to STO sidewalls. Accordingly, lower IB density is necessary to provide a given amount of FGL magnetization flipping and there is reduced write bubble fringing compared with writers having a FGL with uniform MsT. Lower MsT is achieved by partially oxidizing FGL outer portions. In some embodiments, there is a gradient in outer FGL portions where MsT increases with increasing distance from FGL sidewalls. |
| US11545171B2 |
Voice responsive in-wall device
Voice responsive in-wall devices are provided. In one example implementation, a power switch includes a housing mountable on or at least partially within a surface. The housing can have a front panel. The power switch can include an interface element disposed on the front panel and operable to receive a user input. The power switch can include a power interrupter operable to control power delivery to the powered load based at least in part on interaction with the interface element. The power switch can include one or more microphones operable to obtain audio input. The power switch can include one or more speakers configured to provide audio output. The power switch can include a communications interface operable to communicate data associated with the audio input over a communication link. |
| US11545160B2 |
Method, a computer program, an encoder and a monitoring device
A method, a computer program product, an encoder and a monitoring device for encoding an audio signal with variable bitrate, wherein: an audio signal comprising a plurality of successive audio frames is received; and for each successive audio frame of the audio signal: the audio frame is represented in a frequency domain with respect to a plurality of frequency sub-bands; the audio frame is classified in each frequency sub-band as either background or foreground using a background model specific to the frequency sub-band; each successive audio frame of the audio signal is encoded, wherein a number of bits is allocated for each frequency sub-band of the audio frame, wherein the number of bits allocated for a frequency sub-band is higher if the audio frame is classified as foreground in the frequency sub-band than if the audio frame is classified as background in the frequency sub-band. |
| US11545157B2 |
Speaker diartzation using an end-to-end model
Techniques are described for training and/or utilizing an end-to-end speaker diarization model. In various implementations, the model is a recurrent neural network (RNN) model, such as an RNN model that includes at least one memory layer, such as a long short-term memory (LSTM) layer. Audio features of audio data can be applied as input to an end-to-end speaker diarization model trained according to implementations disclosed herein, and the model utilized to process the audio features to generate, as direct output over the model, speaker diarization results. Further, the end-to-end speaker diarization model can be a sequence-to-sequence model, where the sequence can have variable length. Accordingly, the model can be utilized to generate speaker diarization results for any of various length audio segments. |
| US11545156B2 |
Automated meeting minutes generation service
Attributes of electronic content from a meeting are identified and evaluated to determine whether sub-portions of the electronic content should or should not be attributed to a user profile. Upon determining that the sub-portion should be attributed to a user profile, attributes of the sub-portion of electronic content are compared to attributes of stored user profiles. A probability that the sub-portion corresponds to at least one stored user profile is calculated. Based on the calculated probability, the sub-portion is attributed to a stored user profile or a guest user profile. |
| US11545152B2 |
Computer systems exhibiting improved computer speed and transcription accuracy of automatic speech transcription (AST) based on a multiple speech-to-text engines and methods of use thereof
In some embodiments, an exemplary inventive system for improving computer speed and accuracy of automatic speech transcription includes at least components of: a computer processor configured to perform: generating a recognition model specification for a plurality of distinct speech-to-text transcription engines; where each distinct speech-to-text transcription engine corresponds to a respective distinct speech recognition model; receiving at least one audio recording representing a speech of a person; segmenting the audio recording into a plurality of audio segments; determining a respective distinct speech-to-text transcription engine to transcribe a respective audio segment; receiving, from the respective transcription engine, a hypothesis for the respective audio segment; accepting the hypothesis to remove a need to submit the respective audio segment to another distinct speech-to-text transcription engine, resulting in the improved computer speed and the accuracy of automatic speech transcription and generating a transcript of the audio recording from respective accepted hypotheses for the plurality of audio segments. |
| US11545147B2 |
Utterance classifier
Methods, systems, and apparatus, including computer programs encoded on computer storage media for classification using neural networks. One method includes receiving audio data corresponding to an utterance. Obtaining a transcription of the utterance. Generating a representation of the audio data. Generating a representation of the transcription of the utterance. Providing (i) the representation of the audio data and (ii) the representation of the transcription of the utterance to a classifier that, based on a given representation of the audio data and a given representation of the transcription of the utterance, is trained to output an indication of whether the utterance associated with the given representation is likely directed to an automated assistance or is likely not directed to an automated assistant. Receiving, from the classifier, an indication of whether the utterance corresponding to the received audio data is likely directed to the automated assistant or is likely not directed to the automated assistant. Selectively instructing the automated assistant based at least on the indication of whether the utterance corresponding to the received audio data is likely directed to the automated assistant or is likely not directed to the automated assistant. |
| US11545145B2 |
Machine action based on language-independent graph rewriting of an utterance
An utterance in any of various languages is processed to derive a predicted label using a generated grammar. The grammar is suitable for deriving meaning of utterances from several languages (polyglot). The utterance is processed by an encoder using word embeddings. The encoder and a decoder process the utterance using the polyglot grammar to obtain a machine-readable result. The machine-readable result is well-formed based on accounting for re-entrances of intermediate variable references. A machine then takes action on the machine-readable result. Ambiguity is reduced by the decoder by the well-formed machine-readable result. Sparseness of the generated polyglot grammar is reduced by using a two-pass approach including placeholders which are ultimately replaced by edge labels. |
| US11545137B2 |
System and method of automated model adaptation
Methods, systems, and computer readable media for automated transcription model adaptation includes obtaining audio data from a plurality of audio files. The audio data is transcribed to produce at least one audio file transcription which represents a plurality of transcription alternatives for each audio file. Speech analytics are applied to each audio file transcription. A best transcription is selected from the plurality of transcription alternatives for each audio file. Statistics from the selected best transcription are calculated. An adapted model is created from the calculated statistics. |
| US11545134B1 |
Multilingual speech translation with adaptive speech synthesis and adaptive physiognomy
Techniques for the generation of dubbed audio for an audio/video are described. An exemplary approach is to receive a request to generate dubbed speech for an audio/visual file; and in response to the request to: extract speech segments from an audio track of the audio/visual file associated with identified speakers; translate the extracted speech segments into a target language; determine a machine learning model per identified speaker, the trained machine learning models to be used to generate a spoken version of the translated, extracted speech segments based on the identified speaker; generate, per translated, extracted speech segment, a spoken version of the translated, extracted speech segments using a trained machine learning model that corresponds to the identified speaker of the translated, extracted speech segment and prosody information for the extracted speech segments; and replace the extracted speech segments from the audio track of the audio/visual file with the spoken versions spoken version of the translated, extracted speech segments to generate a modified audio track. |
