IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0169245
(2008-07-08)
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등록번호 |
US-8368250
(2013-02-05)
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발명자
/ 주소 |
- Ferguson, Jason R.
- Kroninger, Robert S.
- Robinson, Steven M.
- Wiese, James B.
- Christ, Joseph H.
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
10 |
초록
▼
The present disclosure generally pertains to systems and methods for swapping span power modules that are used for supplying power to network interface units (NIUs). A span power module in accordance with one exemplary embodiment of the present disclosure has logic capable of communicating with logi
The present disclosure generally pertains to systems and methods for swapping span power modules that are used for supplying power to network interface units (NIUs). A span power module in accordance with one exemplary embodiment of the present disclosure has logic capable of communicating with logic of another span power module. When one module is to be swapped for the other module, the module being swapped-in is configured to automatically disable the other module shortly after it has powered up and is supplying electrical power across a span line. The amount of time that both modules supply power to the span line is sufficiently small such that damage to electrical communication equipment receiving power from the span line is prevented.
대표청구항
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1. A system for swapping span power modules, comprising: a span line;a network interface unit (NIU) coupled to the span line;a first span power module having a first current source coupled to the span line; anda second span power module having a second current source coupled to the span line, wherei
1. A system for swapping span power modules, comprising: a span line;a network interface unit (NIU) coupled to the span line;a first span power module having a first current source coupled to the span line; anda second span power module having a second current source coupled to the span line, wherein the second span power module is configured to supply power from the second current source to the span line while the first span power module is simultaneously supplying power from the first current source to the span line, and wherein the second span power module is configured to automatically disable the first span module from supplying the span line with power from the first current source after the second span power module has begun supplying the span line with power from the second current source such that the first and second power modules simultaneously supply power to the span line from the first and second current sources for a time period sufficiently small to prevent power from the first and second current sources from damaging the NIU. 2. The system of claim 1, wherein the second span power module is configured to transmit a disable signal to the first span power module, and wherein the first span module is configured to stop supplying the span line with power from the first current source in response to the disable signal and to cause the second span power module to transition to a state that allows the second span power module to be disabled, by another span power module, from supplying the span line with power. 3. The system of claim 1, wherein the second span power module comprises at least one transformer coupled to the second current source and the span line. 4. The system of claim 3, wherein the second span power module comprises a printed circuit board (PCB), and wherein the transformer and the second current source reside on the PCB. 5. The system of claim 3, wherein the second span power module comprises: a switching element coupled to a network voltage source and configured to selectively transmit power from the network voltage source based on a first disable signal received from the first span power module. 6. The system of claim 5, wherein the second span power module is configured to transmit a second disable signal to the first span power module, and wherein the first span power module, in response to the second disable signal, is configured to stop supplying the span line with power from the first current source and to deassert the first disable signal. 7. The system of claim 6, wherein the switching element is configured to transmit the power from the network voltage source in response to a transition of the first disable signal to a deasserted state. 8. The system of claim 7, wherein the second span power module comprises an override element configured to ensure that the second span power module supplies the span line with power from the second current source regardless of a state of the switching element prior to the first disable signal transitioning to a deasserted state. 9. The system of claim 8, wherein the switching element is configured to control whether the second span power module supplies power to the span line after the first disable signal transitions to a deasserted state. 10. The system of claim 1, wherein the second span power module comprises a switching element configured to selectively supply the second current source with power from a network voltage source based on a first disable signal received from the first span power module. 11. The system of claim 10, wherein the second span power module comprises an override element configured to selectively override the switching element. 12. The system of claim 10, wherein the second span power module comprises an override element configured to override the switching element based on the first disable signal. 13. The system of claim 10, wherein the second span power module is configured to ensure that the second current source supplies the span line with power regardless of a state of the switching element prior to the first disable signal transitioning to a deasserted state. 14. The system of claim 10, wherein the second span power module is configured to transmit a second disable signal, wherein the first span power module is configured to control whether the first current source supplies power to the span line based on the second disable signal, and wherein the first span power module is configured to transition the first disable signal based on the second disable signal. 15. The system of claim 1, wherein the second span power module has a switching element coupled between the span line and the second current source, wherein the first span power module is configured to transmit a disable signal for disabling the second power module from supplying power to the span line from the second current source, wherein the switching element is configured to transition to an open state for preventing power from flowing through the switching element to the span line in response to assertion of the disable signal, wherein the switching element is further configured to transition to a closed state for permitting power to flow through the switching element to the span line in response to deassertion of the disable signal, wherein the second span power module is configured to receive the disable signal during the time period and to ensure that power from the second current source is supplied to the span line for an entire duration of the time period regardless of the disable signal, and wherein the disable signal is asserted during the time period. 16. The system of claim 1, wherein the second span power module has a switching element coupled between the span line and the second current source, wherein the first span power module is configured to transmit a disable signal for disabling the second power module from supplying power to the span line from the second current source, wherein the switching element is configured to transition to an open state for preventing power from flowing through the switching element to the span line in response to assertion of the disable signal, wherein the switching element is further configured to transition to a closed state for permitting power to flow through the switching element to the span line in response to deassertion of the disable signal, wherein the second span power module is configured to receive the disable signal during the time period and has an overriding element for overriding a state of the disable signal during the time period such that power from the second current source is supplied to the span line for an entire duration of the time period regardless of the disable signal, wherein the disable signal is asserted during the time period, and wherein the second span power module has a control element configured to disable the override element from overriding the disable signal in response to deassertion of the disable signal. 