CN108494239A - A kind of highly sensitive quick discharging circuit - Google Patents

Abstract

The invention discloses a kind of highly sensitive quick discharging circuits, including sampling hold circuit module, trigger circuit module, feedback circuit module and discharge circuit module, the holding sample circuit module is connected with the trigger circuit module, the feedback circuit module and the discharge circuit module respectively, the acquisition and deposit that sample circuit module is kept for realizing energy, when the trigger circuit module generates effective trigger signal, certain energy is provided and drives the feedback circuit module and discharge circuit module work；The trigger circuit module is for generating trigger signal and being sent to the feedback circuit module and the discharge circuit module；The feedback circuit module is used to after the completion of discharge circuit module electric discharge generate effective booting enable signal；The discharge circuit module is used for repid discharge.

Description

A kind of highly sensitive quick discharging circuit

Technical field

The present invention relates to Smart Home technical fields, and in particular to a kind of highly sensitive quick discharging circuit.

Background technology

With the development of technology, people’s lives become more and more intelligent, in addition to common smart mobile phone, tablet computer Etc. outside handheld devices, the smart homes product such as intelligent air condition, intelligent sound box, intelligent washing machine steps into people’s lives In.Existing major part "smart" products are all integrated with the embedded system of high disposal performance, which has high collect The functional module groups such as CPU, GPU, memory, PMU of Cheng Du, while also running Linux Android intellectualized operations system System.With the promotion of present electronic technology, integrated circuit technique, manufacturing process, the integrated level of IC is higher and higher, intelligent electronic The operating voltage and power consumption of system are also lower and lower.However, in these powerful intelligent residence products, often in addition to weak Other than the intelligent electric subsystem of electricity, generally all it is operated under the high-power dynamical system under forceful electric power, therefore, such product is general All it is directly to use Alternating Current Power Supply.When immediately sending a telegram here when encountering alternating current power-off suddenly then, strong power system is because larger is negative Load can be completed in a short time electric discharge and restart, and weak electricity system, in a short time can not be quickly complete because load is smaller At electric discharge, internal logic circuit may be caused not reset when re-powering, thus the phenomenon that system can not start occur.More than Although problem is a kind of small probability event, but if really occurred, user can take for damage of product, even if again can be extensive It is multiple normal, it inevitably also influences whether satisfaction of the client to product, to damage the brand image of product, while being also possible to increase Add unnecessary troublesome after sale, problems should be corrected as design deficiency of product.

As depicted in figs. 1 and 2, existing common discharge circuit is designed with two schemes：

The first scheme be by simple resistance directly pull down to (hereinafter referred option A).

Second scheme is discharged (hereinafter referred option b) by triode+current-limiting resistance.

Existing discharge circuit has the disadvantage that：

1) response sensitivity is low

Although option A can be described as 0 delay quick response, but because it, when system works, always exists loss work( Consumption, it is not energy-efficient therefore undesirable；The response speed of option b depends on the power down speed of the connect power supply VCC of triode Q4 base stages, And the base control signal of triode Q5 derives from the collector of triode Q4, the condition of triode Q5 conducting be emitter just Partially, thus VCC must power down amplitude at least more than 1V when can set out triode Q4 conducting, and then trigger triode Q5 conductings (take Veb=0.7V, Vd>=0.3V), power supply VCC1 just starts power down.So the responsiveness of this discharge circuit is fallen depending on VCC The time of electric 1V, power down amplitude requirement is too big, and sensitivity need to be improved.

2) safety coefficient is not achieved 100%, when power-up speeds are sufficiently fast after a power failure, and still presence cannot normally start Risk

Existing two schemes, the time only re-powered after power down have to be larger than needed for the discharge circuit is discharged Time when, discharge circuit could be completed to discharge, can 100% guarantee electric discharge completely can normally restart, but after power down When the time re-powered is less than the time needed for the discharge circuit, equipment there is the risk that can not start, therefore, existing side The safety coefficient of case be not achieved 100% it is reliable.

Although existing technical solution similarly has the effect of shutdown electric discharge, in sensitivity and safety, It is to be improved.

Invention content

The technical problem to be solved in the present invention is, in view of the deficiencies of the prior art, provides a kind of highly sensitive repid discharge Circuit overcomes the shutdown defect that discharge circuit sensitivity is low, safety is not high of the prior art.

