Failure detection system for detecting a failure in a power converter
First Claim
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1. A failure detection system for a power converter comprising:
- a by-pass switch for switching between a first state connecting a power converter to a load and disconnecting a standby power source from the load, and a second state disconnecting the power converter from the load and connecting the standby power source to the load;
a by-pass switch operating circuit for switching the by-pass switch between the first and second states;
first detecting means coupled to the power converter for detecting output current of the power converter and generating a first output signal in response;
an inverting circuit coupled to the first detecting means for inverting the first output signal to produce a second output signal;
second detecting means coupled to the load for detecting a load current and generating a third output signal in response;
first adding means coupled to the inverting circuit and the second detection means for adding the second and third output signals to produce a first sum; and
failure judgment means coupled to the first adding means for detecting a failure of the by-pass switch, wherein, if the first sum is outside a predetermined range when the by-pass switch is in the first state, the failure judgment means produces a control signal indicating a failure of the by-pass switch.
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Abstract
A failure detection system detects a failure in a by-pass switch of a power converter. The by-pass switch switches the electric power supply so that electric power is supplied from a standby power source to a load instead of from a power converter. A switch operation circuit turns the by-pass switch on and off. A first current detector detects the inverted output current of the power converter. A second current detector detects the load current flowing through the load. An operational amplifier adds the outputs of the first and second current detectors. A comparator detects a failure of the by-pass switch. If the addition result given by the operational amplifier is outside a predetermined range of values when the switch operation circuit is turned off, the comparator concludes that the by-pass switch has a failure. In this failure detection system, it is possible to detect a failure of the by-pass switch used to transfer the electric power to the load from the standby power source instead of from the power converter, without having to detect the current flowing through the by-pass switch. Thus, it is possible to reduce the size and the cost of the system.
37 Citations
14 Claims
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1. A failure detection system for a power converter comprising:
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a by-pass switch for switching between a first state connecting a power converter to a load and disconnecting a standby power source from the load, and a second state disconnecting the power converter from the load and connecting the standby power source to the load; a by-pass switch operating circuit for switching the by-pass switch between the first and second states; first detecting means coupled to the power converter for detecting output current of the power converter and generating a first output signal in response; an inverting circuit coupled to the first detecting means for inverting the first output signal to produce a second output signal; second detecting means coupled to the load for detecting a load current and generating a third output signal in response; first adding means coupled to the inverting circuit and the second detection means for adding the second and third output signals to produce a first sum; and failure judgment means coupled to the first adding means for detecting a failure of the by-pass switch, wherein, if the first sum is outside a predetermined range when the by-pass switch is in the first state, the failure judgment means produces a control signal indicating a failure of the by-pass switch. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A failure detection system for a power converter including a standby power source and a load, the failure detection system comprising:
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a by-pass switch for switching between a first state connecting a power converter to a load and disconnecting a standby power source from the load, and a second state disconnecting the power converter from the load and connecting the standby power source to the load; a by-pass switch operating circuit for switching the by-pass switch between the first and second states; first detecting means coupled to the power converter for detecting an output current of the power converter and generating a first output signal in response; an inverting circuit coupled to the first detecting means for inverting the first output signal to produce a second output signal; second detecting means coupled to the power converter for detecting a second output current based on an output voltage of the power converter and generating a third output signal in response; adding means coupled to the inverting circuit and the second detecting circuit for adding the second and third output signals to produce a sum; and failure judgment means coupled to the adding means for detecting a failure of the by-pass switch, wherein, if the sum is outside a predetermined range when the by-pass switch is in the first state, the failure judgment means produces a control signal indicating a failure of the by-pass switch.
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10. A failure detection system for a power converter including a standby power source coupled to a load comprising:
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a filter coupling an output of a power converter and a load; a by-pass switch for switching between a first state connecting the power converter to the load and disconnecting a standby power source from the load, and a second state disconnecting the power converter from the load and connecting the standby power source to the load; a by-pass switch operating circuit for switching the by-pass switch between the first and second states; first detecting means coupled to the power converter for detecting a first output current of the power converter and producing the first output signal in response; an inverting circuit coupled to the first detecting means for inverting the first output signal to produce a second output signal; second detecting means coupled to the load for detecting load current flowing through the load and generating a third output signal in response; third detecting means coupled to the filter for detecting a current flowing through the filter and generating a fourth output signal in response; fourth detecting means coupled to the filter for detecting a current flowing out of the filter and for generating a fifth output signal; adding means coupled to the inverting circuit and the second, third, and fourth detecting means for adding the second, third, fourth, and fifth output signals, to produce a sum; and failure judgment means coupled to the adding means for detecting a failure of the by-pass switch, wherein, if the sum is outside a predetermined range when the by-pass switch is in the first state, the failure judgment means produces a signal indicating a failure of the by-pass switch. - View Dependent Claims (11)
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12. A failure detection system for a power converter including a standby power source coupled to a load comprising:
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a filter coupled between an output of a power converter and a load; a by-pass switch for switching between a first state connecting a power converter to a load and disconnecting a standby power source from the load, and a second state for disconnecting the power converter from the load and connecting the standby power source to the load; a by-pass switch operating circuit for switching the by-pass switch between the first and second states; first detecting means coupled to the power converter for detecting a first output current of the power converter and producing a first output signal in response; an inverting circuit coupled to the first detecting means for inverting the first output signal to produce a second output signal; second detecting means coupled to the load for detecting a load current and for generating a third output signal in response; third detecting means coupled to the filter for detecting a current flowing through the filter and for generating a fourth output signal in response; fourth detecting means coupled to the filter for detecting a second output current based on an output voltage of the filter and for generating a fifth output signal in response; adding means coupled to the inverting circuit and the second, third, and fourth detecting means for adding the second, third, fourth, and fifth output signals to produce a sum; and failure judgment means coupled to the adding means for detecting a failure of the by-pass switch, wherein, if the sum is outside of a predetermined range when the by-pass switch is in the first state, the failure judgment means produces a control signal indicating a failure of the by-pass switch. - View Dependent Claims (13, 14)
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Specification
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Current AssigneeToshiba Mitsubishi-Electric Industrial Systems Corporation (Toshiba Corporation)
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Original AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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InventorsNakanishi, Makoto, Ikeda, Katsumi
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Primary Examiner(s)Shoop, Jr., William M.
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Assistant Examiner(s)KAPLAN, JONATHAN STUART
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Application NumberUS08/597,153Time in Patent Office903 DaysField of Search361/78, 361/79, 361/86, 361/87, 307/64, 307/66, 307/85, 307/86, 307/87, 307/112, 307/113, 307/116, 307/125, 307/130, 307/131, 307/43, 364/492, 364/480US Class Current307/64CPC Class CodesG01R 31/40 Testing power supplies test...H02J 9/062 for AC powered loadsY02B 70/30 Systems integrating technol...Y04S 20/20 End-user application contro...
