CN201868531U - Lead acid storage battery maintenance device with alarming promotion function - Google Patents

Abstract

The utility model discloses a lead acid storage battery maintenance device with alarming promotion function. The maintenance device adopts the electronic pulse method to inhibit the generation of lead sulfate crystallization in the lead-acid storage battery polar plate and restore the capacity of the storage battery, and carries out the real-time monitoring on the operating status of the storage battery. The maintenance device adopts the technical scheme that a power supply circuit is powered by the maintained lead acid storage battery, and then the single chip machine circuit is powered to operate; the storage battery status detecting circuit is used to monitor the voltage of the storage battery in real time, and the voltage is compared with the voltage of the voltage reference circuit; and the single chip machine outputs the specific pulse signal to the pulse power amplifying circuit and then feeds the signal back to the storage battery when the storage battery voltage is within the range set by the program. The lead sulfate crystallization formed by the storage battery is prevented and eliminated through the pulse perturbation, and the purpose of restoring the capacity of the storage battery to prolong the service life of the storage battery is achieved. When the storage battery is abnormal, the single chip machine outputs the alarming signal to drive the status display circuit, and the sound alarming circuit generates the alarming signal, so that the user can conveniently exclude the faults. The circuit has simple structure and is reliable to operate.

Description

A kind of lead-acid storage battery maintainer with alarm prompt

Technical field

A kind of method with electronic impulse that relates to the utility model suppresses the crystallization of the inner generation of polar plate of lead acid storage battery lead sulfate, also recovers the lead-acid storage battery maintainer that battery capacity is used gradually, especially for the lead-acid battery maintenance device that starts with the band alarm prompt function of lead acid accumulator.Belong to lead acid accumulator not damaged maintenance technical field.

Background technology

Along with economy constantly develops, the recoverable amount of China's motor vehicle has reached 1.92 hundred million by in March, 2010, and growth ratio is about 35%, and each motor vehicle all uses one or the two lead acid accumulators usefulness as electric power supply in engine start, illumination, the car.Start storage battery designed life in 3 to 4 years, use be approximately 1～2 year useful life but great majority are average, nearly 5,000 ten thousand on the automobile starting battery that China need scrap every year, these storage batterys of scrapping are most of disassembles the recycling metallic lead through the waste and old material recycling channel, harmful heavy metals a large amount of in disassembling process pollute the environment, and environmental protection is costly.The startup storage battery that closes on the life-span time limit often fault takes place frequently; cause because of off-capacity starting engine through regular meeting; not only can increase the burden that towing fee is used to the car owner; also can threaten to traffic safety because out of order storage battery often automobile signal light all can't allow its operate as normal.

Summary of the invention

The utility model purpose provides a kind of lead-acid storage battery maintainer with alarm prompt, the utility model can be restrained the lead sulfate growth except continuing to produce the pulse resonance ripple, prolong battery beyond useful life, can also monitor the operating state of storage battery in real time, when battery is unusual, can send acousto-optic warning, make things convenient for the user to investigate fault rapidly.

The utility model is a kind of lead-acid storage battery maintainer with alarm prompt, comprises single chip circuit, power circuit, test circuit for cell status, pulse power amplifier circuit, status display circuit, sound alarm circuit, voltage reference circuit; The input of the described single chip circuit of output termination of described test circuit for cell status, the pulse output end of described single chip circuit connects described pulse power amplifier circuit pulse signal input terminal, the alarm signal input of the described sound alarm circuit of alarm signal output termination of described single chip circuit, the state of described single chip circuit shows the status signal input of output termination status display circuit, the output of described reference circuit connects the reference voltage input of described single chip circuit and sound warning circuit respectively, the power output end of described power circuit connects described single chip circuit respectively, test circuit for cell status, pulse power amplifier circuit, status display circuit, the power input of sound alarm circuit and voltage reference circuit.

Concrete, in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described single chip circuit comprises single-chip microcomputer, reset circuit and program are write inbound port, described reset circuit comprises reset resistor and reset diode and reset capacitance in parallel, the P utmost point of described reset diode connects the 4th pin of described single-chip microcomputer, described reset capacitance is connected between the 4th pin and ground of described single-chip microcomputer, described program is write inbound port and is comprised that first program is write inbound port and second program is write inbound port, and described first program is write inbound port and write inbound port with second program and be connected with the end of the same name of described single-chip microcomputer respectively.

