CN204424880U

CN204424880U - A kind of IGBT overvoltage crowbar

Info

Publication number: CN204424880U
Application number: CN201420850260.3U
Authority: CN
Inventors: 黄辉; 李燕飞; 汪之涵
Original assignee: Shenzhen Bronze Technologies Ltd
Current assignee: Shenzhen bronze sword Technology Co., Ltd.
Priority date: 2014-12-25
Filing date: 2014-12-25
Publication date: 2015-06-24
Anticipated expiration: 2024-12-25

Abstract

The utility model discloses a kind of IGBT overvoltage crowbar, comprise IGBT, driving power, collector overvoltage protective circuit and Drive and Control Circuit, wherein driving power is connected with the gate pole of IGBT; Collector overvoltage protective circuit is for monitoring the voltage of the collector electrode of IGBT, when the voltage of the collector electrode of described IGBT exceedes predetermined value by overvoltage Signal transmissions to Drive and Control Circuit, and transmission current makes the gate pole of IGBT to suppress the rising of the collector voltage of described IGBT; Drive and Control Circuit is used for the shutoff stopping IGBT when receiving described overvoltage signal.Owing to also controlling to stop the shutoff of IGBT when the IGBT overvoltage crowbar provided at the utility model produces overvoltage protection by Drive and Control Circuit; the current needs that IGBT gate pole is charged is less; substantially reduce the response time of overvoltage protection, protect IGBT more timely.

Description

A kind of IGBT overvoltage crowbar

Technical field

The utility model relates to IGBT technical field, particularly relates to a kind of IGBT overvoltage crowbar.

Background technology

IGBT is widely used in novel Technics of Power Electronic Conversion field, and the popular industry such as photovoltaic, wind power generation, frequency conversion, electric automobile can be seen IGBT and play very important effect wherein.In the course of the work, IGBT constantly switches in turning on and off, and IGBT lost efficacy mainly because overcurrent and overvoltage two kinds of reasons cause; IGBT crosses to fail to be convened for lack of a quorum and causes igbt chip internal temperature to raise, and when temperature exceedes the tolerance range of chip internal junction temperature, then PN junction can occur and puncture, cause IGBT to lose efficacy.During current reality uses, due to all overcurrent and short-circuit protection circuit can be had for IGBT device, so generally IGBT will directly cause IGBT device to lose efficacy because of overcurrent.And due to IGBT itself be voltage-sensitive device, once voltage exceedes chip and bears voltage, then IGBT will puncture inefficacy.According to statistics, IGBT device lost efficacy account for that product is reprocessed in market more than 50%, and the IGBT that overvoltage causes lost efficacy, and account for that IGBT device lost efficacy more than 75%; It is all exceed caused by voltage that device itself bears because IGBT bears that overwhelming majority IGBT lost efficacy.

Utility model content

For solving the problems of the technologies described above; the utility model proposes a kind of IGBT overvoltage crowbar, can the collector voltage of monitor IGBT, and by setting predetermined value, effective clamp is carried out to the collector voltage of IGBT; thus avoid IGBT over-voltage breakdown, reach the effect of protection IGBT.

For achieving the above object, the utility model by the following technical solutions:

The utility model discloses a kind of IGBT overvoltage crowbar, comprise IGBT, driving power, collector overvoltage protective circuit and Drive and Control Circuit, described driving power is connected with the gate pole of described IGBT, described collector overvoltage protective circuit is for monitoring the voltage of the collector electrode of described IGBT, give described Drive and Control Circuit when the voltage of the collector electrode of described IGBT exceedes predetermined value by overvoltage Signal transmissions, and transmission current to the gate pole of described IGBT to suppress the rising of the collector voltage of described IGBT; Described Drive and Control Circuit is used for the shutoff stopping described IGBT when receiving described overvoltage signal.

Preferably, described collector overvoltage protective circuit comprises TVS pipe, and the negative pole of described TVS pipe is connected with the collector electrode of described IGBT, and the positive pole of described TVS pipe is connected with described Drive and Control Circuit, and the positive pole of described TVS pipe is also connected with the gate pole of described IGBT.

Preferably, described collector overvoltage protective circuit also comprises the first diode, and the positive pole of described first diode is connected with the gate pole of described IGBT, and the negative pole of described first diode is connected with described driving power.

