CN208796060U - A kind of control circuit - Google Patents

Abstract

The utility model embodiment is related to controller power supply technique field, more particularly to a kind of control circuit.Control circuit includes: controller；First switch circuit, input terminal are connect with power supply, and the feeder ear connection of output end and controller, control terminal is connect with input control end；Second switch circuit, input terminal are connect with power supply, and output end is connect with the control terminal of first switch circuit, the control terminal connection of control terminal and controller；The connection that controller and power supply are maintained when controller works may be implemented in the control circuit, when needing to power off, the power supply line of controller output control level shutdown power supply, and controller can be maintained not connect with power supply, when needing to power again, input high level is opened the power supply line of power supply by input control end, and power supply can be maintained to power for it, to solve the problems such as controller can not be self-locking and be reopened after closing own power source.

Description

A kind of control circuit

Technical field

The utility model embodiment is related to controller power supply technique field, more particularly to a kind of control circuit.

Background technique

With the fast development of science and technology and national economy, country proposes higher energy conservation to electric equipment products now and wants It asks, in order to reach energy conservation object, it would be desirable to electric equipment products be accomplished to lower power consumption as far as possible in stand-by mode, at this time It just needs that all circuits of off working state are closed power supply in standby mode, including controller.

In the process of implementing the utility model, following ask exists in the prior art in the inventor of the utility model Topic: in the prior art, close controller power source when occur a contradiction because controller be by output low and high level come into The control of row circuit switch, if output low level closes own power source, after closing power supply, controller will persistently export low level Cause power supply that can not start, if output high level closes power supply, just cannot keep output high level after closing own power source, It is continuously off to cannot keep power supply.

Utility model content

The utility model embodiment is mainly solving the technical problems that provide a kind of control circuit, it is intended to solve controller The problem of own power source can be closed.

In order to solve the above technical problems, the technical solution that the utility model embodiment uses is: providing a kind of control Circuit processed, comprising:

Controller；

First switch circuit, input terminal are connect with power supply, the output end of the first switch circuit and the control The feeder ear of device processed connects, and the control terminal of the first switch circuit is connect with input control end；

Second switch circuit, input terminal are connect with the power supply, the output end of the second switch circuit and institute The control terminal connection of first switch circuit is stated, the control terminal of the second switch circuit is connect with the control terminal of the controller；

Wherein, in the case where the controller is in operating mode, the first switch circuit conducting, described second is opened Powered-down road cut-off, the power supply are the controller continued power by the first switch circuit；In the controller In the case where needing to close power supply, output control level is acted on the second switch circuit by the control terminal of the controller The second switch circuit is connected in control terminal, and the second switch circuit acts on the control of the first switch circuit in turn End ends the first switch circuit, with the connection closed between the controller and the power supply；It is needing again In the case where opening the controller, input high level is acted on the control of the first switch circuit by the input control end The first switch circuit is connected in end, so make the power supply by the first switch circuit controller into Row power supply.

Optionally, the first switch circuit includes the first bleeder circuit, the second bleeder circuit, third bleeder circuit, the Four bleeder circuits, the 5th bleeder circuit, first switch tube, second switch and the first charging circuit；

One end of first bleeder circuit connects the power supply, and the other end of first bleeder circuit connects institute State one end of the second bleeder circuit, the other end of second bleeder circuit respectively with one end of first charging circuit, institute State the control terminal connection of second switch, the other end ground connection of first charging circuit, the output end of the second switch Ground connection, the input terminal of the first switch tube is connect with one end of the power supply, the third bleeder circuit respectively, described The input terminal of first switch tube is connect with the feeder ear of the controller, power output end respectively, the first switch tube control End is connect with one end of the other end of the third bleeder circuit, the 4th bleeder circuit respectively, the 4th bleeder circuit The other end connect respectively with the input terminal of one end of the 5th bleeder circuit, the second switch, it is described 5th partial pressure The other end of circuit is connect with the control terminal of the control terminal of the controller, the second switch circuit respectively.

