A power switching assembly for switching power in a power distribution bus, and a power distribution system including such a power switching assembly, are disclosed. The power switching assembly includes a first terminal, a second terminal, a first semiconductor element and a second semiconductor el
A power switching assembly for switching power in a power distribution bus, and a power distribution system including such a power switching assembly, are disclosed. The power switching assembly includes a first terminal, a second terminal, a first semiconductor element and a second semiconductor element electrically coupled between the first terminal and the second terminal to provide controllability of a current flow from the first terminal to the second terminal and from the second terminal to the first terminal A controller for controlling the semiconductor elements may be configured to implement one or more of various control schemes such as a breaker, a current limiter, a load balancer, and a precharging device.
대표청구항▼
1. Power switching assembly for switching power in a power distribution bus, the power switching assembly comprising: a first terminal;a second terminal;a first semiconductor element and a second semiconductor element electrically coupled between the first terminal and the second terminal, wherein t
1. Power switching assembly for switching power in a power distribution bus, the power switching assembly comprising: a first terminal;a second terminal;a first semiconductor element and a second semiconductor element electrically coupled between the first terminal and the second terminal, wherein the first semiconductor element coupled between the first terminal and the second terminal is controllable to selectively allow a current flow in a first direction from the first terminal to the second terminal, and wherein the second semiconductor element coupled between the first terminal and the second terminal is controllable to selectively allow a current flow in a second direction, opposite the first direction, from the second terminal to the first terminal;a current sensor for sensing a current flowing between the first terminal and the second terminal and providing a current signal in response hereto;a controller being configured for receiving the current signal and controlling in response hereto the first semiconductor element and the second semiconductor element;wherein the first terminal of the power switching assembly is electrically coupled to a first bus section of the power distribution bus and the second terminal of the power switching assembly is electrically coupled to a second bus section of the power distribution bus;wherein a first generator is electrically coupled to the first bus section independent of the first and second semiconductor elements for providing electrical energy to the first bus section and selectively electrically coupled to the second bus section as a function of the control of the first semiconductor element by the controller;wherein a second generator is electrically coupled to the second bus section independent of the first and second semiconductor elements for providing electrical energy to the second bus section while the first generator is providing electrical energy to the first bus section, and selectively electrically coupled to the first bus section as a function of the control of the second semiconductor element by the controller;wherein each bus section is adapted to electrically couple to at least one electrical consumer; andwherein the controller is configured to perform a load balancing between the first and second generators, with respect to a total load including at least one electrical consumer coupled to the first bus section and at least one electrical consumer coupled to the second bus section, at least by controlling the first semiconductor element and the second semiconductor element to connect and disconnect the first bus section to or from the second bus section. 2. Power switching assembly of claim 1, wherein the controller is configured for controlling the first semiconductor element and the second semiconductor element in response to the current signal so as to control the magnitude of the current flowing between the first terminal and the second terminal in response to the current signal. 3. Power switching assembly of claim 1, comprising a control input for receiving an external control signal; and wherein the controller is configured for controlling, in response to the external control signal, the first semiconductor element and the second semiconductor element. 4. Power switching assembly of claim 1, wherein the first and second semiconductor elements are electrically coupled in series between the first terminal and the second terminal. 5. Power switching assembly of claim 1, wherein the first and second semiconductor elements are electrically coupled in parallel between the first terminal and the second terminal. 6. Power distribution system comprising: a power distribution bus having a first bus section coupled to a first generator and a second bus section coupled to a second generator, wherein each bus section is adapted to be electrically coupled to at least one electrical consumer;a power switching assembly for switching power in a power distribution bus, the power switching assembly comprising: a first terminal electrically coupled to the first bus section;a second terminal electrically coupled to the second bus section; anda first semiconductor element and a second semiconductor element electrically coupled between the first terminal and the second terminal, wherein the first semiconductor element coupled between the first terminal and the second terminal is controllable to selectively allow a current flow in a first direction from the first terminal to the second terminal, and wherein the second semiconductor element coupled between the first terminal and the second terminal is controllable to selectively allow a current flow in a second direction, opposite the first direction, from the second terminal to the first terminal;wherein the power switching assembly is configured to perform a load balancing of current supply by the first and second generators, with respect to a total load including at least one electrical consumer coupled to the first bus section and at least one electrical consumer coupled to the second bus section, at least by controlling the first and second semiconductor elements to connect and disconnect the first bus section to or from the second bus section. 7. Power distribution system of claim 6, comprising: a first generator for providing electrical energy to the first bus section;a second generator for providing electrical energy to the second bus section;a load controller configured for providing an external control signal to the control input of the power switching assembly to control to the magnitude of the current flowing between the first terminal and the second terminal to alter a load distribution among the first generator and the second generator. 8. Power distribution system of claim 6, wherein the power distribution bus is a DC power distribution bus. 9. Power distribution system of claim 6, wherein the power switching assembly further comprises: a current sensor for sensing a current flowing between the first terminal and the second terminal and providing a current signal in response thereto; anda controller being configured for receiving the current signal and controlling in response hereto the first semiconductor element and the second semiconductor element. 10. Power distribution system of claim 9, wherein the controller is configured for controlling the first semiconductor element and the second semiconductor element in response to the current signal so as to control the magnitude of the current flowing between the first terminal and the second terminal in response to the current signal. 11. Power distribution system of claim 9, wherein the power switching assembly further comprises a control input for receiving an external control signal; and wherein the controller is configured for controlling, in response to the external control signal, the first semiconductor element and the second semiconductor element. 12. Power distribution system of claim 6, wherein the first and second semiconductor elements are electrically coupled in series between the first terminal and the second terminal. 13. Power distribution system of claim 6, wherein the first and second semiconductor elements are electrically coupled in parallel between the first terminal and the second terminal. 14. A method of operating a power distribution system having a power distribution bus with a first bus section and a second bus section, wherein a first generator is electrically coupled to the first bus section for providing electrical energy to the first bus section and a second generator is electrically coupled to the second bus section for providing electrical energy to the second bus section while the first generator is providing electrical energy to the first bus section, and wherein each bus section is adapted to be electrically coupled to at least one electrical consumer, the method comprising: sensing a current flowing between the first bus section and the second bus section;selectively controlling, in response to the sensed current: a first semiconductor element electrically coupled between the first bus section and the second bus section to selectively allow a current flow in a first direction from the first bus section to the second bus section; anda second semiconductor element electrically coupled between the first bus section and the second bus section, and coupled with the first semiconductor element, to selectively control a current flow in a second direction, opposite the first direction, from the second bus section to the first bus section; andperforming a load balancing between the first and second generators, with respect to a total load including the at least one electrical consumer coupled to the first bus section and the at least one electrical consumer coupled to the second bus section, at least by controlling the first semiconductor element and the second semiconductor element in response to the sensed current so as to electrically disconnect the first bus section and the second bus section under predetermined current signal conditions.
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이 특허에 인용된 특허 (5)
Abe Noboru,JPX ; Ito Kohei,JPX, Bi-direction current control circuit for monitoring charge/discharge of a battery.
Billings William W. (American Township ; Allen County OH) Fox David A. (Shawnee Township ; Allen County OH), Bi-directional DC power controller with fault protection.
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