| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Intrapersonal data communication systems | US14724403 | 2015-05-28 | US09225419B2 | 2015-12-29 | David Michael Masarik |
| Intrapersonal communication systems and methods that provide an optical digital signal link between two or more local devices are disclosed. In some embodiments, the system includes a first signal converter disposed at a first end of the optical digital signal link and configured to convert between electrical digital signals from a first local device and optical digital signals from the optical digital signal link. The system can include an optical connector having a non-contact portion configured to couple optical digital signals between the first signal converter and the optical digital signal link across a gap. The system can include a second signal converter disposed at a second end of the optical digital signal link and configured to convert between electrical digital signals from the second local device and optical digital signals from the optical digital signal link. | ||||||
| 82 | METHOD AND APPARATUS OF COMMUNICATION VIA SATELLITE | US14682068 | 2015-04-08 | US20150295646A1 | 2015-10-15 | Daniel Gardner CLEMMENSEN |
| An apparatus for satellite communication comprising a plurality of kytoons, each kytoon of the plurality of kytoons includes a hub positioned within the kytoon, an adjustable spine that is connected to the hub and varies a diameter and volume of the kytoon, and first and second tether access tubes that are each open to the atmosphere at one end and are sealed to the hub of the kytoon at another end. The apparatus further comprises a plurality of tether segments including a first tether segment and a second tether segment, the first tether segment is connected to an anchor connected to the earth at one end of the first tether segment and to a first hub of a first kytoon at another end of the first tether segment, the first tether segment connected to the first hub through the first tether access tube of the first kytoon, and the second tether segment is connected to the first hub of the first kytoon at one end of the second tether segment, through the second tether access tube of the first kytoon, and to a second hub of a second kytoon at another end of the second tether segment through the first tether access tube of the second kytoon. The apparatus further comprises a pipe enclosed in the plurality of tether segments and that provides a lighter-than-atmospheric gas from a gas source to at least one kytoon of the plurality of kytoons so that the at least one kytoon is inflated with the lighter-than-atmospheric gas, a communication device connected to one of the kytoons, and a fiber optic cable enclosed in the plurality of tether segments and connected to the communication device. | ||||||
| 83 | INTRAPERSONAL DATA COMMUNICATION SYSTEMS | US14724403 | 2015-05-28 | US20150288448A1 | 2015-10-08 | David Michael Masarik |
| Intrapersonal communication systems and methods that provide an optical digital signal link between two or more local devices are disclosed. In some embodiments, the system includes a first signal converter disposed at a first end of the optical digital signal link and configured to convert between electrical digital signals from a first local device and optical digital signals from the optical digital signal link. The system can include an optical connector having a non-contact portion configured to couple optical digital signals between the first signal converter and the optical digital signal link across a gap. The system can include a second signal converter disposed at a second end of the optical digital signal link and configured to convert between electrical digital signals from the second local device and optical digital signals from the optical digital signal link. | ||||||
| 84 | DIGITAL MULTIMETER HAVING REMOTE DISPLAY WITH AUTOMATIC COMMUNICATION BINDING | US14678741 | 2015-04-03 | US20150215985A1 | 2015-07-30 | Jeffrey C. Hudson; Nathaniel J. Wetzel; Glen Howard Vetter |