Used technical solution is the present invention to solve above-mentioned technical problem：

A kind of highly sensitive quick discharging circuit, including sampling hold circuit module, trigger circuit module, feedback circuit module And discharge circuit module, the holding sample circuit module respectively with the trigger circuit module, the feedback circuit module and The discharge circuit module is connected, the acquisition and deposit for keeping sample circuit module for realizing energy, in the triggering When circuit module generates effective trigger signal, certain energy is provided and drives the feedback circuit module and the discharge circuit Module works；The trigger circuit module is for generating trigger signal and being sent to the feedback circuit module and electric discharge electricity Road module；The feedback circuit module is used to after the completion of discharge circuit module electric discharge generate the enabled letter of effective booting Number；The discharge circuit module is used for repid discharge.

According to an embodiment of the invention, the sampling hold circuit module includes resistance R1, resistance R3, capacitance C1, two poles The one end pipe D1, resistance R1 is connected to power supply VCC1, and one end is connected to the anode of resistance R3 and diode D1, the other end of resistance R3 Ground connection, the cathode of diode D1 connect the trigger circuit module, the other end ground connection of capacitance C1 with one end copolar of capacitance C1.

According to an embodiment of the invention, the trigger circuit module includes resistance R2, capacitance C2, triode Q1, resistance R2 One end connects power supply VCC2, and the resistance R2 other ends connect the base stage of one end and triode Q1 of capacitance C2, the other end of capacitance C2 The emitter of ground connection, triode Q1 connects the sampling hold circuit module, and the collector of triode Q1 connects the feedback electricity Road module and the discharge circuit module.

According to an embodiment of the invention, the feedback circuit module includes resistance R4 and triode Q3, and the one end resistance R4 connects The trigger circuit module is connect, the resistance R4 other ends are connected with the base stage of triode Q3, the emitter ground connection of triode Q3, three poles The collector output booting enable signal of pipe Q3.

According to an embodiment of the invention, the discharge circuit module includes resistance R5 and field-effect tube Q2, and the one of resistance R5 End connects the trigger circuit module, the grid of the other end connection field-effect tube Q2 of resistance R5, and the drain electrode of field-effect tube Q2 connects Connect power supply VCC2, the source electrode ground connection of field-effect tube Q2.

According to an embodiment of the invention, the transmitting of the cathode of diode D1 and one end copolar connecting triode Q1 of capacitance C1 Pole.

According to an embodiment of the invention, the copolar end of the collector connection resistance R4 and resistance R5 of triode Q1.

Implement technical scheme of the present invention, has the advantages that：Discharge circuit of the present invention has better safety And sensitivity, it discharges with 100% safety coefficient, while using metal-oxide-semiconductor, the velocity of discharge is fast, can substantially reduce energy storage electricity The capacitance of appearance, thus it is more efficient and cheap.

Description of the drawings

It is specifically described the present invention below with reference to attached drawing and in conjunction with example, advantages of the present invention and realization method will More obvious, wherein content shown in attached drawing is only used for explanation of the present invention, without constituting to the present invention in all senses On limitation, in the accompanying drawings：

Fig. 1 is one of prior art discharge circuit；

Fig. 2 is the two of prior art discharge circuit；

Fig. 3 is the highly sensitive quick discharging circuit module map of the present invention；

Fig. 4 is the highly sensitive quick discharging circuit embodiment of the present invention.

Specific implementation mode

As shown in Figure 3 and Figure 4, the highly sensitive quick discharging circuit of the present invention includes sampling hold circuit module, trigger circuit Module, feedback circuit module and discharge circuit module, the holding sample circuit module respectively with the trigger circuit module, institute Feedback circuit module is stated with the discharge circuit module to be connected, it is described keep sample circuit module for realizing energy acquisition and Deposit provides certain energy and drives the feedback circuit mould when the trigger circuit module generates effective trigger signal Block and discharge circuit module work；The trigger circuit module is for generating trigger signal and being sent to the feedback circuit Module and the discharge circuit module；The feedback circuit module is used to after the completion of discharge circuit module electric discharge have The booting enable signal of effect；The discharge circuit module is used for repid discharge.According to an embodiment of the invention, the sampling is kept Circuit module includes resistance R1, resistance R3, capacitance C1, diode D1, and the one end resistance R1 is connected to power supply VCC1, and one end is connected to The anode of resistance R3 and diode D1, the other end ground connection of resistance R3, the cathode of diode D1 connect with one end copolar of capacitance C1 Connect the trigger circuit module, the other end ground connection of capacitance C1.The trigger circuit module includes resistance R2, capacitance C2, three poles The one end pipe Q1, resistance R2 connects power supply VCC2, and the resistance R2 other ends connect the base stage of one end and triode Q1 of capacitance C2, capacitance The other end of C2 is grounded, and the emitter of triode Q1 connects the sampling hold circuit module, the collector connection of triode Q1 The feedback circuit module and the discharge circuit module.The feedback circuit module includes resistance R4 and triode Q3, resistance The one end R4 connects the trigger circuit module, and the resistance R4 other ends are connected with the base stage of triode Q3, the emitter of triode Q3 Ground connection, the collector output booting enable signal of triode Q3.The discharge circuit module includes resistance R5 and field-effect tube Q2, One end of resistance R5 connects the trigger circuit module, the grid of the other end connection field-effect tube Q2 of resistance R5, field-effect tube The drain electrode of Q2 connects power supply VCC2, the source electrode ground connection of field-effect tube Q2.The cathode of diode D1 and one end copolar of capacitance C1 connect Connect the emitter of triode Q1.The copolar end of the collector connection resistance R4 and resistance R5 of triode Q1.

