CN108900076A - Bridge driving circuit on inverter - Google Patents

Abstract

The invention discloses bridge driving circuits on a kind of inverter, including charging circuit and driving circuit, the charging circuit includes first diode D1 and first capacitor C2, the charging circuit is for charging to the first capacitor C2 by first supply voltage, to provide the second supply voltage by the first capacitor C2；The driving circuit includes the first transistor Q2, the collector of the first transistor Q2 is also connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit, and second supply voltage for being exported by first capacitor C2 carries out the driving of on or off to the upper bridge transistor Q3 of the bridge inverter main circuit.Bridge driving circuit is simple on inverter of the invention, high reliablity, overall power are lower, and lower production costs.Simultaneously can to avoid upper bridge transistor Q3, lower bridge transistor Q5 it is straight-through.

Description

Bridge driving circuit on inverter

Technical field

The present invention relates to bridge driving circuits in power technique fields more particularly to a kind of inverter.

Background technique

As electronic switch, switching tube works in switching mode for common N type switch tube or bridge circuit in power electronics, Down tube source electrode (or emitter) is connected with power supply ground, when work gate pole level relative to source electrode (or emitter) though change, Amplitude is smaller.Upper tube drain electrode (or collector) is just being connected with power supply, and (or collector) current potential that drains when work is constant, and upper tube source Pole (or emitter) relative to power supply negative (or just) in from ground to power supply just or power supply is just into the high speed jump on ground.More than Work characteristics determines that upper tube driving is that the difficult point of bridge circuit design and emphasis, reliability determine entire converter Reliability.

The upper tube drive circuit common in the art with Fig. 2 mainly has the driving driven using light-coupled isolation refering to fig. 1 Circuit or the driving circuit driven using transformer isolation.Using light-coupled isolation driving or transformer isolation driving circuit cost compared with Height, volume are larger.

Summary of the invention

The present invention is directed to solve at least some of the technical problems in related technologies.For this purpose, of the invention One purpose is to propose bridge driving circuit on a kind of inverter.

To achieve the above object, bridge driving circuit on inverter according to an embodiment of the present invention, including charging circuit, it is described Charging circuit includes first diode D1 and first capacitor C2, and the anode of the first diode D1 and the first supply voltage connect Connect, the cathode of the first diode D1 is connect with one end of the first capacitor C2, the other end of the first capacitor C2 with The common end connection of the upper bridge transistor Q3, lower bridge transistor Q5 of bridge inverter main circuit, the charging circuit are used for by described First supply voltage charges to the first capacitor C2, to provide the second supply voltage by the first capacitor C2；

Driving circuit, the driving circuit include the first transistor Q2, the base stage and signal source of the first transistor Q2 Signal output end connection, the collector of the first transistor Q2 passes through the first resistor R3 and first diode D1, the The common end of one capacitor C2 connects, and the emitter of the first transistor Q2 is connect with reference, the first transistor Q2's Collector is also connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit, for what is exported by first capacitor C2 Second supply voltage carries out the driving of on or off to the upper bridge transistor Q3 of the bridge inverter main circuit.

Optionally, according to one embodiment of present invention, the driving circuit further includes a level shifting circuit, and described The base stage of one transistor Q2 is connect by the level shifting circuit with the signal source output terminal, the level shifting circuit packet Second transistor Q1 is included, the base stage of the second transistor Q1 is connect with the signal source, the transmitting of the second transistor Q1 Pole is connect with the reference, and the collector of the second transistor Q1 passes through second resistance R2 and first supply voltage Output end connection, the collector of the second transistor Q1 are also connect with the base stage of the first transistor Q2.

Optionally, according to one embodiment of present invention, the first transistor Q2, second transistor Q1 are respectively NPN Model triode.

Optionally, according to one embodiment of present invention, further include：

3rd resistor R4, one end of the 3rd resistor R4 is connect with the collector of the pole the first transistor Q2, described The other end of 3rd resistor R4 is connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit.

Optionally, according to one embodiment of present invention, further include the 4th resistance R6, one end of the 4th resistance R6 with The controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit connects, and the other end of the 4th resistance R6 and the bridge-type are inverse The common end connection of the upper bridge transistor Q3, lower bridge transistor Q5 on power transformation road.

