| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 可靠的等离子体点火和再点火 | CN201480023725.0 | 2014-02-25 | CN105144850A | 2015-12-09 | G·万兹尔; D·W·马德森; F·G·托马塞尔 |
| 本公开内容描述了针对连续波(CW)和脉冲功率传送两者的在点火时期期间经由提供增大的瞬时功率确保等离子体处理室中的等离子体的期望的点火的系统、方法和装置。系统、方法和装置可以应用于等离子体的初始点火以及在脉冲功率传送导致等离子体的周期性熄灭的情况下的等离子体的再点火。 | ||||||
| 2 | 可靠的等离子体点火和再点火 | CN201480023725.0 | 2014-02-25 | CN105144850B | 2018-05-25 | G·万兹尔; D·W·马德森; F·G·托马塞尔 |
| 本公开内容描述了针对连续波(CW)和脉冲功率传送两者的在点火时期期间经由提供增大的瞬时功率确保等离子体处理室中的等离子体的期望的点火的系统、方法和装置。系统、方法和装置可以应用于等离子体的初始点火以及在脉冲功率传送导致等离子体的周期性熄灭的情况下的等离子体的再点火。 | ||||||
| 3 | 极其重要的数字输入 | CN201380011076.8 | 2013-01-10 | CN104285248A | 2015-01-14 | G·C·伊利耶; V·洛斯通; D·三都; S·奥维迪乌 |
| 本发明公开了一种能够被检查可靠性的数字输入接口。输入端上的电路结构允许高阻抗用于直流(DC)输入信号,而且允许低阻抗用于感应交流(AC)噪声,理所当然在保持DC输入信号的同时衰减任何AC感应噪声。此接口也提供潜在故障检测机。此潜在故障检测机能够断开和闭合接口输入端上的光耦合器,这样给输入端上的电容器放电和充电。当光耦合器再次断开的时候,给电容器再次充电所用的时间被用来确定接口中的任意阈值是否衰减。 | ||||||
| 4 | 一种采集器保护电路 | CN201921424466.9 | 2019-08-29 | CN210111979U | 2020-02-21 | 计政江; 李华海; 邓煌明 |
| 本实用新型公开了一种采集器保护电路,与采集器芯片电连接,包括,电源电压控制开关电路和反接切断电路;电源电压控制开关电路包括,三极管KT1的基极通过电阻R5连接至采集器芯片的电源接入端,三极管KT1的基极同时通过电阻R1接地;三极管KT1的集电极通过电阻R2连接至12V电源;三极管KT1的发射极接地;MOS管KT2的漏极通过电阻R3连接至采集器芯片的电源输入端,MOS管KT2的栅极连接至三极管KT1的集电极,MOS管KT2的源极连接至采集器芯片的接地端;反接切断电路包括MOS管KT3的栅极通过电阻R2连接至12V电源,MOS管KT3的源极接地,MOS管KT3的漏极同时连接MOS管KT2的源极和采集器芯片的接地端。本实用新型能够有效避免高压脉冲以及电源正负接反导致传感数据采集器损坏的问题。 | ||||||
| 5 | STATIC ELECTRICITY COUNTERMEASURE COMPONENT AND METHOD FOR MANUFACTURING THE STATIC ELECTRICITY COUNTERMEASURE COMPONENT | US12679161 | 2008-11-20 | US20100254052A1 | 2010-10-07 | Hidenori Katsumura; Hideaki Tokunaga; Muneyuki Sawada |
| An electrostatic discharge (ESD) protector includes a ceramic body having a cavity provided therein, and two discharge electrodes facing each other across the cavity. The discharge electrodes are made of metal containing more than 80 wt. % of tungsten. The discharge electrodes contain not more than 2.0 atomic % of tungsten bonded to oxygen to a total amount of tungsten contained in the discharge electrodes. This ESD protector does not cause a short-circuiting even upon having high-voltage static electricity applied to the discharge electrodes repetitively, thus having high reliability. | ||||||
| 6 | WORKER SAFETY MANAGEMENT SYSTEM | US11817305 | 2006-07-12 | US20090072631A1 | 2009-03-19 | Tatsuya Iida; Manabu Shutto; Hiroaki Furukawa; Toshiki Koshi; Takashi Tanaka |
| Task—To provide a worker safety management system that can adapt itself to changes in the conditions of the workers and the machines in a flexible manner and can finely manage the safety of the worker.Means to Achieve the Task—Worker safety is managed by using safety management information stored in an ID tag. The safety management information includes a work area code indicating a work area permitted to the corresponding worker and a danger avoiding capability code indicating a danger avoiding capability of the worker. The danger avoiding capability indicated by the danger avoiding capability code is determined from a worker skill of the corresponding worker that is evaluated in a standardized manner from past work experience of the corresponding worker and credits earned in a safety education program, and a specific degree of danger in the work area permitted to the worker. | ||||||
| 7 | 電子機器の記憶装置格納データの削除システム | JP2012115858 | 2012-05-21 | JP6443651B2 | 2018-12-26 | 金村 貴康 |
| 8 | System for preventing intrusion of computer viruses, and system for deleting data stored in storage device | JP2012115858 | 2012-05-21 | JP2013243864A | 2013-12-05 | KANEMURA TAKAYASU |
