최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0015219 (2011-01-27) |
등록번호 | US-9231126 (2016-01-05) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 0 인용 특허 : 499 |
A method for testing a photovoltaic panel connected to an electronic module. The electronic module includes an input attached to the photovoltaic panel and a power output. The method activates a bypass to the electronic module. The bypass provides a low impedance path between the input and the outpu
A method for testing a photovoltaic panel connected to an electronic module. The electronic module includes an input attached to the photovoltaic panel and a power output. The method activates a bypass to the electronic module. The bypass provides a low impedance path between the input and the output of the electronic module. A current is injected into the electronic module thereby compensating for the presence of the electronic module during the testing. The current may be previously determined by measuring a circuit parameter of the electronic module. The circuit parameter may be impedance, inductance, resistance or capacitance.
1. A method, comprising: measuring a parameter of an electronic module, the electronic module comprising an input attached to an output of a photovoltaic panel, and a power output;creating a low impedance path between the input of the electronic module and the power output of the electronic module b
1. A method, comprising: measuring a parameter of an electronic module, the electronic module comprising an input attached to an output of a photovoltaic panel, and a power output;creating a low impedance path between the input of the electronic module and the power output of the electronic module by activating a bypass link between the input of the electronic module and the power output of the electronic module; andinjecting, simultaneous to the creating, a current into the electronic module, wherein the current is determined based on the measured parameter. 2. The method of claim 1, further comprising: selecting the circuit parameter from the group consisting of: impedance, inductance, resistance, and capacitance. 3. The method of claim 1, further comprising: permanently attaching the electronic module to the photovoltaic panel. 4. The method of claim 1, wherein the activating of the bypass link comprises: externally applying either an electromagnetic field or a magnetic field. 5. The method of claim 1, further comprising: performing, with the electronic module, one of DC to DC conversion, DC to AC conversion or maximum power point tracking. 6. The method of claim 1, further comprising creating the low impedance path with the bypass link with one of a reed switch, a reed relay switch, a solid state switch or a fuse. 7. The method of claim 1, further comprising creating the low impedance path with the bypass link with a solid state switch. 8. A device comprising: an electronic module comprising at least one input attached to an output of a photovoltaic panel, and at least one power output;a bypass operatively attached to the at least one input of the electronic module and the at least one power output of the electronic module, wherein the bypass, when activated, provides a low impedance path between the at least one power output of the electronic module and the at least one input of the electronic module; anda programmable current injector operatively attached to the electronic module and configured to inject a quantity of current into the electronic module, wherein the quantity of current is determined based on a circuit parameter of the electronic module. 9. The device of claim 8, wherein the circuit parameter is determined by measuring a first circuit parameter of the electronic module. 10. The device of claim 9 wherein the first circuit parameter is selected from the group consisting of: impedance, inductance, resistance, and capacitance. 11. The device of claim 8, wherein the bypass includes a bypass component selected from the group consisting of: at least one switch and at least one fuse, the bypass component connecting the at least one power output and the at least one input of the electronic module. 12. The device of claim 11, wherein the at least one switch includes selectably either: a magnetically activated reed switch;an electro-magnetically activated reed relay switch; ora solid state switch. 13. The device of claim 8, wherein the electronic module performs maximum power point tracking. 14. The device of claim 8, wherein the electronic module performs selectably either: DC to DC conversion or DC to AC inversion. 15. A method, comprising: measuring a circuit parameter of an electronic module, wherein the electronic module comprises at least one input attached to a photovoltaic panel, and at least one power output;programming a current injector based on the measuring;triggering a test module, wherein the triggering comprises simultaneously: activating a bypass between the at least one input of the electronic module and the at least one power output of the electronic module, wherein the activating of the bypass creates a low impedance path between the at least one input of the electronic module and the at least one power output of the electronic module; andcompensating for a presence of the electronic module by injecting, by the current injector and based on the programming, a current into the electronic module. 16. The method of claim 15, further comprising: selecting the circuit parameter from the group consisting of: impedance, inductance, resistance, and capacitance. 17. The method of claim 15, further comprising: determining the current based on the measuring. 18. The method of claim 16, further comprising operatively attaching the bypass via one of a reed switch, a reed relay switch, a solid state switch or a fuse. 19. The method of claim 15, wherein the activating of the bypass comprises: externally applying either an electromagnetic field or a magnetic field. 20. The method of claim 15, wherein the electronic module performs selectably either: DC to DC conversion or DC to AC inversion.
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