Preferably, connected by the second resistance between the positive pole of described TVS pipe and described Drive and Control Circuit.

Preferably; described collector overvoltage protective circuit also comprises the 3rd resistance, the second diode and the first electric capacity; wherein: described first electric capacity and described 3rd resistor coupled in parallel are connected between the positive pole of described TVS pipe and the positive pole of described second diode, and the negative pole of described second diode is connected with the gate pole of described IGBT.

Preferably, described Drive and Control Circuit comprises buffer, NOR gate, the first metal-oxide-semiconductor (metal-oxide layer semiconductcor field effect transistor) and the second metal-oxide-semiconductor, the input of wherein said buffer is connected with the first input end of described NOR gate, and the second input of described NOR gate is connected with described collector overvoltage protective circuit and ground connection;

The gate pole of described first metal-oxide-semiconductor is connected with the output of described buffer, and the drain electrode of described first metal-oxide-semiconductor is connected with described driving power, and the source electrode of described first metal-oxide-semiconductor is connected with the gate pole of described IGBT;

The gate pole of described second metal-oxide-semiconductor is connected with the output of described NOR gate, and the drain electrode of described second metal-oxide-semiconductor is connected with the gate pole of described IGBT, the source ground of described second metal-oxide-semiconductor.

Preferably, the second input of described NOR gate is by the first resistance ground connection again.

Preferably, be connected by the 4th resistance between the source electrode of described first metal-oxide-semiconductor and the gate pole of described IGBT, be connected by the 5th resistance between the drain electrode of described second metal-oxide-semiconductor and the gate pole of described IGBT.

Preferably, also comprise gate pole overvoltage crowbar, described gate pole overvoltage crowbar comprises two-way TVS pipe, between the gate pole that described two-way TVS pipe is connected to described IGBT and emitter.

Preferably, described gate pole overvoltage crowbar also comprises the 6th resistance, between the gate pole that described 6th resistance and described two-way TVS pipe are connected in parallel in described IGBT and emitter.

The utility model beneficial effect is compared with prior art: the IGBT overvoltage crowbar that the utility model provides, when the voltage of the collector electrode of IGBT exceedes predetermined value, collector overvoltage protective circuit will transmit overvoltage signal to Drive and Control Circuit to stop the shutoff of IGBT, and transmission current is to the gate pole of IGBT, the gate potentials of IGBT is made to increase, thus suppress the collector voltage of IGBT to rise, play the effect of IGBT overvoltage protection; Owing to also controlling by Drive and Control Circuit the shutoff stopping IGBT in this process, the current needs that IGBT gate pole is charged is less, substantially reduces the response time of overvoltage protection, protects IGBT more timely.

In preferred scheme, collector overvoltage protective circuit adopts TVS pipe to carry out the voltage of the collector electrode of monitoring IGBT, when the collector voltage that TVS pipe monitors IGBT exceedes predetermined value, TVS pipe conducting, and electric current is transferred to Drive and Control Circuit on the one hand to stop the shutoff of IGBT, transfer to the gate pole of IGBT on the other hand, make the gate potentials of IGBT increase, thus suppress the collector voltage of IGBT to rise, play the effect of IGBT overvoltage protection; Owing to also controlling by Drive and Control Circuit the shutoff stopping IGBT in this process, the current needs that IGBT gate pole is charged is less, thus make IGBT just can reach the effect suppressing its collector voltage when the rated operation point of TVS pipe, also make the load request of TVS pipe very little.And due to the load request of TVS pipe in this circuit very little, so lower-powered TVS pipe can be adopted, thus reduce the cost of this overvoltage crowbar, be conducive to produce in enormous quantities and use.

In the scheme be more preferably; the IGBT overvoltage circuit that the utility model provides also comprises gate pole overvoltage crowbar; two-way TVS pipe in gate pole overvoltage crowbar can prevent over-voltage breakdown between IGBT gate pole and emitter, and the IGBT that six resistance in parallel with two-way TVS pipe can prevent interference signal from causing opens by mistake logical.

Accompanying drawing explanation

Fig. 1 is the IGBT overvoltage crowbar figure of the utility model preferred embodiment;

Fig. 2 is the IGBT overvoltage crowbar of the utility model preferred embodiment produces overvoltage protection oscillogram when IGBT turns off;

Fig. 3 is the oscillogram of IGBT overvoltage crowbar at IGBT short-circuit protection generation overvoltage protection of the utility model preferred embodiment.