| PROBLEM TO BE SOLVED: To provide a system for preventing intrusion of computer viruses and a system for deleting data stored in a storage device capable of destroying and deleting unnecessary storage data including computer viruses, and automatically backing up and protecting an electronic substrate and necessary data.SOLUTION: In a system for deleting data stored in a storage device and deleting computer viruses, a plurality of SPDs 6a, 6b, and 6c having different ratings are connected respectively in parallel to a two-pole or three-pole AC circuit connection terminal 5, the AC circuit connection terminal 5 being arranged on an electronic substrate 4 of an electronic apparatus on which a power source circuit 1, a counter circuit 2, and storage devices 3 such as a hard disk drive (HDD) and a solid state drive (SDD) are mounted; and a surge current discharge circuit 7 to the storage devices 3 is attached to the power source substrate 1. | ||||||
| 9 | VITAL DIGITAL INPUT | CA2862975 | 2013-01-10 | CA2862975C | 2019-06-11 | ILIE GABRIEL CRISTIAN; LOSTUN VIRGIL; SANDU DANIEL; STAN OVIDIU |
| A digital input interface is provided which can be checked for its reliability. The configuration of the circuit on the input side allows a high impedance for a DC input signal and a low impedance for induced AC noise, naturally attenuating any AC induced noise while maintaining the DC input signal. The interface also provides a latent failure detection engine. The latent failure detection engine can open and close an optocoupler on the input side of the interface, which discharges and charges a capacitor on the input side. The time taken for the capacitor to recharge when the optocoupler is re-opened is used to determine if there has been any threshold decay in the interface. | ||||||
| 10 | MODULAR SUBSTATION PROTECTION AND CONTROL SYSTEM | CA2870672 | 2013-06-19 | CA2870672C | 2017-07-18 | SHAW AARON; THAKUR MANISH |
| The invention provides a modular protection and control system for power substations. Embodiments provide for selection of modular protection and control assets have a modular plug-and-play features incorporated into standardized modular panels for installation in modular base modules and expansion modules. | ||||||
| 11 | circuito de interface de entrada digital, e, método para determinar a confiabilidade de uma interface de entrada digital | BR112014017254 | 2013-01-10 | BR112014017254A2 | 2017-06-13 | DANIEL SANDU; GABRIEL CRISTIAN ILIE; STAN OVIDIU; VIRGIL LOSTUN |
| 12 | Přepěťová ochrana se signalizací překročení provozní teploty | CZ201632340 | 2016-05-03 | CZ29574U1 | 2016-06-29 | SUCHÝ JAROMÍR; KOMRSKA DAVID; PÉREZ RAÚL |
| 13 | УСТРОЙСТВО ДЛЯ ИНФОРМАЦИОННОЙ ЗАЩИТЫ РАСПРЕДЕЛЕННОЙ СЛУЧАЙНОЙ АНТЕННЫ | RU2011119598 | 2011-09-02 | RU2011119598A | 2013-03-10 | |
| Устройстводляинформационнойзащитыраспределеннойслучайнойантенныс помощьюгенераторапреднамереннойпомехи, отличающеесятем, чтов егосоставвключеныусилитель-модулятори управляемоепараметрическоеустройство, обладающеепеременнымактивнымсопротивлением, причемвыходгенераторапреднамереннойпомехиподключенк входуусилителя-модулятора, выходусилителя-модулятораподключенк управляющемувходупараметрическогоустройства, апараметрическоеустройствоподключенок распределеннойслучайнойантенне. | ||||||
| 14 | PORTABLE GRADIENT CONTROL MAT | CA3033609 | 2019-02-12 | CA3033609A1 | 2019-10-13 | WANG CHENYANG; ADAJAR EMERSON |
| A portable gradient control plate providing protection against touch potentials for electrical workers that can be carried and set-up at workplace conveniently. The gradient control plate has a perforated top plate for stability and extra foot grip minimizing slip hazards. It is supported by aluminum members thus elevating the foot above grade. The gradient control plate can be folded through hinges and equipped with a handle introducing portability into the apparatus. Each aluminum plate is secured by a locking mechanism and bonded by a braided copper wire to ensure equipotential between plates. Aluminum rods for attaching hotline clamps will be placed on each side of the gradient control plate for electrical connection to the power source. | ||||||
