CN207781491U - A kind of high security switch control relay drive circuit - Google Patents

Abstract

The utility model provides a kind of high security switch control relay drive circuit, including microcontroller, positive pole switch module and earthing switch module；Relay one end is connect by positive pole switch module with positive pole；The relay other end is connect by earthing switch module with ground terminal；Positive pole switch module and earthing switch module are connect with microcontroller；It is driven by pwm signal between microcontroller and positive pole switch module；Microcontroller is driven with earthing switch module using delivery outlet.High security switch control relay drive circuit provided by the utility model, the positive pole and ground terminal of relay are controlled by setting up two groups of electronic switches i.e. positive pole switch module and earthing switch module respectively；Greatly reduce the probability of relay abnormal caused by fault；Meanwhile by the different control signals of two modules of setting, relay abnormal problem caused by solving single chip microcomputer halt improves the safety of relay drive circuit.

Description

A kind of high security switch control relay drive circuit

Technical field

The utility model is related to control relay circuit field, more particularly to a kind of high security switch control relay drives Dynamic circuit.

Background technology

It is a kind of universal way to be opened or closed by relay control in the several ways of electric heating control.And such as class Electric heating equipment (equipment such as high temperature high current with certain risk) switch, needs tightened up safety precautions to control, no It is then still practical because failure can not disconnect the power supply of heating equipment when being heated to stop heating, it may occur however that due to High temperature then causes the problem of serious fire.The relay drive circuit of electric heating control in the prior art is as shown in Figure 1, packet Triode Q4, diode D2, resistance R8 and R9 are included, existing risk is as follows:

On the one hand, after short circuit between triode Q4 damage collector and emitters, relay REL2 will be at long-time In suction and state, i.e. long-time is also in the state connected, electric heating equipment is made to continue do not needing by the contacts relay REL2 Continuous heating when heating, and lasting high temperature easily leads to burning out for heating equipment, causes the generation of fire incident；

On the other hand, the drive signal of triode Q4 comes from MCU, in use, MCU often occurs because of programming The problem of reasons such as flaw, external high frequency spike, electrostatic, strong electromagnetic cause MCU to crash, and MCU is former after crashing Drive signal is that high level either low level signal is uncertain, i.e. the drive signal Heat-Driver2 of triode Q4 exists MCU is likely to be effective drive signal of high level after crashing, then the problem of bringing is exactly the lasting suctions of relay REL2 With the lasting connection in the contacts conductance relay REL2 makes electric heating equipment continue the continuous heating when that need not heat, causes to heat Equipment is burnt.

For the safety defect of the relay drive circuit of solution electric heating control in the prior art, there is an urgent need to work out A kind of safer, more reliable electrical heating switch control relay drive circuit that can solve the above safety defect.

Utility model content

To solve the problems, such as to mention in above-mentioned background technology, the utility model provides a kind of high security switch control relay Device driving circuit, including microcontroller, positive pole switch module and earthing switch module；Wherein：

Relay one end is connect by positive pole switch module with positive pole；The relay other end passes through ground connection Switch module is connect with ground terminal；The positive pole switch module and earthing switch module are connect with microcontroller；

It is driven by pwm signal between the microcontroller and positive pole switch module；

The microcontroller is driven with earthing switch module using delivery outlet.

Further, the positive pole switch module includes triode Q1, triode Q2 and polar capacitor C2；Described three Pole pipe Q2 and triode Q1 are sequentially connected between the microcontroller and relay；Lead between the triode Q2 and triode Q1 Polar capacitor C2 is crossed to connect with positive pole；The positive pole is also connect by triode Q1 with relay.

Further, the triode Q2 is connect with polar capacitor C2 by resistance R4；The triode Q2 and triode Q1 is connected by resistance R6.

Further, the triode Q1 is also connect with positive pole by resistance R5.

Further, the microcontroller passes sequentially through capacitance C1 and resistance R2 and is connect with the triode Q2.

Further, it is equipped between the capacitance C1 and microcontroller and between the resistance R2 and the triode Q2 Pull down resistor.

