IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0345388
(2003-01-16)
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우선권정보 |
JP-0283658 (2002-09-27); JP-0008596 (2002-01-17) |
발명자
/ 주소 |
- Nakayama, Yasushi
- Ohi, Takeshi
- Hashido, Ryuichi
|
출원인 / 주소 |
- Mitsubishi Denki Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
8 |
초록
▼
A drive circuit for a power semiconductor device includes: a sampling signal generating circuit for detecting that an input control signal instructs OFF and outputting a sampling signal at the time instant of start of a Miller period of time of an IGBT; a gate voltage detecting circuit for detecting
A drive circuit for a power semiconductor device includes: a sampling signal generating circuit for detecting that an input control signal instructs OFF and outputting a sampling signal at the time instant of start of a Miller period of time of an IGBT; a gate voltage detecting circuit for detecting a Miller voltage of the IGBT at the timing when the sampling signal is inputted and outputting, when the Miller voltage is equal to or larger than a threshold, an over-current detection signal; and a gate voltage controlling circuit for controlling, in response to the over-current detection signal, a gate voltage of the IGBT in such a way that the IGBT is turned OFF at slower speed than in the normal state. Thus, it is possible to suppress a surge voltage which is generated when the IGBT is turned OFF during the flow of an over-current.
대표청구항
▼
1. A drive circuit for driving a power semiconductor device, comprising:a switching circuit receiving an input control signal for ON/OFF switching of the power semiconductor device; a sampling signal generating circuit for detecting the input control signal and outputting, when the input control sig
1. A drive circuit for driving a power semiconductor device, comprising:a switching circuit receiving an input control signal for ON/OFF switching of the power semiconductor device; a sampling signal generating circuit for detecting the input control signal and outputting, when the input control signal commands OFF, a sampling signal substantially at starting of a Miller time period of the power semiconductor device; a gate voltage detecting circuit connected to a gate line of the power semiconductor device for detecting a Miller voltage of the power semiconductor device when the sampling signal is input to the gate voltage detecting circuit and outputting, when the Miller voltage is at least equal to a threshold, an over-current detection signal; and a gate voltage controlling circuit connected to the gate line of the power semiconductor device for controlling, in response to the over-current detection signal from the gate voltage detecting circuit, gate voltage of the power semiconductor device so that the power semiconductor device is turned OFF more slowly than when no over-current detection signal is output. 2. A drive circuit for driving a power semiconductor device, comprising:a switching circuit receiving an input control signal for ON/OFF switching of the power semiconductor device; a timing detecting circuit connected to a gate line of the power semiconductor device for detecting a Miller time period of the power semiconductor device and outputting a timing signal substantially at starting of the Miller time period of the power semiconductor device; a gate voltage detecting circuit connected to the gate line of the power semiconductor device for detecting a Miller voltage of the power semiconductor device when the timing signal is input to the gate voltage detecting circuit and outputting, when the Miller voltage is at least equal to a threshold, an over-current detection signal; and a gate voltage controlling circuit connected to the gate line of the power semiconductor device for controlling, in response to the over-current detection signal from the gate voltage detecting circuit, gate voltage of the power semiconductor device so that the power semiconductor device is turned OFF more slowly than when no over-current detection signal is output. 3. The drive circuit for driving a power semiconductor device according to claim 2, wherein the timing detecting circuit includes:a delay circuit having a resistor and a capacitor; and a buffer. 4. The drive circuit for driving a power semiconductor device according to claim 2, wherein the timing detecting circuit includes:a reference voltage generating circuit for outputting a reference voltage; a delay circuit having a resistor and a capacitor; and a voltage comparator for detecting whether an output voltage from the delay circuit is larger or smaller than the reference voltage. 5. The drive circuit for driving a power semiconductor device according to claim 3, wherein the timing detecting circuit further includes a diode which is connected in parallel with the resistor so that the input control signal direction is a forward conducting direction of the diode.6. The drive circuit for driving a power semiconductor device according to claim 2, wherein an output time period in the timing detecting circuit is shorter than the Miller time period of the power semiconductor device.7. The drive circuit for driving a power semiconductor device according to claim 2, wherein an output time period in the timing detecting circuit falls within a fixed time period from a time point when the gate voltage begins to decrease in accordance with an OFF-command of the input control signal.8. The drive circuit for driving a power semiconductor device according to claim 2, wherein an output times period in the timing detecting circuit depends on a power source voltage and becomes later in time as the power source voltage decreases.9. The drive circuit for driving a power semiconductor device according to claim 2, wherein the gate voltage detecting circuit comprises:a voltage amplifier connected to the gate line of the power semiconductor device for amplifying the gate voltage to a level; and a switch connected to the voltage amplifier and switched based on a signal output from one of the sampling signal generating circuits and the timing detecting circuit. 10. The drive circuit for driving a power semiconductor device according to claim 2, wherein the gate voltage detecting circuit comprises:a reference voltage generating circuit for outputting a reference voltage; a voltage comparator connected to the gate line of the power semiconductor device for detecting whether the gate voltage of the power semiconductor device is larger or smaller than the reference voltage; and a switch connected to the voltage comparator and switched based on a signal output from one of the sampling signal generating circuit and the timing detecting circuit. 