| 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 | 用于控制变频器单元的方法及变频器组件 | CN200810108991.X | 2008-06-04 | CN101320942A | 2008-12-10 | J·坎加斯 |
| 本发明名称为用于控制变频器单元的方法及变频器组件,它提供了一种控制变频器单元的方法,变频器单元(2)包含向变频器单元供给输入频率处电能的输入连接,和从变频器单元供给输出频率处电能的输出连接,该方法包括如下控制步骤,在该控制步骤中用控制信号来控制变频器单元(2)。在控制步骤中,控制信号经由感应连接供给到连接到变频器单元(2)的输入连接或输出连接的至少一条线路(10,12),以用于传送电能,控制信号通过至少一条线路(10,12)供给到变频器单元(2)。 | ||||||
| 2 | 具有可确定参数的控制电流回路的控制单元 | CN200910178818.1 | 2009-09-27 | CN101685313A | 2010-03-31 | 福尔克尔·哈斯; 斯文·奥本奥什 |
| 一种控制单元(40),具有可确定参数的控制电流回路(50),用于借助于控制位置(15,54,57)来控制用电设备分路(5;6;7;8;9)的主电路装置(44,45,46),其中控制电流回路(50)调整至参数组(PS)的参数(P1至P12)的不同值(P1’或P1”至P12’或P12”),实现对用电设备分路(5;6;7;8;9)的不同控制功能,和具有用来调整参数组的参数的不同值的装置,其中控制电流回路(50)设计在至少一个控制电流回路板(49)上。为了使控制单元最佳地适应于在低压配电装置中用电设备分路的,尤其是电动机分路的要求,设计有至少一个直接布置在控制电流回路板(49)上的参数化装置,尤其是以DIP开关(61)的形式,作为用于调整参数的不同值的装置。 | ||||||
| 3 | 具有可确定参数的控制电流回路的控制单元 | CN200910178818.1 | 2009-09-27 | CN101685313B | 2014-06-25 | 福尔克尔·哈斯; 斯文·奥本奥什 |
| 一种控制单元(40):-具有可确定参数的控制电流回路(50),用于借助于控制位置(15,54,57)来控制用电设备分路(5;6;7;8;9)的主电路装置(44,45,46),其中控制电流回路(50)调整至参数组(PS)的参数(P1至P12)的不同值(P1’或P1”至P12’或P12”),实现对用电设备分路(5;6;7;8;9)的不同控制功能,和具有用来调整参数组的参数的不同值的装置,其中控制电流回路(50)设计在至少一个控制电流回路板(49)上。为了使控制单元最佳地适应于在低压配电装置中用电设备分路的,尤其是电动机分路的要求,设计有至少一个直接布置在控制电流回路板(49)上的参数化装置,尤其是以DIP开关(61)的形式,作为用于调整参数的不同值的装置。 | ||||||
| 4 | 用于控制变频器单元的方法及变频器组件 | CN200810108991.X | 2008-06-04 | CN101320942B | 2013-01-02 | J·坎加斯 |
| 本发明名称为用于控制变频器单元的方法及变频器组件,它提供了一种控制变频器单元的方法,变频器单元(2)包含向变频器单元供给输入频率处电能的输入连接,和从变频器单元供给输出频率处电能的输出连接,该方法包括如下控制步骤,在该控制步骤中用控制信号来控制变频器单元(2)。在控制步骤中,控制信号经由感应连接供给到连接到变频器单元(2)的输入连接或输出连接的至少一条线路(10,12),以用于传送电能,控制信号通过至少一条线路(10,12)供给到变频器单元(2)。 | ||||||
| 5 | 受電装置、およびプログラム | JP2013557377 | 2012-12-11 | JPWO2013118385A1 | 2015-05-11 | 佐古 曜一郎; 曜一郎 佐古; 和城 賢典; 賢典 和城; 和純 竹村; 邦也 林; 功 相馬; 佳世子 田中; 聡 日賀野; 和俊 芹田 |
| 本発明は、電力識別情報に基づいて伝送される電力が課金対象であるかを判定することにより、伝送される電力が課金対象の電力であるかをユーザに通知させることが可能な、受電装置、およびプログラムを提供するものである。本発明が提供する受電装置(200)は、電力が伝送される電力線と接続する接続部と、伝送される電力が課金対象の電力であるかを示す電力識別情報に基づいて、伝送される電力が課金対象であるかを判定する判定部(214)と、判定結果に基づく通知を行わせる通知制御部(216)とを備える。 | ||||||
| 6 | Intelligent sensor network in a load center | US15033973 | 2013-11-06 | US09784773B2 | 2017-10-10 | Vishwas Mohaniraj Deokar; Namwook Paik; Jeffrey Steven Young |
| According to one aspect, embodiments of the invention provide a system for monitoring a load center including a plurality of current sensors, a communication bus, a plurality of sensor circuits, a power module configured to be coupled to a load center input line and to receive input AC power from the input line, a collector, and a cable configured to be coupled between the power module and the collector, wherein the power module is further configured to provide power to the plurality of sensor circuits via the communication bus, provide power to the collector via the cable, measure at least one of voltage, frequency and phase of input AC power and provide signals related to the measured voltage, frequency or phase to the collector via the cable, receive current measurement signals from the plurality of sensor circuits and provide the received current measurement signals to the collector via the cable. | ||||||
| 7 | FREQUENCY RESPONSE | US15291969 | 2016-10-12 | US20170098937A1 | 2017-04-06 | Heikki HUOMO |
| Control systems and methods for control of grid frequency in an electric power grid, are described. A grid frequency is monitored by monitoring devices at one or more predefined locations in the grid, and a determination is made whether one or more conditions relating to the monitored frequency have been met. A control period during which the grid frequency at one or more of the one or more predefined locations is to be controlled is initiated based on the determination. One or more variation characterizes relating to a variation, during the control period, in grid frequency are determined. Control instructions, comprising instructions to control power flow to and/or from each of a first plurality of power units so as to control the monitored frequency, are sent. The control instructions are generated on the basis of profile information relating to the power units and the determined one or more variation characteristics. | ||||||