Embodiment

Below contrast accompanying drawing and combine preferred embodiment the utility model is described in further detail.

As shown in Figure 1, the IBGT overvoltage crowbar of the utility model preferred embodiment comprises IGBT, driving power VISO, collector overvoltage protective circuit 1, gate pole overvoltage crowbar 2 and Drive and Control Circuit 3; Wherein collector overvoltage protective circuit 1 is for monitoring the voltage of the collector electrode of IGBT, once detect that the voltage of collector electrode exceedes predetermined value, collector overvoltage protective circuit 1 will by overvoltage Signal transmissions to Drive and Control Circuit 3, Drive and Control Circuit 3 is made to stop the turn off process of IGBT, simultaneously also can transmission current to the gate pole of IGBT, make the current potential of the gate pole of IGBT increase, thus suppress the collector voltage of IGBT to rise, play the effect of IGBT overvoltage protection; Gate pole overvoltage crowbar 2 is for when IGBT gate voltage is too high, makes the gate voltage nip of IGBT; Drive and Control Circuit 3 for receiving the signal opened and turn off of normal IGBT, also for receiving the overvoltage signal of collector overvoltage protective circuit 1, with the gate pole level of control IGBT.

In the utility model preferred embodiment, collector overvoltage protective circuit 1 comprises TVS pipe D3, the second resistance R2, the 3rd resistance R3, the first diode D1, the second diode D2 and the first electric capacity C1; Wherein the negative pole of TVS pipe D3 is connected with the collector electrode of IGBT, and positive pole is connected with the second resistance R2, the 3rd resistance R3, the first electric capacity C1; The other end of the second resistance R2 exports Drive and Control Circuit 3 to; First electric capacity C1 and the 3rd resistance R3 is connected in parallel, and the first electric capacity C1 is connected with the positive pole of the second diode D2 with the other end of the 3rd resistance R3, and the negative pole of the second diode D2 is connected to the gate pole of IGBT; The negative pole of the first diode D1 connects driving power VISO, and positive pole is connected to the gate pole of IGBT.Gate pole overvoltage crowbar 2 comprises two-way TVS pipe D4 and the 6th resistance R6, and wherein two-way TVS pipe D4 and the 6th resistance R6 is connected in parallel, and is connected between the gate pole of IGBT and emitter.Drive and Control Circuit 3 comprises buffer U1, NOR gate U2, the first resistance R1, the 4th resistance R4, the 5th resistance R5, the first metal-oxide-semiconductor Q1 and the second metal-oxide-semiconductor Q2; Wherein the input of buffer U1 is connected with the first input end of NOR gate U2, for receiving the switching signal of control IGBT, second input of NOR gate U2 is by the first resistance R1 ground connection, and the output of buffer U1, NOR gate U2 is connected with the gate pole of the first metal-oxide-semiconductor Q1, the second metal-oxide-semiconductor Q2 respectively; The drain electrode of the first metal-oxide-semiconductor Q1 connects driving power VISO, and source electrode is connected by the gate pole of the 4th resistance R4 and IGBT; The source ground of the second metal-oxide-semiconductor Q2, drains connected by the gate pole of the 5th resistance R5 and IGBT; Preferred buffer U1 selects gain buffer.

The specific works process of the circuit of the utility model preferred embodiment is: under normal circumstances (IGBT overvoltage does not occur), Drive and Control Circuit 3 receives normal pwm signal, control IGBT turns on and off, 4th resistance R4 and the 5th resistance R5 is respectively used to the speed that control IGBT opens and turns off, and also can be called open resistance and close resistance break; First resistance R1 is pull down resistor, prevents interference signal on the impact of NOR gate U2.First metal-oxide-semiconductor Q1 and the second metal-oxide-semiconductor Q2 turns on and off for control IGBT; When needs IGBT opens, the first metal-oxide-semiconductor Q1 conducting and the second metal-oxide-semiconductor Q2 turns off, make the gate voltage of IGBT equal driving power VISO, IGBT is just in opening state; When needs IGBT turns off, the first metal-oxide-semiconductor Q1 turns off and the second metal-oxide-semiconductor Q2 is open-minded, and make the gate voltage of IGBT equal GND, IGBT is just in off state.