Further, the triode Q1 is positive-negative-positive；The triode Q2 is NPN type.

High security switch control relay drive circuit provided by the utility model, by setting up two groups of electronic switches i.e. Positive pole switch module and earthing switch module control the positive pole and ground terminal of relay respectively；Greatly reduce circuit The probability of relay abnormal caused by failure；Meanwhile by the different control signals of two modules of setting, solving list Relay abnormal problem caused by piece machine crashes, improves the safety of circuit.High security switch provided by the utility model Control relay drive circuit, safety that is simple in structure, improving relay drive circuit, in relay electrothermal driving control Circuit field processed is with a wide range of applications.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is Some embodiments of the utility model, for those of ordinary skill in the art, in the premise of not making the creative labor property Under, other drawings may also be obtained based on these drawings.

Fig. 1 is the circuit diagram of electrical heating relay drive circuit in the prior art；

Fig. 2 is the schematic diagram of high security provided by the utility model switch control relay drive circuit；

Fig. 3 is the physical circuit figure of high security switch control relay drive circuit.

Reference numeral：

10 microcontroller, 20 positive pole switch module, 30 relay

40 earthing switch modules 50 load

Specific implementation mode

It is new below in conjunction with this practicality to keep the purpose, technical scheme and advantage of the utility model embodiment clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Based on the implementation in the utility model Example, every other embodiment obtained by those of ordinary skill in the art without making creative efforts belong to The range of the utility model protection.

In the description of the present invention, it should be noted that the similar word such as term " connection " or " connected " is not The connection with physics or machinery is limited, but may include electrical connection, light connects etc., either directly or indirectly 's.

A kind of high security switch control relay drive circuit of the utility model embodiment offer, including microcontroller 10, Positive pole switch module 20 and earthing switch module 40；Wherein：

30 one end of relay is connect by positive pole switch module 20 with positive pole；30 other end of the relay is logical Earthing switch module 40 is crossed to connect with ground terminal；The positive pole switch module 20 and earthing switch module 40 with microcontroller 10 Connection；

It is driven by pwm signal between the microcontroller 10 and positive pole switch module 20；

The microcontroller 10 is driven with earthing switch module 40 using delivery outlet.

When it is implemented, as shown in Figure 2 and Figure 3,30 coil one end of relay passes through positive pole switch module 20 and power supply Anode connection；The 30 coil other end of relay is connect by earthing switch module 40 with ground terminal；30 contact both ends of relay connect Load 50；Positive pole switch module 20 and earthing switch module 40 are connect with microcontroller 10；Microcontroller 10 and positive pole It is driven by pwm signal between switch module 20；Microcontroller 10 is driven with earthing switch module 40 using delivery outlet.

Relay is controlled respectively by setting up two groups of electronic switches i.e. positive pole switch module 20 and earthing switch module 40 The positive pole and ground terminal of device 30, any one group of electronic switch, which short trouble occurs all, will not make relay 30 inhale extremely Close conducting.

Pwm signal is driven to pulse width modulation in the present utility model application, i.e. PWM exports the low electricity of 10ms high level 10ms It is flat, it continuously repeats down, the pulse signal of formation；Just by the pulse signal of continuous low level and high level regular fluctuation It can circuit of the useful effect in the present utility model application；Meanwhile it being also enhanced by pwm signal type of drive and driving end reliable Property.

The delivery outlet used in the present utility model application is driven to output high level or low level driving.

Due to occurring that lasting high level or low level when microcontroller 10 crashes, then the pwm signal of output originally Port output is lasting high level or low level, this is different from pwm signal, can not make the general of positive pole switch module 20+ 24V voltage turn-ons must be positive pole switch module 20 and earthing switch module 40 in circuit while lead to relay 30 Generalist can make relay 30 work.Therefore in the case where microcontroller 10 crashes, relay 30 will disconnect, and be disconnected to play protection Effect；Also, when short circuit occurs between the collector and emitter of triode Q3, then microcontroller 10 passes through to controlling power supply just Pole switch module 20 inputs non-pwm signal, and positive pole switch module 20 is disconnected, you can realizes the protection to relay 30.

