序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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61 | Configurable modular intelligent electronic overload device and system with embedded programming tools | EP14191645.2 | 2014-11-04 | EP2879153B1 | 2017-07-19 | Martin, William H.; Norrod, Eric; Waydick, Eric M.; Kotze, Theron; Flood, James J.; Carter, Keith D. |
A modular intelligent electronic overload device that requires only a single configuration file to describe the device with all of the available options. Furthermore, the modular intelligent electronic overload device contains embedded application files that provide commonly used control algorithms into the non-volatile memory of the modular intelligent electronic overload device that can be accessed by a user to configure the device without the need for a personal computer. Finally, the modular intelligent electronic overload device configuration parameters can be stored to virtual non-volatile memory contained in an associated user interface device, allowing for easy replacement of the modular intelligent electronic overload device. | ||||||
62 | Micro-electromechanical switch protection in series parallel topology | EP09169531.2 | 2009-09-04 | EP2164089B1 | 2017-04-12 | Premerlani, William James; O'Brien, Kathleen Ann; Schelenz, Owen Jannis |
63 | Modular overload relay assembly with a modular communication and human interface module | EP14191525.6 | 2014-11-03 | EP2881964B1 | 2016-08-24 | Glaser, William T.; Kotze, Theron; Flood, James J.; Yerukhimov, Leonid; Waydick, Eric |
64 | METHOD AND RELAY FOR COMMUNICATING A VALUE OF A PARAMETER OF A SOURCE TO BE MONITORED | EP12189418.2 | 2012-10-22 | EP2584581B1 | 2016-04-20 | Loung, Liew Yew; Han, Yong Heng; Jong, Chong Pat |
65 | ELECTRICAL CONTACT APPARATUS, ASSEMBLIES, AND METHODS OF OPERATION | EP13736720.7 | 2013-06-28 | EP2867908A1 | 2015-05-06 | IONESCU, Bogdan; HAMMOND, Peter Willard; OSMAN, Richard H. |
An electrical contact apparatus is disclosed. The contact apparatus has first contact member having a first contact, a movable contact member received adjacent to the first contact member, the movable contact member having an opposing contact positioned adjacent the first contact, and an armature operable to produce an electromagnetic closing force to cause the movable contact member to remain closed upon application of current through the first contact member, movable contact member. Contact assemblies and methods of operating the contact apparatus are disclosed, as are other aspects. | ||||||
66 | FAST BREAKER FAILURE DETECTION FOR HVDC CIRCUIT BREAKERS | EP11711917.2 | 2011-04-04 | EP2695267B1 | 2015-04-01 | JUHLIN, Lars-Erik |
67 | Micro-electromechanical switch protection in series parallel topology | EP09169531.2 | 2009-09-04 | EP2164089A3 | 2012-04-25 | Premerlani, William James; O'Brien, Kathleen Ann; Schelenz, Owen Jannis |
An electrical switching device is presented. The electrical switching device includes multiple switch sets coupled in series. Each of the switch sets includes multiple switches coupled in parallel. A control circuit is coupled to the multiple switch sets and configured to control opening and closing of the switches. One or more intermediate diodes are coupled between the control circuit and each point between a respective pair of switch sets. |
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68 | System and method for managing power supply to a circuit breaker control unit | EP09157640.5 | 2009-04-08 | EP2110924A2 | 2009-10-21 | Vicente, Nataniel Barbosa; Lenhart, Jr., Brian Patrick; West, Stephen James; Greenwood, Todd; Devarapalli, Sreenivasulu R.; Hameed, Zubair |
A system (34) for controlling power in a circuit breaker trip unit (16) is disclosed. The system includes: a user interface (26) operably coupled to the trip unit (16) and having a plurality of input keys (28,30); a power conditioner (20) operably coupled to the user interface (26) and operably coupled to a battery power source (24) and an external power source (22); and a power control circuit (36). The power control circuit (36) is configured to automatically electrically connect the battery power source (24) to the power conditioner (20) in response to activation of any of the plurality of input keys (28,30), and in the absence of an electrical connection between the external power source (22) and the power conditioner (20). |
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69 | MODULAR AUTOMATIC ELECTRIC BREAKER WITH OPTIMIZATION OF USED SPACES | EP97932828.0 | 1997-07-15 | EP0912985A1 | 1999-05-06 | BOSATELLI, Domenico; CONTARDI, Augusto; PIANEZZOLA, Sergio |
A modular automatic electric breaker with optimization of used spaces, which comprises a flat box-like body (1) which has, on its rear face, couplers (2) for coupling to an omega-shaped guide and, on its front face, a central protrusion (3) at which it is possible to access an actuation part. The particularity of the invention is constituted by the fact that it comprises an electrical protection part (10), a kinematic system for actuating a moving electrical contact, and a snuffer cell (12), which are mutually operatively interconnected and occupy no more than half of the internal volume formed by the box-like body. | ||||||
70 | Circuitry in motor vehicles | EP83108533 | 1983-08-30 | EP0104474A3 | 1987-05-27 | Weishaupt, Walter |
Bei einer Schaltanordnung in Kraftfahrzeugen, bei der ein elektromagnetisches Relais und ein Sicherungselement in Reihe liegen, ist einer der Relais-Kontakte als Überstromsi cherung ausgebildet und dient damit als Sicherungselement. Auf diese Weise lassen sich unter deutlicher Verringerung des Bauvolumens eine Vielzahl von Kontakten einsparen und die bei Kontakten stets auftretenden Kontaktierungsproble me beseitigen. | ||||||
71 | Schaltanordnung in Kraftfahrzeugen | EP83108533.7 | 1983-08-30 | EP0104474A2 | 1984-04-04 | Weishaupt, Walter |
Bei einer Schaltanordnung in Kraftfahrzeugen, bei der ein elektromagnetisches Relais und ein Sicherungselement in Reihe liegen, ist einer der Relais-Kontakte als Überstromsicherung ausgebildet und dient damit als Sicherungselement. Auf diese Weise lassen sich unter deutlicher Verringerung des Bauvolumens eine Vielzahl von Kontakten einsparen und die bei Kontakten stets auftretenden Kontaktierungsprobleme beseitigen. |