| 8 | METHOD OF STABILIZING AN ELECTRICAL NETWORK BY LOAD SHEDDING | US15103622 | 2014-12-15 | US20160315473A1 | 2016-10-27 | Gaspard LEBEL; Nouredine HADJSAID; Raphaël CAIRE |
| The invention relates to a method of stabilization between a high frequency and a low frequency, of an electrical network supplying several sub-networks (22), each sub-network comprising a sub-network manager (24) and supplying N consumer sites (28), each site, j, comprising sheddable loads (34), the method comprising for each sub-network the following steps: ensuring a communication between each site and the sub-network manager thereof; periodically measuring the value of the sheddable power in consumed at each site; deducing for each site an estimated sheddable power; and dispatching to each site j (28) a threshold frequency, such that sheddable loads (34) of this site are unplugged when the frequency of the network drops below the threshold frequency, in which the sub-network manager (24) calculates the threshold frequencies in such a way that the variation of the sheddable powers as a function of frequency is substantially linear. | ||||||
| 9 | Real-time performance monitoring and management system | US10914789 | 2004-08-09 | US07233843B2 | 2007-06-19 | Vikram S. Budhraja; James D. Dyer; Carlos A. Martinez Morales |
| A real-time performance monitoring system for monitoring an electric power grid. The electric power grid has a plurality of grid portions, each grid portion corresponding to one of a plurality of control areas. The real-time performance monitoring system includes a monitor computer for monitoring at least one of reliability metrics, generation metrics, transmission metrics, suppliers metrics, grid infrastructure security metrics, and markets metrics for the electric power grid. The data for metrics being monitored by the monitor computer are stored in a data base, and a visualization of the metrics is displayed on at least one display computer having a monitor. The at least one display computer in one said control area enables an operator to monitor the grid portion corresponding to a different said control area. | ||||||
| 10 | 周波数応答 | JP2016562014 | 2015-03-26 | JP2017515444A | 2017-06-08 | ヘイッキ ウォモ, |
| 電力グリッドでグリッド周波数を制御する、制御システム及び方法が説明される。グリッド周波数は、グリッド内の1つ又は複数の予め定義された位置で監視装置(120)によって監視され、監視対象のグリッド周波数に関する1つ又は複数の条件が満たされているかどうかの判断が行われる。1つ又は複数の予め定義された位置のうち1つ又は複数の位置のグリッド周波数が制御される制御期間が、判断に基づいて開始される。制御期間中のグリッド周波数の変化に関する1つ又は複数の変化特性が、判断される。監視対象のグリッド周波数を制御するように、第1の複数の電力ユニット(119)のそれぞれへの電力潮流及び/又はそれぞれからの電力潮流を制御する命令を含む制御命令が送信される。制御命令は、電力ユニット及び判断される1つ又は複数の変化特性に関するプロファイル情報に基づいて、生成される。【選択図】図5 | ||||||
| 11 | 受電装置、およびプログラム | JP2013557377 | 2012-12-11 | JP5920365B2 | 2016-05-18 | 佐古 曜一郎; 和城 賢典; 竹村 和純; 林 邦也; 相馬 功; 田中 佳世子; 日賀野 聡; 芹田 和俊 |
| 12 | Remote terminal unit modular equipment | US14736717 | 2015-06-11 | US09912193B2 | 2018-03-06 | Peco Grujovski; Didier Leblond; Christophe Mollier; Stephane Sinistro; Yves Panuel |
| Telecontrol equipment for an MV/LV substation between a medium-voltage network and a low-voltage network. The telecontrol equipment including a first device configured to power the equipment from the low-voltage network and from an auxiliary source, a second device configured to communicate information gathered by the equipment to outside, a third device configured to monitor the medium-voltage network at the substation level, and a fourth device configured to monitor the low-voltage network at the substation level. | ||||||
