CN204349777U - The insulating power supply that a kind of IGBT drives - Google Patents

Abstract

The insulating power supply that the open IGBT of the utility model drives, provides ON/OFF voltage to IGBT, comprises DC-DC insulating power supply, reference circuit and voltage follower; Reference circuit provides different reference input voltage V according to the output total voltage VDD size of DC-DC insulating power supply to voltage follower _b, the output of voltage follower is connected to the emitter of IGBT; When needing conducting, the positive voltage output end of DC-DC insulating power supply is communicated with IGBT grid, to make potential difference between positive voltage output end and voltage follower output as conducting voltage; When needing to turn off, the negative voltage output of DC-DC insulating power supply is communicated with IGBT grid, to make potential difference between negative voltage output and voltage follower output as shutoff voltage; Reference circuit provides conducting voltage benchmark V according to IGBT ON/OFF voltage request _oNwith shutoff voltage absolute critical V _m; VDD>=V _oN+ V _mtime, V _bbe that the first value is preferentially to ensure that IGBT conducting voltage equals V _oN; VDD < V _oN+ V _mtime, V _bbe that the second value is preferentially to ensure that IGBT shutoff voltage equals V _m.

Description

The insulating power supply that a kind of IGBT drives

Technical field

The utility model relates to IGBT technical field, particularly relates to the insulating power supply that a kind of IGBT drives.

Background technology

IGBT (Insulated Gate Bipolar Transistor, insulated gate bipolar transistor) be widely used in novel Technics of Power Electronic Conversion field, the popular industries such as such as photovoltaic, wind power generation, frequency conversion and electric automobile can be seen IGBT and play very important effect wherein.Use powerful IGBT (rated current is greater than 100A) switch element at industrial circle, due to the existence of the miller capacitance of IGBT own, easily occur misleading and turn off not situation rapidly.

The shutoff voltage of IGBT is generally negative voltage (-15V ~-5V), and in order to allow IGBT turn off faster, and situation about can not wrongly open occurs, and usually adopts following several mode to provide the driving power of IGBT at present:

1) positive and negative independent current source is adopted to power to IGBT drive circuit separately.Such as the power module of employing ± 15V drives as power supply to IGBT respectively, namely needs two-way power supply to drive power supply to an IGBT, buys this type of power module cost high, and designed, designed too complex;

2) adopt a power supply, separate generating positive and negative voltage by voltage stabilizing and power to IGBT drive circuit.As shown in Figure 1, input power V _iNfirst obtain a stable total voltage through a linear voltage stabilization chip, then drawn the generating positive and negative voltage V+ ' and V-' that want by resistance R and voltage stabilizing didoe D.In this kind of mode, linear voltage stabilization chip and voltage stabilizing didoe D can consume certain power and cause power-efficient lower, the heat radiation of linear voltage stabilization chip and voltage stabilizing didoe D is also the problem that needs overcome on the other hand, usually needs to occupy larger board area to solve heat dissipation problem.

Summary of the invention

Main purpose of the present utility model is to drive the feature of required power supply (to require higher to turn-on voltage according to IGBT, to shutoff voltage value require lower) propose one only need single channel Power supply, high and the power supply of small volume of conversion efficiency, needs dual power supply with what solve that existing IGBT driving power exists or uses single power supply but power-efficient is low, bad technical problem of dispelling the heat.