Optionally, the second switch circuit includes the 6th bleeder circuit, the 7th bleeder circuit, third switching tube and second Charging circuit；

The input terminal of the third switching tube respectively with the other end of first bleeder circuit, second bleeder circuit One end connection, the control terminal of the third switching tube respectively with one end of the 6th bleeder circuit, it is described 7th partial pressure electricity The one end on road connects, the other end of the 6th bleeder circuit respectively with one end of second charging circuit, 5th point described The control terminal connection of the other end of volt circuit, the controller, the output end of the third switching tube, the 7th bleeder circuit The other end and the other end of second charging circuit be grounded.

Optionally, first bleeder circuit is first resistor, second bleeder circuit is second resistance, the third Bleeder circuit is 3rd resistor, the 4th bleeder circuit is the 4th resistance, the 5th bleeder circuit is the 5th resistance, described 6th bleeder circuit is the 6th resistance, the 7th bleeder circuit is the 7th resistance.

Optionally, first charging circuit includes first capacitor, one end of the first capacitor respectively with second switch The control terminal of pipe, the other end of second bleeder circuit, input control end connection, another termination of the first capacitor Ground.

Optionally, second charging circuit includes the second capacitor, and one end of second capacitor is respectively with the described 6th The control terminal connection of the other end of bleeder circuit, the other end of the 5th bleeder circuit, the controller, second capacitor The other end ground connection；

Wherein, the capacitance of the first capacitor is less than the capacitance of second capacitor.

Optionally, the control circuit further includes first diode, the input terminal of the first diode and the input Control terminal connection, the output end of the first diode respectively with the other end of second bleeder circuit, the second switch One end connection of the control terminal of pipe, the first capacitor.

Optionally, the control circuit further includes the second diode, the input terminal of second diode and the control The control terminal of device connects, the output end of second diode respectively with the other end of the 5th bleeder circuit, the described 6th One end connection of the other end of bleeder circuit, second capacitor.

Optionally, the first switch tube includes the first triode, and the second switch includes the second triode, described Third switching tube includes third transistor.

Optionally, first triode is PNP type triode, and the input terminal of the first switch tube is the described 1st The emitter of pole pipe, the output end of the first switch tube are the collector of first triode, the first switch tube Control terminal is the base stage of first triode；

Second triode is NPN type triode, and the input terminal of the second switch is second triode Emitter, the output end of the second switch are the collector of second triode, the control terminal of the second switch For the base stage of second triode；

The third transistor is NPN type triode, and the input terminal of the third switching tube is the third transistor Emitter, the output end of the third switching tube are the collector of the third transistor, the control terminal of the third switching tube For the base stage of the third transistor.

The beneficial effect of the utility model embodiment is: being in contrast to the prior art, implements in the utility model In mode, control circuit, comprising: controller；First switch circuit, input terminal are connect with power supply, the first switch The output end of circuit is connect with the feeder ear of the controller, and the control terminal of the first switch circuit and input control end connect It connects；Second switch circuit, input terminal are connect with the power supply, the output end of the second switch circuit and described first The control terminal of switching circuit connects, and the control terminal of the second switch circuit is connect with the control terminal of the controller；Wherein, exist In the case that the controller is in operating mode, the first switch circuit conducting, the second switch circuit ends, described Power supply is the controller continued power by the first switch circuit；Need to close the feelings of power supply in the controller Under condition, the control terminal that output control level acts on second switch circuit is made the second switch by the control terminal of the controller Circuit conducting, the control terminal that the second switch circuit acts on the first switch circuit in turn make the first switch circuit Cut-off, to realize the connection closed between the controller and the power supply；Needing to reopen the controller In the case where, input high level is acted on the control terminal of the first switch circuit and opened to described first by the input control end Powered-down road conducting, and then it is powered the power supply by the first switch circuit controller.It controls as a result, The connection that controller and power supply are maintained when controller works may be implemented in circuit processed, and when needing to power off, controller is defeated The power supply line of control level shutdown power supply out, and can maintain controller connect with power supply, when needs again When power supply, input high level is opened the power supply line of power supply by input control end, and power supply can be maintained to supply for it Electricity, to solve the problems such as controller can not be self-locking and be reopened after closing own power source.