| A method of automatically binding first and second devices for RF communication is disclosed. One step of the method involves establishing a secure, non-RF communication mode between the first and second devices. According to another step, first and second communication addresses respectively identifying the first and second devices are exchanged in the secure, non-RF communication mode such that the first and second devices will recognize each other as communication partners. The secure, non-RF communication mode is then terminated and an RF communication mode is established between the first and second devices as a first bound pair. | ||||||
| 85 | Device for transmitting data between two railway vehicles using optical radio relay | US13810542 | 2011-07-05 | US09048948B2 | 2015-06-02 | Thomas Paral |
| The invention relates to a device (10) for transmitting data between two rail vehicles (12, 14). At each rail vehicle (12, 14) one data transmission unit (16 to 22, 80, 90, 92) is arranged, wherein between the data transmission units (16 to 22, 80, 90, 92) a data transmission link for transmitting data is formed. Data transmission via this data transmission link is carried out by means of an optical radio relay system. | ||||||
| 86 | Digital multimeter having remote display with automatic communication binding | US13763806 | 2013-02-11 | US09008517B2 | 2015-04-14 | Jeffrey C. Hudson; Nathaniel J. Wetzel; Glen Howard Vetter |
| A method of automatically binding first and second devices for RF communication is disclosed. One step of the method involves establishing a secure, non-RF communication mode between the first and second devices. According to another step, first and second communication addresses respectively identifying the first and second devices are exchanged in the secure, non-RF communication mode such that the first and second devices will recognize each other as communication partners. The secure, non-RF communication mode is then terminated and an RF communication mode is established between the first and second devices as a first bound pair. | ||||||
| 87 | Device for Transmitting Signals Between Two Rotatable Sub-Assemblies | US14180839 | 2014-02-14 | US20140224968A1 | 2014-08-14 | Ludwig Angerpointner; Peter Autenzeller |
| In a device for transmitting signals on two channels between two sub-assemblies rotatable relative to each other about an axis, a photodetector and a light source are connected via connecting lines to a receiver circuit and transmitter circuit. At least one of the connecting lines has a section extending with a radial directional component. The beam path of one channel extends with an axial directional component radially outside relative to the beam path of the optical signal of the other channel, past the section of the at least one connecting line. | ||||||
| 88 | WIRELESS MAINTENANCE OF INTRAPERSONAL COMMUNICATION SYSTEMS | US13941746 | 2013-07-15 | US20140050485A1 | 2014-02-20 | David Michael Masarik; Michael James Masarik |
| Some embodiments are provided for performing wireless maintenance procedures on personal equipment systems. Personal equipment systems can include wireless communication systems that allow external systems, users, or both to maintain the systems and/or run diagnostic procedures. Personal equipment systems are provided having one or more local devices coupled thereto and in wired communication with one another. Personal equipment systems can include a wireless system and local devices attached to a headgear system, the local devices being in wired communication with one another and in wireless communication with external systems. The wireless communication system is configured to establish a wireless connection with external systems for maintenance of local devices that are in wired communication with each other. Methods for performing wireless maintenance of personal equipment systems are described. | ||||||
| 89 | DIGITAL MULTIMETER HAVING REMOTE DISPLAY WITH AUTOMATIC COMMUNICATION BINDING | US13763806 | 2013-02-11 | US20130156438A1 | 2013-06-20 | Jeffrey C. Hudson; Nathaniel J. Wetzel; Glen Howard Vetter |