The insulating power supply that a kind of IGBT drives, for the ON/OFF voltage providing IGBT to the drive circuit of IGBT, comprise DC-DC insulating power supply, described DC-DC insulating power supply has positive voltage output end and negative voltage output, exports equal-sized positive voltage and negative voltage respectively, the insulating power supply that described IGBT drives also comprises reference circuit and voltage follower, described reference circuit is according to the ON/OFF voltage parameter requirement of described IGBT, there is provided a conducting voltage benchmark and a shutoff voltage absolute critical, the output of described voltage follower is connected to the emitter of described IGBT, described reference circuit has first input end, second input and output, wherein said first input end is connected to the positive voltage output end of described DC-DC insulating power supply, described second input is connected to the negative voltage output of described DC-DC insulating power supply, described output is connected to the input of described voltage follower, described reference circuit is used for providing reference input voltage to the input of described voltage follower, when the output total voltage of described DC-DC insulating power supply is more than or equal to described conducting voltage benchmark and described shutoff voltage absolute critical sum, the value of described reference input voltage makes the potential difference between the output of described positive voltage output end and described voltage follower equal described conducting voltage benchmark, when the output total voltage of described DC-DC insulating power supply is less than described conducting voltage benchmark and described shutoff voltage absolute critical sum, the value of described reference input voltage makes the potential difference between described negative voltage output and the output of described voltage follower equal the negative value of described shutoff voltage absolute critical, wherein, described output total voltage equals the absolute value sum of described positive voltage and described negative voltage, described drive circuit is used for: when driving described IGBT conducting, be communicated with by the positive voltage output end of described DC-DC insulating power supply with the grid of described IGBT, when driving described IGBT to turn off, described negative voltage output is communicated with the grid of described IGBT.

When IGBT ON/OFF, generally, required conducting voltage is 15V, and required shutoff voltage is below-5V (i.e.-4V ,-3V etc. will have a strong impact on the shutoff action of IGBT), can 15V be regarded as conducting voltage benchmark, 5V regards shutoff voltage absolute critical as, is in operation and should ensures that the absolute value of the shutoff voltage provided is not less than this shutoff voltage absolute critical as far as possible.What export due to DC-DC insulating power supply is the contrary voltage in two-way equal and opposite in direction, direction, if directly supply the drive circuit of IGBT to drive IGBT ON/OFF, then may there is shutoff voltage abundance but the situation of conducting voltage deficiency, such as, the output total voltage of DC-DC insulating power supply is 25V, though be greater than 20V, but be allocated to+12.5V and-12.5V, if directly supply IGBT drive circuit, then shutoff voltage-12.5 is very sufficient, but conducting voltage+12.5V is inadequate, even if can conducting, because magnitude of voltage is inadequate, IGBT caloric value can be increased.

Therefore, according to the size of the output total voltage of DC-DC insulating power supply in this programme, based on conducting voltage benchmark/shutoff voltage absolute critical needed for IGBT, come reasonably output total voltage to be distributed.Specifically, using the emitter voltage of the output end voltage of voltage follower as IGBT in this programme, and the power port that grid should be connected using the positive voltage output end of DC-DC insulating power supply and negative voltage output as IGBT conducting, when turning off, by adjusting the output end voltage of voltage follower, i.e. adjustable ON/OFF voltage and the voltage V between grid and emitter _gE(V _gE=V _g-V _e).And the output end voltage of voltage follower equals input terminal voltage, therefore, when providing different reference input voltage according to the output total voltage size of DC-DC insulating power supply to voltage follower, just form different emitter voltages, thus realize, according to the positive/negative voltage of DC-DC insulating power supply output, producing suitable V _gE.

When the output total voltage of DC-DC insulating power supply is more than or equal to conducting voltage benchmark and shutoff voltage absolute critical sum, illustrate that exporting total voltage at the absolute value of guarantee shutoff voltage is on the basis of shutoff voltage absolute critical, the conducting voltage reaching conducting voltage benchmark at least can be provided, the conducting voltage that the reference input voltage that now reference circuit is supplied to voltage follower can make the voltage between positive voltage output end and voltage follower output namely be supplied to IGBT equals described conducting voltage benchmark, and now remaining voltage (namely exports total voltage and the difference of conducting voltage being supplied to IGBT, the voltage between negative voltage output and voltage follower output is shown as in circuit) negative voltage needed for shutoff can be provided, and the absolute value of this negative voltage is more than or equal to shutoff voltage absolute critical, IGBT is enough allowed to turn off fast,