| US11545128B2 |
Acoustic structure for sound absorption and improved sound transmission loss
An acoustic structure includes a plate and at least one acoustic scatterer having a resonant frequency and coupled to a side of the plate. The at least one acoustic scatterer has an opening, a first channel and a second channel. The first channel has a first channel open end and a first channel terminal end with the first channel open end being in fluid communication with the opening. The second channel has a second channel open end and a second channel terminal end with the second channel open end being in fluid communication with the opening. The first channel terminal end and the second channel terminal end are separate from one another. |
| US11545124B2 |
Electronic percussion instrument and musical sound generating method
An electronic percussion instrument capable of simulating a rendition of an acoustic percussion instrument is provided. The electronic percussion instrument includes a housing, a percussion surface attached to the housing, a pressure sensor disposed on a central section of the percussion surface on a side of the back surface and configured to detect pressing against the central section, a head vibration sensor disposed on a peripheral section of the percussion surface on the side of the back surface and configured to detect vibrations of the peripheral section, and a rim vibration sensor disposed at a position overlapping the head vibration sensor when seen in a plan view of the percussion surface and configured to detect vibrations of the housing. |
| US11545123B2 |
Audiovisual content rendering with display animation suggestive of geolocation at which content was previously rendered
Techniques have been developed to facilitate (1) the capture and pitch correction of vocal performances on handheld or other portable computing devices and (2) the mixing of such pitch-corrected vocal performances with backing tracks for audible rendering on targets that include such portable computing devices and as well as desktops, workstations, gaming stations, even telephony targets. Implementations of the described techniques employ signal processing techniques and allocations of system functionality that are suitable given the generally limited capabilities of such handheld or portable computing devices and that facilitate efficient encoding and communication of the pitch-corrected vocal performances (or precursors or derivatives thereof) via wireless and/or wired bandwidth-limited networks for rendering on portable computing devices or other targets. |
| US11545121B2 |
Electronic musical instrument, electronic musical instrument control method, and storage medium
An electronic musical instrument includes at least one processor that, in accordance with a user operation on an operation unit, obtains lyric data and waveform data corresponding to a first tone color; inputs the obtained lyric data to a trained model so as to cause the trained model to output acoustic feature data in response thereto; generates waveform data corresponding to a singing voice of a singer and corresponding to a second tone color that is different from the first tone color, based on the acoustic feature data outputted from the trained model and the obtained waveform data corresponding to the first tone color; and outputs a singing voice based on the generated waveform data corresponding to the second tone color. |
| US11545119B2 |
Rotation mechanism and keyboard apparatus
A rotation mechanism includes a shaft portion, a bearing portion, a protruding portion, and a stopper. The bearing portion configured to rotate with respect to a predetermined axis as a center of rotation and configured to slide relative to an outer periphery of the shaft portion. The protruding portion protrudes from the shaft portion. The stopper is integrally formed the bearing portion. The stopper faces the protruding portion. A length of the protruding portion in a direction in which the protruding portion protrudes is larger than a distance from the center of rotation to a sliding portion where the bearing portion slides relative to the outer periphery of the shaft portion. |
| US11545114B2 |
Methods and apparatus for data content integrity
The present disclosure relates to methods and apparatus for data processing, e.g., a display processing unit (DPU). The apparatus may receive data including a plurality of data bits, the data being associated with at least one data source. The apparatus may also determine whether at least a portion of the data corresponds to priority data, the priority data being within a region of interest (ROI). The apparatus may also detect an adjustment amount of the received data when at least a portion of the data corresponds to priority data, the data being displayed or stored based on the detected adjustment amount. |
| US11545113B1 |
Display control integrated circuit applicable to performing multi-display processing in display device
A display control integrated circuit (IC) applicable to performing multi-display processing in a display device includes multiple sub-circuits such as a Multi-Stream Transport (MST) stream splitting module, multiple video format conversion circuits, a multiplexer and a video combination module for generating a combined picture for being displayed. The display control IC may utilize at least one additional data path coupled to at least one predetermined sub-circuit among the multiple sub-circuits to obtain at least one signal, and output any signal of the at least one signal through a video output terminal of the display control IC and a video output port of the display device to be a video output signal for further use, where the at least one predetermined sub-circuit include at least one of the MST stream splitting module and the multiplexer. |
| US11545104B2 |
GOA device for reducing leakage, and display panel thereof
A gate driver on array (GOA) device and a display panel are proposed. In the present application, by adding a twenty-first transistor and a first control clock terminal electrically connected to the twenty-first transistor in a forward-reverse scan module to control potentials of a first node and a third node, a leakage of the first node during operation can be reduced, thereby improving reliability of the GOA device. |
| US11545098B2 |
Driving apparatus for display panel having selection circuit for outputting a plurality of driving voltages
A driving apparatus for a display panel is provided. The driving apparatus for the display panel is configured on a film by means of a Chip-on-Film (COF) package. A selection circuit receives multiple driving voltages. A control circuit is coupled to the selection circuit and controls the selection circuit to output one of the multiple driving voltages, so as to drive the display panel. |
| US11545097B1 |
Liquid-crystal display and an overdrive system thereof
An overdrive system includes a compressor that compresses an input signal to result in a compressed signal; a weighting device that generates a weighted sum of a current compressed signal and a current input signal, thereby resulting in a weighted current signal; and an overdriver that performs an overdrive operation according to a previous compressed signal and the weighted current signal. |
| US11545092B2 |
Display device
A display device including: a display panel including a pixel connected to a first scan line, second scan line, and data line, the pixel including: a first switch connected to the first scan line; a second switch connected to the second scan line; and a light emitting element; a low-frequency driving controller to output a first power control signal having a first level in a first mode and a second power control signal having a second level in a second mode; a scan driver including first and second scan drivers to drive the first and second scan lines, wherein one of the first and second scan drivers operates in the second mode; and a data driver to operate in the second mode in response to the power control signal having the second level, wherein the data driver operates at a frequency lower than a reference frequency in the second mode. |
| US11545089B2 |
Pixel driving circuit, display panel and electronic device