Bridge driving circuit on inverter provided by the invention, by charging circuit bridge inverter main circuit lower bridge transistor When Q5 is connected, the first supply voltage charges to first capacitor C2 by first diode D1, lower bridge transistor Q5 and with reference to ground, leads to It crosses first capacitor C2 and the driving power voltage of switching tube is provided, this drive circuitry mode circuit is simple, high reliablity.

When logical design by driving circuit is that the first transistor Q2 is connected, upper bridge transistor Q3 shutdown, first crystal When pipe Q2 is turned off, upper bridge transistor Q3 conducting.In upper bridge transistor Q3 conducting, because the first transistor Q2 is in an off state, So that entirely upper tube drive circuit power pole is low, lesser first capacitor C2 can be selected.The overall power of driving circuit is lower, can It is high by property, and lower production costs.

By adjusting the resistance of first resistor R3,3rd resistor R4, may be implemented to upper bridge transistor Q3 gate pole Charging process is slower, and the turn-on time of upper bridge transistor Q3 has certain lag compared with the turn-on time of the sending of signal source, This process can to avoid upper bridge transistor Q3, lower bridge transistor Q5 it is straight-through.

Detailed description of the invention

Fig. 1 is to be realized in the prior art using optocoupler to bridge driving circuit structure schematic diagram on inverter；

Fig. 2 is to be realized in the prior art using transformer to bridge driving circuit structure schematic diagram on inverter；

Fig. 3 is upper bridge driving circuit structure schematic diagram provided in an embodiment of the present invention.

Appended drawing reference：

Signal source 10；

Bridge driving circuit 20 on inverter；

Bridge inverter main circuit 30.

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described.Unless otherwise defined, used herein All technical and scientific terms have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.Herein Used term, which is only for the purpose of describing specific embodiments, in the description of the invention is not intended to limit this Invention.

Referenced herein " embodiment " is it is meant that a particular feature, structure, or characteristic described can wrap in conjunction with the embodiments Containing at least one embodiment of the present invention.Each position in the description occur the phrase might not each mean it is identical Embodiment, nor the independent or alternative embodiment with other embodiments mutual exclusion.Those skilled in the art explicitly and Implicitly understand, embodiment described herein can be combined with other embodiments.

Refering to Fig. 3, the present invention provides bridge driving circuit on a kind of inverter, including：Charging circuit and driving circuit, it is described Charging circuit includes first diode D1 and first capacitor C2, the anode of the first diode D1 and the first supply voltage+12V Connection, the cathode of the first diode D1 are connect with one end of the first capacitor C2, the other end of the first capacitor C2 It is connect with the common end of the upper bridge transistor Q3 of bridge inverter main circuit, lower bridge transistor Q5, the charging circuit is for passing through institute It states the first supply voltage+12V to charge to the first capacitor C2, to provide the second supply voltage by the first capacitor C2； Since the upper bridge transistor Q3 of the bridge-type inverter is that MOS transistor, the drain electrode of the upper bridge transistor Q3 is connected in high level It is electrically connected with the first high pressure, when the gate-source voltage of the upper bridge transistor Q3 is higher than conduction value, the upper bridge transistor Q3 Conducting, in the embodiment of the present invention, when the lower bridge transistor Q5 of bridge-type inverter conducting, the first capacitor C2 with it is described It is connected to reference to ground GND, the first supply voltage+12V fills the first capacitor C2 by the first diode D1 Electricity, after the first capacitor C2 is fully charged, the voltage value at the both ends the first capacitor C2 is the first supply voltage+12V Voltage value.

The driving circuit includes the first transistor Q2, and the base stage of the first transistor Q2 and the signal of signal source export End connection, the collector of the first transistor Q2 pass through the first resistor R3 and first diode D1, first capacitor C2 Common end connection, the emitter of the first transistor Q2 are connect with reference to ground GND, and the collector of the first transistor Q2 is also It is connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit, described second for being exported by first capacitor C2 Supply voltage carries out the driving of on or off to the upper bridge transistor Q3 of the bridge inverter main circuit.When the first transistor When Q2 ends, the first capacitor C2 provides the second power supply electricity by the first resistor R3 for the upper bridge transistor Q3 Pressure, second supply voltage are respectively acting on the grid source electrode of the upper bridge transistor Q3, the grid source electrode electricity of upper bridge transistor Q3 Pressure is higher than conducting gate voltage, the upper bridge transistor Q3 conducting.Simultaneously the lower bridge transistor Q5 be in close state, it is described on The source voltage of bridge transistor Q3 is close to drain voltage.The drain electrode of the namely described upper bridge transistor Q3 is in the upper bridge transistor High pressure conditions are in when Q3 is connected, since the other end of the first capacitor C2 is connect with the source electrode of the upper bridge transistor Q3, The both ends of the first capacitor C2 are also at high pressure conditions, and the first diode D1 reversely ends, and avoid the first capacitor The high pressure of C2 carries out reverse charging to the first supply voltage+12V.

