| 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 | 多频带数据传输方法 | CN200980127284.8 | 2009-07-03 | CN102089991B | 2015-01-07 | J·V·布拉斯科克拉雷特; S·伊兰佐莫利内罗; A·巴德内斯科雷拉; J·L·戈恩扎勒兹莫雷诺; L·M·托雷斯坎顿 |
| 本发明涉及一种多频带数据传输方法,该方法可以用来通过同时使用多于一个的传输频带(9a,9b)(其中频带为连续频率范围)来传输数据以便增加可以在传输系统中使用的带宽并且因而增加其总传输容量。该方法支持所述带宽的使用而不增加与数字实现关联的难度,简化了用于分离不同频带(9a,9b)的模拟滤波器(7)的规定。 | ||||||
| 2 | 一种测试系统 | CN201310730691.6 | 2013-12-26 | CN103913695A | 2014-07-09 | 陈景聪; 陈韦中 |
| 本发明提供了一种测试系统,包括一测试仪和一切换模块,可连接任何一被测器件的管脚到该测试仪,以测试该被测器件,其中,该测试系统在被测器件的接地端和切换模块的接地端之间有一整流装置,用以隔离切换模块和被测器件,进而阻止该被测器件和该切换模块之间产生不需要的电流,以确保测试的正确性。由于该切换模块的接地端没有直接连接到该被测器件和该测试仪的接地端,该整流装置将该切换模块的接地端和该被测器件的接地端之间的电压差保持在零至该整流装置的开启电压之间的范围内,因此单端信号仍然可被使用在切换模块和测试仪或者被测器件之间。 | ||||||
| 3 | 具有远程遥控功能的智能开关及远程遥控系统 | CN201210317975.8 | 2012-08-31 | CN102854834A | 2013-01-02 | 陈德胜; 李晓光; 谢冠宏; 肖昀; 皮尚慧 |
| 一种智能开关,其连接至少一用电设备至一电源。该智能开关包括存储有各用电设备的识别码的存储单元、电力载波单元、遥控单元和处理器。电力载波单元用于接收一网关通过电力线传输的数据,将接收的数据进行分析及处理,分析出用户的遥控指令及用电设备的识别码。处理器包括信号转换模块和控制模块。信号转换模块用于将所述电力载波单元传输的遥控信号转换为遥控信号。控制模块用于控制所述遥控单元根据所述遥控信号遥控所述识别码对应的用电设备。本发明还提供了一种远程遥控系统。本发明实现了对与智能开关连接的各用电设备的远程遥控,使用非常方便。 | ||||||
| 4 | 一种测试系统 | CN201310730691.6 | 2013-12-26 | CN103913695B | 2016-08-17 | 陈景聪; 陈韦中 |
| 本发明提供了一种测试系统,包括一测试仪和一切换模块,可连接任何一被测器件的管脚到该测试仪,以测试该被测器件,其中,该测试系统在被测器件的接地端和切换模块的接地端之间有一整流装置,用以隔离切换模块和被测器件,进而阻止该被测器件和该切换模块之间产生不需要的电流,以确保测试的正确性。由于该切换模块的接地端没有直接连接到该被测器件和该测试仪的接地端,该整流装置将该切换模块的接地端和该被测器件的接地端之间的电压差保持在零至该整流装置的开启电压之间的范围内,因此单端信号仍然可被使用在切换模块和测试仪或者被测器件之间。 | ||||||
| 5 | 具有远程遥控功能的智能开关及远程遥控系统 | CN201210317975.8 | 2012-08-31 | CN102854834B | 2014-12-31 | 陈德胜; 李晓光; 谢冠宏; 肖昀; 皮尚慧 |
| 本发明提供一远程遥控系统,包括智能开关、网关和入网控制装置。入网控制装置在与网关完成入网配对后,将智能开关的识别码发送至网关以注册。智能开关连接用电设备至一电源。智能开关包括存储有各用电设备的识别码的存储单元、电力载波单元、遥控单元和处理器。电力载波单元接收一网关通过电力线传输的数据,将接收的数据进行分析及处理,分析出用户的遥控指令及用电设备的识别码。处理器包括信号转换模块和控制模块。信号转换模块将所述电力载波单元传输的遥控信号转换为遥控信号。控制模块用于控制所述遥控单元根据所述遥控信号遥控所述识别码对应的用电设备。本发明实现了对与智能开关连接的各用电设备的远程遥控,使用非常方便。 | ||||||
| 6 | 多频带数据传输方法 | CN200980127284.8 | 2009-07-03 | CN102089991A | 2011-06-08 | J·V·布拉斯科克拉雷特; S·伊兰佐莫利内罗; A·巴德内斯科雷拉; J·L·戈恩扎勒兹莫雷诺; L·M·托雷斯坎顿 |
| 本发明涉及一种多频带数据传输方法,该方法可以用来通过同时使用多于一个的传输频带(9a,9b)(其中频带为连续频率范围)来传输数据以便增加可以在传输系统中使用的带宽并且因而增加其总传输容量。该方法支持所述带宽的使用而不增加与数字实现关联的难度,简化了用于分离不同频带(9a,9b)的模拟滤波器(7)的规定。 | ||||||
| 7 | Semiconductor device | US15298563 | 2016-10-20 | US10090881B2 | 2018-10-02 | Ryuichi Oikawa |
| The present invention provides a semiconductor device realizing suppression of increase in consumption power. A semiconductor device has a signal line, a reception buffer circuit which is coupled to an end of the signal line and to which a signal is supplied from the signal line, and a delay element which is wired-OR coupled to an end of the signal line and shapes waveform of a signal at the end of the signal line. | ||||||
| 8 | Smart switch and remote control system using the same | US14014332 | 2013-08-29 | US09153126B2 | 2015-10-06 | Te-Sheng Chen; Xiao-Guang Li; Kuan-Hong Hsieh; Yun Xiao; Shang-Hui Pi |
| A smart switch applied to a remote control system in a smart home is connected to a power and at least one electronic device. The smart switch includes a storage, and a communication unit receiving commands from a remote source which include the unique identification code of a target electronic device. A smart gateway, a remote unit, and a processor unit including a converting module and a control module are also included. The converting module converts the remote command to a control signal that can be recognized by the electronic device, and the control module controls the remote unit to send the control signal to the electronic device. A remote control system is also provided. | ||||||
| 9 | TESTING SYSTEM WITH AN ISOLATED SWITCHING MODULE | US13731012 | 2012-12-30 | US20140184240A1 | 2014-07-03 | CHING-TSUNG CHEN; WEICHUNG CHEN |