A pixel driving circuit, a display device and an electronic device are provided. The pixel driving circuit includes: a first sub-pixel driving circuit, a second sub-pixel driving circuit, a third sub-pixel driving circuit, and a fourth sub-pixel driving circuit sequentially arranged in a first direction; a detection line; a first power line extending in the second direction; and a second power line extending in the second direction, wherein one of the first power line and the second power line is provided on a side of the second sub-pixel driving circuit away from the third sub-pixel driving circuit, and the other of the first power line and the second power line is provided on a side of the third sub-pixel driving circuit away from the second sub-pixel driving circuit. |
| US11545087B2 |
Display device and electronic apparatus
A display device including: a plurality of sub-pixels arranged in a matrix, each including an electro-optical element having a structure in which a display functional layer is sandwiched between an upper electrode and a lower electrode; and an auxiliary interconnect contact in a pixel area in which the plurality of sub-pixels are arranged in a matrix and electrically connecting the upper electrode to an auxiliary interconnect, wherein m (m is an integer equal to or larger than two) sub-pixels adjacent to each other along an arrangement direction of the sub-pixels are regarded as one group, and n (n is a natural number smaller than m) auxiliary interconnect contacts are formed for each group. |
| US11545082B1 |
Method for hybrid pulse amplitude and width modulation in led drivers for display panels
A method includes determining a number of drive pulses of equal width and amplitude that would drive LEDs with a total charge during a frame. If the width of the drive pulses is greater than a minimum-width and less than a maximum-width, the LEDs are driven with the drive pulses. If the width of the drive pulses is less than the minimum-width and an amplitude of the drive pulses is greater than a minimum-amplitude, decrement the amplitude of the drive pulses and recalculate the width of the drive pulses so each drive pulse has the decremented amplitude and recalculated width. If the amplitude of the drive pulses is equal to the minimum-amplitude, reduce the number of drive pulses and recalculate the width and amplitude of the reduced number of drive pulses. If the amplitude of the drive pulses is equal to the minimum-amplitude, the LEDs are not driven. |
| US11545067B2 |
Display apparatus and a method of driving the same
A display apparatus including: a display panel configured to display an image based on input image data; a data driver configured to output a data voltage to the display panel; and a driving controller configured to determine a driving frequency of the display panel based on flicker values for grayscale values of the input image data and output a driving frequency signal representing the driving frequency of the display panel to a host. |
| US11545065B2 |
Methods for driving electro-optic displays
An electro-optic display having a plurality of pixels is driven from a first image to a second image using a first drive scheme, and then from the second image to a third image using a second drive scheme different from the first drive scheme and having at least one impulse differential gray level having an impulse potential different from the corresponding gray level in the first drive scheme. Each pixel which is in an impulse differential gray level in the second image is driven from the second image to the third image using a modified version of the second drive scheme which reduces its impulse differential The subsequent transition from the third image to a fourth image is also conducted using the modified second drive scheme but after a limited number of transitions using the modified second drive scheme, all subsequent transitions are conducted using the unmodified second drive scheme. |
| US11545064B2 |
Display device, display method, and non-transitory recording medium
A display device includes circuitry to determine, based on a display data length and a display area length, whether display data including one or more display components fits within a display area of a screen on which the display data is to be displayed. In case that a determination result indicates that a part of the display data is out of the display area, the circuitry displays the display data including the one or more display components that are reduced based on a difference between the display data length and the display area length. |
| US11545063B2 |
Data transmission circuit and display apparatus including the same
A data transmission circuit includes a transmitter configured to transmit a data signal, a receiver configured to receive the data signal, a first transmission line connected between the transmitter and the receiver, and a second transmission line connected between the transmitter and the receiver. The data signal includes a line start signal, and a configuration signal. The data signal further includes at least one of an inverted line start signal which is an inverted version of the line start signal or an inverted configuration signal which is an inverted version of the configuration signal. |
| US11545060B2 |
Display device
A display device includes: a plurality of pixels; a first pixel unit comprising a first portion of the plurality of pixels; a second pixel unit comprising a second portion of the plurality of pixels; and a data driver configured to supply a data voltage to the first pixel unit and the second pixel unit, wherein the data driver is configured to generate a data voltage to be supplied to the first pixel unit based on different gamma voltages even when the same grayscale is expressed according to a driving method, and the second pixel unit is configured to be driven or not driven according to the driving method. |
| US11545059B2 |
Display device and method to blur borderline in CUD device
A display device includes a sensor pixel set having a maximal sensor pixel brightness value SV, a display pixel set having a display pixel brightness value DV, and a blurring pixel set disposed between the sensor pixel set and the display pixel set and having a blurring pixel brightness value BV. A minimal distance between the blurring pixel set and the sensor pixel set is Z and a minimal distance between the blurring pixel set and the display pixel set is (1−Z) to satisfy: BV=(1−Z)*SV+Z*DV. |
| US11545058B2 |
Electronic device and control method for electronic device
An electronic device includes: a video signal processing unit that receives a video signal and outputs a predetermined type of signal; an arithmetic processing unit that transfers a correction segment data corresponding to a different segment between a current unevenness correction data and a previous unevenness correction data; and an unevenness correction unit that corrects the predetermined type of signal based on the current unevenness correction data. |
| US11545056B2 |
Luminous curved glass and curved digital signage
The present invention aims to provide a luminescent curved glass which, despite being curved with a small radius of curvature, can provide a clear display on its entire surface when irradiated with light, and curved digital signage including the luminescent curved glass. Provided is a luminescent curved glass including a laminate including a transparent plate having a radius of curvature of 3,000 mm or lower and a luminescent sheet, the luminescent sheet containing a thermoplastic resin and a luminescent material that emits visible light having a wavelength of 380 to 750 nm under excitation light. |
| US11545055B2 |
Apparatus and methodology for customizing vehicle signage
Aspects are disclosed that facilitate customizing vehicle signage. In a particular aspect, a signage is disclosed which includes a mica cover positioned within the perimeter of a frame. The signage further includes a light source configured to direct light towards a backside of the mica cover, and a logo component positioned on the backside of the mica cover. In a particular aspect, the light source is configured to illuminate a logo by transmitting light through the logo component so that the illuminated logo is viewable from the frontside of the mica cover. An attachment mechanism is also included, which is configured to attach the signage to a vehicle. |
| US11545054B2 |
Expandable display device
A flexible display panel of an expandable display device includes a first side with a display unit, and a second side opposite to the first side. A bending guide includes an external guide that faces part of the first side and has a first curved side, and an internal guide that faces part of the second side and has a second curved side. A slider that slides on the bending guide is attached to, one end portion of the flexible display panel. A radius of the first curved side is greater than a radius of the second curved side. When the slider moves toward the bending guide, the first side contacts the first curved side and is bent by the first curved side, and when the slider moves away from the bending guide, the second side contacts the second curved side and is bent by the second curved side. |
