Multi-frequency ground monitor current sensing
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-031/02
H02H-005/10
H02H-001/00
출원번호
US-0823959
(2015-08-11)
등록번호
US-9541595
(2017-01-10)
발명자
/ 주소
Curtis, Dale
출원인 / 주소
INTERMOUNTAIN ELECTRONICS, INC.
대리인 / 주소
Kunzler Law Group
인용정보
피인용 횟수 :
1인용 특허 :
14
초록▼
An apparatus includes a signal generation module that injects a signal in a pilot conductor. The signal includes two or more AC components. Current in the pilot conductor is injected in a grounding conductor of power cables connecting a power source to a load, and the grounding conductor is connecte
An apparatus includes a signal generation module that injects a signal in a pilot conductor. The signal includes two or more AC components. Current in the pilot conductor is injected in a grounding conductor of power cables connecting a power source to a load, and the grounding conductor is connected to a ground return. A current monitor module monitors current in the pilot conductor or ground return, an AC detection module determines an AC current corresponding to each of the two or more AC components present in the monitored current, and an AC threshold module determines if one or more of the AC currents is below an AC threshold. A trip module opens a contact in response to determining that at least one of the AC currents is below an AC threshold for longer than an AC current time threshold. The contact disconnects the power source from the power cables.
대표청구항▼
1. An apparatus comprising: a signal generation module that injects a signal in a pilot conductor, the signal comprising two or more alternating current (“AC”) components, each AC component of the two or more AC components comprising a frequency different from other AC components of the two or more
1. An apparatus comprising: a signal generation module that injects a signal in a pilot conductor, the signal comprising two or more alternating current (“AC”) components, each AC component of the two or more AC components comprising a frequency different from other AC components of the two or more AC components, wherein current in the pilot conductor is injected in a grounding conductor of a set of power cables connecting a power source to a load, the grounding conductor connected to a ground return, wherein the set of power cables, the grounding conductor and the pilot conductor are combined from the power source to the load;a current monitor module that monitors current in at least one of the pilot conductor and the ground return;an AC detection module that determines an AC current corresponding to each frequency of the two or more AC components present in the current monitored by the current monitor module;an AC threshold module that determines if one or more of the AC currents determined by the AC detection module is below an AC threshold; anda trip module that opens a contact in response to the AC threshold module determining that at least one of the AC currents is below an AC threshold for longer than an AC current time threshold, the contact disconnecting the power source from the set of power cables. 2. The apparatus of claim 1, wherein the trip module opens the contact in response to the AC threshold module determining that for at least two of the AC currents, an AC current is below an AC threshold for longer than an AC current time threshold. 3. The apparatus of claim 2, wherein the AC current time threshold comprises a first AC current time threshold and wherein the two or more AC components comprise three AC components and wherein the trip module further opens the contact in response to the AC threshold module determining that each of the three AC currents is below an AC threshold for longer than a second AC current time threshold. 4. The apparatus of claim 1, further comprising a filter module that separates each of the two or more AC components from each other. 5. The apparatus of claim 4, wherein the filter module further substantially removes at least one of a power source fundamental AC component and the harmonics of the power source fundamental AC component from within the two or more AC components of the current monitored by the current monitor module. 6. The apparatus of claim 1, wherein the two or more AC components comprise three AC components and wherein a frequency of each AC component of the three AC components comprises a frequency that is not a harmonic of a frequency of the other AC components and is not a harmonic of a fundamental frequency of the power source. 7. The apparatus of claim 6, wherein the frequencies of the three AC components comprise 85 hertz (“Hz”), 208 Hz, and 990 Hz. 8. The apparatus of claim 1, further comprising: a return current module that determines a current in the grounding conductor; anda return current threshold module that determines if the current in the grounding conductor is below a return current threshold,wherein the trip module further opens the contact in response to the return current threshold module determining that the current in the grounding conductor is below the return current threshold for a period longer than a return current time threshold. 9. The apparatus of claim 1, further comprising: a ground fault current module that determines a ground fault current; anda ground fault threshold module that determines if the ground fault current determined by the ground fault module is above a ground fault threshold,wherein the trip module further opens the contact in response to the ground fault threshold module determining that the ground fault current determined by the ground fault current module is above the ground fault threshold for a period longer than a ground fault time threshold. 10. The apparatus of claim 1, wherein one or more diodes or zener diodes connected between the pilot conductor and the grounding conductor affects the signal injected in the pilot conductor and further comprising: a DC detection module that determines a direct current (“DC”) current present in the current monitored by the current monitor module; anda DC minimum threshold module that determines if the DC current is below a DC current minimum threshold,wherein the trip module opens the contact in response to one or more of the DC threshold module determining that the DC current is below the DC current minimum threshold longer than a DC current minimum time threshold and the AC threshold module determining that at least one of the AC currents is below an AC threshold for longer than an AC current time threshold. 