| 15 | BATTERY CONTROL AND PROTECTIVE ELEMENT VALIDATION METHOD | CA2876504 | 2013-07-24 | CA2876504C | 2017-08-08 | GHODE ANIL P; BECKER THOMAS P; HERRES DONALD |
| A method, system and device for discharging power or validating protective elements of a power source to ensure proper functioning of a tool at various temperatures. The power source communicates with a switch using handshake signals to establish a scheme for power distribution depending on the temperature of the power source. The power source can discharge power at a normal start-up rate or a slower start-up rate depending on the temperature of the power source. Handshake signals can also be used to validate protective elements, where the protective elements respond to wake-up signals with respective handshake signals indicating that the protective elements are functioning properly. | ||||||
| 16 | sistema de gestão eletrônico automático de iluminação pública | BR102015003511 | 2015-02-19 | BR102015003511A2 | 2017-02-14 | ALBERTO TENÓRIO BONFIM |
| sistema de gestão eletrônico automático de iluminação pública consiste em uma plataforma que permite o gerenciamento de sistemas de iluminação pública na partir do acesso a um endereço na internet. o usuário pode utilizar as ferramentas que o sistema dispõe para monitoramento através da detecção em tempo real de falhas que ocorrem no poste, tais como o acendimento de uma lâmpada durante o dia ou uma lâmpada que está apagada no período noturno e controle automático do acendimento e desligamento de circuitos de iluminação decorativa e de segurança através de programação de chaves de comando remoto. | ||||||
| 17 | BRACKET FOR AN ELECTRICAL DISTRIBUTION BOARD | AU2016203266 | 2016-05-19 | AU2016203266A1 | 2016-12-08 | LAYTON DARREN JOHN |
| The present invention is directed to a bracket to support one or more circuit breakers to a gear pan and operationally connected to a chassis for an electrical 5 distribution board, wherein the gear pan and the one or more circuit breakers can be of different types. In the preferred embodiment the bracket is a dual reversible bracket that can be used with two different circuit breaker types wherein the bracket has different flange widths and or different flange heights to accommodate design differences between the circuit breakers. Fig. 1 N cV | ||||||
| 18 | CIRCUIT BREAKER | CA2881667 | 2015-02-12 | CA2881667A1 | 2015-08-18 | XU FEI; YANG WENQIANG |
| A circuit breaker comprising a superconducting fault current limiter and a circuit breaker module, wherein the superconducting fault current limiter and the circuit breaker module are connected in series. The circuit breaker module includes a disconnector, a first semiconductor switch unit, and a second semiconductor switch unit, wherein the disconnector is connected in series with the first semiconductor switch unit, and also connected in series with the superconducting fault current limiter, and the second semiconductor switch unit is connected in parallel with the disconnector and first semiconductor switch unit that are connected in series. The circuit breaker can quickly and securely interrupt a circuit when an overcurrent fault occurs on the circuit. | ||||||
| 19 | Automation apparatuses with integrated communications servers | AU2009208094 | 2009-08-10 | AU2009208094A1 | 2010-03-18 | ALLCOCK DAVID JOHN; MAZEREEUW JEFFERY GLENN |
| 20 | VITAL DIGITAL INPUT | EP13736397.4 | 2013-01-10 | EP2803058B1 | 2016-12-07 | ILIE, Gabriel Cristian; LOSTUN, Virgil; SANDU, Daniel; STAN, Ovidiu, Stan |
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