| 13 | SEMICONDUCTOR DEVICE AND CORRESPONDING DEBUGGING METHOD | US15221211 | 2016-07-27 | US20170315175A1 | 2017-11-02 | Nicolas Bernard GROSSIER; Lorenzo GUERRIERI; Giuseppe Livio GOBBATO; Daniele ZERBINI; Martina CORDONI; Pasqualina Fragneto |
| A semiconductor device, for example an integrated circuit such as a microcontroller (MCU) or a digital signal processor (DSP), includes a semiconductor die coupled with a power supply line, a debug module coupled with the semiconductor die to exchange semiconductor die debug command and data signals with the semiconductor die, and a modem coupled with the power supply line. The debug module is arranged to convey the semiconductor die debug command and data signals over the power supply line. | ||||||
| 14 | WIDE-AREA, REAL-TIME MONITORING AND VISUALIZATION SYSTEM | US14954886 | 2015-11-30 | US20160320435A1 | 2016-11-03 | Vikram S. Budhraja; James D. Dyer; Carlos A. Martinez Morales |
| A real-time performance monitoring system for monitoring an electric power grid. The electric power grid has a plurality of grid portions, each grid portion corresponding to one of a plurality of control areas. The real-time performance monitoring system includes a monitor computer for monitoring at least one of reliability metrics, generation metrics, transmission metrics, suppliers metrics, grid infrastructure security metrics, and markets metrics for the electric power grid. The data for metrics being monitored by the monitor computer are stored in a data base, and a visualization of the metrics is displayed on at least one display computer having a monitor. The at least one display computer in one said control area enables an operator to monitor the grid portion corresponding to a different said control area. | ||||||
| 15 | Maintaining distribution-network-wide time synchronization in smart grid devices | US14184820 | 2014-02-20 | US09332072B2 | 2016-05-03 | Jonathan W. Hui; Wei Hong |
| In one embodiment, an alternating circuit (AC) power connected node in a shared-media communication network (with knowledge of a current time) determines a time value of a particular zero-crossing event of the AC power, and sends a message to a neighbor node indicating the time value of the particular zero-crossing event to allow the neighbor node to synchronize its time by coordinating the time value to its detection of the particular zero-crossing event. In another embodiment, the neighboring node determines one or more local zero-crossing events of the AC power, such that upon receiving the message indicating a correct time value of the particular zero-crossing event, the neighboring node can synchronize its local time a current time by matching one of the one or more local zero-crossing events to the particular zero-crossing event and assigning the correct time value to the matched local zero-crossing event. | ||||||
| 16 | MAINTAINING DISTRIBUTION-NETWORK-WIDE TIME SYNCHRONIZATION IN SMART GRID DEVICES | US14184820 | 2014-02-20 | US20150237130A1 | 2015-08-20 | Jonathan W. Hui; Wei Hong |
| In one embodiment, an alternating circuit (AC) power connected node in a shared-media communication network (with knowledge of a current time) determines a time value of a particular zero-crossing event of the AC power, and sends a message to a neighbor node indicating the time value of the particular zero-crossing event to allow the neighbor node to synchronize its time by coordinating the time value to its detection of the particular zero-crossing event. In another embodiment, the neighboring node determines one or more local zero-crossing events of the AC power, such that upon receiving the message indicating a correct time value of the particular zero-crossing event, the neighboring node can synchronize its local time a current time by matching one of the one or more local zero-crossing events to the particular zero-crossing event and assigning the correct time value to the matched local zero-crossing event. | ||||||