17. The system of claim 16, wherein the override element is coupled to the second current source, the span line, and the switching element, and wherein the override element is configured to permit power from the second current source to bypass the switching element when enabled by the control element for overriding the disable signal. 18. A span power module, comprising: a first connector for interfacing with a span line;a second connector for interfacing with a second span power module;at least one transformer coupled to the first and second connectors; anda power supply element having a current source and configured to supply the span line with power from the current source while the second span power module is simultaneously supplying the span line with power, the power supply element configured to automatically disable the second span power module from supplying power to the span line after the power supply element has begun supplying the span line with power from the current source such that the power supply element and the second power module simultaneously supply power to the span line for a time period sufficiently small to prevent power from the power supply element and the second current source from damaging the NIU. 19. The span power module of claim 18, wherein the second connector is coupled to a network voltage source. 20. The span power module of claim 18, further comprising a printed circuit board (PCB), wherein the first connector, the second connector, and the power supply element reside on the PCB. 21. The span power module of claim 18, further comprising a switching element configured to selectively supply the current source with power from a network voltage source based on a disable signal received from the second span power module. 22. The span power module of claim 21, further comprising an override element configured to selectively override the switching element. 23. The span power module of claim 18, wherein the power supply element has a switching element coupled between the span line and the current source, wherein the second span power module is configured to transmit a disable signal for disabling the power supply element from supplying power to the span line from the current source, wherein the switching element is configured to transition to an open state for preventing power from flowing through the switching element to the span line in response to assertion of the disable signal, wherein the switching element is further configured to transition to a closed state for permitting power to flow through the switching element to the span line in response to deassertion of the disable signal, wherein the power supply element is configured to receive the disable signal during the time period and to ensure that power from the current source is supplied to the span line for an entire duration of the time period regardless of the disable signal, and wherein the disable signal is asserted during the time period. 24. The span power module of claim 18, wherein the power supply element has a switching element coupled between the span line and the current source, wherein the second span power module is configured to transmit a disable signal for disabling the power supply element from supplying power to the span line from the current source, wherein the switching element is configured to transition to an open state for preventing power from flowing through the switching element to the span line in response to assertion of the disable signal, wherein the switching element is further configured to transition to a closed state for permitting power to flow through the switching element to the span line in response to deassertion of the disable signal, wherein the power supply element is configured to receive the disable signal during the time period and has an overriding element for overriding a state of the disable signal during the time period such that power from the current source is supplied to the span line for an entire duration of the time period regardless of the disable signal, wherein the disable signal is asserted during the time period, and wherein the power supply element has a control element configured to disable the override element from overriding the disable signal in response to deassertion of the disable signal. 25. The system of claim 24, wherein the override element is coupled to the current source, the span line, and the switching element, and wherein the override element is configured to permit power from the current source to bypass the switching element when enabled by the control element for overriding the disable signal. 26. A method for swapping span power modules, comprising the steps of: supplying power from a current source of a first span power module to a network interface unit (NIU) via a span line;supplying power from a current source of a second span power module to the NIU via the span line for a time period while the current source of the first span power module is simultaneously supplying power to the NIU via the span line; andautomatically disabling the first span power module from supplying power to the NIU after initiation of the step of supplying the power from the current source of the second span power module such that the time period is sufficiently small to prevent power from the current sources of the first and second span power modules from damaging the NIU during the supplying step, wherein the disabling step comprises the step of transmitting a disable signal from the second span power module to the first span power module. 27. The method of claim 26, further comprising the steps of: transmitting a signal from the first span power module to the second span power module in response to the disable signal; andallowing the second power module to be disabled based on the signal transmitted from the first span power module. 28. The method of claim 26, wherein the second span power module has a switching element coupled between the span line and the current source of the second span power module, and wherein the method further comprises: transmitting, from the first span power module, a disable signal for disabling the second power module from supplying power to the span line from the current source of the second span power module;transitioning the switch element to an open state for preventing power from flowing through the switching element to the span line in response to assertion of the disable signal;transitioning the switching element to a closed state for permitting power to flow through the switching element to the span line in response to deassertion of the disable signal;receiving, via the second span power module, the disable signal during the time period; andensuring that power from the current source of the second span power module is supplied to the span line for an entire duration of the time period regardless of the disable signal, wherein the disable signal is asserted during the time period. 29. The method of claim 26, wherein the second span power module has a switching element coupled between the span line and the current source of the second span power module, wherein the method further comprises: transmitting, from the first span power module, a disable signal for disabling the second power module from supplying power to the span line from the current source of the second span power module;transitioning the switching element to an open state for preventing power from flowing through the switching element to the span line in response to assertion of the disable signal;transitioning the switching element to a closed state for permitting power to flow through the switching element to the span line in response to deassertion of the disable signal;receiving, via the second span power module, the disable signal during the time period;overriding a state of the disable signal during the time period such that power from the current source of the second span power module is supplied to the span line for an entire duration of the time period regardless of the disable signal, wherein the disable signal is asserted during the time period; anddisabling the overriding step in response to deassertion of the disable signal.
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