High security switch control relay drive circuit provided by the utility model, by setting up two groups of electronic switches i.e. Positive pole switch module and earthing switch module control the positive pole and ground terminal of relay respectively；Greatly reduce circuit The probability of relay abnormal caused by failure；Meanwhile the different conductivity control signals of two modules by setting, it solves Relay abnormal problem caused by single chip microcomputer halt, improves the safety of circuit.High security provided by the utility model Switch control relay drive circuit, safety that is simple for structure, improving relay drive circuit, before having a wide range of applications Scape.

Preferably, the positive pole switch module 20 includes triode Q1, triode Q2 and polar capacitor C2；Described three Pole pipe Q2 and triode Q1 are sequentially connected between the microcontroller 10 and relay 30；The triode Q2 and triode Q1 it Between connect with positive pole by polar capacitor C2；The positive pole is also connect by triode Q1 with relay 30.

When it is implemented, positive pole switch module 20 includes triode Q1, triode Q2 and polar capacitor C2；Microcontroller 10 connect with triode Q2 base stages；Triode Q2 emitters are grounded；Triode Q2 collectors, triode Q1 base stages are electric with polarity Hold the connection of C2 cathode；Triode Q1 emitters and polar capacitor C2 anodes are connect with+24V power supplys；Triode Q1 collectors with 30 coil one end of relay connects；Triode Q1 is A733 type PNP triodes in the above circuit；Triode Q2 is C945 types NPN Triode；The parameter of polar capacitor C2 is 10 μ F/35V；

In addition, the earthing switch module in the utility model includes triode Q3, resistance R10, resistance R7；Triode Q3 collection Electrode is connect with relay coil and diode D1 anodes；Diode D1 cathodes and relay coil also with triode Q1 collectors Connection；Triode Q3 base stages are connect with the one end resistance R10 and the one end resistance R7；The resistance R10 other ends are connect with microcontroller 10；Electricity Hinder the R7 other ends and the equal grounding connection of triode Q3 emitters；Triode Q3 is C945 type NPN triodes in the above circuit；Resistance The resistance value of R10 is 4K Ω -5K Ω；Preferably, the resistance value 4.7K Ω of resistance R10；The resistance value of resistance R7 is 8K Ω -11K Ω；Preferably Ground, the resistance value 10K Ω of resistance R7；The signal of diode D1 is IN4004.

When it is high level that microcontroller 10, which exports PWM-Driver signals (pwm pulse drive signal), triode Q2 saturations Conducting；With the saturation conduction of triode Q2 ,+the 24V being connect with triode Q1 emitters passes through base stage, using what is be connected Triode Q2 collector and emitters constitute effective driving circuit to GND so that triode Q1 also saturation conductions, relay Positive terminal voltage+the 24V of 30 (REL1) is effectively output to one end of 30 coil of relay；

Meanwhile polar capacitor C2 electrolytic capacitors also pass through the Q2 transistor collectors be connected and emitter and connect to GND It connects, constitutes effective charge circuit, the voltage at the both ends C2 will be gradually increased to 23.7V (C2 voltages=24V-Vce=24V-0.3V =23.7V), Vce is collector-emitter conduction voltage drop of triode Q2, and the cathode of polar capacitor C2 is then close to GND voltage =Vce=0.3V or so.

When it is high level that microcontroller 10, which exports PWM-Driver signals, and it is high electricity that microcontroller 10, which exports Drive signals, Usually, triode Q3 saturation conductions.The other end of 30 coil of relay is effectively conducting to GND this moment, and relay is effectively driven Action, the contact A CL of relay are conducting to ACL-Out and effectively export, and controlled load 50 could work normally.

