CN203632574U - Impulsing power supply circuit and storage battery repair pulse signal source - Google Patents

Abstract

The utility model provides an impulsing power supply circuit and a storage battery repair pulse signal source. The impulsing power supply circuit which is suitable to be the storage battery repair pulse signal source and the storage battery repair pulse signal source are disclosed. The impulsing power supply circuit comprises a pulse width modulation signal generation module, a switch tube, and a constant current power supply. The control end of the switch tube is connected with the pulse width modulation signal output end of the pulse width modulation signal generation module. The constant current power supply is connected with the input end of the switch tube. The impulsing power supply circuit also comprises a pulse switch circuit which is arranged between the pulse width modulation signal generation module and the control end of the switch tube. The storage battery repair pulse signal source comprises the impulsing power supply circuit.

Description

A kind of pulse power supply circuit and storage battery are repaired pulse signal source

Technical field

The utility model relates to pulsed-power industry, particularly a kind of pulse power supply circuit of single positive pulse, and the pulse electrical signal that this pulse power produces is suitable for storage battery repair and charge.

Background technology

The pulse power (impulsing power source) has single positive pulse and two positive and negative pulse power, adopts unique modulation technique, Digital Control.Can meet client's different demand.Be applicable to gold-plated, silver-plated, nickel plating, zinc-plated etc., can obviously improve coating performance; During for protection-decorative electroplating (as decorated gold), can make coating color and luster uniformity, good brightness, corrosion resistance is strong.Particularly the anodization of the reverse impulse of dual-pulse power supply is dissolved cathode surface concentration of metal ions is gone up rapidly, and this cathode deposition period being conducive to subsequently uses high pulse current density, thereby coating densification, light, porosity are low; The anode of the reverse impulse of dual-pulse power supply is peeled off attached the greatly reducing of folder that makes organic impurities in coating (containing brightener), thereby coating purity is high, and anti-tarnishing ability is strong.Dual-pulse power supply is a novel power supply, due to the reasonable processing of high-frequency impulse and low-frequency pulse, makes the application of Switching Power Supply open more extensive.

At present storage battery is repaired, also can use pulse power signal, under the pulse current effect of Fast transforms, can make the lead sulfate crystalline solid forming in battery pole plates decompose gradually and again participate in electrochemical reaction, thereby can recover the charged capacity of storage battery.But the requirement of pulse signals has differently when electroplating, and therefore, the various pulse powers in the market are all not suitable for storage battery to repair.

Utility model content

The utility model object is to provide a kind of pulse power supply circuit and storage battery reparation pulse signal source that is suitable for doing storage battery repair signal source.

Technical solutions of the utility model are: a kind of pulse power supply circuit, comprise pulse width modulating signal generation module, switching tube, constant-current supply, the pulse width signal output of the control termination pulse width modulating signal generation module of described switching tube, described constant-current source connects the input of described switching tube, also comprise pulse-switching circuit, described pulse-switching circuit is arranged between pulse width modulating signal generation module and the control end of switching tube.

Further, in above-mentioned pulse power supply circuit: described switching tube is field effect transistor V101, comprise as the grid of control end, as the source electrode of input and as the drain electrode of output;

Described pulse-switching circuit comprises current-limiting resistance R103, current-limiting resistance R104, current-limiting resistance R105, current-limiting resistance R106, is partially worth resistance R 107, triode V102, triode V103, triode V104, voltage stabilizing didoe D101 and speed-up capacitor C101;

The output of described pulse width modulating signal generation module connects the base stage of triode V104 by current-limiting resistance R106, the grounded emitter of triode V104, the collector electrode of triode V104 connects the grid of field effect transistor V101 by current-limiting resistance R103, the grounded emitter of triode V104, is partially worth resistance R 107 and is arranged between the base stage and ground of triode V104;

Described speed-up capacitor C101 is in parallel with described current-limiting resistance R103;

The emitter and collector of triode V102 is connected with source, the grid of field effect transistor V101 respectively, the base stage of triode V102 connects the collector electrode of triode V103 by current-limiting resistance R104, the emitter of triode V103 connects pulse width modulating signal generation module output by current-limiting resistance R105, and the base stage of triode V103 connects high level;

Described voltage stabilizing didoe D101 is arranged between the source, grid of field effect transistor V101, and the anode of voltage stabilizing didoe D101 connects the grid of field effect transistor V101.