When the output total voltage of DC-DC insulating power supply is less than conducting voltage benchmark and shutoff voltage absolute critical sum, then should consider that the conducting voltage of sacrificing a part preferentially ensures that the absolute value of the shutoff voltage provided at least equals described shutoff voltage absolute critical (such as 5V), the reference input voltage that now reference circuit is supplied to voltage follower then enough makes the voltage between negative voltage output and the output of voltage follower equal the negative value of described shutoff voltage absolute critical (such as 5V), namely a upper limit shutoff voltage (-5V is provided, can not be larger than-5V again), now remaining voltage (namely exports total voltage and the difference of absolute value of shutoff voltage being supplied to IGBT, the voltage between positive voltage output end and voltage follower output is shown as in circuit) can provide conducting voltage (can be less than conducting voltage benchmark, but can conducting).

Preferably, described reference circuit comprises the first voltage stabilizing didoe, the second voltage stabilizing didoe, the first resistance and the second resistance; The negative electrode of described first voltage stabilizing didoe is connected to described positive voltage output end, and anode is connected to the input of described voltage follower; The anode of described second voltage stabilizing didoe is connected to described negative voltage output; Described first resistance is connected between the anode of described first voltage stabilizing didoe and the negative electrode of described second voltage stabilizing didoe, and described second resistance is connected between the negative electrode of described positive voltage output end and described second voltage stabilizing didoe; The voltage stabilizing value of described first voltage stabilizing didoe is described conducting voltage benchmark, and the voltage stabilizing value of described second voltage stabilizing didoe is described shutoff voltage absolute critical.

Preferably, the voltage stabilizing value of described first voltage stabilizing didoe and described second voltage stabilizing didoe is respectively 15V and 5V.

Preferably, also comprise the first electric capacity and the second electric capacity, described first electric capacity is connected between the output of described voltage follower and described positive voltage output end, described second electric capacity is connected between the output of described voltage follower and described negative voltage output, is respectively used to conducting voltage and the shutoff voltage of stablizing described IGBT.By this programme, even if when load strengthens suddenly or inputs power down, the effect of electric capacity also can ensure to provide stable ON/OFF voltage to make IGBT normally or shutoff.

Preferably, described voltage follower comprises operational amplifier, and the output of described operational amplifier is connected with inverting input, and the normal phase input end of described operational amplifier and output are respectively input and the output of described voltage follower.

Preferably, described DC-DC insulating power supply comprises oscillating circuit, power transformer and current rectifying and wave filtering circuit, described oscillating circuit for generation of push-pull drive signal transmission to the armature winding of described power transformer, described current rectifying and wave filtering circuit is used for carrying out rectifying and wave-filtering to the secondary winding output voltage of described power transformer, to export described positive voltage and described negative voltage.

Preferably, described DC-DC insulating power supply also comprises the identical switching tube of at least one pair of parameter, according to described push-pull drive signal alternate conduction, alternately to transfer energy to the armature winding of described power transformer.Carry out transferring energy by switching tube, the loss in signals transmission can be reduced.

Preferably, described oscillating circuit is oscillating circuit chip, and described push-pull drive signal is one group of anti-phase pwm signal.

Preferably, described current rectifying and wave filtering circuit comprises two groups of full bridge rectifiers, to export described positive voltage and described negative voltage respectively.

In a word, the insulating power supply that the aforementioned IGBT that the utility model provides drives, the simple DC-DC insulating power supply of structure is adopted to provide generating positive and negative voltage, do not need extra feedback circuit, again by the adjustment of follow-up reference circuit and voltage follower, the ON/OFF voltage that final output is more accurately suitable, the drive circuit for IGBT provides power drives more accurately, to realize the accurate ON/OFF of IGBT.Meanwhile, owing to adopting reference circuit and voltage follower to carry out follow-up Voltage Cortrol, compared to existing technology, the transmission loss of energy in circuit in fact can be made to reduce, and energy conversion efficiency is high, and heating is few, and overall volume is little, does not take too many board area.