When the first transistor Q2 conducting, the collector of the first transistor Q2 is connected to with reference to ground GND, and described first The collector voltage of transistor Q2 is close to reference to ground GND voltage, and the gate-source voltage of the upper bridge transistor Q3 is lower than conducting door Voltage, the upper bridge transistor Q3 cut-off.

Bridge driving circuit on inverter provided by the invention, it is brilliant by the lower bridge in bridge inverter main circuit by charging circuit When body pipe Q5 is connected, the first supply voltage+12V is by first diode D1, lower bridge transistor Q5 and with reference to ground GND to the first electricity Hold C2 charging, provides the driving power voltage of switching tube by first capacitor C2, this drive circuitry mode circuit is simple, High reliablity.

When logical design by driving circuit is that the first transistor Q2 is connected, upper bridge transistor Q3 shutdown, first crystal When pipe Q2 is turned off, upper bridge transistor Q3 conducting.In upper bridge transistor Q3 conducting, because the first transistor Q2 is in an off state, So that entirely upper tube drive circuit power pole is low, lesser first capacitor C2 can be selected.In upper bridge transistor Q3 shutdown, first Transistor Q2 is in the conductive state.First resistor R3 need to consume part energy at this time, pass through the first supply voltage+12V It directly powers, without consuming the energy on first capacitor C2.The overall power of driving circuit is lower, high reliablity, and is produced into This is lower.

Refering to Fig. 3, the driving circuit further includes a level shifting circuit, and the base stage of the first transistor Q2 passes through institute Level shifting circuit to be stated to connect with the signal source output terminal, the level shifting circuit includes second transistor Q1, and described The base stage of two-transistor Q1 is connect with the signal source, and the emitter of the second transistor Q1 is connect with described with reference to ground GND, The collector of the second transistor Q1 is connect by second resistance R2 with the output end of the first supply voltage+12V, described The collector of second transistor Q1 is also connect with the base stage of the first transistor Q2.When the signal source exports high level, The collector of the second transistor Q1 is connected to with reference to ground GND, and the collector of the second transistor Q1 exports low level, when When the signal source output low level, the second transistor Q1 cut-off, the collector of the second transistor Q1 passes through second Resistance R2 is connected to the first supply voltage+12V, and the collector of the second transistor Q1 exports high level.Pass through described second Transistor Q1 carries out the output level of the signal source reversed.So that the driving circuit output and the signal source phase phase Same driving signal.

In one embodiment of the invention, the first transistor Q2, second transistor Q1 are respectively three pole of NPN type number Pipe.

Further include refering to Fig. 3：3rd resistor R4, the collection of one end of the 3rd resistor R4 and the pole the first transistor Q2 Electrode connection, the controlled end of the upper bridge transistor Q3 of the other end and bridge inverter main circuit of the 3rd resistor R4 are connect. First resistor R3 and the 3rd resistor R4 are arranged in the output end and the upper bridge transistor Q3 of second supply voltage Output end between, the driving current of the upper bridge transistor Q3 can be limited, pass through matching first resistor R3 and third The resistance value of resistance R4, formation is slow to the conducting speed of the upper bridge transistor Q3, turn-off speed is fast, avoids same bridge arm or more Switching tube is led directly to.It, can be to upper bridge transistor Q3 gate pole because the resistance of first resistor R3 and 3rd resistor R4 are larger Charging process it is slower, the turn-on time of upper bridge transistor Q3 has certain stagnant compared with the turn-on time of the sending of signal source Afterwards, this process can to avoid upper bridge transistor Q3, lower bridge transistor Q5 it is straight-through.Since inverter works under power frequency state, Frequency is relatively extremely low, and speed, which can't be connected, because of upper bridge transistor Q3 in this process leads to its heating problem slowly.Because of upper bridge The heat that transistor Q3 is connected slowly and generates can be ignored compared with the heat that upper bridge transistor Q3 on-state loss generates.