| US11545051B2 |
Microcontroller board for the learning and practice of coding
Disclosed herein is a microcontroller board for the learning and practice of coding. In the microcontroller board, a platform area (S1) including a platform circuit board (10) in which a microcontroller is provided and module areas (S2) each having a cut line and including a module circuit board (20) are divided and formed on a single board array (S), corresponding header socket holes H are formed in the platform area (S1) including the platform circuit board (10) and the module areas (S2) on both sides of each of the cut lines, a plurality of machine holes (30) is provided along each of the cut lines between the header socket holes (H), via holes (40) are formed by plating the inner circumferential surfaces of the machine holes (30) with metal layers (35) in order to conduct electricity, and V-cut grooves (50) are formed along each of the cut lines. |
| US11545047B1 |
Using biometric data intelligence for education management
Methods, systems, and apparatus, including computer programs encoded on computer storage media, for developing cognitive and behavioral metrics associated with a user. In some implementations, a system obtains data from a writing implement, the data indicative of a user performing a task by writing with the writing implement against a receiving device. The system extracts features from the obtained data. The system determines metrics that reflect characteristics of the user, the metrics that reflect cognitive characteristics of the user and metrics that reflect behavioral characteristics of the user. Based on the extracted features and the determined metrics, the system generates a user profile for the user. Based on the features indicating characteristics of the writing behavior of the user, the system modifies the generated user profile as a performance of the user changes over time. The system provides recommendations to improve the performance of the user. |
| US11545045B2 |
Methods and apparatus to provide visual information associated with welding operations
Methods and apparatus to provide visual information associated with welding operations are disclosed. An weld training system includes a display, a camera, a communications device, and a welding helmet. The communications device communicates with welding equipment. The welding helmet has a view port. The communications device is configured to hold the camera, the communications device, and the display such that, when the welding helmet is worn by a wearer, the display is viewable by the wearer, the camera has a view through the view port such that the display displays to the wearer images taken by the camera through the view port and displays a simulated object generated based on information received from the welding equipment via the communications device. |
| US11545043B1 |
Interface for educational tool
An interface for an educational tool on an electronic device is described. The interface comprises a main menu to display at least an icon for the educational tool. The main menu appears on a display screen of the electronic device. The interface also comprises a summary menu to list a subset of at least one function of the educational tool. The summary menu is accessed directly from the main menu when a user selects the icon for the educational tool. The interface further comprises an exhibitory window to display a rhyming riddle function of the educational tool selected by the user from the subset listed on the summary menu. The rhyming riddle function presents the user with a rhyming riddle to be solved. |
| US11545041B2 |
Method of avoiding collision of unmanned aerial vehicle
Provided is a method of avoiding collision of an unmanned aerial vehicle with an obstacle, the method including: calculating two potential fields using ament positional information of the unmanned aerial vehicle, a target point that is set, and positional information of the obstacle measured by a sensor, computing an attractive force and a repulsive force by differentiating the computed potential fields, respectively; computing a direction of a potential force that results from adding up the computed attractive force and repulsive force; and performing control that brings about a change from the computed direction of the potential force to a direction in which the unmanned aerial vehicle moves. |
| US11545035B2 |
Driver notification system
Methods and systems for notifying a driver of a first vehicle of obstacles discouraging passing of a second vehicle in front of the first vehicle. The system includes a sensor of the second vehicle configured to detect spatial data in proximity of the second vehicle. The system also includes an electronic control unit (ECU) of the first vehicle. The ECU is configured to receive the spatial data from a transceiver of the second vehicle. The ECU is also configured to determine obstacle data based on the spatial data, the obstacle data identifying a presence of obstacles ahead of the second vehicle discouraging passing of the second vehicle by the first vehicle. The ECU is also configured to provide a notification to the driver of the first vehicle when the obstacle data indicates the presence of obstacles ahead of the second vehicle. |
| US11545033B2 |
Evaluation framework for predicted trajectories in autonomous driving vehicle traffic prediction
According to one embodiment, when a predicted trajectory is received, a set of one or more features are extracted from at least some of the trajectory points of the predicted trajectory. The predicted trajectory is predicted using a prediction method or algorithm based on perception data perceiving an object within a driving environment surrounding an autonomous driving vehicle (ADV). The extracted features are fed into a predetermined DNN model to generate a similarity score. The similarity score represents a difference or similarity between the predicted trajectory and a prior actual trajectory that was used to train the DNN model. The similarity score can be utilized to evaluate the prediction method that predicted the predicted trajectory. |
| US11545031B2 |
System and method for providing distributed on-street valet parking with the aid of a digital computer
A system and method for providing distributed on-street valet parking with the aid of a digital computer is provided. Parking spaces for valet services are reserved. One of the reserved parking spaces is designated as a valet drop-off parking space. A motor vehicle is detected in the valet drop-off parking space and a notification that the motor vehicle requires parking is provided to a valet of the detected motor vehicle. A search is conducted for the reserved parking spaces available for valet services for the motor vehicle. At least one of the reserved parking spaces available for the motor vehicle is identified and the motor vehicle is parked in the identified reserved parking space. |
| US11545025B2 |
Security system including automation notification and surveillance integration
A security system including automated notification and surveillance integration is provided. In the security system of the present disclosure, when any of the devices are locked, unlocked, interacted with, alarmed or triggered, a notification or communication signal is sent to at least one other device. The at least one other device may be a receiver, camera, smart phone, smart watch, laptop, desktop, and/or an Internet connected or Internet of Things (IoT) device. Additionally, a system is provided including at least one alarm module that generates an audible sound when an alarm condition is detected; at least one sensor that detects the audible sound and determines if the audible sound is within a predetermined frequency range and an interface that receives at least one first communication signal from the at least one sensor upon detecting an alarm and transmits at least one second communication signal to at least one device. |
| US11545019B2 |
Method and system for patient management using rules engine