Further, in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described power circuit comprises low-pass filter circuit, integrated regulator and output Shaping circuit, described low-pass filter circuit comprises the filter inductance that is connected in series, diode, current-limiting resistance and filtering capacitor, the maintained battery positive voltage of another termination of described filter inductance, described filtering capacitor other end ground connection, connect the input of described integrated regulator between described current-limiting resistance and the filtering capacitor, the output of described integrated regulator exchanges shunt capacitance by first respectively and exchanges shunt capacitance ground connection with second.

Further, in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described test circuit for cell status comprises that first of series connection detects resistance and second and detects resistance, described detection output is that the described first detection resistance and second detects between the resistance, connect at described detection output and to exchange shunt capacitance ground connection, one second current-limiting resistance of between described interchange shunt capacitance and detection output, connecting.

Further, in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described pulse power amplifier circuit comprises shaping circuit, push-pull amplifier, switched field effect pipe and pulse-generating circuit;

Described shaping circuit comprises shaping resistance and the shaping capacitance that is connected in parallel, the 6th pin of the described single-chip microcomputer of its input termination, the base stage of the described push-pull amplifier of its output termination;

The output of described push-pull amplifier connects the grid of described switched field effect pipe;

Described pulse-generating circuit comprises first energy storage inductor and second energy storage inductor of series connection, the positive pole of the maintained battery of another termination of first energy storage inductor, the other end of second energy storage inductor links to each other with the source electrode of described switched field effect pipe, at described first energy storage inductor) and the series circuit of second energy storage inductor on first switching diode in parallel, the P utmost point of first switching diode connects the source electrode of described switched field effect pipe, described at first energy storage inductor and second energy storage inductor by storage capacitor ground connection, the drain electrode of described switched field effect pipe connects the negative pole of maintained battery by the second switch diode.

Further; in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described status display circuit comprises the 10th pin and first light-emitting diode on the 11st pin and second light-emitting diode that is connected to described single-chip microcomputer, connect between the 10th pin of described single-chip microcomputer and the 11st pin and first light-emitting diode and second light-emitting diode first protective resistance and second protective resistance.

Further, in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described sound alarm circuit comprises amplifying circuit and buzzer, described amplifying circuit comprises the buzzer amplifying triode, the base stage of described buzzer amplifying triode connects the 2nd pin of described single-chip microcomputer by the straight partially resistance of base stage, grounded emitter, collector electrode connect the control input end of described buzzer.

Further, in above-mentioned a kind of lead-acid storage battery maintainer with alarm prompt: described voltage reference circuit comprises that the 3rd interchange shunt capacitance in parallel exchanges shunt capacitance and pressurizer with the 4th, exchanges shunt capacitance the 3rd and exchanges the output that the divider resistance of connecting on shunt capacitance and the pressurizer parallel circuits connects described power circuit with the 4th.

The course of work of the present utility model is: the binding post that lead-acid storage battery maintainer of the present utility model is connected to storage battery according to positive-negative polarity, maintenance device is obtained electric energy from charging device or battery, supply with described single chip circuit through stable output+5V voltage behind the described power circuit, the VCC port of single-chip microcomputer U3 gets, the PB3 port obtains the high level reset signal, the accurate reference voltage that the acquisition of PA0 port is sent here by described voltage reference circuit is relatively used as the reference of A/D input PA1 port voltage.Described test circuit for cell status is the terminal voltage of the maintained storage battery of monitoring in real time, when terminal voltage between the 11.80V to 15V the time, the pulse signal of the PA7 port output characteristic frequency of single-chip microcomputer U3, feed back to battery pole plates behind the described pulse power amplifier circuit, but the pulse with fast rise edge can produce resonance with the thick lead sulfate crystalline solid of storage battery, dissolving and this thick lead sulfate crystalline solid of reduction; When the terminal voltage that monitors maintained storage battery is lower than 11.80V, the PA7 port of single-chip microcomputer U3 stops output pulse signal, make the power consumption of maintenance device reduce to minimum, the low frequency tonepulse that PB0 port output simultaneously continues sends " ticking-tick " alarm sound prompting car owner by Q3 driving buzzer and in time storage battery is charged.The terminal voltage of storage battery has and is lower than 9V 3 times in described test circuit for cell status detected for 15 seconds, the PB0 port output frequency of single-chip microcomputer U3 low frequency tonepulse faster then, drive buzzer by Q3 and send " ticking-tick " rapid alarm sound prompting car owner storage battery major cycle, need in time to change or maintenance.