Detailed description of the invention

One or more embodiments are illustrated by the picture in corresponding attached drawing, these are exemplary Illustrate not constitute the restriction to embodiment, the element in attached drawing with same reference numbers label is expressed as similar member Part, unless there are special statement, composition does not limit the figure in attached drawing.

Fig. 1 is a structural block diagram of the utility model embodiment control circuit；

Fig. 2 is a structural schematic diagram of the utility model embodiment control circuit；

Fig. 3 is another structural schematic diagram of the utility model embodiment control circuit.

Specific embodiment

For the ease of understanding the utility model, with reference to the accompanying drawings and detailed description, the utility model is carried out more Detailed description.It should be noted that it can be directly in another element when element is expressed " being fixed on " another element Upper or placed in the middle there may be one or more therebetween elements.When an element is expressed " connection " another element, it can To be directly to another element or elements placed in the middle there may be one or more therebetween.This specification is used Term "vertical", "horizontal", "left" and "right" and similar statement for illustrative purposes only.

Unless otherwise defined, technical and scientific term all used in this specification and the skill for belonging to the utility model The normally understood meaning of the technical staff in art field is identical.Art used in the description of the utility model in this specification Language is only for the purpose of describing specific embodiments, and is not intended to limitation the utility model.Art used in this specification Language "and/or" includes any and all combinations of one or more related listed items.

It please refers to Fig.1 to Fig.3, the control circuit 100 of the utility model embodiment includes: controller 10, first switch Circuit 20 and second switch circuit 30.

Wherein, the input terminal of first switch circuit 20 is connect with power supply VCC_IN, the output of first switch circuit 20 End is connect with the feeder ear of controller 10, power output end VCC_OUT respectively, and the control terminal of first switch circuit 20 and input are controlled WAKE_UP connection in end processed；Second switch circuit 30, input terminal is connect with power supply VCC_IN, second switch circuit 30 Output end is connect with the control terminal of first switch circuit 20, the control terminal of second switch circuit 30 and the control terminal of controller 10 Connection；Optionally, user can be inputted by modes such as key, signal of communication, sensor-triggereds in input control end WAKE_UP High level.

In the utility model embodiment, in the case where controller 10 is in operating mode, first switch circuit 20 Conducting, second switch circuit 30 end, and power supply VCC_IN is 10 continued power of controller by first switch circuit 20；? In the case that controller 10 needs to close power supply, output control level is acted on second switch circuit by the control terminal of controller 10 Second switch circuit 30 is connected in 30 control terminal, and second switch circuit 30 acts on the control terminal of first switch circuit 20 in turn End first switch circuit 20, with the connection closed between controller 10 and power supply VCC_IN, optionally, controls level For high level；In the case where needing to reopen controller 10, input high level is acted on by input control end WAKE_UP First switch circuit 20 is connected in the control terminal of one switching circuit 20, and then power supply VCC_IN is made to pass through first switch electricity Road 20 is that controller 10 is powered.

Specifically, first switch circuit 20 includes the first bleeder circuit 21, the second bleeder circuit 22, third bleeder circuit 23, the 4th bleeder circuit 24, the 5th bleeder circuit 25, first switch tube 26, second switch 27 and the first charging circuit 28；The One end of one bleeder circuit 21 connects power supply VCC_IN, and the other end of the first bleeder circuit 21 connects the second bleeder circuit 22 One end, the other end of the second bleeder circuit 22 control terminal with one end of the first charging circuit 28, second switch 27 respectively Connection, the other end of the first charging circuit 28 are grounded GND, and the output end of second switch 27 is grounded GND, first switch tube 26 Input terminal is connect with one end of power supply VCC_IN, third bleeder circuit 23 respectively, the input terminal difference of first switch tube 26 It is connect with the feeder ear of controller 10, power output end, 26 control terminal of first switch tube is another with third bleeder circuit 23 respectively One end, the 4th bleeder circuit 24 one end connection, the other end of the 4th bleeder circuit 24 respectively with the 5th bleeder circuit 25 one End, second switch 27 input terminal connection, the other end of the 5th bleeder circuit 25 respectively with the control terminal of controller 10, second The control terminal of switching circuit 30 connects.