| A method of automatically binding first and second devices for RF communication is disclosed. One step of the method involves establishing a secure, non-RF communication mode between the first and second devices. According to another step, first and second communication addresses respectively identifying the first and second devices are exchanged in the secure, non-RF communication mode such that the first and second devices will recognize each other as communication partners. The secure, non-RF communication mode is then terminated and an RF communication mode is established between the first and second devices as a first bound pair. | ||||||
| 90 | COMMUNICATION MEDIA MULTI-SWITCH SYSTEM | US13172145 | 2011-06-29 | US20130004121A1 | 2013-01-03 | David Zhi Chen |
| Exemplary systems and methods for testing communication media and devices are disclosed herein. An exemplary system may include a transmitting media support and a receiving media support, each including a plurality of communication media. The system may further include a movement support configured to selectively translate the receiving media support relative to the transmitting media support between a transmission position and a free position. In the transmission position, a receiving media may be engaged with the transmitting media to receive an initiated signal from the transmitting media. In the free position, a first end face of the receiving media may be spaced apart from a second end face of the transmitting media, thereby preventing contact between the first and second end faces. The movement support may be further configured to align the at least one of the receiving media with the transmitting media. | ||||||
| 91 | 다중 무선 링크를 갖는 로터리 조인트를 위한 디바이스들 및 방법들 | KR1020187020323 | 2017-01-20 | KR1020180085812A | 2018-07-27 | |
| 제1 측면을갖는제1 플랫폼, 및제1 측면으로부터미리결정된거리내에위치되는제2 측면을갖는제2 플랫폼을포함하는디바이스가제공된다. 디바이스는또한제1 플랫폼의제1 측면이제2 플랫폼의제2 측면으로부터미리결정된거리내에남아있도록제1 플랫폼과제2 플랫폼사이의상대적회전을야기하게구성된액추에이터를포함한다. 디바이스는또한제1 플랫폼에장착된프로브, 및제2 플랫폼에장착된복수의프로브를포함한다. 디바이스는또한복수의프로브에결합된신호조정기를포함한다. 신호조정기는제2 플랫폼에대한제1 플랫폼의배향에기초하여복수의프로브중 하나의프로브를선택할수 있다. 신호조정기는이후제1 플랫폼상의프로브와의무선통신을위해선택된프로브를사용할수 있다. | ||||||
| 92 | 인버터간 균등 제어 운전이 가능한 대용량 에너지 저장시스템 | KR1020140047376 | 2014-04-21 | KR1020150121475A | 2015-10-29 | 강문수 |
| 본발명은병렬로연결된다수의인버터들을노이즈의영향에의한신호왜곡없이균등하게제어운전이가능하도록한 인버터간균등제어운전이가능한대용량에너지저장시스템에관한것으로서, 기준 PWM 신호를발생하는 PWM 발생회로와상기 PWM 발생회로로부터발생된기준 PWM 신호를공급받아옵티컬신호로변환하여출력하는제 1 O/E 변환기로이루어진인버터제어부와, 상기인버터제어부로부터출력되는 PWM 신호와옵티컬신호를공급받아옵티컬신호로변환하여출력하는제 2 O/E 변환기를내장하고병렬로연결된다수의인버터모듈들로이루어져계통전압을출력하는다수개의 PCS 인버터를포함하여구성되는것을특징으로한다. | ||||||
| 93 | 자동 통신 바인딩을 갖는 원격 디스플레이를 구비한 디지털 멀티미터 | KR1020100079758 | 2010-08-18 | KR1020110031086A | 2011-03-24 | 허드슨제프리씨.; 베첼나다니엘제이.; 베터글렌하워드 |
| PURPOSE: A digital multi meter equipped with a remote display having the automatic communication binding is provided to avoid the interference by adjacent device by forming a setup routine. CONSTITUTION: A base unit(12) has a first communications address. A remote display apparatus(14) has a second communications address and is separated from the base apparatus. A communication circuit offers the electric communication of first RF mode, based on the first communication address and the second communication address. | ||||||
| 94 | CONTACTLESS COMMUNICATION BETWEEN ROTATING AND STATIONARY COMPONENTS | EP16716326.0 | 2016-03-07 | EP3266124B1 | 2018-08-08 | BRINKER, Jeffrey; WANG, Wenyu |
| In one embodiment, a dissolution-testing apparatus uses a contactless communication system in place of a conventional slip ring. The communication system has a rotating infra-red (IR) communicator and a stationary IR communicator. The dissolution-testing apparatus includes a stationary base having a processor and a rotating shaft having a sensor array including at least a first sensor. The rotating communicator is part of a rotating communication module including a battery and a housing and adapted to be fixed to the shaft for rotation with the shaft. The stationary communicator is adapted to be fixed to the stationary base. The rotating communicator is adapted to (i) receive data from the first sensor while the rotating communicator rotates and (ii) transmit data corresponding to the sensor data to the stationary communicator in a contactless manner while the rotating communicator rotates with respect to the stationary communicator. | ||||||
| 95 | RESIDENT ROV SIGNAL DISTRIBUTION HUB | EP16831160.3 | 2016-07-22 | EP3325760A1 | 2018-05-30 | KERINS, Kevn Francis; MANCINI, Christopher; MOLES, Peter Andrew Robert |