The beneficial effects of the utility model are in sum, and the utility model is except having pulse and prevent and eliminate the sulfuration function and recover gradually the capacity of battery, the alarm prompt function when possessing degradation of cell performance in addition, and energy consumption is lower.It is anti-combine comprehensively prolongation battery useful life with controlling.

Description of drawings

Accompanying drawing 1 is the circuit block diagram of the utility model embodiment 1.

Accompanying drawing 2 is circuit theory diagrams of the utility model embodiment 1.

In the accompanying drawing: 1; single chip circuit; 2; power circuit; 3; test circuit for cell status; 4; pulse power amplifier circuit; 5; status display circuit; 6; the sound alarm circuit; 7; voltage reference circuit, 8; maintained storage battery, U1; integrated regulator; U2; pressurizer; U3; single-chip microcomputer, R1; current-limiting resistance, R2; divider resistance; R3; first detects resistance; R4; second protective resistance, R5; the 3rd protective resistance, R6; first protective resistance; R7; reset resistor; R8; second detects resistance, R9; second current-limiting resistance, R10; shaping resistance; D1; diode; D2; the second switch diode, D3; first switching diode, D4; reset diode; the C1 filtering capacitor; C2; first exchanges shunt capacitance, C3; second exchanges shunt capacitance, C4; the 3rd exchanges shunt capacitance; C5; the 4th exchanges shunt capacitance; C6; storage capacitor, C7; the 5th exchanges shunt capacitance, C8; reset capacitance; C9; shaping capacitance; C10; exchange shunt capacitance, J1; output port, J2; first program is write inbound port; J3; second program is write inbound port; the L1 filter inductance; L2; first energy storage inductor, L3; second energy storage inductor, Q1; push-pull amplifier first amplifying triode; Q2; push-pull amplifier second amplifying triode; Q3; the buzzer amplifying triode, Q4; the switched field effect pipe, LED1; first light-emitting diode; LED2; second light-emitting diode, BL1; buzzer.

Embodiment

Embodiment 1: as Fig. 1 is circuit block diagram of the present utility model, comprise single chip circuit 1, power circuit 2, test circuit for cell status 3, pulse power amplifier circuit 4, status display circuit 5, sound alarm circuit 6 and voltage reference circuit 7 are formed by connecting, the connected mode of present embodiment is: the input of the described single chip circuit 1 of output termination of described test circuit for cell status 3, the pulse output end of described single chip circuit 1 connects described pulse power amplifier circuit 4 pulse signal input terminals, the alarm signal input of the described sound alarm circuit 6 of alarm signal output termination of described single chip circuit 1, the state of described single chip circuit 1 shows the status signal input of output termination status display circuit 5, the output of described voltage reference circuit 7 connects the reference voltage input of described single chip circuit 1 and sound warning circuit 6 respectively, the power output end of described power circuit 2 connects described single chip circuit 1 respectively, test circuit for cell status 3, pulse power amplifier circuit 4, status display circuit 5, the power input of sound alarm circuit 6 and voltage reference circuit 7, in the present embodiment: described single chip circuit 1 comprises single-chip microcomputer U3, reset resistor R7, reset diode D4 and reset capacitance C8 and program are write inbound port J2, J3; Described single chip circuit 1 links to each other with the output of power circuit 2, test circuit for cell status 3, voltage reference circuit 7; The output of described single chip circuit 1 links to each other with described pulse power amplifier circuit 4, status display circuit 5, sound alarm circuit 6.