11. The drive circuit for driving a power semiconductor device according to claim 1, wherein the gate voltage detecting circuit outputs the over-current detecting signal when a current at least equal to a certain value flows, without changing detection level with respect to an over-current even when the Miller voltage changes due to a change in a power source voltage of the drive circuit.12. The drive circuit for driving a power semiconductor device according to claim 1, wherein the gate voltage detecting circuit outputs the over-current detection signal when a current at least equal to a certain value flows, without changing detection level with respect to an over-current even when temperature of the drive circuit changes.13. The drive circuit for driving a power semiconductor device according to claim 1, wherein the gate voltage controlling circuit comprises:a MOS transistor connected to the gate voltage detecting circuit and switched based on a signal output from the gate voltage detecting circuit; and a Zener diode connected between the gate line of the power semiconductor device and the MOS transistor. 14. A drive circuit for driving a power semiconductor device according to claim 1, whereinthe gate voltage controlling circuit comprises: a MOS transistor connected to the gate voltage detecting circuit and switched based on a signal output from the gate voltage detecting circuit; and a resistor connected between the gate line of the power semiconductor device and the MOS transistor; and an output from the MOS transistor is coupled to a switch on an OFF side of the switching circuit. 15. A drive circuit for driving a power semiconductor device, comprising:a switching circuit receiving an input control signal for ON/OFF switching of the power semiconductor device; a sampling signal generating circuit for detecting the input control signal and outputting, when the input control signal commands OFF, a sampling signal substantially at starting of a Miller time period of the power semiconductor device; a gate voltage detecting circuit connected to a gate line of the power semiconductor device for detecting a Miller voltage of the power semiconductor device when the sampling signal is input to the gate voltage detecting circuit and outputting, when the Miller voltage is at least equal to a threshold, an over-current detection signal; an over-current detection circuit which detects a gate voltage in an ON state and outputs an over-current detection signal in the ON state by detecting an over-current based on an increase in gate voltage; and a gate voltage controlling circuit connected to the gate line of the power semiconductor device for controlling, in response to one of the over-current detection signal from the gate voltage detecting circuit and the over-current detection signal in the ON state from the over-current detection circuit, the gate voltage of the power semiconductor device so that the power semiconductor device is turned OFF more slowly than when no over-current detection signal is output. 16. The drive circuit for driving a power semiconductor device according to claim 1, wherein the sampling signal generating circuit includes:a delay circuit having a resistor and a capacitor; and a buffer. 17. The drive circuit for driving a power semiconductor device according to claim 1, wherein the sampling signal generating circuit includes:a reference voltage generating circuit for outputting a reference voltage; a delay circuit having a resistor and a capacitor; and a voltage comparator for detecting whether an output voltage from the delay circuit is larger or smaller than the reference voltage. 18. The drive circuit for driving a power semiconductor device according to claim 16, wherein the sampling signal generating circuit further includes a diode which is connected in parallel with the resistor so that the input control signal direction is a forward conducting direction of the diode.19. The drive circuit for driving a power semiconductor device according to claim 1, wherein an output time period in the sampling signal generating circuit is shorter than the Miller time period of the power semiconductor device.20. The drive circuit for driving a power semiconductor device according to claim 1, wherein an output time period in the sampling signal generating circuit falls within a fixed time period from a time point when the gate voltage begins to decrease in accordance with an OFF-command of the input control signal.21. The drive circuit for driving a power semiconductor device according to claim 1, wherein an output time period in the sampling signal generating circuit depends on a power source voltage and becomes later in time as the power source voltage decreases.22. The drive circuit for driving a power semiconductor device according to claim 2, wherein the gate voltage detecting circuit outputs the over-current detecting signal when a current at least equal to a certain value flows, without changing detection level with respect to an over-current even when the Miller voltage changes due to a change in a power source voltage of the drive circuit.23. The drive circuit for driving a power semiconductor device according to claim 2, wherein the gate voltage detecting circuit outputs the over-current detection signal when a current at least equal to a certain value flows, without changing detection level with respect to an over-current even when temperature of the drive circuit changes.24. The drive circuit for driving a power semiconductor device according to claim 2, wherein the gate voltage controlling circuit comprises:a MOS transistor connected to the gate voltage detecting circuit and switched based on a signal output from the gate voltage detecting circuit; and a Zener diode connected between the gate line of the power semiconductor device and the MOS transistor. 25. A drive circuit for driving a power semiconductor device according to claim 2, whereinthe gate voltage controlling circuit comprises: a MOS transistor connected to the gate voltage detecting circuit and switched based on a signal output from the gate voltage detecting circuit; and a resistor connected between the gate line of the power semiconductor device and the MOS transistor; and an output from the MOS transistor is coupled to a switch on an OFF side of the switching circuit.
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