In collector overvoltage protective circuit 1, TVS pipe D3 is for arranging predetermined value; In the embodiment be more preferably, consider that the voltage predetermined value of actual set is higher, the general TVS pipe of multiple low voltage value that adopts is connected and forms TVS pipe D3.When the collector voltage of IGBT is lower than predetermined value, TVS pipe D3 is in cut-off state, and collector overvoltage protective circuit 1 is inoperative.When IGBT turns off time, when the collector voltage of IGBT has exceeded the predetermined value set by TVS pipe D3, TVS pipe D3 conducting, the transient current produced when then turning off is divided into both sides to walk by the collector electrode of IGBT through TVS pipe D3, second input of the NOR gate U2 in Drive and Control Circuit 3 can be set high by the second resistance R2 by electric current on one side, so just make the second metal-oxide-semiconductor Q2 turn off thus stop the shutoff of IGBT, another side electric current also can pass through the 3rd resistance R3, first electric capacity C1, second diode D2 charges to the gate pole of IGBT, the gate potentials of IGBT is made to increase, to suppress the rising of IGBT collector voltage, reach the effect of protection IGBT.Due in the process of protection IGBT, control to make the second metal-oxide-semiconductor Q2 be in the state of shutoff, the current needs that the gate pole of IGBT is charged is less, thus make IGBT just can reach the effect suppressing its collector voltage when the rated operation point of TVS pipe D3, also make the load request of TVS pipe very little; And the current needs charged due to the gate pole of IGBT is less, also substantially reduce the response time of overvoltage protection, the overvoltage protection response time in the present embodiment, at about 100ns, protects IGBT more timely.Wherein the first diode D1 is connected between the gate pole of IGBT and driving power VISO, IGBT gate voltage can be prevented too high and cause gate pole to puncture; Second resistance R2 plays the object of current limliting; First electric capacity C1 improves the response speed of moment, and the second diode D2 then prevents the gate voltage of IGBT to flow to collector electrode than (when IGBT opens) electric current during collector voltage height from gate pole.

In the embodiment be more preferably, in gate pole overvoltage crowbar 2, two-way TVS pipe D4 generally selects bi-directional voltage stabilizing value to be the TVS pipe of 15 ~ 18V, can prevent the over-voltage breakdown between gate pole and emitter; 6th resistance R6 is pull down resistor, and the IGBT that can prevent interference signal from causing opens by mistake logical.

Carry out experimental test to the IGBT overvoltage crowbar shown in Fig. 1 below, test condition is the VCE voltage (voltage of collector electrode relative transmission interpolar) of IGBT is 850V, and the predetermined value that gate electrode resistance R4=R5=5 Ω, TVS pipe D3 are arranged is 1000V.Produce the oscillogram of overvoltage protection time Fig. 2 is IGBT normal turn-off, abscissa representing time in Fig. 2, and every lattice are 400ns; Curve 10 is for flowing through the electric current of IGBT, and wherein the ordinate starting point of curve 10 is an A, and ordinate scale is 100A/div; Curve 20 is the VGE waveform (gate pole is relative to the voltage waveform of emitter) of IGBT, and wherein the ordinate starting point of curve 20 is a B, and ordinate scale is 5V/div; Curve 30 is the VCE waveform (voltage waveform of collector electrode relative transmission pole) of IGBT, and wherein the ordinate starting point of curve 30 is a C, and ordinate scale is 200V/div.As can be seen from Figure 2, the VCE voltage of IGBT has been limited in below 1100V, and gate voltage has the process risen several times to be exactly that overvoltage crowbar is when carrying out overvoltage protection action when IGBT turns off.Fig. 3 is the oscillogram of IGBT short-circuit protection generation overvoltage protection, abscissa representing time in Fig. 3, and every lattice are 2 μ s; Curve 40 is for flowing through the electric current of IGBT, and wherein the ordinate starting point of curve 40 is a D, and ordinate scale is 100A/div; Curve 50 is the VGE waveform (gate pole is relative to the voltage waveform of emitter) of IGBT, and wherein the ordinate starting point of curve 50 is an E, and ordinate scale is 5V/div; Curve 60 is the VCE waveform (voltage waveform of collector electrode relative transmission pole) of IGBT, and wherein the ordinate starting point of curve 60 is a F, and ordinate scale is 200V/div.As can be seen from Figure 3, the VCE voltage of IGBE has been limited in below 990V, and because cut-off current during short circuit reaches about 1700A, circuit stability is got off by the longer ability of IGBT overvoltage crowbar duration.