As Fig. 2 is circuit theory diagrams of the present utility model, has among the figure:

Single chip circuit 1, comprise that single-chip microcomputer U3, reset circuit and program write inbound port, reset circuit comprises reset resistor R7 and reset diode D4 and reset capacitance C8 in parallel, the P utmost point of described reset diode D4 connects the 4th pin of described single-chip microcomputer U3, be exactly PB3, the single-chip microcomputer that adopts in the present embodiment is ATTINY24.This pin is the reset pin of single-chip microcomputer U3, described reset capacitance C8 is connected between the 4th pin and ground of described single-chip microcomputer U3, described program is write inbound port and is comprised that first program is write inbound port J2 and second program is write inbound port J3, and described first program is write inbound port J2 and write inbound port J3 with second program and be connected with the end of the same name of described single-chip microcomputer U3 respectively.J1 is an output port, has three pins, and the 1st pin and the 3rd pin connect the 4th, 5 pin of single-chip microcomputer U3 respectively, and the 2nd pin meets the 3rd protective resistance R5 and exchanges the 1st pin that shunt capacitance C1 meets single-chip microcomputer U3, just power pins with the 5th.In the present embodiment, 12 pin of single-chip microcomputer U3 are input ports of battery status signal, after single-chip microcomputer U3 receives battery real-time voltage signal with test circuit for cell status 3 output, compare by the 2.5V reference voltage that produces by voltage reference circuit 7 with the input of 13 pin, obtain the information of voltage of current battery, by this information is handled, export the normal and abnormal signal of battery operated state respectively at 10 pin and 11 pin, when battery operated when unusual, in the 2nd pin output sound alarm signal.During single-chip microcomputer U3 work, by the 6th pin output pulse signal.

Power circuit 2, the power circuit of present embodiment product comprises low-pass filter circuit, integrated regulator U1 and output Shaping circuit, described low-pass filter circuit comprises the filter inductance L1 that is connected in series, diode D1, current-limiting resistance R1 and filtering capacitor C1, storage battery 8 positive poles that another termination of described filter inductance L1 is maintained, described filtering capacitor C1 other end ground connection, meet the input Vin of described integrated regulator U1 between described current-limiting resistance R1 and the filtering capacitor C1, the integrated regulator that present embodiment adopts is three-terminal voltage-stabilizing LM7805, and the output end vo ut of described integrated regulator U1 exchanges shunt capacitance C2 by first respectively and exchanges shunt capacitance C3 ground connection with second.This power circuit produces the galvanic current source, and the front uses low-pass filter circuit with alternating component filtering, and the back uses the interchange shunt capacitance will exchange ground connection.

Test circuit for cell status 3 detects the output voltage of storage battery, and the voltage number is input to single-chip microcomputer U3, determine next step work by single-chip microcomputer U3, test circuit for cell status 3 in the present embodiment comprises that first of series connection detects resistance R 3 and second and detects resistance R 8, described detection output is that the described first detection resistance R 3 and second detects between the resistance R 8, connect at described detection output and to exchange shunt capacitance C10 ground connection, one second current-limiting resistance R9 connects between described interchange shunt capacitance C10 and detection output.The voltage that is input in the single-chip microcomputer U3 is to detect the voltage that resistance R 3 and second detects resistance R 8 dividing potential drops by first.

Pulse power amplifier circuit 4 comprises shaping circuit, push-pull amplifier, switched field effect pipe Q4 and pulse-generating circuit;

Described shaping circuit comprises shaping resistance R 10 and the shaping capacitance C9 that is connected in parallel, the 6th pin of the described single-chip microcomputer U3 of its input termination, the base stage of the described push-pull amplifier of its output termination;

In the present embodiment, push-pull amplifier is made up of push-pull amplifier first amplifying triode Q1 and the push-pull amplifier second amplifying triode Q2.

The output of described push-pull amplifier connects the grid of described switched field effect pipe Q4;

Described pulse-generating circuit comprises the first energy storage inductor L2 and the second energy storage inductor L3 of series connection, the positive pole of the maintained battery 8 of another termination of the first energy storage inductor L2, the other end of the second energy storage inductor L3 links to each other with the source electrode of described switched field effect pipe Q4, the first switching diode D3 in parallel on the series circuit of the described first energy storage inductor L2 and the second energy storage inductor L3, the P utmost point of the first switching diode D3 connects the source electrode of described switched field effect pipe Q4, described at the first energy storage inductor L2 and the second energy storage inductor L3 by storage capacitor C6 ground connection, the drain electrode of described switched field effect pipe Q4 connects the negative pole of maintained battery 8 by second switch diode R2.