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72 | An automatic configurable relay | EP12188618.8 | 2012-10-16 | EP2584580B1 | 2018-07-11 | Yeong, Ya Chee; Loung, Liew Yew |
An automatic configurable relay and a method for automatic configuration of a relay are provided. The relay comprises an input sampling module for coupling to a source to be monitored, the sampling module configured to detect a first value of a parameter of the source to be monitored; and a processing module configured to set a working condition based on the detected first value. | ||||||
73 | Event communication apparatus for protection relay | EP14181726.2 | 2014-08-21 | EP2843684B1 | 2016-05-25 | Jeon, Byung Joon |
74 | Configurable modular intelligent electronic overload device and system with embedded programming tools | EP14191645.2 | 2014-11-04 | EP2879153A3 | 2015-06-24 | Martin, William H.; Norrod, Eric; Waydick, Eric M.; Kotze, Theron; Flood, James J.; Carter, Keith D. |
A modular intelligent electronic overload device that requires only a single configuration file to describe the device with all of the available options. Furthermore, the modular intelligent electronic overload device contains embedded application files that provide commonly used control algorithms into the non-volatile memory of the modular intelligent electronic overload device that can be accessed by a user to configure the device without the need for a personal computer. Finally, the modular intelligent electronic overload device configuration parameters can be stored to virtual non-volatile memory contained in an associated user interface device, allowing for easy replacement of the modular intelligent electronic overload device. |
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75 | Configurable modular intelligent electronic overload device and system with embedded programming tools | EP14191645.2 | 2014-11-04 | EP2879153A2 | 2015-06-03 | Martin, William H.; Norrod, Eric; Waydick, Eric M.; Kotze, Theron; Flood, James J.; Carter, Keith D. |
A modular intelligent electronic overload device that requires only a single configuration file to describe the device with all of the available options. Furthermore, the modular intelligent electronic overload device contains embedded application files that provide commonly used control algorithms into the non-volatile memory of the modular intelligent electronic overload device that can be accessed by a user to configure the device without the need for a personal computer. Finally, the modular intelligent electronic overload device configuration parameters can be stored to virtual non-volatile memory contained in an associated user interface device, allowing for easy replacement of the modular intelligent electronic overload device. |
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76 | Event communication apparatus for protection relay | EP14181726.2 | 2014-08-21 | EP2843684A1 | 2015-03-04 | Jeon, Byung Joon |
Disclosed is an event communication apparatus for a protection relay, which effectively simplifies an event determination operation by a main processing module and a communication module, thereby enhancing updating. The event communication apparatus for the protection relay includes a shared memory configured to store and provide data needed to share, a main processing module configured to, whenever an event occurs, update previous event data to a status information of the event and a status occurrence time information as new event data, and write the updated event data into the shared memory, and a communication module configured to periodically read status information from the shared memory, compare the read status information with pre-stored previous status information to determine whether there is a status change, determine occurrence of a new event when there is the status change, and transmit corresponding event data to an supervisory monitor immediately when the new event occurs. |
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77 | System and method for managing power supply to a circuit breaker control unit | EP09157640.5 | 2009-04-08 | EP2110924B1 | 2013-07-24 | Vicente, Nataniel Barbosa; Lenhart, Jr., Brian Patrick; West, Stephen James; Greenwood, Todd; Devarapalli, Sreenivasulu R.; Hameed, Zubair |
78 | Method and relay for communicating a value of a parameter of a source to be monitored | EP12189418.2 | 2012-10-22 | EP2584581A1 | 2013-04-24 | Loung, Liew Yew; Han, Yong Heng; Jong, Chong Pat |
There is provided a method and relay for communicating a value of a parameter of a source to be monitored. The relay comprises an input sampling module for coupling to the source to be monitored, the sampling module configured to detect the value of a parameter of the source to be monitored; and an output module for communicating the value to a user. |
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79 | An automatic configurable relay | EP12188618.8 | 2012-10-16 | EP2584580A1 | 2013-04-24 | Yeong, Ya Chee; Loung, Liew Yew |
An automatic configurable relay and a method for automatic configuration of a relay are provided. The relay comprises an input sampling module for coupling to a source to be monitored, the sampling module configured to detect a first value of a parameter of the source to be monitored; and a processing module configured to set a working condition based on the detected first value. |
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80 | Micro-electromechanical switch protection in series parallel topology | EP09169531.2 | 2009-09-04 | EP2164089A2 | 2010-03-17 | Premerlani, William James; O'Brien, Kathleen Ann; Schelenz, Owen Jannis |
An electrical switching device is presented. The electrical switching device includes multiple switch sets coupled in series. Each of the switch sets includes multiple switches coupled in parallel. A control circuit is coupled to the multiple switch sets and configured to control opening and closing of the switches. One or more intermediate diodes are coupled between the control circuit and each point between a respective pair of switch sets. |