A method of patient management including receiving therapy data associated with a plurality of durable medical devices and a first set of patients, and displaying an overview of patient compliance and a plurality of customizable tiles. The overview of patient compliance includes at least the number of patients in the first set of patients, current compliance data, compliance history data, and follow-up data. The plurality of aligned tiles includes at least a title and a plurality of selectable subtitles, each of the plurality of selected subtitles associated with one or more rules. Upon selection of a first selectable subtitle, displaying at least an indication of patients in a second set of patients, wherein the second set of patients is a subset of the first set of patients; upon selection of a first patient, displaying at least all of the rules triggered by the first patient. |
| US11545018B2 |
Patient risk notification system
The present invention includes a healthcare system for capturing and maintaining patient healthcare records and employing information in the records to proactively alert hospital workers to a condition that places patient health at risk. |
| US11545011B2 |
Fluid pump with whistle
A fluid dispenser with a fluid pump for dispensing fluid on movement of an actuator, and an air pump for delivering a stream of air through at least one sound generator on movement of the actuator. The sound generator produces at least two sounds as the actuator is moved from a first position to a second position, with each sound produced in a different time period during a cycle of operation, or differing from the other sound in respect of one or more detectable sound characteristics, such as duration, frequency, temporal alignment, amplitude, and/or timbre. The time period of each sound is a function of the relative location of the actuator between the first and second positions. |
| US11545008B2 |
Gaming device having poker mystery feature
Embodiments of the present invention set forth systems, apparatuses and methods for providing gaming devices having a poker mystery feature. Accordingly, a gaming device can be configured to have sub-symbol overlays that specify a replication feature that may replicate a card associated with the sub-symbol overlay and either replace a specified card that is adjacent to the card associated with the sub-symbol overlay, or create a multi-indicia card using the replication. Replication may mean a direct copy of the card associated with the sub-symbol overlay or may mean providing a card that is related to the card associated with the sub-symbol overlay according to predefined rules. |
| US11545005B2 |
Systems and methods for using volatility stabilizing sub-event triggers for a game of chance including a player initiated advancement of results from a random number generator
A system and method for operating a game of chance. A gaming system includes one or more game displays, a user interface, at least one processor running executable instructions related to a game of chance and memory in communication with the at least one processor. The game of chance including a two-part game wherein at least one part of the two-part games includes a video reel game and includes the generation of random sub-events wherein two or more of the random sub-events are required to trigger another game part including a bonus game, a secondary game, a free game round, a “hold and spin” round, or other game event. The plurality of sub-events required to trigger another game part serve to reduce the frequency of significant player “cold streaks” during game play. The game of chance including an option for players to advance/skip RNG outcomes thereby changing future game outcomes. |
| US11545002B2 |
Systems and methods for providing a plurality of player selectable volatility options and replicating symbols during free games of the player selected volatility options
An electronic gaming machine includes a processor configured to control a display device to display a first matrix of symbol positions, and to evaluate a plurality of symbols displayed in the first matrix to determine whether to award a plurality of free games. If free games are awarded, the processor may control the display device to display a plurality of volatility options, each of which may be associated with one or more additional matrices of symbol positions. In addition, the processor may receive a player selection of one volatility option of the plurality of volatility options, and to control the display device to display the one or more additional matrices of symbol positions associated with the player selected volatility option. |
| US11545001B2 |
Active mystery feature
Game features for at least a base slot game may be selectable according to player input. According to some examples, game features may be selectable without exiting from a graphical user interface used to present the slot game. A first GUI portion may be presented in a first area of a display system. The first GUI portion may include display symbols for presenting the slot game. A second GUI portion may be presented in a second area of the display system while the first GUI portion is being presented in the first area, e.g., while the slot game is being presented in the first area. The second GUI portion may include multiple game feature images. Each game feature image may correspond with a selectable game feature. |
| US11544999B2 |
Gaming apparatus supporting virtual peripherals and funds transfer
In one embodiment, a peripheral management device may have a controller configured to communicate with a gaming machine and a portable electronic device. The controller may be configured to: (i) receive a peripheral data packet from a gaming machine processor, the peripheral data packet including at least one command; (ii) determine whether to process the peripheral data packet on at least one peripheral device of the gaming machine or at least one virtual peripheral device of the portable electronic device; (iii) generate an instructional data packet for the at least one virtual peripheral device if the peripheral data packet is determined to be processed on the at least one virtual peripheral device; and (iv) transmit the instructional data packet to the portable electronic device. |
| US11544998B2 |
Electronic gaming machine reward system and method
A reward system includes a tangible, non-transitory, computer-readable storage medium having instructions stored thereon and a processor configured to execute instructions stored in the storage medium. The processor is in communication with a mobile computing device and an electronic gaming machine. When executed by the processor, the instructions causes the processor to at least (i) receive mobile game activity information associated with a mobile game on the mobile computing device; (ii) award the player a first awarded prize based upon the mobile game activity information; (iii) store a first awarded prize entry in a player account for subsequent redemption at the electronic gaming machine, the first awarded prize entry identifies the first awarded prize; (iv) detect a presence of the player at the electronic gaming machine; and (v) instruct the electronic gaming machine to display the first awarded prize when the player accesses the electronic gaming machine. |
| US11544995B2 |
Remotely managing player data
Systems and methods that enable a user, such as a player, to manage persistent data, such as game state data, remote from any electronic gaming machine, such as via a mobile device executing a mobile device application. |
| US11544994B2 |
Beacon to patron communications for electronic gaming devices
A system for proximity-based digital interactions includes a beacon transmitter configured to wirelessly broadcast a first interaction prompt message that includes a first interaction event code. A system server is configured to: receive an event activation message that includes the first interaction event code; identify and perform a first pre-programmed action; identify proximity between a mobile computing device and the beacon transmitter based on receipt of the first interaction event code from the mobile computing device; create a second interaction event code that is targeted to be performed by the mobile computing device; and transmit a configuration message to the beacon transmitter that includes the second interaction event code, causing the beacon transmitter to begin broadcasting a second interaction prompt message including the second interaction event code together with the first interaction prompt message, where the first interaction event code is different than the second interaction even code. |
| US11544990B2 |
Method and device for a display aimed to an emotional involvement in games which provide for performing bets
A method and a device for increasing the emotional involvement in games which provide for performing bets, wherein the result of the bets is determined by the occurrence of an event such as the output of a winning number. The method detects instant by instant the position of a small ball and represents the movement on a bets placement area. The device determines the winning number, performs bets, monitors the run of the small ball, and displays its trajectory on the betting platform. |