Status display circuit 5 comprises the 10th pin and first LED 1 on the 11st pin and second LED 2 that is connected to described single-chip microcomputer U3, and the first protective resistance R6 and the second protective resistance R4 connect between the 10th pin of described single-chip microcomputer U3 and the 11st pin and first LED 1 and second LED 2.

Sound alarm circuit 6 comprises buzzer amplifying triode Q3 and buzzer BL1, described amplifying circuit comprises buzzer amplifying triode Q3, the base stage of described buzzer amplifying triode Q3 connects the 2nd pin of described single-chip microcomputer U3 by the straight partially resistance R 14 of base stage, grounded emitter, collector electrode connect the control input end of described buzzer BL1.

Voltage reference circuit 7 comprises that the 3rd interchange shunt capacitance C4 in parallel exchanges shunt capacitance C5 and pressurizer U2 with the 4th, exchange shunt capacitance C4 the 3rd and exchange the output that the divider resistance R2 that connects on shunt capacitance C5 and the pressurizer U2 parallel circuits connects described power circuit 2 with the 4th.

The present embodiment course of work is: the binding post of the lead-acid storage battery maintainer of the utility model embodiment is received maintained lead acid accumulator 8 by polarity two ends, deliver to the input of three terminal regulator U1 (LM7805) behind the low pass filter filtering elimination pulsating voltage of cell voltage via filter inductance L1 filtering, diode D1 rectification, current-limiting resistance R1 current limliting, filter capacitor C1 etc., after exporting first, second interchange shunt capacitance of stable 5V direct voltage process C2, C3 filtering, the one tunnel arrives the power supply pin Vcc of single-chip microcomputer U3 and the reset terminal PB3 of single-chip microcomputer; Start working after the single-chip microcomputer U3 self check; Another road is via divider resistance R2 dividing potential drop current limliting, and third and fourth exchanges the voltage reference circuit that shunt capacitance C4, C5 filtering and pressurizer U2 form; Give the 2.50V reference voltage of the port PA0 precision of single-chip microcomputer U3; The terminal voltage of battery 8 detects resistance R 3 and second through first and detects the detection voltage divider that resistance R 8 is formed, the second current-limiting resistance R9 and the electric voltage observation circuit that exchanges shunt capacitance C10 composition, deliver to the A/D conversion input port PA1 of single-chip microcomputer U3, state with real-time monitoring battery 8, (present case is set to the port PA3 output high level of single-chip microcomputer U3 of 11.80V～15.00V) when battery terminal voltage during in normal range (NR), after the first protective resistance R6 current limliting, deliver to the positive pole of LED1, green LED is lighted, and represents this maintenance device operate as normal; The one-period of the port PA7 of single-chip microcomputer U3 output simultaneously is 120uS, amplitude 5V, the pulsewidth oscillating impulse less than 5uS, after shaping resistance R 10 and shaping capacitance C9 shaping acceleration, deliver to the base stage of the push-pull amplifier of forming by triode Q1, Q2 etc., the base stage that is worth the push-pull amplifier of resistance R 11, R13 composition partially, through quickening and amplified pulse signal driving field effect transistor Q4, control its break-make.In Q4 conduction period, cell voltage is given storage capacitor C6 charging through first inductance L 2.Electric current is through resettable fuse, first, the second energy storage inductor L2, L3, the D-S of field effect transistor is the negative pole of back arrival battery 8 extremely, give discharge rapidly of battery, because electric current is bigger, the very fast magnetic saturation of the second energy storage inductor L3, between the field effect transistor Q4 off period, storage capacitor C6 discharge, because the self-induction action of the second energy storage inductor L3, under producing on the inductance L 3 just on negative self induction electromotive force, because the induction reactance of the first energy storage inductor L2 is very big, so this self induction electromotive force is through the unidirectional frequency 8.33KHz that is rectified into of diode D3, width is less than 5 μ S, the forward position is added to battery 8 two ends less than the high-pressure pulse direct current of 800nS and about 1A through F1.Under continual pulse-type disturbance, destroyed the condition that the lead sulfate crystallization forms, and the lead sulfate crystallization that will generate is removed gradually.Reach the charged capacity that increases storage battery 8, the purpose of life-saving.When the terminal voltage that detects battery 8 is higher than the voltage 15.00V of program setting, the low frequency tonepulse that the port PB0 output of single-chip microcomputer U3 continues, conducting by straight partially resistance R 14 current limliting rear drive Q3 with end, the buzzer of connecting with the E-C utmost point of Q3 sends " ticking-tick " alarm sound, the PA2 port of single-chip microcomputer U3 is exported the conducting of the high-low level signal driving LED 2 that continues and is ended simultaneously, the LED2 flicker is sent red light and is pointed out the charging voltage of car owner's storage battery this moment too high, the voltage that needs the rectifier charging device of maintenance or adjustment storage battery is to ensure that storage battery can not damage because of overcharging.Because motor vehicles sometimes can be in and park dormant state for a long time; the consumption of electrical equipment can make battery capacity progressively reduce in the self-discharge characteristics of storage battery and the car; voltage descends gradually; when the terminal voltage that detects battery 8 is lower than the voltage 11.80V of program setting; the PA7 port shutdown output pulse signal of single-chip microcomputer U3; make the power consumption of this maintenance device reduce to minimum; protect maintained storage battery 8 can not damage because of over-discharge can; the low frequency tonepulse that the port PB0 of single-chip microcomputer U3 output simultaneously continues; conducting by straight partially resistance R 14 current limliting rear drive Q3 with end; the buzzer of connecting with the E-C utmost point of Q3 sends " ticking-tick " alarm sound; the PA2 port of single-chip microcomputer U3 is exported the conducting of the high-low level signal driving LED 2 that continues and is ended simultaneously; the brownout of red light prompting car owner storage battery this moment is sent in the LED2 flicker; need be to re-using behind the charge in batteries; prevent that car engine from can't start, or cast anchor on the way.Lead acid accumulator is the parts of an easy loss, when arrive designed life its service life, just need in time to change, the terminal voltage of storage battery has and is lower than 9V 3 times in described test circuit for cell status detected for 15 seconds, the PB0 port output frequency of single-chip microcomputer U3 low frequency tonepulse faster then, drive buzzer by Q3 and send " ticking-tick " rapid alarm sound prompting car owner storage battery major cycle, need in time to change or maintenance.