In sum, the IGBT overvoltage crowbar that the utility model provides protects IGBT in all directions by circuit to be caused losing efficacy from overpressure situation.First whether collector overvoltage protective circuit 1 can the collector electrode of Real-Time Monitoring IGBT have the situation of overvoltage to occur, once there is overvoltage in IGBT, collector overvoltage protective circuit 1 just can be passed through to control the second metal-oxide-semiconductor Q2 in Drive and Control Circuit 3 while conducting IGBT, makes TVS pipe D3 be operated in rated operation point; Meanwhile, gate pole overvoltage crowbar 2 also works simultaneously, prevents the gate voltage of IGBT too high, thus prevents IGBT to occur overpressure situation.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of ordinary skill in the field; without departing from the concept of the premise utility; some equivalent to substitute or obvious modification can also be made, and performance or purposes identical, all should be considered as belonging to protection range of the present utility model.

Claims

1. an IGBT overvoltage crowbar, comprises IGBT and driving power, and described driving power is connected with the gate pole of described IGBT, it is characterized in that, also comprises collector overvoltage protective circuit and Drive and Control Circuit; Described collector overvoltage protective circuit is for monitoring the voltage of the collector electrode of described IGBT, give described Drive and Control Circuit when the voltage of the collector electrode of described IGBT exceedes predetermined value by overvoltage Signal transmissions, and transmission current to the gate pole of described IGBT to suppress the rising of the collector voltage of described IGBT; Described Drive and Control Circuit is used for the shutoff stopping described IGBT when receiving described overvoltage signal.

2. IGBT overvoltage crowbar according to claim 1; it is characterized in that; described collector overvoltage protective circuit comprises TVS pipe; the negative pole of described TVS pipe is connected with the collector electrode of described IGBT; the positive pole of described TVS pipe is connected with described Drive and Control Circuit, and the positive pole of described TVS pipe is also connected with the gate pole of described IGBT.

3. IGBT overvoltage crowbar according to claim 2; it is characterized in that; described collector overvoltage protective circuit also comprises the first diode, and the positive pole of described first diode is connected with the gate pole of described IGBT, and the negative pole of described first diode is connected with described driving power.

4. IGBT overvoltage crowbar according to claim 2, is characterized in that, is connected between the positive pole of described TVS pipe and described Drive and Control Circuit by the second resistance.

5. IGBT overvoltage crowbar according to claim 2; it is characterized in that; described collector overvoltage protective circuit also comprises the 3rd resistance, the second diode and the first electric capacity; wherein: described first electric capacity and described 3rd resistor coupled in parallel are connected between the positive pole of described TVS pipe and the positive pole of described second diode, and the negative pole of described second diode is connected with the gate pole of described IGBT.

6. IGBT overvoltage crowbar according to claim 1, it is characterized in that, described Drive and Control Circuit comprises buffer, NOR gate, the first metal-oxide-semiconductor and the second metal-oxide-semiconductor, the input of wherein said buffer is connected with the first input end of described NOR gate, and the second input of described NOR gate is connected with described collector overvoltage protective circuit and ground connection;

7. IGBT overvoltage crowbar according to claim 6, is characterized in that, the second input of described NOR gate is by the first resistance ground connection again.

8. IGBT overvoltage crowbar according to claim 6; it is characterized in that; be connected by the 4th resistance between the source electrode of described first metal-oxide-semiconductor and the gate pole of described IGBT, be connected by the 5th resistance between the drain electrode of described second metal-oxide-semiconductor and the gate pole of described IGBT.

9. the IGBT overvoltage crowbar according to any one of claim 1 to 8; it is characterized in that; also comprise gate pole overvoltage crowbar, described gate pole overvoltage crowbar comprises two-way TVS pipe, between the gate pole that described two-way TVS pipe is connected to described IGBT and emitter.

10. IGBT overvoltage crowbar according to claim 9, is characterized in that, described gate pole overvoltage crowbar also comprises the 6th resistance, between the gate pole that described 6th resistance and described two-way TVS pipe are connected in parallel in described IGBT and emitter.