When microcontroller 10 export Driver signals be low level when, triode Q2 because lose effective bias voltage and Driving current and end.But because polar capacitor C2 has already been through PWM-Driver pulse signals before at the moment be high electricity Effective charging usually, thus polar capacitor C2 anodes also by the emitter of triode Q1 to base stage, by resistance R6 and electricity R4 current limlitings are hindered, polar capacitor C2 cathode (0.3V or so can treat as GND) is returned to and so constitutes another and effectively drive back Road keeps the saturation conduction of triode Q1, the cathode voltage+24V of relay 30 effectively to keep being output to 30 coil of relay One end；The low electricity of PWM-Driver pulse signals is implemented in a manner of converting the charging and discharging function of polar capacitor C2 It usually carves and keeps effective driving function；

When PWM-Driver pulse signals are low level, and polar capacitor C2 is discharged into and is unable to maintain that triode Q1's is normal When driving current, when not occurring the high level of PWM-Driver pulse signals also, then triode Q1 will end disconnection+24V, after Therefore electric appliance 30 also disconnects；It can be seen that only lasting PWM-Driver pulse low and high level variable signals could maintain triode Q1 Conducting, if the MCU for generating PWM-Driver pulse signals crashes, either lasting high level or lasting low electricity It is flat, can all make triode Q1 end so that relay 30 is disconnected by protection, shown when microcontroller surprisingly occurs can By protecting break function, the generation of uncontrollable danger is avoided, to greatly improve the height reliability of driving；

If short circuit occurs between the collector and emitter of triode Q3, microcontroller 10 is by opening control positive pole It closes module 20 and inputs non-pwm signal, positive pole switch module 20 is disconnected, you can realize the protection to relay 30；This reality With in the positive pole switch module 20 of novel offer, triode Q2 and the probability that triode Q3 is damaged simultaneously are very low, ensure that The disconnection of relay 30 is protected in 40 short circuit of earthing module in positive pole switch module 20.

In addition, 10 powered on moment of microcontroller can export of short duration high level pulse signal, the actuation for keeping relay 30 of short duration It once decontrols again, 30 contact of same relay the has been also of short duration connection power supply of heating equipment once, heating equipment starts The high current of moment carrys out abnormal influence to the contact web of relay 30, and the contact endurance of relay 30 is caused to shorten.Except list External disturbance pulse signal except piece machine 10 also be easy to cause the of short duration of triode Q3 by triode Q3 to signal amplification to be had Effect conducting causes the heated equipment in 30 contact of relay to start the high current Ground shock waves of moment, similarly results in relay 30 Contact endurance shorten；The utility model is by the structure design of triode Q1, triode Q2 and polar capacitor C2, then passes through Pwm signal drives the mode combined with delivery outlet drive signal, and in 10 powered on moment of microcontroller or there are external disturbance pulse letters In the case of number, relay 30 can be protected.

Preferably, the triode Q2 is connect with polar capacitor C2 by resistance R4；The triode Q2 and triode Q1 It is connected by resistance R6.

When it is implemented, triode Q2 collectors are connect with polar capacitor C2 cathode by resistance R4；Triode Q2 current collections Pole is connect with triode Q1 base stages by resistance R6；The charging and discharging that triode Q1 passes through current-limiting resistance R4 and polar capacitor C2 Function coordinates the pwm signal mode of polar capacitor C2 to drive, it is ensured that during PWM effectively the drives base stage of triode Q1 It can continue to keep low level effective drive signal, so that it is guaranteed that relay 30 can obtain+24V the voltages of continuous and effective, realize PWM drive signal is converted to effective low level drive signal.

Preferably, the triode Q1 is also connect with positive pole by resistance R5.

When it is implemented, triode Q1 base stages are also connect with positive pole by resistance R5, resistance R5 is pull-up resistor, is used In preventing the triode Q1 before triode Q2 is connected not yet to be interfered signal and malfunction, enhance jamproof ability.

Preferably, the microcontroller 10 passes sequentially through capacitance C1 and resistance R2 and is connect with the triode Q2.