Claims (8)

1. the lead-acid storage battery maintainer with alarm prompt is characterized in that: comprise single chip circuit (1), power circuit (2), test circuit for cell status (3), pulse power amplifier circuit (4), status display circuit (5), sound alarm circuit (6) and voltage reference circuit (7); The input of the described single chip circuit of output termination (1) of described test circuit for cell status (3), the pulse output end of described single chip circuit (1) connects described pulse power amplifier circuit (4) pulse signal input terminal, the alarm signal input of the alarm signal output described sound alarm circuit of termination (6), state shows the status signal input of output termination status display circuit (5), the output of described voltage reference circuit (7) connects the reference voltage input of described single chip circuit (1) and sound warning circuit (6) respectively, and the power output end of described power circuit (2) connects described single chip circuit (1) respectively, test circuit for cell status (3), pulse power amplifier circuit (4), status display circuit (5), the power input of sound alarm circuit (6) and voltage reference circuit (7).

2. a kind of lead-acid storage battery maintainer according to claim 1 with alarm prompt, it is characterized in that: described single chip circuit (1) comprises single-chip microcomputer (U3), reset circuit and program are write inbound port, described reset circuit comprises reset resistor (R7) and reset diode (D4) and reset capacitance (C8) in parallel, the P utmost point of described reset diode (D4) connects the 4th pin of described single-chip microcomputer (U3), described reset capacitance (C8) is connected between the 4th pin and ground of described single-chip microcomputer (U3), described program is write inbound port and is comprised that first program is write inbound port (J2) and second program is write inbound port (J3), and described first program is write inbound port (J2) and write inbound port (J3) with second program and be connected with the end of the same name of described single-chip microcomputer (U3) respectively.