| US11544985B2 |
Banknote imaging
A method of obtaining a plurality of infrared images of a banknote that involves simultaneously illuminating the banknote with infrared light at a first wavelength and infrared light at a second wavelength, capturing an image of the banknote with an RGB camera, obtaining from both a first output channel signal and a second output channel signal of the RGB camera sensor where the intensity distribution of the infrared light at the first wavelength and the intensity distribution of the infrared light at the second wavelength uses a first calibration coefficient and a second calibration coefficient of the RGB camera sensor, producing separate infrared images of the banknote at the first wavelength and the second wavelength from the respective intensity distributions. |
| US11544983B1 |
System and method to authorize the use of a BEV charging apparatus by a short-term renter
The disclosure generally pertains to systems and methods for authorizing the use of a battery electric vehicle (BEV) charging apparatus by a short-term renter. In an example method, a processor provides an authorization for use of a BEV charging apparatus by a first individual. The BEV charging apparatus is located on the premises of a building. The processor further enables access to the BEV charging apparatus over a designated period of time for use by the first individual and configures a first lock to prevent unauthorized entry by the first individual into a first portion of the building. In one scenario, the first individual is a short-term renter, the BEV charging apparatus is located in a garage of the building, the first portion of the building is a first room of the building, and the first lock is installed in a door leading into the first room of the building. |
| US11544979B1 |
Management method for electronic locks
A management method for electronic locks includes obtaining a manager mobile device with management authorities of a plurality of locks. The manager mobile device can be connected any one of the plurality of locks, and the lock connected to the manager mobile device switches to a writing mode. The lock connected to the manager mobile device writes the unlocking authority of at least one of the plurality of locks into a door access card. When the door access card is identified by one of the plurality of locks as being correct, the one of the plurality of locks is unlocked. |
| US11544973B2 |
Telematically monitoring and predicting a vehicle battery state
Apparatus, device, methods and system relating to a vehicular telemetry environment for monitoring vehicle components and providing indications towards the condition of the vehicle components and providing optimal indications towards replacement or maintenance of vehicle components before vehicle component failure. |
| US11544971B2 |
Information processing device, terminal device
An information processing device comprises an accident notification accepting unit, a withdrawal notification accepting unit and an area identifying unit. The accident notification accepting unit accepts from a mobile object an accident notification containing accident determination information indicating that it is determined that an accident has occurred in said mobile object and occurrence site information indicating the site where it is determined that the accident has occurred.The withdrawal notification accepting unit accepts a withdrawal notification to withdraw said accident notification. The area identifying unit records the occurrence site information contained in the accident notification withdrawn by said withdrawal notification and identifies a withdrawal-notification prone area based on the recorded occurrence site information. |
| US11544969B2 |
End-to-end multimodal gait recognition method based on deep learning
An end-to-end multimodal gait recognition method based on deep learning includes: first extracting gait appearance features (color, texture and the like) through RGB video frames, and obtaining a mask by semantic segmentation of the RGB video frames; then extracting gait mask features (contour and the like) through the mask; and finally performing fusion and recognition on the two kinds of features. The method is configured for extracting gait appearance feature and mask feature by improving GaitSet, improving semantic segmentation speed on the premise of ensuring accuracy through simplified FCN, and fusing the gait appearance feature and the mask feature to obtain a more complete information representation. |
| US11544963B2 |
Appliance having a customizable user profile
An appliance includes a body, an interface panel, a scanning device, and a controller. The interface panel is coupled to the body. The scanning device is coupled to the interface panel and is configured to conduct a facial scan and gather a facial data set. The controller is communicatively coupled to the scanning device, wherein the controller is configured to receive the facial data set and compare the facial data set to a stored verification data set. The controller is configured to activate a routine based on the comparison of the facial data set and the stored verification data set. |
| US11544956B2 |
Input sensing device and a display device including the same
An input sensing device including: a power line; driving lines; a first signal line including sub-lines; a second signal line connected to the sub-lines; and sensor pixels connected to the power line, the driving lines, and the first signal line, wherein at least one sensor pixel of the sensor pixels includes: an optical sensor that transfers a photoelectrically converted charge from the power line to a first node in response to a driving signal provided through a first driving line of the driving lines; a first transistor connected between the first node and a first sub-line among the sub-lines, wherein the first transistor includes a gate electrode connected to the first driving line; and a second transistor connected between the first node and a second sub-line among the sub-lines, wherein the second transistor includes a gate electrode connected to the first driving line. |
| US11544953B2 |
Methods and systems for identifying the crossing of a virtual barrier
Systems, methods and media are disclosed for identifying the crossing of a virtual barrier. A person in a 3D image of a room may be circumscribed by a bounding box. The position of the bounding box may be monitored over time, relative to the virtual barrier. If the bounding box touches or crosses the virtual barrier, an alert may be sent to the person being monitored, a caregiver or a clinician. Bounding box tracking may be used in addition to or instead of an initial tracking process, such as skeletal tracking. |
| US11544952B2 |
Display device
A display device includes a first display unit emitting an output light having an output spectrum corresponding to a highest gray level of the display device, wherein an intensity integral of the output spectrum from 494 nm to 575 nm is defined as a first intensity integral, an intensity integral of the output spectrum from 380 nm to 493 nm is defined as a second intensity integral, an intensity integral of the output spectrum from 576 nm to 780 nm is defined as a third intensity integral, a summation of the second intensity integral and third intensity integral is defined as a first summation, a ratio of the first summation to the first intensity integral is defined as a first ratio, and the first ratio is greater than 0.0% and less than or equal to 37.0%. |
| US11544950B2 |
Method and apparatus for updating road map geometry based on received probe data
A method is provided for generating and revising map geometry based on a received image and probe data. A method may include: receiving probe data from a first period of time, where the probe data from a first period of time is from a plurality of probes within a predefined geographic region; generating a first image of the predefined geographic region based on the probe data from the first period of time; receiving probe data from a second period of time different from the first period of time, where the probe data from the second period of time is from a plurality of probes within the predefined geographic region; generating a second image based on the probe data from the second period of time; comparing the first image to the second image; and generating a revised route geometry based on changes detected between the first image and the second image. |
| US11544947B2 |
System and method for separation and classification of unstructured documents