Circuit forms：

Power supply：Power supply VCC2 is to be discharged power supply, is converted by VCC1 power supplys.

Sampling hold circuit：By resistance R1, R3, capacitance C1, diode D1 compositions, the one end resistance R1 is connected to power supply VCC1, one end are connected to the anode of R3 and D1, and the other end ground connection of R3, cathode and the capacitance C1 of D1 are connected to trigger circuit.Electricity The effect for holding C1 is energy storage, and energy is provided for the work of late-class circuit；The effect of resistance R1, resistance R3 are bleeder circuits, are adjusted The holding voltage of capacitance C1, to realize the activation threshold value voltage for adjusting sampling hold circuit.

Trigger circuit：By resistance R2, capacitance C2, triode Q1 compositions, mono- ends resistance R2 are connected to power supply VCC2, another termination The other end of the base stage of capacitance C2 and triode Q1, capacitance C2 is directly grounded, and the transmitter of triode Q1 is connected to sampling and keeps electricity Road, collector are connected to the feedback circuit and discharge circuit of rear class.The effect of resistance R2 is current limliting, and the effect of capacitance C2 is filtering, The false triggering of interference signal, triode Q1 is avoided to realize the generation of trigger signal.

Feedback circuit：Be made of resistance R4 and triode Q3, the one end R4 is connected with the collector of triode Q1, the other end with The base stage of triode Q3 is connected, and the collector of the emitter grounding of triode Q3, triode Q3 is exported by open-collector structure Be switched on enable signal.

Discharge circuit：It being made of resistance R5 and MOSFET Q2, one end of resistance R5 is connected to the collector of triode Q1, The other end is connected to the grid of metal-oxide-semiconductor Q2, and the drain electrode of metal-oxide-semiconductor Q2 is connected to VCC2, the source electrode ground connection of metal-oxide-semiconductor Q2.

Circuit operation principle：

When system electrification, power supply VCC1 charges to capacitance C1, triode Q1 because | Vbe | less than 0.7V by cannot Trigger signal is generated, to make triode Q3, metal-oxide-semiconductor Q2 close.When system power failure, because power supply VCC2 power down, leads to three poles Pipe Q1 | Vbe | it is connected more than 0.7V, to generate high trigger signal, promotes metal-oxide-semiconductor Q2 to be connected, be rapidly completed to power supply The electric discharge of VCC2, while be also connected triode Q3, triode Q3 collector potentials are pulled down to close to 0V, to make front end Power supply chip cannot normally start, only to be discharged normally to start after the completion even if powering on can not normally start soon again, Realize the effect of negative-feedback.

The realization of highly sensitive characteristic：

This circuit constitutes bleeder circuit by resistance R1 and R3, and gives capacitance C1 energy storage by diode D1, C1 energy storage Voltage value can be adjusted by divider resistance, and the purpose for designing this bleeder circuit is to improve triode Q1 emitters Bias voltage, makes it higher than the voltage of triode Q1 base stages, and difference is that (△ 1 could be provided as 0-0.7V to △ 1, according to VCC2 The wave characteristic of power supply is set), transistor base voltage fall is △ 2 when power-off, as long as △ 1+ △ 2=0.7V, three poles Pipe Q1 is immediately connected, and generates effective trigger signal, triggering late-class circuit work.△ 2=0.7- △ 1, the value of △ 2 is just lowered 0.7V is arrived hereinafter, the value of △ 2 is exactly to be discharged the drop-out voltage value of power supply VCC2, drop-out voltage value is far smaller than the prior art The 1V power down amplitudes of scheme, to improve the response sensitivity of circuit, and sensitivity can be matched according to circuit characteristic and be adjusted Section, △ 1 is bigger, and sensitivity is higher.