| In this invention, a test system includes a tester and a switching module for connecting any pin to the tester for testing a device-under-test (DUT), the test system has a rectifying device between the ground of the DUT and the ground of the switching module in order to isolate the DUT from the switching module, thereby blocking unwanted current flowing between the DUT and the switching module to ensure the correctness of the testing.Since the ground of the switching module is not directly connected to the ground of the DUT and the tester, the rectifying device will keep the voltage difference between the ground of the switching module and the DUT in a range between zero and the cut-in voltage of the rectifying device, thereby allowing single-ended signals to be used between the switching module and the tester or the DUT. | ||||||
| 10 | MULTI-BAND DATA TRANSMISSION | US13054024 | 2009-07-03 | US20120134375A1 | 2012-05-31 | Jorge Vicente Blasco Claret; Salvador Iranzo Molinero; Agustin Badenes Corella; Jose Luis Gonzales Moreno; Luis Manuel Torres Cantón |
| A system for transmitting and receiving data includes a physical adaptation block configured to separate the data into a plurality of frequency bands. Each of the frequency bands has an associated symbol time, and each of the associated symbol times is a whole multiple of one half of a smallest symbol time of all of the frequency bands. An analog front end is configured to provide the data in the plurality of frequency bands to a transmission medium. | ||||||
| 11 | SEMICONDUCTOR DEVICE | US15298563 | 2016-10-20 | US20170141812A1 | 2017-05-18 | Ryuichi OIKAWA |
| The present invention provides a semiconductor device realizing suppression of increase in consumption power. A semiconductor device has a signal line, a reception buffer circuit which is coupled to an end of the signal line and to which a signal is supplied from the signal line, and a delay element which is wired-OR coupled to an end of the signal line and shapes waveform of a signal at the end of the signal line. | ||||||
| 12 | Testing system with an isolated switching module | US13731012 | 2012-12-30 | US09244118B2 | 2016-01-26 | Ching-Tsung Chen; Weichung Chen |
| In this invention, a test system includes a tester and a switching module for connecting any pin to the tester for testing a device-under-test (DUT), the test system has a rectifying device between the ground of the DUT and the ground of the switching module in order to isolate the DUT from the switching module, thereby blocking unwanted current flowing between the DUT and the switching module to ensure the correctness of the testing.Since the ground of the switching module is not directly connected to the ground of the DUT and the tester, the rectifying device will keep the voltage difference between the ground of the switching module and the DUT in a range between zero and the cut-in voltage of the rectifying device, thereby allowing single-ended signals to be used between the switching module and the tester or the DUT. | ||||||
| 13 | Multi-band data transmission | US13054024 | 2009-07-03 | US08982909B2 | 2015-03-17 | Jorge Vicente Blasco Claret; Salvador Iranzo Molinero; Agustin Badenes Corella; Jose Luis Gonzalez Moreno; Luis Manuel Torres Cantón |
| A system for transmitting and receiving data includes a physical adaptation block configured to separate the data into a plurality of frequency bands. Each of the frequency bands has an associated symbol time, and each of the associated symbol times is a whole multiple of one half of a smallest symbol time of all of the frequency bands. An analog front end is configured to provide the data in the plurality of frequency bands to a transmission medium. | ||||||
| 14 | SMART SWITCH AND REMOTE CONTROL SYSTEM USING THE SAME | US14014332 | 2013-08-29 | US20140064737A1 | 2014-03-06 | TE-SHENG CHEN; XIAO-GUANG LI; KUAN-HONG HSIEH; YUN XIAO; SHANG-HUI PI |