A classification system is provided that separates unclassified pages into unclassified, separated documents and classifies the separated documents. The classification system applies a page-level recognition model to the unclassified pages to recognize the logical boundaries between documents and, based on the logical boundaries, separates the pages into unclassified, separated documents. The classification system further applies a document-level recognition model to classify the separated documents. |
| US11544946B2 |
System and method for enhancing neural sentence classification
A system and method is disclosed for classifying natural language sentences by employing external knowledge to assist in constructing a knowledge base of sentences with a target meaning. The disclosed system and method provide a general sentence classification framework applicable for a knowledge-oriented domain (e.g., domain-specific knowledge). The system and method may be implemented in an intelligent automotive aftermarket assistance tool to assist with the identification of sentences describing specific problems and solutions for car repairs. In addition to the domain adaptability, the system and method is language-independent and could be applicable to any natural written language. |
| US11544943B1 |
Entity extraction with encoder decoder machine learning model
A method includes executing an encoder machine learning model on multiple token values contained in a document to create an encoder hidden state vector. A decoder machine learning model executing on the encoder hidden state vector generates raw text comprising an entity value and an entity label for each of multiple entities. The method further includes generating a structural representation of the entities directly from the raw text and outputting the structural representation of the entities of the document. |
| US11544942B2 |
Method and system for reducing manual review of license plate images for assessing toll charges
A tolling system is operable to reduce the number of manual reviews of a toll point images needed to process toll fee charges by separately reporting from both toll points and mobile device in vehicles running a tolling application program the lane and crossing time when traversing a toll point. A tolling service can match records produced by the toll points with records providing by the mobile device when the toll point cannot immediately determine the identity of the toll customer passing through the toll point. |
| US11544931B2 |
Machine learning based human activity detection and classification in first and third person videos
An analytics device for monitoring maintenance on an elevator system performed by an individual including: a processor; and a memory including computer-executable instructions that, when executed by the processor, cause the processor to perform operations, the operations including: capturing a first video stream using a first video camera; extracting sequences from at least the first video stream; extracting features from the sequences; and analyzing, using a long short-term memory model, the sequence to determine whether the maintenance performed on the elevator system by the individual is performed correctly. |
| US11544929B2 |
Systems and methods for improved operations of ski lifts
Systems and methods for improved operations of ski lifts increase skier safety at on-boarding and off-boarding locations by providing an always-on, always-alert system that “watches” these locations, identifies developing problem situations, and initiates mitigation actions. One or more video cameras feed live video to a video processing module. The video processing module feeds resulting sequences of images to an artificial intelligence (AI) engine. The AI engine makes an inference regarding existence of a potential problem situation based on the sequence of images. This inference is fed to an inference processing module, which determines if the inference processing module should send an alert or interact with the lift motor controller to slow or stop the lift. |
| US11544928B2 |
Athlete style recognition system and method
A system and method leverages understanding of complex dribbling video clips by representing a video sequence with a single Dribble Energy Image (DEI) that is informative for dribbling styles recognition. To overcome the shortage of labelled data, a dataset of soccer video clips employs Mask-RCNN to segment out dribbling players and OpenPose to obtain joints information of dribbling players. To solve issues caused by camera motions in highlight soccer videos, the system registers a video sequence to generate a single image representation DEI and dribbling styles classification. |
| US11544927B2 |
Video type detection method and apparatus based on key frame, and storage medium
The present application discloses a video type detection method, apparatus, electronic device and storage medium. A specific implementation solution is as follows: obtaining N key frames of a first video, where N is an integer greater than 1, and a type of the first video is to be detected; obtaining M confidence scores corresponding to each of the N key frames by inputting each of the N key frames into M algorithm models corresponding to the first video type respectively, where M is an integer greater than 1; determining a confidence score of the first video by a fusion strategy algorithm model according to N×M confidence scores of the N key frames; and comparing the confidence score of the first video with a confidence score threshold corresponding to a first video type, to determine whether the type of the first video is the first video type or not. |
| US11544924B1 |
Investigation system for finding lost objects
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for finding lost objects. In some implementations, a request for a location of an item is obtained. Current video data from one or more cameras is obtained. It is determined that the item is not shown in the current video data. Sensor data corresponding to historical video data is obtained. Events that likely occurred with the item and corresponding likelihoods for each of the events are determined. A likely location for the item is determined based on the likelihoods determined for the events. An indication of the likely location of the item is provided. |
| US11544921B1 |
Augmented reality items based on scan
Systems and methods are provided for performing operations including receiving, via a messaging application, a request to scan an image captured by a camera of the user device; determining an attribute of an object depicted in the image; identifying, from a plurality of augmented reality items, an augmented reality item that is associated with the attribute of the object; combining the identified augmented reality item with the image captured by the camera; and displaying, via the messaging application, the image captured by the camera combined with the identified augmented reality item. |
| US11544919B2 |
Drone inspection of an undifferentiated surface using a reference image
Drone inspection of an undifferentiated surface using a reference image is disclosed. A plurality of images of a surface of a structure are analyzed to identify at least one image that depicts a feature in a portion of the surface based on a feature criterion, the plurality of images being generated by a drone comprising a camera, each image depicting a corresponding portion of the surface, and at least some of the images depicting the corresponding portion of the surface and a portion of a reference image. A location on the surface that corresponds to the at least one image is determined based on a depiction of the reference image in an image of the plurality of images. |
| US11544918B2 |
Vehicle to infrastructure system and method with long wave infrared capability
A system and method for operating a Vehicle to Infrastructure (V2I) system. The method includes receiving images from an infrared (IR) camera, determining whether a non-uniform noise exists within the received images, performing a calibration, upon determining that the non-uniform noise exists, performing a Non-Uniformity Correction (NUC) on the IR, upon determining that there is residual non-uniform noise, after performing the calibration, and determining that the IR camera has not detected a moving object that is approaching the IR camera, determining whether a Field of View (FOV) of the IR camera is occluded, after performing the NUC, and cleaning the IR camera, upon determining that the FOV of the infrared camera is occluded. |
| US11544915B2 |
Systems and methods for interactions with remote entities