The realization of 100% safety coefficient：

Because power supply VCC2 is the rear level power supply of power supply VCC1, therefore VCC2 is inevitable prior to VCC1 power down, along with electric discharge The power down speed of the repid discharge of circuit, power supply VCC2 is necessarily far longer than the power down speed of capacitance C1, to ensure that in electricity Hold before C1 power down completes, VCC2 is centainly completely discharged that (capacitance of capacitance C1 need to be special according to the power down of power supply VCC1, power supply VCC2 Property carrys out Rational choice).Stable high trigger signal can be generated always during capacitance C1 electric discharges, produced by negative-feedback circuit Raw booting enable signal, effectively controls the delayed startup of front end power supply chip, only need capacitance C1 electricity discharge after, power supply core Piece could work normally, to normal activation system.Even if the speed therefore re-powered after power down again the block circuit if can The thorough electric discharge for realizing power supply VCC2, ensures that back-end circuit is pulled low reset, the normal startup of safeguards system, to realize 100% safety coefficient.

Those skilled in the art do not depart from the present invention essence and spirit, can there are many deformation scheme realize the present invention, The foregoing is merely preferably feasible embodiments of the invention, not thereby limit to the interest field of the present invention, all with this Equivalent structure made by description of the invention and accompanying drawing content changes, and is both contained within the interest field of the present invention.

Claims (7)

1. a kind of highly sensitive quick discharging circuit, it is characterised in that：Including sampling hold circuit module, trigger circuit module, anti- Current feed circuit module and discharge circuit module, the holding sample circuit module respectively with the trigger circuit module, the feedback Circuit module is connected with the discharge circuit module, the acquisition and deposit for keeping sample circuit module for realizing energy, When the trigger circuit module generates effective trigger signal, certain energy is provided and drives the feedback circuit module and institute State discharge circuit module work；The trigger circuit module for generate trigger signal and be sent to the feedback circuit module and The discharge circuit module；The feedback circuit module is used to after the completion of discharge circuit module electric discharge generate effectively to open Machine enable signal；The discharge circuit module is used for repid discharge.

2. highly sensitive quick discharging circuit according to claim 1, it is characterised in that：The sampling hold circuit module packet Resistance R1, resistance R3, capacitance C1, diode D1 are included, the one end resistance R1 is connected to power supply VCC1, and one end is connected to resistance R3 and two The anode of pole pipe D1, the other end ground connection of resistance R3, the cathode of diode D1 connect the triggering with one end copolar of capacitance C1 Circuit module, the other end ground connection of capacitance C1.

3. highly sensitive quick discharging circuit according to claim 2, it is characterised in that：The trigger circuit module includes electricity R2, capacitance C2, triode Q1 are hindered, the one end resistance R2 connects power supply VCC2, and the resistance R2 other ends connect one end and three of capacitance C2 The base stage of pole pipe Q1, the other end ground connection of capacitance C2, the emitter of triode Q1 connect the sampling hold circuit module, three poles The collector of pipe Q1 connects the feedback circuit module and the discharge circuit module.

4. highly sensitive quick discharging circuit according to claim 3, it is characterised in that：The feedback circuit module includes electricity R4 and triode Q3 is hindered, the one end resistance R4 connects the trigger circuit module, the base stage phase of the resistance R4 other ends and triode Q3 Even, the emitter ground connection of triode Q3, the collector output booting enable signal of triode Q3.

5. highly sensitive quick discharging circuit according to claim 4, it is characterised in that：The discharge circuit module includes electricity R5 and field-effect tube Q2 is hindered, one end of resistance R5 connects the trigger circuit module, and the other end of resistance R5 connects field-effect tube The drain electrode of the grid of Q2, field-effect tube Q2 connects power supply VCC2, the source electrode ground connection of field-effect tube Q2.

6. highly sensitive quick discharging circuit according to claim 5, it is characterised in that：The cathode of diode D1 and capacitance C1 One end copolar connecting triode Q1 emitter.

7. highly sensitive quick discharging circuit according to claim 6, it is characterised in that：The collector connection electricity of triode Q1 Hinder the copolar end of R4 and resistance R5.