3. a kind of lead-acid storage battery maintainer according to claim 2 with alarm prompt, it is characterized in that: described power circuit (2) comprises low-pass filter circuit, integrated regulator (U1) and output Shaping circuit, described low-pass filter circuit comprises the filter inductance (L1) that is connected in series, diode (D1), current-limiting resistance (R1) and filtering capacitor (C1), storage battery (8) positive pole that another termination of described filter inductance (L1) is maintained, described filtering capacitor (C1) other end ground connection, connect the input of described integrated regulator (U1) between described current-limiting resistance (R1) and the filtering capacitor (C1), the output of described integrated regulator (U1) exchanges shunt capacitance (C2) by first respectively and exchanges shunt capacitance (C3) ground connection with second.

4. a kind of lead-acid storage battery maintainer according to claim 2 with alarm prompt, it is characterized in that: described test circuit for cell status (3) comprises that first of series connection detects resistance (R3) and second and detects resistance (R8), described detection output is that the described first detection resistance (R3) and second detects between the resistance (R8), connect at described detection output and to exchange shunt capacitance (C10) ground connection, one second current-limiting resistance (R9) of between described interchange shunt capacitance (C10) and detection output, connecting.

5. a kind of lead-acid storage battery maintainer with alarm prompt according to claim 2 is characterized in that: described pulse power amplifier circuit (4) comprises shaping circuit, push-pull amplifier, switched field effect pipe (Q4) and pulse-generating circuit;

Described shaping circuit comprises shaping resistance (R10) and the shaping capacitance (C9) that is connected in parallel, the 6th pin of its input described single-chip microcomputer of termination (U3), the base stage of the described push-pull amplifier of its output termination;

The output of described push-pull amplifier connects the grid of described switched field effect pipe (Q4);

Described pulse-generating circuit comprises first energy storage inductor (L2) and second energy storage inductor (L3) of series connection, the positive pole of the storage battery (8) that another termination of first energy storage inductor (L2) is maintained, the other end of second energy storage inductor (L3) links to each other with the source electrode of described switched field effect pipe (Q4), first switching diode in parallel (D3) on the series circuit of described first energy storage inductor (L2) and second energy storage inductor (L3), the P utmost point of first switching diode (D3) connects the source electrode of described switched field effect pipe (Q4), described at first energy storage inductor (L2) and second energy storage inductor (L3) by storage capacitor (C6) ground connection, the drain electrode of described switched field effect pipe (Q4) connects the negative pole of maintained storage battery (8) by second switch diode (D2).

6. a kind of lead-acid storage battery maintainer according to claim 2 with alarm prompt; it is characterized in that: described status display circuit (5) comprises the 10th pin and first light-emitting diode (LED1) on the 11st pin and second light-emitting diode (LED2) that is connected to described single-chip microcomputer (U3), connect between the 10th pin of described single-chip microcomputer (U3) and the 11st pin and first light-emitting diode (LED1) and second light-emitting diode (LED2) first protective resistance (R6) and second protective resistance (R4).

7. a kind of lead-acid storage battery maintainer according to claim 2 with alarm prompt, it is characterized in that: described sound alarm circuit (6) comprises amplifying circuit and buzzer (BL1), described amplifying circuit comprises buzzer amplifying triode (Q3), the base stage of described buzzer amplifying triode (Q3) connects the 2nd pin of described single-chip microcomputer (U3) by the straight partially resistance (R14) of base stage, grounded emitter, collector electrode connect the control input end of described buzzer (BL1).

8. a kind of lead-acid storage battery maintainer according to claim 2 with alarm prompt, it is characterized in that: described voltage reference circuit (7) comprises that the 3rd interchange shunt capacitance (C4) in parallel exchanges shunt capacitance (C5) and pressurizer (U2) with the 4th, exchange shunt capacitance (C4) the 3rd and exchange the output that the divider resistance (R2) of connecting on shunt capacitance (C5) and pressurizer (U2) parallel circuits connects described power circuit (2) with the 4th.

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