Accompanying drawing explanation

Fig. 1 is existing a kind of schematic diagram adopting single supply to power to IGBT drive circuit;

Fig. 2 is the equivalent circuit diagram of IGBT;

Fig. 3 is the theory diagram of the IGBT driving insulating power supply that the utility model specific embodiment provides;

Fig. 4-1 is a kind of specific implementation of the DC-DC insulating power supply in Fig. 3;

Fig. 4-2 is another kind of specific implementations of the DC-DC insulating power supply in Fig. 4;

Fig. 5 is the schematic diagram of a kind of IGBT driving insulating power supply of the DC-DC insulating power supply that have employed Fig. 4-1.

Embodiment

Below in conjunction with accompanying drawing and concrete execution mode, the utility model is described in further detail.

Insulated gate bipolar transistor (Insulated Gate Bipolar Transistor) is called for short IGBT, and its equivalent electric circuit as shown in Figure 2, has grid G, emitter E and collector electrode C, adds suitable voltage V between grid G and emitter E _gE, to realize conducting or the shutoff of IGBT.

Embodiment of the present utility model provides a kind of IGBT driving insulating power supply, for the ON/OFF voltage providing IGBT to the drive circuit of IGBT, to realize the ON/OFF of IGBT.As shown in Figure 3, this IGBT driving insulating power supply comprises DC-DC insulating power supply 100, reference circuit 200 and voltage follower 300, with reference to figure 4-1 and Fig. 4-2, described DC-DC insulating power supply 100 has positive voltage output end and negative voltage output, in order to export equal-sized positive voltage V respectively _justwith negative voltage V _negative.Reference circuit 200, according to the ON/OFF voltage parameter requirement of IGBT, provides a conducting voltage benchmark V _oNwith a shutoff voltage absolute critical V _m, the output of voltage follower 300 is connected to the emitter E of IGBT;

With reference to figure 5, reference circuit 200 has first input end, the second input and output, and first input end is connected to described positive voltage output end, and the second input is connected to described negative voltage output, and output is connected to the input of described voltage follow 300.

Reference circuit 200 is for providing reference input voltage V to the input of voltage follower 300 _b, as the output total voltage VDD>=V of DC-DC insulating power supply 100 _oN+ V _mtime, the reference input voltage V provided _bvalue the potential difference between the output of positive voltage output end and voltage follower 300 can be made to equal conducting voltage benchmark V _oN; As VDD < V _oN+ V _mtime, the reference input voltage V provided _bvalue the potential difference between the output of negative voltage output and voltage follower 300 can be made to equal shutoff voltage absolute critical V _mnegative value; Wherein, export total voltage VDD and equal positive voltage V _justwith negative voltage V _negativeabsolute value sum.

As needs conducting IGBT, the positive voltage output end of DC-DC insulating power supply 100 is communicated with the grid G of IGBT by the drive circuit (not shown) of IGBT, using the potential difference between the output making positive voltage output end and voltage follower 300 as the conducting voltage (V namely during conducting of IGBT _gE=V _just-V _e); When needs turn off IGBT, the negative voltage output of DC-DC insulating power supply 100 is communicated with the grid G of IGBT by the drive circuit of IGBT, using the potential difference between the output making negative voltage output and voltage follower 300 as shutoff voltage (V when namely turning off of IGBT _gE=V _negative-V _e).