Second switch circuit 30 is filled including the 6th bleeder circuit 31, the 7th bleeder circuit 32, third switching tube 33 and second Circuit 34；The input terminal of third switching tube 33 respectively with the other end of the first bleeder circuit 21, the second bleeder circuit 22 one End connection, the control terminal of third switching tube 33 connect with one end of one end of the 6th bleeder circuit 31, the 7th bleeder circuit 32 respectively Connect, the other end of the 6th bleeder circuit 31 respectively with one end of the second charging circuit 34, the 5th bleeder circuit 25 the other end, The control terminal of controller 10 connects, the output end of third switching tube 33, the other end of the 7th bleeder circuit 32 and the second charging electricity The other end on road 34 is grounded GND.

In the utility model embodiment, the first bleeder circuit 21 is first resistor R1, the second bleeder circuit 22 is Two resistance R2, third bleeder circuit 23 are 3rd resistor R3, the 4th bleeder circuit 24 is the 4th resistance R4, the 5th bleeder circuit 25 For the 5th resistance R5, the 6th bleeder circuit 31 be the 6th resistance R6, the 7th bleeder circuit 32 is the 7th resistance R7.Optionally, The resistance value of one resistance R1 is 33 kilo-ohms, the resistance value of second resistance R2 is 10 kilo-ohms, the resistance value of 3rd resistor R3 is 0.56 kilo-ohm, The resistance value of 4th resistance R4 is 1.8 kilo-ohms, the resistance value of the 5th resistance R5 is 33 kilo-ohms, the resistance value of the 6th resistance R6 is 10 kilo-ohms Resistance value with the 7th resistance R7 is 4.7 kilo-ohms.

Further, the first charging circuit 28 include first capacitor C1, one end of first capacitor C1 respectively with second switch The control terminal of pipe 27, the other end of the second bleeder circuit 22, the WAKE_UP connection of input control end, the other end of first capacitor C1 It is grounded GND.Second charging circuit 34 includes the second capacitor C2, and one end of the second capacitor C2 is another with the 6th bleeder circuit 31 respectively The control terminal connection of one end, the other end of the 5th bleeder circuit 25, controller 10, the other end of the second capacitor C2 are grounded GND；Its In, capacitance of the capacitance less than the second capacitor C2 of first capacitor C1, optionally, the capacitance of first capacitor C1 is equal to The capacitance of 0.1UF, the second capacitor C2 are equal to 1UF.

In the utility model embodiment, control circuit 100 further includes first diode D1 and the second diode D2, and The input terminal of one diode D1 is connect with input control end WAKE_UP, and the output end of first diode D1 is divided with second respectively One end connection of the other end of circuit 22, the control terminal of second switch 27, first capacitor C1.The input of second diode D2 End is connect with the control terminal of controller 10, the output end of the second diode D2 respectively with the other end of the 5th bleeder circuit 25, the One end connection of the other end of six bleeder circuits 31, the second capacitor C2.

Further, first switch tube 26 includes the first triode Q1, and second switch 27 includes the second triode Q2, the Three switching tubes 33 include third transistor Q3.Wherein, the first triode Q1 is PNP type triode, the input of first switch tube 26 End is the emitter of the first triode Q1, and the output end of first switch tube 26 is the collector of the first triode Q1, first switch The control terminal of pipe 26 is the base stage of the first triode Q1；Second triode Q2 is NPN type triode, the input of second switch 27 End is the emitter of the second triode Q2, and the output end of second switch 27 is the collector of the second triode Q2, second switch The control terminal of pipe 27 is the base stage of the second triode Q2；Third transistor Q3 be NPN type triode, third switching tube 33 it is defeated Enter the emitter that end is third transistor Q3, the output end of third switching tube 33 is the collector of third transistor Q3, and third is opened The control terminal for closing pipe 33 is the base stage of third transistor Q3.Optionally, controller 10 includes microprocessing unit.