| 17 | POWER RECEIVING DEVICE AND PROGRAM | US14376157 | 2012-12-11 | US20150022185A1 | 2015-01-22 | Yoichiro Sako; Takanori Washiro; Kazuyoshi Takemura; Kuniya Hayashi; Isao Soma; Kayoko Tanaka; Satoshi Higano; Kazutoshi Serita |
| There is provided a power receiving device including a connecting unit that is connected to a power line through which power is transmitted, a determining unit that determines whether transmitted power is chargeable, based on power identification information indicating whether the transmitted power is chargeable power, and a notification control unit that performs notification based on a determination result. | ||||||
| 18 | WIDE-AREA, REAL-TIME MONITORING AND VISUALIZATION SYSTEM | US13846895 | 2013-03-18 | US20130282314A1 | 2013-10-24 | Vikram S. Budhraja; James D. Dyer; Carlos A. Martinez Morales |
| A real-time performance monitoring system for monitoring an electric power grid. The electric power grid has a plurality of grid portions, each grid portion corresponding to one of a plurality of control areas. The real-time performance monitoring system includes a monitor computer for monitoring at least one of reliability metrics, generation metrics, transmission metrics, suppliers metrics, grid infrastructure security metrics, and markets metrics for the electric power grid. The data for metrics being monitored by the monitor computer are stored in a data base, and a visualization of the metrics is displayed on at least one display computer having a monitor. The at least one display computer in one said control area enables an operator to monitor the grid portion corresponding to a different said control area. | ||||||
| 19 | WIDE-AREA, REAL-TIME MONITORING AND VISUALIZATION SYSTEM | US13249152 | 2011-09-29 | US20120022707A1 | 2012-01-26 | Vikram S. Budhraja; James D. Dyer; Carlos A. Martinez Morales |
| A real-time performance monitoring system for monitoring an electric power grid. The electric power grid has a plurality of grid portions, each grid portion corresponding to one of a plurality of control areas. The real-time performance monitoring system includes a monitor computer for monitoring at least one of reliability metrics, generation metrics, transmission metrics, suppliers metrics, grid infrastructure security metrics, and markets metrics for the electric power grid. The data for metrics being monitored by the monitor computer are stored in a data base, and a visualization of the metrics is displayed on at least one display computer having a monitor. The at least one display computer in one said control area enables an operator to monitor the grid portion corresponding to a different said control area. | ||||||
| 20 | Wide-area, real-time monitoring and visualization system | US11764145 | 2007-06-15 | US08060259B2 | 2011-11-15 | Vikram S. Budhraja; James D. Dyer; Carlos A. Martinez Morales |
| A real-time performance monitoring system for monitoring an electric power grid. The electric power grid has a plurality of grid portions, each grid portion corresponding to one of a plurality of control areas. The real-time performance monitoring system includes a monitor computer for monitoring at least one of reliability metrics, generation metrics, transmission metrics, suppliers metrics, grid infrastructure security metrics, and markets metrics for the electric power grid. The data for metrics being monitored by the monitor computer are stored in a data base, and a visualization of the metrics is displayed on at least one display computer having a monitor. The at least one display computer in one said control area enables an operator to monitor the grid portion corresponding to a different said control area. | ||||||
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