| A smart switch applied to a remote control system in a smart home is connected to a power and at least one electronic device. The smart switch includes a storage, and a communication unit receiving commands from a remote source which include the unique identification code of a target electronic device. A smart gateway, a remote unit, and a processor unit including a converting module and a control module are also included. The converting module converts the remote command to a control signal that can be recognized by the electronic device, and the control module controls the remote unit to send the control signal to the electronic device. A remote control system is also provided. | ||||||
| 15 | MULTI-BAND DATA TRANSMISSION METHOD | EP09800095.3 | 2009-07-03 | EP2302818B1 | 2018-09-05 | BLASCO CLARET, Jorge Vicente; IRANZO MOLINERO, Salvador; BADENES CORELLA, Agustin; GONZALEZ MORENO, Jose Luis; TORRES CANTÓN, Luis Manuel |
| The invention relates to a multi-band data transmission method which can be used to transmit data with the simultaneous use of more than one transmission band (9a, 9b) (where a band is a continuous range of frequencies) in order to increase the bandwidth that can be used in the transmission system and, consequently, the overall transmission capacity thereof. The method enables the use of said bandwidth without increasing the difficulty associated with digital implementation, simplifying the specifications of the analog filters (7) for the separation of the different bands (9a, 9b) | ||||||
| 16 | MULTI-BAND DATA TRANSMISSION METHOD | EP09800095 | 2009-07-03 | EP2302818A4 | 2016-03-30 | BLASCO CLARET JORGE VICENTE; IRANZO MOLINERO SALVADOR; BADENES CORELLA AGUSTIN; GONZALEZ MORENO JOSE LUIS; TORRES CANTÓN LUIS MANUEL |
| The invention relates to a multi-band data transmission method which can be used to transmit data with the simultaneous use of more than one transmission band (9a, 9b) (where a band is a continuous range of frequencies) in order to increase the bandwidth that can be used in the transmission system and, consequently, the overall transmission capacity thereof. The method enables the use of said bandwidth without increasing the difficulty associated with digital implementation, simplifying the specifications of the analog filters (7) for the separation of the different bands (9a, 9b) | ||||||
| 17 | MULTI-BAND DATA TRANSMISSION METHOD | EP09800095.3 | 2009-07-03 | EP2302818A1 | 2011-03-30 | BLASCO CLARET, Jorge Vicente; IRANZO MOLINERO, Salvador; BADENES CORELLA, Agustin; GONZALEZ MORENO, Jose Luis; TORRES CANTÓN, Luis Manuel |
The invention relates to a multi-band data transmission method which can be used to transmit data with the simultaneous use of more than one transmission band (9a, 9b) (where a band is a continuous range of frequencies) in order to increase the bandwidth that can be used in the transmission system and, consequently, the overall transmission capacity thereof. The method enables the use of said bandwidth without increasing the difficulty associated with digital implementation, simplifying the specifications of the analog filters (7) for the separation of the different bands (9a, 9b) |
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| 18 | 다중 대역 데이터 전송 방법 | KR1020117003194 | 2009-07-03 | KR101911032B1 | 2018-10-23 | 브라스코크라레트조지비센트; 이란조모리네로살바도르; 바데네스코렐라아구스틴; 곤잘레즈모레노조세루이스; 토레스칸톤루이스마누엘 |
| 본발명은전송시스템에서사용될수 있는대역폭및 그전체전송용량을증가시키기위해하나이상의전송대역(9a, 9b)(하나의대역은연속하는주파수들의범위임)의동시사용으로데이터를전송하기위해사용될수 있는다중대역데이터전송방법에관한것이다. 상기방법은서로다른대역들(9a, 9b)의분리를위해아날로그필터들(7)의사양들을간략화하여디지털구현과연관된어려움을증가시키지않고상기대역폭의사용을가능하게한다. | ||||||
| 19 | 다중 대역 데이터 전송 방법 | KR1020117003194 | 2009-07-03 | KR1020110115996A | 2011-10-24 | 브라스코크라레트조지비센트; 이란조모리네로살바도르; 바데네스코렐라아구스틴; 곤잘레즈모레노조세루이스; 토레스칸톤루이스마누엘 |
| 본 발명은 전송 시스템에서 사용될 수 있는 대역폭 및 그 전체 전송 용량을 증가시키기 위해 하나 이상의 전송 대역(9a, 9b)(하나의 대역은 연속하는 주파수들의 범위임)의 동시 사용으로 데이터를 전송하기 위해 사용될 수 있는 다중 대역 데이터 전송 방법에 관한 것이다. 상기 방법은 서로 다른 대역들(9a, 9b)의 분리를 위해 아날로그 필터들(7)의 사양들을 간략화하여 디지털 구현과 연관된 어려움을 증가시키지 않고 상기 대역폭의 사용을 가능하게 한다.
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