Particularly, reference circuit 200 comprises the first voltage stabilizing didoe D1, the second voltage stabilizing didoe D2, the first resistance R1 and the second resistance R2.As shown in Figure 5: the negative electrode of the first voltage stabilizing didoe D1 is connected to positive voltage output end, and anode is connected to the input of voltage follower 300; The anode of the second voltage stabilizing didoe D2 is connected to negative voltage output; First resistance R1 is connected between the anode of the first voltage stabilizing didoe D1 and the negative electrode of the second voltage stabilizing didoe D2, and the second resistance R2 is connected between the negative electrode of positive voltage output end and the second voltage stabilizing didoe D2.The voltage stabilizing value of the first voltage stabilizing didoe D1 is described conducting voltage benchmark V _oN, the voltage stabilizing value of the second voltage stabilizing didoe D2 is described shutoff voltage absolute critical V _m.First voltage stabilizing didoe and the second voltage stabilizing didoe also can substitute with fiducial chip, can prevent temperature drift like this.Voltage follower 300 preferably can adopt operational amplifier IC2, realizes voltage follow by the inverting input of amplifier is connected to output.

Generally speaking, the best conducting voltage of IGBT is 15V, and shutoff voltage is good with-10V, is no more than-5V at most, therefore, in this example, with conducting voltage benchmark V _oN=15V, shutoff voltage absolute critical V _m=5V is that example is described in detail the utility model: namely the voltage stabilizing value of the first voltage stabilizing didoe D1 equals conducting voltage benchmark V _oNnamely the voltage stabilizing value of=15V, the second voltage stabilizing didoe D2 equals shutoff voltage absolute critical V _m=5V.

The operation principle of reference circuit 200 and amplifier IC2 is roughly:

Citing: the output total voltage VDD=V of DC-DC insulating power supply 100 _just-V _negativeduring=25V, the voltage V that positive voltage output end is held relative to COM _justfor+12.5V, the voltage V that negative voltage output is held relative to COM _negativefor-12.5V, now VDD > V _oN+ V _mas shown in Figure 5, in such cases, in reference circuit 200, while second resistance R2 to the second voltage stabilizing didoe D2 forms current path, the first voltage stabilizing didoe D1 also forms current path to the second voltage stabilizing didoe D2 again to the first resistance R1, because the voltage at the first voltage stabilizing didoe D1 two ends is 15V, and its negative electrode (i.e. positive voltage output end) voltage is 12.5V, so voltage (the i.e. described reference input voltage V of the now normal phase input end of amplifier IC2 _b) be-2.5V, thus the output end voltage V of amplifier IC2 _ealso be-2.5V, thus, between positive voltage output end and the output of amplifier IC2, produce the voltage difference of+15V, and aforementioned when having mentioned IGBT conducting its grid G connect positive voltage output end, therefore namely+15V becomes the actual conducting voltage being supplied to IGBT; Meanwhile, between negative voltage output and the output of amplifier IC2, produce the voltage difference of-12.5-(-2.5)=-10V, therefore should be the actual shutoff voltage being supplied to IGBT by-10V.That is, by the cooperating of reference circuit 200 and voltage follower 300, the output total voltage of 25V has been carried out distributing flexibly, and no longer always exported as ON/OFF voltage using equal-sized generating positive and negative voltage.

Another kind of situation, such as: as the output total voltage VDD=V of DC-DC insulating power supply 100 _just-V _negativeduring=18V, the voltage V that positive voltage output end is held relative to COM _justfor+9V, the voltage V that negative voltage output is held relative to COM _negativefor-9V, now VDD < V _oN+ V _mas shown in Figure 5, in such cases, only have in reference circuit 200 between second resistance R2 to the second voltage stabilizing didoe D2 and form current path, first resistance R1 does not have electric current to flow through (because the general impedance of amplifier IC2 larger), and namely the current potential of the A point between the negative electrode of now the second resistance R2 and the second voltage stabilizing didoe D2 equals the current potential of the normal phase input end of amplifier IC2.That is, described reference input voltage V in such cases _bequal the voltage of A point, because the voltage stabilizing value of the second voltage stabilizing didoe D2 is 5V, therefore anode (i.e. negative voltage output) the high 5V of the voltage ratio D2 of A point (negative electrode of D2), i.e. now V _b=V _negative+ 5=-9+5=-4V, therefore the output end voltage V of amplifier IC2 _e=-4V, thus, the voltage difference of-9-(-4)=-5V is produced between negative voltage output and the output of amplifier IC2, preferentially ensure that the actual shutoff voltage being supplied to IGBT is that (thinking can not be larger than-5 again for minimum requirements-5V, such as, think-4 ,-3V then cannot normal turn-off IGBT); Meanwhile, produce the voltage difference of 9-(-4)=+ 13V between positive voltage output end and the output of amplifier IC2, namely this+13V becomes the actual conducting voltage being supplied to IGBT.That is, by the cooperating of reference circuit 200 and voltage follower 300, less output total voltage 18V has been carried out distributing flexibly, preferentially meet the minimum requirements (-5V) of shutoff voltage, then remaining voltage 13V, just as conducting voltage, ensures IGBT normally/shutoff.