In order to better illustrate the working principle of the utility model embodiment, three kinds of situations is divided to do furtherly below It is bright:

The first situation: as power supply VCC_IN on 100 First Contact Connections of control circuit, power supply VCC_IN is logical It crosses first resistor R1 and second resistance R2 charges to first capacitor C1, power supply VCC_IN is simultaneously also by 3rd resistor R3, the 4th resistance R4 and the 5th resistance R5 charge to the second capacitor C2, since the capacitance of first capacitor C1 is less than the second capacitor The capacitance of C2, therefore, two terminal potential of first capacitor C1 rise compared to two terminal potential of the second capacitor C2 faster, so second opens Second switch in powered-down road 30 will quickly be connected compared to the third switching tube in third switching circuit 40, once second Second switch conducting in switching circuit 30, the current potential between the 4th resistance R4 and the 5th resistance R5 will be pulled low, power Power supply VCC_IN no longer passes through 3rd resistor R3, the 4th resistance R4 and the 5th resistance R5 and charges to the second capacitor C2, on the contrary, the Two capacitor C2 will also enter discharge condition by the 6th resistance R6 and the 7th resistance R7, as a result, in third switching circuit 40 The base potential and emitter potential of three switching tubes are low potential, and the shutdown of third switching tube, i.e. third switching circuit 40 are kept Off state, during this, first switch tube and second switch are tended to remain on, and third switching tube is held off, Controller 10 by it is lasting obtain power supply VCC_IN power supply.

Second situation: it when the judgement of controller 10 needs to enter standby close pattern, needs to close first switch at this time Circuit 20, specific as follows to save electricity to turn off the power supply of controller 10: controller 10 is defeated by the control terminal of itself High level out, optionally, the control terminal of controller 10 itself can be the port STANDBY, which passes through first diode D1 It charges afterwards to the second capacitor C2, the current potential of the control terminal of third switching circuit 40 is drawn high after the second capacitor C2 is full of, the Third switching tube in three switching circuits 40 will be connected, and then drag down the current potential between first resistor R1 and second resistance R2, make It obtains first capacitor C1 to start to discharge to drag down the current potential of the control terminal of second switch circuit 30, second in second switch circuit 30 Switching tube will close, and then be also switched off the first switch tube of first switch circuit 20, and then turn off the power supply of controller 10, The control terminal of controller 10 will export low level at this time, power supply VCC_IN by 3rd resistor R3, the 4th resistance R4, 5th resistance R5 and the 6th resistance R6 provides bias potential for the base stage of third switching tube in third switching circuit 40, maintains third Switching tube is in the conductive state, and first switch tube and second switch then maintain off state, and control circuit 100 is whole then to be maintained Stop the state powering for controller 10, controller 10 enters standby close pattern.

The third situation: when needing to want opening controller 10 again, need to open first switch tube again, at this time controller 10 when being in close state, i.e., power supply VCC_IN is not powered to controller 10, and specific as follows: the external world passes through input Control terminal WAKE_UP input high level, the high level is by being that first capacitor C1 charges after first diode D1, when first When capacitor C1 charging complete, which acts on the control terminal of second switch circuit 30, that is, acts on the base of second switch Pole, so that second switch circuit 30 is connected, after being connected due to second switch circuit 30 between the 4th resistance R4 and the 5th resistance R5 Current potential be pulled low, the current potential of the control terminal of first switch circuit 20 and third switching circuit 40 is pulled low, and is opened due to first Powered-down road 20 is PNP type triode, and third switching circuit 40 is NPN type triode, the first switch tube of first switch circuit 20 Base potential be lower than emitter potential so that first switch tube is connected, i.e., first switch circuit 20 is connected, power supply at this time VCC_IN is connected to the feeder ear of controller 10 and powers for controller 10 and enter the first above-mentioned situation, and third switch electricity The base potential and emitter potential of third switching tube in road 40 are low potential, and the shutdown of third switching tube, i.e. third switch Circuit 40 turns off, and controller 10 initially enters normal working condition.Optionally, user can pass through key, signal of communication, biography The modes such as sensor triggering are in input control end WAKE_UP input high level.