Further, in above-mentioned pulse power supply circuit: described speed-up capacitor C101 is electrochemical capacitor, the anode of electrochemical capacitor connects the grid of described field effect transistor V101.

The present invention also comprises a kind of storage battery reparation pulse signal source, comprise pulse width modulating signal generation module, switching tube, constant-current supply, the pulse width signal output of the control termination pulse width modulating signal generation module of described switching tube, described constant-current source connects the input of described switching tube, and the output termination of described switching tube is repaired the positive pole of storage battery; Also comprise pulse-switching circuit, described pulse-switching circuit is arranged between pulse width modulating signal generation module and the control end of switching tube.

Further, above-mentioned storage battery is repaired in pulse signal source: described switching tube is field effect transistor V101, comprises as the grid of control end, as the source electrode of input and as the drain electrode of output;

Described pulse-switching circuit comprises current-limiting resistance R103, current-limiting resistance R104, current-limiting resistance R105, current-limiting resistance R106, is partially worth resistance R 107, triode V102, triode V103, triode V104, voltage stabilizing didoe D101 and speed-up capacitor C101;

The output of described pulse width modulating signal generation module connects the base stage of triode V104 by current-limiting resistance R106, the grounded emitter of triode V104, the collector electrode of triode V104 connects the grid of field effect transistor V101 by current-limiting resistance R103, the grounded emitter of triode V104, is partially worth resistance R 107 and is arranged between the base stage and ground of triode V104;

Described speed-up capacitor C101 is in parallel with described current-limiting resistance R103;

The emitter and collector of triode V102 is connected with source, the grid of field effect transistor V101 respectively, the base stage of triode V102 connects the collector electrode of triode V103 by current-limiting resistance R104, the emitter of triode V103 connects pulse width modulating signal generation module output by current-limiting resistance R105, and the base stage of triode V103 connects high level;

Described voltage stabilizing didoe D101 is arranged between the source, grid of field effect transistor V101, and the anode of voltage stabilizing didoe D101 connects the grid of field effect transistor V101.

Further, above-mentioned storage battery is repaired in pulse signal source: described speed-up capacitor C101 is electrochemical capacitor, and the anode of electrochemical capacitor connects the grid of described field effect transistor V101.

Further, above-mentioned storage battery is repaired in pulse signal source: also comprise diode D102, described diode D102 is arranged between the described drain electrode of field effect transistor V101 and the positive pole of storage battery, and the anode of diode D102 connects the drain electrode of field effect transistor V101.

The utility model provides a kind of pulse power that is applicable to repairing storage battery that produces, and circuit is simple and practical, both can be used for storage battery to repair, and can be used as again the pulse power to charge in batteries.

Brief description of the drawings

Fig. 1 is the circuit diagram that storage battery of the present utility model is repaired pulse signal source.

embodiment:

The storage battery that is illustrated in figure 1 the present embodiment is repaired the circuit diagram of pulse signal source, this module comprises pulse width modulating signal generation module, switching tube, constant-current supply, the pulse width signal output of the control termination pulse width modulating signal generation module of switching tube, constant-current source connects the input of described switching tube, and the output termination of switching tube is repaired the positive pole of storage battery; Also comprise pulse-switching circuit, pulse-switching circuit is arranged between pulse width modulating signal generation module and the control end of switching tube; Pulse width signal produces the pulse width signal that circuit produces and is input to pulse-switching circuit, pulse-switching circuit be arranged on constant-current source and storage battery the two poles of the earth of being repaired between.Pulse-switching circuit comprises current-limiting resistance R103, current-limiting resistance R104, current-limiting resistance R105, current-limiting resistance R106, is partially worth resistance R 107, triode V102, triode V103, triode V104, voltage stabilizing didoe D101 and speed-up capacitor C101.

The pulse width signal that pulse width modulating signal generation module produces connects the base stage of triode V104 by current-limiting resistance R106, the grounded emitter of triode V104, and the collector electrode of triode V104 connects the grid of field effect transistor V101 by speed-up capacitor C101.

The source electrode of field effect transistor V101 connects constant-current source, and the drain electrode of field effect transistor V101 connects the positive pole of the battery being repaired, the minus earth of the battery being repaired by a diode D102; The anode of diode D102 connects the drain electrode of switching tube V101; Between the grid of switching tube V101, source electrode, voltage stabilizing didoe D101 is set.

