FAILURE DETECTION DEVICE FOR POWER CIRCUIT INCLUDING SWITCHING ELEMENT

US 20090160476A1
Filed: 05/27/2008
Published: 06/25/2009
Est. Priority Date: 12/25/2007
Status: Active Grant

First Claim

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1. A failure detection device for a power circuit including a switching element having a main current flowing from a first main electrode to a second main electrode altered according to a control signal, said failure detection device comprising:

a first rectifying element having a cathode connected to said first main electrode,a first resistance element having one end connected to an anode of said first rectifying element, and having the other end to which a voltage positive to said second main electrode is applied, anda failure determination unit determining whether a failure determination condition to detect failure in said switching element is satisfied or not, whereinsaid failure determination condition includes a condition that a monitor voltage between the anode of said first rectifying element and said second main electrode is lower than a first reference voltage that is determined in advance,said first reference voltage is set to a voltage lower than a sum of a voltage across the first and second main electrodes of said switching element at an ON state and a forward voltage of said first rectifying element, and higher than the forward voltage of said first rectifying element.

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Abstract

A failure detection device detects the voltage across the main electrodes of an IGBT via a diode. The failure detection device determines occurrence of short-circuit failure in the IGBT when the anode voltage of the diode is lower than a first predetermined reference voltage. Determination can be made, excluding the case of a proper operation corresponding to a flywheel diode in an ON state, preferably together with the condition that the anode voltage of the diode is higher than a second predetermined reference voltage.

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9 Claims

1. A failure detection device for a power circuit including a switching element having a main current flowing from a first main electrode to a second main electrode altered according to a control signal, said failure detection device comprising:
- a first rectifying element having a cathode connected to said first main electrode,a first resistance element having one end connected to an anode of said first rectifying element, and having the other end to which a voltage positive to said second main electrode is applied, anda failure determination unit determining whether a failure determination condition to detect failure in said switching element is satisfied or not, whereinsaid failure determination condition includes a condition that a monitor voltage between the anode of said first rectifying element and said second main electrode is lower than a first reference voltage that is determined in advance,said first reference voltage is set to a voltage lower than a sum of a voltage across the first and second main electrodes of said switching element at an ON state and a forward voltage of said first rectifying element, and higher than the forward voltage of said first rectifying element.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The failure detection device according to claim 1, wherein said failure determination condition further includes a condition that said control signal turning said switching element ON is applied to said switching element.
  - 3. The failure detection device according to claim 2, wherein said failure determination unit includesa first comparator comparing said monitor voltage with said first reference voltage, anda control computer providing said control signal to said switching element, said control computer receiving an output of said first comparator via a photocoupler to determine whether said failure determination condition is satisfied or not based on the output of said first comparator and said control signal.
  - 4. The failure detection device according to claim 1, whereinsaid power circuit further includes a second rectifying element connected parallel to said switching element, and having a forward direction from said second main electrode towards said first main electrode,said failure determination condition further includes a condition that said monitor voltage is higher than a second reference voltage determined in advance, andsaid second reference voltage is set to a voltage higher than a value of the forward voltage of said first rectifying element minus the forward voltage of said second rectifying element, and lower than the forward voltage of said first rectifying element.
  - 5. The failure detection device according to claim 4, wherein said failure determination unit includesa first comparator comparing said monitor voltage with said first reference voltage, anda second comparator comparing said monitor voltage with said second reference voltage.
  - 6. The failure detection device according to claim 4, wherein said failure determination condition further includes a condition that said control signal turning said switching element ON is applied to said switching element.
  - 7. The failure detection device according to claim 6, wherein said failure determination unit includesa first comparator comparing said monitor voltage with said first reference voltage,a second comparator comparing said monitor voltage with said second reference voltage, anda logic circuit determining whether said failure determination condition is satisfied or not based on outputs of said first and second comparators and said control signal.

8. A failure detection device for a power circuit including a switching element having a main current flowing from a first main electrode to a second main electrode altered according to a control signal, said failure detection device comprising:
- a first rectifying element having a cathode connected to said first main electrode,a first resistance element having one end connected to an anode of said first rectifying element, and having the other end to which a voltage positive to said second main electrode is applied, anda degradation determination unit to determine degradation in said switching element, whereinsaid degradation determination unit detects a monitor voltage between the anode of said first rectifying element and said second main electrode to determine whether said detected monitor voltage exceeds a third reference voltage determined in advance when a level of said main current matches a predetermined reference current,said reference current is set to a level where the level of said main current corresponds to a boundary between a first region and a second region,said first region is a region where a voltage across said first and second main electrodes of said switching element has a negative temperature dependency, andsaid second region is a region where a voltage across said first and second main electrodes of said switching element has a positive temperature dependency.
- View Dependent Claims (9)
- - 9. The failure detection device according to claim 8, wherein said switching element includes a sense electrode for detecting said main current,said degradation determination unit includinga second resistance element connected between said sense electrode and said second main electrode to measure said main current,a third comparator comparing a voltage generated across said second resistance element with a voltage corresponding to said reference current,a sample-and-hold circuit holding said monitor voltage when said main current matches said reference current, anda fourth comparator for comparing said monitor voltage held by said sample-and-hold circuit with said third reference voltage.

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Current Assignee
Mitsubishi Electric Corporation
Original Assignee
Mitsubishi Electric Corporation
Inventors
Omaru, Takeshi

Granted Patent

US 8,027,132 B2
Time in Patent Office

Days
Field of Search
US Class Current

324/764.10
CPC Class Codes

H02H 7/1225 responsive to internal faul...

FAILURE DETECTION DEVICE FOR POWER CIRCUIT INCLUDING SWITCHING ELEMENT

First Claim

1 Assignment

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Abstract

Citations

9 Claims

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FAILURE DETECTION DEVICE FOR POWER CIRCUIT INCLUDING SWITCHING ELEMENT

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

9 Claims

Specification

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Solutions

Use Cases

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