It is worth noting that: in the utility model embodiment, control circuit 100 mainly solves above-mentioned three kinds of situations State of a control, specific as follows: the first, after connection power supply VCC_IN, can maintain power supply VCC_IN is controller 10 It is powered.The second, controller 10 can close own power source, and the state remained off.Third, the external world can be in controllers 10 are again turned on controller 10 when closing, and when controller 10 maintain open state, realization is continuously the progress of controller 10 Power supply.In the state of a control for realizing these three situations, the utility model embodiment uses second switch and third is opened Cross lock switch state between pipe is closed, the conducting of any of second switch and third switching tube will all turn off another, Meanwhile any of second switch and third switching tube shutdown another will be all connected, be added in circuit each resistance, Resistance and diode are to cooperate realization the utility model embodiment, wherein each capacitor also has stable state, eliminates interference Effect.

In the utility model embodiment, control circuit 100 includes: controller 10；First switch circuit 20, input End is connect with power supply VCC_IN, and the output end of first switch circuit 20 is connect with the feeder ear of controller 10, first switch The control terminal of circuit 20 is connect with input control end WAKE_UP；Second switch circuit 30, input terminal and power supply VCC_ The output end of IN connection, second switch circuit 30 is connect with the control terminal of first switch circuit 20, the control of second switch circuit 30 End processed is connect with the control terminal of controller 10；Wherein, in the case where controller 10 is in operating mode, first switch circuit 20 Conducting, second switch circuit 30 end, and power supply VCC_IN is 10 continued power of controller by first switch circuit 20；? In the case that controller 10 needs to close power supply, output control level is acted on second switch electricity by the control terminal of controller 10 Second switch circuit 30 is connected in the control terminal on road 30, and second switch circuit 30 acts on the control of first switch circuit 20 in turn End processed ends first switch circuit 20, with the connection closed between controller 10 and power supply VCC_IN；It is needing again In the case where opening controller 10, input high level is acted on the control of first switch circuit 20 by input control end WAKE_UP End processed to first switch circuit 20 is connected, and then carries out power supply VCC_IN by 20 controller 10 of first switch circuit Power supply.Controller 10 can maintain power supply to power for it after connecting power supply VCC_IN as a result, when needing to power off, control Device 10 processed exports the power supply line of high level shutdown power supply VCC_IN, and power supply VCC_IN can be maintained to stop as it Power supply, when needing to power again, input high level is opened the supply lines of power supply VCC_IN by input control end WAKE_UP Road, and power supply VCC_IN can be maintained to power for it, so that solving controller 10 can not be self-locking after closing own power source And the problems such as reopening.

The foregoing is merely the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all It is equivalent structure or equivalent flow shift made based on the specification and figures of the utility model, directly or indirectly uses In other related technical areas, it is also included in the patent protection scope of the utility model.

Claims (10)

1. a kind of control circuit characterized by comprising

Controller；

First switch circuit, input terminal are connect with power supply, the output end and the controller of the first switch circuit Feeder ear connection, the control terminal of the first switch circuit connect with input control end；

Second switch circuit, input terminal are connect with the power supply, the output end of the second switch circuit and described the The control terminal of one switching circuit connects, and the control terminal of the second switch circuit is connect with the control terminal of the controller；

Wherein, in the case where the controller is in operating mode, the first switch circuit conducting, the second switch electricity Road cut-off, the power supply are the controller continued power by the first switch circuit；It is needed in the controller In the case where closing power supply, output control level is acted on the control of the second switch circuit by the control terminal of the controller The second switch circuit is connected in end, and the control terminal that the second switch circuit acts on the first switch circuit in turn makes The first switch circuit cut-off, with the connection closed between the controller and the power supply；It is needing to reopen In the case where the controller, the input control end makes the control terminal that input high level acts on the first switch circuit The first switch circuit conducting, and then supply that the power supply by the first switch circuit controller Electricity.