The emitter and collector of triode V102 is connected with grid, the source electrode of field effect transistor V101 respectively, the base stage of triode V102 connects the collector electrode of triode V103 by current-limiting resistance R104, the emitter of triode V103 connects pulse width signal by current-limiting resistance R105, and the base stage of triode V103 connects high level.

Utilize the storage battery of the present embodiment to repair the general work flow process that pulse signal source is repaired storage battery: the present embodiment adopts single-chip microcomputer to produce pwm signal, in the time that receiving enabling signal, single-chip microcomputer brings into operation, the voltage signal that is repaired battery is made comparisons by sending with standard of precision voltage circuit the reference voltage coming to, the change in voltage that is repaired battery accurately detected, according to the variation of this voltage, generating one-period from single-chip microcomputer is 120uS, amplitude 5V, duty ratio is by 10% ~ 99% oscillating impulse square wave changing, drive port output from PWM, in the time that being high level, oscillating impulse delivers to the base stage of triode V104, make over the ground the triode V104 degree of depth saturated by triode V104 emitter, now, the about 4.4V of collector potential of triode V104.The current constant of constant-current source handle output is at 0.1C10 (A), collector electrode through 5V voltage stabilizing didoe D101, current-limiting resistance R103 to triode V104, voltage-stabiliser tube D101, in reverse breakdown voltage stabilizing state, has formed 5V forward bias to field effect transistor V101 and makes its conducting.Because the TMOS tube grid as field effect transistor V101 (the G utmost point) and source electrode (the S utmost point) have the junction capacitance of 2000pF left and right, for overcome junction capacitance form settling time on delay, cause field effect transistor V101 to stop pipe consumption long and increase field effect transistor V101 at magnifying state, the capacitor C 101 in parallel with current-limiting resistance R103 is speed-up capacitors, makes switching tube V101 in rapid conducting.V101 conduction period, electric current charges to being repaired battery 5 by diode D102.Otherwise, when the oscillating impulse of pwm signal is low level, triode V104 proceeds to cut-off, triode V103 makes the emitter of triode V103 in low level by resistance R 105, and its base stage is in+5V, make triode V103 saturation conduction, the about 4.5V of collector electrode of triode V103, make triode V102 saturation conduction by resistance R 104, the collector and emitter of triode V102 makes the S-G utmost point short circuit of switching tube V101, the junction capacitance of 2000p is discharged rapidly, and switching tube V101 ends rapidly, and current stops charges to being repaired battery 5 by diode D102.Under the pulse current effect of this Fast transforms, can make the lead sulfate crystalline solid forming in battery pole plates decompose gradually and again participate in electrochemical reaction, thereby can recover the charged capacity of storage battery.

In order to ensure that to be repaired battery 5 injury-free in repair process, except strictly limiting maximum pulse maintenance electric current, needs must be less than 0.1 C10 (A), also need to after battery terminal voltage is higher than nominal voltage 2.45V, progressively reduce pulse current, slow down side reaction.The control method that the utility model reduces pulse current is: before the terminal voltage of battery does not reach and analyses vapour voltage 2.45V, adopt maximum (99%) duty ratio output, once battery terminal voltage exceedes 2.45V, every rising 0.12V reduces 10% duty ratio by Single-chip Controlling, until when duty ratio is reduced to minimum value 10%, judge that repair process completes.If detect that the terminal voltage that is repaired battery 5 rises too fast, judge that this battery is that interior resistive is large, sulfation is very serious, now, no longer according to the variation control output pulse duty factor of battery terminal voltage, reduce pulse duty factor but start timing routine, often reduce 10% pulse duty factor, after timing working 30 minutes, continue again to reduce the duty ratio of next grade, until finally duty ratio is reduced to while being worth 10% most, judge that repair process completes.Now close and repair pulse output, the terminal voltage of a storage battery of static 30 minutes repetition measurements, if voltage drop to 2V, single-chip microcomputer sends instruction to Surveillance center by PORT COM and notifies this joint cell to scrap; If this voltage, higher than 2V, drives detection module to enter operating state from PWM-IN port output high level signal, the storage battery of having repaired is carried out to discharge examination capacity.

