SiC MOSFET driving circuit with crosstalk suppression capability

A technology of driving circuit and suppression ability, applied in the field of SiCMOSFET driving circuit, can solve problems such as wrong conduction of the lower tube, circuit failure, breakdown of the lower tube, etc., reduce the negative pressure peak, prevent the damage of the switching device, and reduce the negative pressure spike effect

Inactive Publication Date: 2017-02-08
XI AN JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Bridge arm crosstalk is divided into two situations: first, when the upper tube is turned on, a positive pressure peak will be generated at both ends of the gate source of the lower tube, which may cause the lower tube to be misconducted, resulting in circuit failure; second, the upper tube is turned off At this time, a negative pressure peak will be generated at both ends of the gate source of the lower tube, which may exceed the safety threshold and cause the lower tube to break down

Method used

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  • SiC MOSFET driving circuit with crosstalk suppression capability
  • SiC MOSFET driving circuit with crosstalk suppression capability
  • SiC MOSFET driving circuit with crosstalk suppression capability

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Embodiment Construction

[0025] The invention will be further described in detail below in conjunction with the accompanying drawings and embodiments, but it is not used as a basis for any limitation on the invention.

[0026] figure 1 It is a schematic diagram of a SiC MOSFET drive circuit with crosstalk suppression capability. The SiC MOSFET drive circuit includes a push-pull connected switch tube S1 and a switch tube S2. A drive resistor is connected between the switch tube S1 and the switch tube S2, and the drive resistor output The first-stage crosstalk suppression circuit and the second-stage crosstalk suppression circuit are connected in parallel; the first-stage crosstalk suppression circuit includes capacitors C1 and diodes D2 connected in parallel; the second-stage crosstalk suppression circuit includes BJT transistor T, which is connected in parallel with The resistor R3 on the base and emitter of the tube T, the capacitors C2 and C3 connected in parallel between the collector and the base ...

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Abstract

The invention discloses a SiC MOSFET driving circuit with crosstalk suppression capability. The SiC MOSFET driving circuit comprises a switch tube S1 and a switch tube S2 which are in push-pull connection. A driving resistance is connected between the switch tube S1 and the switch tube S2. The output end of the driving resistor is connected with a first-stage crosstalk suppression circuit and a second-stage crosstalk suppression circuit which are connected in parallel. The first-stage crosstalk suppression circuit comprises a capacitor C1 and a diode D2 which are connected in parallel. The second-stage crosstalk suppression circuit comprises a BJT tube T, a resistor R3 which is connected between the base electrode of the BJT tube and an emitter electrode in a parallel manner, and capacitors C2 and C3 which are connected between the collector electrode of the BJT tube and the base electrode in the parallel manner. The resistor R3 and the capacitor C3 are output ends. The SiC MOSFET driving circuit prevents mis-conduction through switching on and switching off negative voltage and reduces a negative voltage peak through the crosstalk suppression circuits.

Description

technical field [0001] The invention relates to the field of power electronic drive circuits, in particular to a SiC MOSFET drive circuit capable of suppressing bridge arm crosstalk. Background technique [0002] In recent years, silicon carbide devices have developed rapidly, and have the advantages of high operating temperature, high blocking voltage, high operating frequency and low on-state loss, and are widely used in high voltage, high temperature, high efficiency and high power density occasions. Among them, SiC MOSFET has attracted extensive attention from academia and industry due to its advantages of high withstand voltage and high switching frequency. Although SiC MOSFET has excellent device characteristics, it is very difficult to design its driving circuit. First of all, the parasitic capacitance of SiC MOSFET is relatively small, and it is easily affected by the parasitic inductance in the circuit during actual operation, and serious oscillation may occur duri...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02M1/08H02M1/32
CPCH02M1/08H02M1/32Y02B70/10
Inventor 王乃增贾海洋田莫帆杨旭徐广钊
Owner XI AN JIAOTONG UNIV
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