2. control circuit according to claim 1, which is characterized in that

The first switch circuit include the first bleeder circuit, the second bleeder circuit, third bleeder circuit, the 4th bleeder circuit, 5th bleeder circuit, first switch tube, second switch and the first charging circuit；

One end of first bleeder circuit connects the power supply, the other end connection of first bleeder circuit described the One end of two bleeder circuits, the other end of second bleeder circuit respectively with one end of first charging circuit, described The control terminal of two switching tubes connects, the other end ground connection of first charging circuit, the output end ground connection of the second switch, The input terminal of the first switch tube is connect with one end of the power supply, the third bleeder circuit respectively, and described first The input terminal of switching tube is connect with the feeder ear of the controller, power output end respectively, the first switch tube control terminal point Do not connect with one end of the other end of the third bleeder circuit, the 4th bleeder circuit, the 4th bleeder circuit it is another One end is connect with the input terminal of one end of the 5th bleeder circuit, the second switch respectively, the 5th bleeder circuit The other end connect respectively with the control terminal of the control terminal of the controller, the second switch circuit.

3. control circuit according to claim 2, which is characterized in that

The second switch circuit includes the 6th bleeder circuit, the 7th bleeder circuit, third switching tube and the second charging circuit；

The input terminal of the third switching tube respectively with the other end of first bleeder circuit, second bleeder circuit one End connection, the control terminal of the third switching tube respectively with one end of the 6th bleeder circuit, the 7th bleeder circuit One end connection, the other end of the 6th bleeder circuit are electric with one end of second charging circuit, the 5th partial pressure respectively The other end on road, the controller control terminal connection, the output end of the third switching tube, the 7th bleeder circuit it is another The other end of one end and second charging circuit is grounded.

4. control circuit according to claim 3, which is characterized in that

First bleeder circuit is first resistor, second bleeder circuit is second resistance, the third bleeder circuit is 3rd resistor, the 4th bleeder circuit are the 4th resistance, the 5th bleeder circuit is the 5th resistance, the 6th partial pressure electricity Six resistance of Lu Wei, the 7th bleeder circuit are the 7th resistance.

5. control circuit according to claim 4, which is characterized in that

First charging circuit includes first capacitor, the control with the second switch respectively of one end of the first capacitor End, the other end of second bleeder circuit, input control end connection, the other end ground connection of the first capacitor.

6. control circuit according to claim 5, which is characterized in that

Second charging circuit includes the second capacitor, and one end of second capacitor is another with the 6th bleeder circuit respectively The control terminal connection of one end, the other end of the 5th bleeder circuit, the controller, another termination of second capacitor Ground；

Wherein, the capacitance of the first capacitor is less than the capacitance of second capacitor.

7. control circuit according to claim 6, which is characterized in that

The control circuit further includes first diode, and the input terminal of the first diode is connect with the input control end, The output end of the first diode respectively with the other end of second bleeder circuit, the second switch control terminal, One end of the first capacitor connects.

8. control circuit according to claim 7, which is characterized in that

The control circuit further includes the second diode, and the input terminal of second diode and the control terminal of the controller connect Connect, the output end of second diode respectively with the other end of the 5th bleeder circuit, the 6th bleeder circuit it is another One end connection of one end, second capacitor.

9. according to the described in any item control circuits of claim 3 to 8, which is characterized in that

The first switch tube includes the first triode, and the second switch includes the second triode, the third switching tube Including third transistor.

10. control circuit according to claim 9, which is characterized in that

First triode is PNP type triode, and the input terminal of the first switch tube is the transmitting of first triode Pole, the output end of the first switch tube are the collector of first triode, and the control terminal of the first switch tube is institute State the base stage of the first triode；

Second triode is NPN type triode, and the input terminal of the second switch is the transmitting of second triode Pole, the output end of the second switch are the collector of second triode, and the control terminal of the second switch is institute State the base stage of the second triode；

The third transistor is NPN type triode, and the input terminal of the third switching tube is the transmitting of the third transistor Pole, the output end of the third switching tube are the collector of the third transistor, and the control terminal of the third switching tube is institute State the base stage of third transistor.