11. The apparatus of claim 10, further comprising a DC maximum threshold module that determines if the DC current is above a DC current maximum threshold and wherein the trip module further opens the contact in response to the DC maximum threshold module determining that the DC current is above the DC maximum current threshold longer than a DC current minimum time threshold. 12. A system comprising: a power source;a ground monitor in the power source, the ground monitor comprising a signal generation module that injects a signal in a pilot conductor, the signal comprising two or more alternating current (“AC”) components, each AC component of the two or more AC components comprising a frequency different from other AC components of the two or more AC components, wherein current in the pilot conductor is injected in a grounding conductor of a set of power cables connecting the power source to a load, the grounding conductor connected to a ground return, wherein the set of power cables, the grounding conductor and the pilot conductor are combined from the power source to the load;a current monitor module that monitors current in at least one of the pilot conductor and the ground return;an AC detection module that determines an AC current corresponding to each frequency of the two or more AC components present in the current monitored by the current monitor module;an AC threshold module that determines if one or more of the AC currents determined by the AC detection module is below an AC threshold; anda trip module that opens a contact in response to the AC threshold module determining that at least one of the AC currents is below an AC threshold for longer than an AC current time threshold, the contact disconnecting the power source from the set of power cables. 13. A method comprising: injecting a signal in a pilot conductor, the signal comprising two or more alternating current (“AC”) components, each AC component of the two or more AC components comprising a frequency different from other AC components of the two or more AC components, wherein current in the pilot conductor is injected in a grounding conductor of a set of power cables connecting a power source to a load, the grounding conductor connected to a ground return, wherein the set of power cables, the grounding conductor and the pilot conductor are combined from the power source to the load;monitoring current in at least one of the pilot conductor and the ground return;determining an AC current corresponding to each frequency of the two or more AC components present in the current monitored in one or more of the pilot conductor and the ground return;determining if one or more of the AC currents corresponding to a frequency of the two or more AC components in the monitored current is below an AC threshold; andopening a contact in response to determining that at least one of the AC currents is below an AC threshold for longer than an AC current time threshold, the contact disconnecting the power source from the set of power cables. 14. The method of claim 13, further comprising opening the contact in response to determining that for at least two of the AC currents, an AC current is below an AC threshold for longer than an AC current time threshold. 15. The method of claim 14, wherein the AC current time threshold comprises a first AC current time threshold and wherein the two or more AC components comprise three AC components and further comprising opening the contact in response to the AC threshold module determining that each of the three AC currents is below an AC threshold for longer than a second AC current time threshold. 16. The method of claim 13, further comprising separating each of the two or more AC components from each other. 17. The method of claim 16, further comprising substantially removing at least one of a power source fundamental AC component and the harmonics of the power source fundamental AC component from within the two or more AC components of the monitored current. 18. The method of claim 13, wherein the two or more AC components comprise three AC components and wherein a frequency of each AC component of the three AC components comprises a frequency that is not a harmonic of a frequency of the other AC components and is not a harmonic of a fundamental frequency of the power source. 19. The method of claim 13, further comprising: determining a current in the grounding conductor;determining if the current in the grounding conductor is below a return current threshold; andopening the contact in response to determining that the current in the grounding conductor is below the return current threshold for a period longer than a return current time threshold. 20. The method of claim 13, further comprising: determining a ground fault current;determining if the ground fault current is above a ground fault threshold; andopening the contact in response determining that the ground fault current is above the ground fault threshold for a period longer than a ground fault time threshold. 21. The method of claim 13, wherein one or more diodes or zener diodes connected between the pilot conductor and the grounding conductor affects the signal injected in the pilot conductor and further comprising: determining a DC current present in the monitored current;determining if the DC current is below a DC current minimum threshold; andopening the contact in response to determining that the DC current is below the DC minimum current threshold. 22. The method of claim 21, further comprising determining if the DC current is above a DC current maximum threshold and opening the contact in response to determining that the DC current is above the DC maximum current threshold longer than a DC current minimum time threshold.
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이 특허에 인용된 특허 (14)
Rueckert Barry J. (New Berlin WI), Current source inverter commutation-spike-voltage protection circuit including over-current and over-voltage protection.
Goodman Paul R. (4313 Lake Ridge Dr. Raleigh NC 27604) Weinheimer Francis P. (501-TA Oaklynn Ct. Pittsburgh PA 15220), Grounding system test apparatus.
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