In the execution mode that some are concrete, as shown in Fig. 4-1 and Fig. 5, DC-DC insulating power supply 100 comprises oscillating circuit 101, translation circuit 102, power transformer T1 and current rectifying and wave filtering circuit 103, and oscillating circuit 101 is at original power V _ipush-pull drive signal can be produced during input, this push-pull drive signal is passed to the armature winding of power transformer T1 by translation circuit 102, current rectifying and wave filtering circuit 103 comprises two groups of full bridge rectifiers, for carrying out rectifying and wave-filtering to the secondary winding output voltage of power transformer T1, to export positive voltage V respectively _justwith negative voltage V _negative.Particularly, oscillating circuit 101 can be oscillating circuit chip, the QD1011 chip that such as Shenzhen Bronze Technologies Ltd. produces or the pwm signal generator adopting other, and translation circuit comprises pair of switches pipe.For QD1011 chip IC 1 as oscillating circuit chip, 16 pin of chip IC 1 meet power positive end VDC, 1 pin ground connection, 15 pin and 2 pin meet switching tube Q1 and Q2 (being specially the metal-oxide-semiconductor of N raceway groove) respectively, chip IC 1 produces one group of anti-phase PWM (pulse width modulation) signal, make switching tube Q1 and Q2 alternate conduction, alternating voltage signal to be delivered to the armature winding of power transformer T1, the centre tap of armature winding meets power positive end VDC, after power transformer T1 carries out isolated variable to voltage, form two groups of (there are two groups of secondary winding) voltages and carry out full-bridge rectifier filter respectively, produce original positive negative level (the i.e. described positive voltage V driven _justwith described negative voltage V _negative) export, think the drive circuitry of reference circuit 200 below and IGBT.COM end is equivalent to the ground end of whole IGBT driving insulating power supply.

In other execution modes, if less to power supply actual power demand time, can there is no translation circuit 102, as shown in the Fig. 4-2 yet.

In the execution mode be more preferably, as shown in Figure 5, between the output of voltage follower 300 and positive voltage output end, and between the output of voltage follower and negative voltage output, be connected to for the conducting voltage of stable IGBT and the first electric capacity C1 of shutoff voltage and the second electric capacity C2.If original power V _isuddenly disappear, then the first electric capacity C1 and the second electric capacity C2 as stand-by power supply, can also ensure the normally/shutoff of IGBT to a certain extent.Or because load strengthens suddenly, need larger conducting voltage, then the voltage stored in the first electric capacity C1 can as increase conducting voltage, to ensure that IGBT still can normally.

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 (9)

1. the insulating power supply of an IGBT driving, for the ON/OFF voltage providing IGBT to the drive circuit of IGBT, comprise DC-DC insulating power supply, described DC-DC insulating power supply has positive voltage output end and negative voltage output, exports equal-sized positive voltage and negative voltage respectively;

It is characterized in that: also comprise reference circuit and voltage follower, described reference circuit is according to the ON/OFF voltage parameter requirement of described IGBT, there is provided a conducting voltage benchmark and a shutoff voltage absolute critical, the output of described voltage follower is connected to the emitter of described IGBT;