In the disclosed systems and methods for competitive scene completion, in conjunction with a scene completion challenge, an image of an initial scene and a plurality of markers are displayed. For each user marker selection, virtual furnishing units corresponding to the unit type are displayed. User unit selection results in display of a three-dimensional graphic of the selected virtual furnishing unit at the corresponding coordinates within the scene, thereby creating an augmented scene that comprises the initial scene with three-dimensional graphics of selected virtual furnishing units. The augmented scene is submitted to a remote server. The user is provided with a reward that consists of credits. Responsive to user selection to access the store, a user interface for the store is displayed within the application. Visual representations of tangible products are displayed. The credits are configured for use towards purchase of the tangible products. |
| US11544911B1 |
Manipulation of virtual object position within a plane of an extended reality environment
A mobile device is fitted with a camera and an extended reality (XR) software application program executing on a processor within an XR system. Via the XR software application program, techniques are performed for manipulating virtual objects in an XR environment. In one technique, the XR software application program facilitates the movement of a virtual object from a first location to a second location, within a plane parallel to a touchscreen of a mobile device, responsive to a displacement determined based on user input detected via the touchscreen. |
| US11544910B2 |
System and method for positioning image elements in augmented reality system
An AR system includes one or more image sensors arranged to capture image data representing a scene located within a field of view of the one or more image sensors, a display arranged to enable a user of the AR system to observe a representation or view of the scene, and an augmentation engine. The augmentation engine is arranged to process the captured image data to determine one or more visual characteristics for the captured image data and to determine, in dependence on the determined one or more visual characteristics, one or more properties for an image element to be presented on the display. The augmentation engine is arranged to present the image element, with the determined one or more properties, on the display to overlay the representation or view of the scene. |
| US11544906B2 |
Mobility surrogates
A mobility surrogate includes a humanoid form supporting at least one camera that captures image data from a first physical location in which the first mobility surrogate is disposed to produce an image signal and a mobility base. The mobility base includes a support mechanism, with the humanoid form affixed to the support on the mobility base and a transport module that includes mechanical drive mechanism and a transport control module including a processor and memory that are configured to receive control messages from a network and process the control messages to control the transport module according to the control messages received from the network. |
| US11544905B2 |
Method and apparatus for providing virtual clothing wearing service based on deep-learning
A method and apparatus provide a virtual clothing wearing service based on deep-learning. A virtual clothing wearing server based on deep-learning includes a communicator configured to receive a user image and a v clothing image; a memory configured to store a program including first and second deep-learning models; a processor configured to generate an image of virtually dressing a virtual wearing clothing on a user. The program is configured to: generate, by the first deep-learning model, a transformed virtual wearing clothing image by transforming the virtual wearing clothing image in accordance with a body of the user in the user image based on the user image and the virtual wearing clothing image, and generate, by the second deep-learning model, the virtual wearing person image by dressing the transformed virtual wearing clothing on the body of the user based on the user image and the transformed virtual wearing clothing image. |
| US11544904B1 |
Mesh updates in an extended reality environment
Various implementations or examples set forth a method for scanning a three-dimensional (3D) environment. The method includes generating a 3D representation of the 3D environment that includes one or more 3D meshes. The method also includes determining at least a portion of the 3D environment that falls within a current frame captured by the image sensor. The method further includes generating one or more additional 3D meshes representing the at least a portion of the 3D environment and combining the one or more additional 3D meshes with the one or more 3D meshes into an update to the 3D representation of the 3D environment. |
| US11544898B2 |
Method, computer device and storage medium for real-time urban scene reconstruction
A method, a device, a computer device and a storage medium for a real-time urban scene reconstruction are provided. The method comprises: obtaining a target image frame and an adjacent image frame corresponding to a target urban scene; locating a position of an object in the target image frame according to the target image frame and the adjacent image frame and obtaining an object point cloud, an object image and a coordinate transformation matrix corresponding to a target object; determining a global characteristic of the target object and parameters of surfaces to be selected of the target object which is configured to determine a characteristic of the surface to be selected; determining a plane combination matrix of the target object; reconstructing a three-dimensional scene model of the target urban scene according to the plane combination matrix, the parameters of the surfaces to be selected and the coordinate transformation matrix. |
| US11544894B2 |
Latency-resilient cloud rendering
A method includes the steps of receiving training data comprising images of an object and associated camera poses from which the images are captured, training, based on the training data, a machine-learning model to take as input a given viewpoint and synthesize an image of a virtual representation of the object viewed from the given viewpoint, generating, for each of predetermined viewpoints surrounding the virtual representation of the object, a view-dependent image of the object as viewed from that viewpoint using the trained machine-learning model, receiving, from a client device, a desired viewpoint from which to view the virtual representation of the object, selecting one or more of the predetermined viewpoints based on the desired viewpoint, and sending, to the client device, the view-dependent images associated with the selected one or more viewpoints for rendering an output image of the virtual representation of the object viewed from the desired viewpoint. |
| US11544891B2 |
Automatic and interactive animation driven by change-based heuristics
Techniques for performing automatic interactive animation by automatically matching objects between multiple artboards, allowing an animator to link multiple artboards in a temporal sequence using time as a trigger and allowing an animator to preview an animation using intuitive drag controls via an input device such as a mouse or touch screen. An automatic animation process is performed by matching objects/nodes between artboards by determining a ranking of similarity between objects based upon a distance metric computed for a set of one or more attributes associated with each object in the artboards. If sufficient match is found, the matched objects can be treated as a single entity to be animated. In another embodiment, dominant direction of movement with respect to the matched objects is determined, and receipt of a drag event (mouse input or touch screen gesture input) in said dominant direction causes a preview of animation of that entity. |
| US11544886B2 |
Generating digital avatar
In one embodiment, a method includes, by one or more computing systems: receiving one or more non-video inputs, where the one or more non-video inputs include at least one of a text input, an audio input, or an expression input, accessing a K-NN graph including several sets of nodes, where each set of nodes corresponds to a particular semantic context out of several semantic contexts, determining one or more actions to be performed by a digital avatar based on the one or more identified semantic contexts, generating, in real-time in response to receiving the one or more non-video inputs and based on the determined one or more actions, a video output of the digital avatar including one or more human characteristics corresponding to the one or more identified semantic contexts, and sending, to a client device, instructions to present the video output of the digital avatar. |