Claims (7)

1. a pulse power supply circuit, comprise pulse width modulating signal generation module, switching tube, constant-current supply, the pulse width signal output of the control termination pulse width modulating signal generation module of described switching tube, described constant-current supply connects the input of described switching tube, it is characterized in that: also comprise pulse-switching circuit, described pulse-switching circuit is arranged between pulse width modulating signal generation module and the control end of switching tube.

2. pulse power supply circuit according to claim 1, is characterized in that: described switching tube is field effect transistor V101, comprises as the grid of control end, as the source electrode of input and as the drain electrode of output;

Described pulse-switching circuit comprises current-limiting resistance R103, current-limiting resistance R104, current-limiting resistance R105, current-limiting resistance R106, is partially worth resistance R 107, triode V102, triode V103, triode V104, voltage stabilizing didoe D101 and speed-up capacitor C101;

The output of described pulse width modulating signal generation module connects the base stage of triode V104 by current-limiting resistance R106, the grounded emitter of triode V104, the collector electrode of triode V104 connects the grid of field effect transistor V101 by current-limiting resistance R103, the grounded emitter of triode V104, is partially worth resistance R 107 and is arranged between the base stage and ground of triode V104;

Described speed-up capacitor C101 is in parallel with described current-limiting resistance R103;

The emitter and collector of triode V102 is connected with source, the grid of field effect transistor V101 respectively, the base stage of triode V102 connects the collector electrode of triode V103 by current-limiting resistance R104, the emitter of triode V103 connects pulse width modulating signal generation module output by current-limiting resistance R105, and the base stage of triode V103 connects high level;

Described voltage stabilizing didoe D101 is arranged between the source, grid of field effect transistor V101, and the anode of voltage stabilizing didoe D101 connects the grid of field effect transistor V101.

3. pulse power supply circuit according to claim 2, is characterized in that: described speed-up capacitor C101 is electrochemical capacitor, and the anode of electrochemical capacitor connects the grid of described field effect transistor V101.

4. a storage battery is repaired pulse signal source, comprise pulse width modulating signal generation module, switching tube, constant-current supply, the pulse width signal output of the control termination pulse width modulating signal generation module of described switching tube, described constant-current supply connects the input of described switching tube, and the output termination of described switching tube is repaired the positive pole of storage battery; It is characterized in that: also comprise pulse-switching circuit, described pulse-switching circuit is arranged between pulse width modulating signal generation module and the control end of switching tube.

5. storage battery according to claim 4 is repaired pulse signal source, it is characterized in that: described switching tube is field effect transistor V101, comprises as the grid of control end, as the source electrode of input and as the drain electrode of output;

Described pulse-switching circuit comprises current-limiting resistance R103, current-limiting resistance R104, current-limiting resistance R105, current-limiting resistance R106, is partially worth resistance R 107, triode V102, triode V103, triode V104, voltage stabilizing didoe D101 and speed-up capacitor C101;

The output of described pulse width modulating signal generation module connects the base stage of triode V104 by current-limiting resistance R106, the grounded emitter of triode V104, the collector electrode of triode V104 connects the grid of field effect transistor V101 by current-limiting resistance R103, the grounded emitter of triode V104, is partially worth resistance R 107 and is arranged between the base stage and ground of triode V104;

Described speed-up capacitor C101 is in parallel with described current-limiting resistance R103;

The emitter and collector of triode V102 is connected with source, the grid of field effect transistor V101 respectively, the base stage of triode V102 connects the collector electrode of triode V103 by current-limiting resistance R104, the emitter of triode V103 connects pulse width modulating signal generation module output by current-limiting resistance R105, and the base stage of triode V103 connects high level;

Described voltage stabilizing didoe D101 is arranged between the source, grid of field effect transistor V101, and the anode of voltage stabilizing didoe D101 connects the grid of field effect transistor V101.

6. storage battery according to claim 5 is repaired pulse signal source, it is characterized in that: described speed-up capacitor C101 is electrochemical capacitor, and the anode of electrochemical capacitor connects the grid of described field effect transistor V101.

7. storage battery according to claim 5 is repaired pulse signal source, it is characterized in that: also comprise diode D102, described diode D102 is arranged between the described drain electrode of field effect transistor V101 and the positive pole of storage battery, and the anode of diode D102 connects the drain electrode of field effect transistor V101.

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