Described reference circuit has first input end, second input and output, wherein said first input end is connected to the positive voltage output end of described DC-DC insulating power supply, described second input is connected to the negative voltage output of described DC-DC insulating power supply, described output is connected to the input of described voltage follower, described reference circuit is used for providing reference input voltage to the input of described voltage follower, when the output total voltage of described DC-DC insulating power supply is more than or equal to described conducting voltage benchmark and described shutoff voltage absolute critical sum, the value of described reference input voltage makes the potential difference between the output of described positive voltage output end and described voltage follower equal described conducting voltage benchmark, when the output total voltage of described DC-DC insulating power supply is less than described conducting voltage benchmark and described shutoff voltage absolute critical sum, the value of described reference input voltage makes the potential difference between described negative voltage output and the output of described voltage follower equal the negative value of described shutoff voltage absolute critical, wherein, described output total voltage equals the absolute value sum of described positive voltage and described negative voltage,

Described drive circuit is used for: when driving described IGBT conducting, be communicated with by the positive voltage output end of described DC-DC insulating power supply with the grid of described IGBT; When driving described IGBT to turn off, described negative voltage output is communicated with the grid of described IGBT.

2. the insulating power supply of IGBT driving as claimed in claim 1, is characterized in that: described reference circuit comprises the first voltage stabilizing didoe, the second voltage stabilizing didoe, the first resistance and the second resistance; The negative electrode of described first voltage stabilizing didoe is connected to described positive voltage output end, and anode is connected to the input of described voltage follower; The anode of described second voltage stabilizing didoe is connected to described negative voltage output; Described first resistance is connected between the anode of described first voltage stabilizing didoe and the negative electrode of described second voltage stabilizing didoe, and described second resistance is connected between the negative electrode of described positive voltage output end and described second voltage stabilizing didoe; The voltage stabilizing value of described first voltage stabilizing didoe is described conducting voltage benchmark, and the voltage stabilizing value of described second voltage stabilizing didoe is described shutoff voltage absolute critical.

3. the insulating power supply of IGBT driving as claimed in claim 2, is characterized in that: the voltage stabilizing value of described first voltage stabilizing didoe and described second voltage stabilizing didoe is respectively 15V and 5V.

4. the insulating power supply of IGBT driving as claimed in claim 1, it is characterized in that: also comprise the first electric capacity and the second electric capacity, described first electric capacity is connected between the output of described voltage follower and described positive voltage output end, described second electric capacity is connected between the output of described voltage follower and described negative voltage output, is respectively used to conducting voltage and the shutoff voltage of stablizing described IGBT.

5. the insulating power supply that the IGBT as described in any one of Claims 1-4 drives, it is characterized in that: described voltage follower comprises operational amplifier, the output of described operational amplifier is connected with inverting input, and the normal phase input end of described operational amplifier and output are respectively input and the output of described voltage follower.

6. the insulating power supply that the IGBT as described in any one of Claims 1-4 drives, it is characterized in that: described DC-DC insulating power supply comprises oscillating circuit, power transformer and current rectifying and wave filtering circuit, described oscillating circuit for generation of push-pull drive signal transmission to the armature winding of described power transformer, described current rectifying and wave filtering circuit is used for carrying out rectifying and wave-filtering to the secondary winding output voltage of described power transformer, to export described positive voltage and described negative voltage.

7. the insulating power supply of IGBT driving as claimed in claim 6, it is characterized in that: described DC-DC insulating power supply also comprises the identical switching tube of at least one pair of parameter, according to described push-pull drive signal alternate conduction, alternately to transfer energy to the armature winding of described power transformer.

8. the insulating power supply of IGBT driving as claimed in claim 6, it is characterized in that: described oscillating circuit is oscillating circuit chip, described push-pull drive signal is one group of anti-phase pwm signal.

9. the insulating power supply of IGBT driving as claimed in claim 6, is characterized in that: described current rectifying and wave filtering circuit comprises two groups of full bridge rectifiers, to export described positive voltage and described negative voltage respectively.