When it is implemented, microcontroller 10 passes sequentially through capacitance C1 and resistance R2 is connect with triode Q2；By capacitance C1's Coupling, the current limliting of resistance R2 provide effective bias voltage and driving current to triode Q2 base stages, and triode Q2 saturations is made to lead It is logical.

Preferably, it is equipped between the capacitance C1 and microcontroller 10 and between the resistance R2 and the triode Q2 Pull down resistor.

When it is implemented, capacitance C1 is connect with the connecting node of microcontroller 10 with the one end resistance R1；Resistance R2 and triode The connecting node of Q2 base stages is connect with the one end resistance R3；The resistance R1 other ends, the resistance R3 other ends and the equal grounding connection of emitter； Resistance R1 and resistance R3 is pull down resistor, and resistance R1 and resistance R3 can prevent triode Q2 to be interfered signal and malfunction, Enhance jamproof ability.

Preferably, the triode Q1 is positive-negative-positive；The triode Q2 is NPN type.

In the above circuit, the resistance value of resistance R1 and resistance R1 are 8K Ω -11K Ω；Preferable ground resistance R1's and resistance R1 Resistance value is 10K Ω；The resistance value of resistance R2 is 4K Ω -5K Ω；The resistance value of preferable ground resistance R2 is 4.7K Ω；The resistance value of resistance R4 For 0.5K Ω -2K Ω；The resistance value of preferable ground resistance R4 is 1K Ω；The resistance value of resistance R5 is 45K Ω -50K Ω；Preferable ground resistance R5 Resistance value be 47K Ω；The resistance value of resistance R6 is 8K Ω -12K Ω；The resistance value of preferable ground resistance R6 is 10K Ω；The capacitance of capacitance C1 For 0.05 μ F-0.2 μ F；Preferably the capacitance of capacitance C1 is 0.1 μ F.

Although more herein used such as microcontroller, diode, triode, resistance, capacitance, relay, power supply The terms such as positive switch module, earthing switch module, load, but it does not preclude the possibility of using other terms.Use these Term is used for the purpose of more easily describing and explaining the essence of the utility model；It is construed as the additional limit of any type System is all contrary to the spirit of the present invention.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (7)

1. a kind of high security switch control relay drive circuit, it is characterised in that：It is opened including microcontroller (10), positive pole Close module (20) and earthing switch module (40)；Wherein：

Relay (30) one end is connect by positive pole switch module (20) with positive pole；Relay (30) other end It is connect with ground terminal by earthing switch module (40)；The positive pole switch module (20) and earthing switch module (40) with Microcontroller (10) connects；

It is driven by pwm signal between the microcontroller (10) and positive pole switch module (20)；

The microcontroller (10) is driven with earthing switch module (40) using delivery outlet.

2. high security switch control relay drive circuit according to claim 1, it is characterised in that：The power supply is just Pole switch module (20) includes triode Q1, triode Q2 and polar capacitor C2；The triode Q2 and triode Q1 connect successively It is connected between the microcontroller (10) and relay (30)；Between the triode Q2 and triode Q1 by polar capacitor C2 with Positive pole connects；The positive pole is also connect by triode Q1 with relay (30).

3. high security switch control relay drive circuit according to claim 2, it is characterised in that：The triode Q2 is connect with polar capacitor C2 by resistance R4；The triode Q2 is connect with triode Q1 by resistance R6.

4. high security switch control relay drive circuit according to claim 3, it is characterised in that：The triode Q1 is also connect with positive pole by resistance R5.

5. high security switch control relay drive circuit according to claim 2, it is characterised in that：The microcontroller (10) capacitance C1 and resistance R2 is passed sequentially through to connect with the triode Q2.

6. high security switch control relay drive circuit according to claim 5, it is characterised in that：The capacitance C1 It is equipped with pull down resistor between microcontroller (10) and between the resistance R2 and the triode Q2.

7. switching control relay drive circuit according to claim 2-6 any one of them high securities, it is characterised in that：Institute It is positive-negative-positive to state triode Q1；The triode Q2 is NPN type.