It further include the 4th resistance R6 refering to Fig. 3, one end of the 4th resistance R6 and the upper bridge of the bridge inverter main circuit The controlled end of transistor Q3 connects, the upper bridge transistor Q3 of the other end of the 4th resistance R6 and the bridge inverter main circuit, The common end of lower bridge transistor Q5 connects.The 4th resistance R6 is used to carry out the controlled end of the upper bridge transistor Q3 initial Change and resets.The 4th resistance R6 is pull down resistor, passes through the 4th resistance R6 and upper bridge transistor Q3, lower bridge transistor Q5 Common end connection.When the first transistor Q2 does not have drive output signal, the 4th resistance R6 is brilliant by the upper bridge The electricity of the controlled end of body pipe Q3 discharges, and makes the upper bridge transistor Q3 controlled end low level, at the upper bridge transistor Q3 In the original state of cut-off.

The above is only the embodiment of the present invention, are not intended to limit the scope of the patents of the invention, although with reference to the foregoing embodiments Invention is explained in detail, still can be to aforementioned each specific reality for coming for those skilled in the art It applies technical solution documented by mode to modify, or equivalence replacement is carried out to part of technical characteristic.It is all to utilize this The equivalent structure that description of the invention and accompanying drawing content are done directly or indirectly is used in other related technical areas, similarly Within the invention patent protection scope.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not Centainly refer to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be any One or more embodiment or examples in can be combined in any suitable manner.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art are not departing from the principle of the present invention and objective In the case where can make changes, modifications, alterations, and variations to the above described embodiments within the scope of the invention.

Claims (5)

1. bridge driving circuit on a kind of inverter, which is characterized in that including：

Charging circuit, the charging circuit include first diode D1 and first capacitor C2, the anode of the first diode D1 It being connect with the first supply voltage, the cathode of the first diode D1 is connect with one end of the first capacitor C2, and described first The common end connection of the upper bridge transistor Q3, lower bridge transistor Q5 of the other end and bridge inverter main circuit of capacitor C2, the charging Circuit is for charging to the first capacitor C2 by first supply voltage, to provide second by the first capacitor C2 Supply voltage；

Driving circuit, the driving circuit include the first transistor Q2, the base stage of the first transistor Q2 and the letter of signal source The collector of the connection of number output end, the first transistor Q2 passes through the first resistor R3 and first diode D1, the first electricity Hold the common end connection of C2, the emitter of the first transistor Q2 is connect with reference, the current collection of the first transistor Q2 Pole is also connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit, described in being exported by first capacitor C2 Second supply voltage carries out the driving of on or off to the upper bridge transistor Q3 of the bridge inverter main circuit.

2. bridge driving circuit on inverter according to claim 1, which is characterized in that the driving circuit further includes an electricity The base stage of flat conversion circuit, the first transistor Q2 is connect by the level shifting circuit with the signal source output terminal, The level shifting circuit includes second transistor Q1, and the base stage of the second transistor Q1 is connect with the signal source, described The emitter of second transistor Q1 connect with described with reference to ground, the collector of the second transistor Q1 pass through second resistance R2 and The output end of first supply voltage connects, base of the collector of the second transistor Q1 also with the first transistor Q2 Pole connection.

3. bridge driving circuit on inverter according to claim 2, which is characterized in that the first transistor Q2, second Transistor Q1 is respectively NPN type triode.

4. bridge driving circuit on inverter according to claim 1, which is characterized in that further include：

3rd resistor R4, one end of the 3rd resistor R4 are connect with the collector of the pole the first transistor Q2, the third The other end of resistance R4 is connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit.

5. bridge driving circuit on inverter according to claim 1, which is characterized in that it further include the 4th resistance R6, it is described One end of 4th resistance R6 is connect with the controlled end of the upper bridge transistor Q3 of the bridge inverter main circuit, the 4th resistance R6's The other end is connect with the common end of the upper bridge transistor Q3 of the bridge inverter main circuit, lower bridge transistor Q5.