| A subsea umbilical and signal distribution hub (SDH) comprises a signal source, the signal comprising power and/or data; one or more signal carriers operatively in communication with the signal source; and a subsea signal distribution hub, which comprises a signal input connector operatively in communication with the signal carrier and a signal output connector operatively in communication with the signal input connector. Signals may be provided by deploying a device such as remotely operated vehicle (ROV) subsea; deploying a riser tension and mounting system (RTMS) with a resident ROV (RROV) installed; deploying a jumper from the RTMS to the RROV; operatively connecting the jumper to a signal distribution hub with such as via an ROV; and once in place, switching the signal on at the signal distribution hub. | ||||||
| 96 | DIRECTIONAL LIGHT TRANSMITTER AND RECEIVER | EP06796128.4 | 2006-09-27 | EP1929678B1 | 2018-03-14 | ALPERT, Ortal |
| A system for supplying power wirelessly to a remote mobile device including (i) a transmitting unit for directing radiation into the region of the mobile device, the transmitting unit having a gain medium with a front surface directed towards the space, and a retroreflector on its back surface, and (ii) a receiver unit connected with or attached to the mobile device for receiving radiation transmitted from the transmitting unit. The receiver unit includes (i) a retroreflector for reflecting part of the radiation received from the transmitting unit back in the direction of the transmitting unit, where it is amplified and retransmitted back in the direction of the receiver unit, and (ii) a power detection element for absorbing that part of the radiation not reflected by the retroreflector, and converting it to electrical power for use by the mobile device. Modulation of the transmitted beam enables it to transmit data also. | ||||||
| 97 | Vorrichtung zum Übertragen von Signalen zwischen zwei drehbaren Baueinheiten | EP13000776.8 | 2013-02-14 | EP2768159B1 | 2017-05-24 | Angerpointner, Ludwig; Autenzeller, Peter |
| 98 | TUBE-DETECTOR ALIGNMENT USING LIGHT PROJECTIONS | EP14720526.4 | 2014-04-16 | EP2988673A1 | 2016-03-02 | MANKE, Dirk; KURZE, Christoph; VAN DE VEN, Richard Johannus Maria |
| The present invention relates to acquisition of medical image information of an object. In order to provide a user- friendly alignment of X-ray tube (18) and a detector (24), optionally combined with an anti-scatter grid, an alignment arrangement (200) is proposed, which comprises a tube attachment (26) with a first light projection device (28) and a detector attachment (34) with a second light projection device (36). The first and second light projection devices each generate a light pattern (30, 38) on a projection surface (32). The tube attachment (26) and the detector attachment (34) can be brought into a correct spatial arrangement relative to each other by bringing the first light pattern in a predetermined spatial relation with the second light pattern (38) on the projection surface. | ||||||
| 99 | INTRAPERSONAL DATA COMMUNICATION SYSTEM | EP13746322 | 2013-02-08 | EP2812749A4 | 2015-06-24 | MASARIK DAVID MICHAEL |
| Some embodiments are provided for providing a wireless bridge to local devices on personal equipment systems. Personal equipment systems can include wireless communication systems that allow external systems, users, or both to communicate with and access data from local devices on the personal equipment systems. Personal equipment systems are provided having one or more local devices coupled thereto and in wired communication with one another. Personal equipment systems can include a wireless system and local devices attached to a headgear system, the local devices being in wired communication with one another and in wireless communication with external systems. The wireless communication system is configured to establish a wireless connection with external systems for communicating with and accessing local devices that are in wired communication with each other. | ||||||
| 100 | MEDICAL IMAGING SYSTEM AND METHOD FOR PROVIDING AN X-RAY IMAGE | EP12809346.5 | 2012-11-26 | EP2785249B1 | 2015-06-17 | KURZE, Christoph |
QQ群二维码
意见反馈
意见反馈