CN204905962U - Type of putting low carbon charger is filled in parallel pulse - Google Patents

Abstract

Type of putting low carbon charger is filled in parallel pulse belongs to the electronic technology, by trickle resistance, and N type discharge cell, the load, P type battery charging unit starts and finishes the unit, and pulse generation modules, interface unit, logic AND charge display element and constitute. After energizing, pulse generation modules forms the vibration, control interface unit is in the height state, N type discharge cell and P type battery charging unit are controlled again to the interface unit, N type discharge cell was closed when formation P type battery charging unit opened, otherwise open -minded when N type discharge cell when P type battery charging unit closes, and charge and be good at exoelectric pulse current charge process, after the battery is full of the electricity, start and start immediately with the end unit, close N type discharge cell when closing P type battery charging unit, trickle resistance is to provided the sustaining trickle by the rechargable battery, two triodes in P type battery charging unit and the N type discharge cell all use parallelly connected form, undertake power jointly, guarantee the use of charger, realize the environmental protection of society.

Description

Parallel pulse charge and discharge type low-carbon (LC) charger

Technical field

Belong to electronic technology technical field.

Background technology

This enterprise is applying for security personnel's product line for the previous period, and this product must reserce cell, otherwise when without civil power, protection function will become a kind of illusory, and time without civil power, when may be again exactly the peak that security personnel's accident occurs.So reserce cell is required.And the performance of reserce cell is directly connected to overall performance.

But reserce cell is necessarily to its charge maintenance, to the scientific maintenance of reserce cell, be directly connected to the life-span of reserce cell, with capacity.Have data to think, battery is not usually damaged, but charge improper and damage.Battery in security personnel's equipment, belongs to reserve battery, has particular/special requirement to volume capacity, is equipped with and makes excessive demands in common product.Therefore how to ensure that back-up battery life and unaffected this of capacity are one of problems.

Two of problem is tool repair information statistics, to general charger, and the charging of its inside active of controlling, as switch triode etc. easily damages, it produces fault and accounts for the failure rate ratio of whole equipment very greatly, if therefore this pipe infringement, causes complete machine not use.Therefore these seem common technical problem, but become the serious major issue affecting a product quality.

Because above-mentioned reason, for ensureing the performance of security personnel's product that this enterprise applies for, the P type charhing unit of this enterprise can not adopt the common charging method to battery and common charging circuit.

The charging method of its routine adopts single DC charging method, and such method all can make electrolyte continue to produce hydrogen or oxygen gas, and its oxygen, under internal high pressure effect, infiltrates into negative pole and the effect of cadmium plate generates CDO, causes pole plate available capacity to decline.If employing pulse current charge, and employing is filled and puts and the method for depositing, and namely fills certain hour, as 5 seconds, just puts certain hour as 1 second.Major part is reduced into electrolyte by the oxygen that such charging process produces under discharge pulse, gassing rate can be made greatly to reduce, reducing gassing rate can make concentration polarization and ohmic polarization naturally be eliminated, thus alleviate the interior pressure of lead acid accumulator, the pulse current charge of next stage is more successfully carried out, thus makes lead acid accumulator can absorb more electricity.Intermittent pulse makes lead acid accumulator have more sufficient chemical time, thus decreases the gassing rate of lead acid accumulator in charging process, and the charging current that improve lead acid accumulator can ability to accept.Pulse charging method charging certain hour, as 5 seconds, stopping certain hour as discharged for 1 second, so circulating.The oxygen that this charging method can make lead acid accumulator produce in charging process and hydrogen are under stopping charging pulse, the oxygen that major part is separated out and hydrogen have been reduced into again electrolyte, this not only reduces lead acid accumulator internal electrical chemical side reactions in charging process---the gassing rate that the electrolysis of water produces, and cause the lead acid accumulator of inefficacy to also have repair to seriously polarizing, after using this charging method to the certain number of times of lead acid accumulator discharge and recharge lost efficacy, the capacity recovery gradually of lead acid accumulator can be made.Not only according to data introduction by not only charging but also the charging method of electric discharge, or charging stops the way of filling, not only helpful to lead accumulator, and also helps positively some alkaline cells.

But by above-mentioned charging method, also there are technological difficulties in conventional circuit, because not only the circuit of routine is not the circuit filling not only but also put, its switch control rule pipe is all the emphasis of fault, if allow switching tube be in the state of pulse, more easily become the probability of infringement, this is one, its two be because circuit have the control of filling, have again the control of N-type discharge cell (or stopping filling), therefore the position damaged turn increases one times, if therefore by traditional design, must complex circuit, newly increase fault point, how to solve these contradictions, become new difficult point.

Along with enriching of the modern life, get more and more by the kind of the electrical equipment of battery, except security personnel's equipment that this enterprise is studied, also have a lot of product, as digital machine machine, mobile phone, etc., the requirement of its charger, also the place of similar enterprise requirements is had, so the research to charger, not only involve the quality of charger itself, also involve by the problem of rechargable battery two aspects.Because an a little good charging measure has positive meaning.

Low-carbon environment-friendly should be picked up from drop, should pick up from trickle, is so just beneficial to the permanent progress and development of society.

Summary of the invention

Main purpose of the present utility model proposes new measure, make the frequency of pulse and duty ratio adjustable, control charhing unit and discharge cell are in opening and closedown, form discharge cell when charhing unit is opened to close, and charhing unit when closing discharge cell open-minded, and the charging interval is long and pulse current charge form that discharge time is short, realizes the charging to rechargeable battery science, maximized charging, thus maximized prolongation charger with by the life-span of rechargable battery and capacity, realize society environmental protection.

Claim:

1, parallel pulse charge and discharge type low-carbon (LC) charger is by trickle resistance, N-type discharge cell, load, P type charhing unit, and start and end unit, impulse generating unit, interface unit, logical AND charging display unit forms jointly.

Wherein: P type charhing unit is made up of the pipe that charges, the pipe biasing resistor that charges, charging two pipe, the two pipe biasing resistors that charge: charging one pipe is all connected on voltage stabilizing with the emitter of charging two pipes and exports, the pipe biasing resistor that charges is connected between the collector electrode of interface triode in the base stage of charging one pipe and interface unit, the two pipe biasing resistors that charge are connected between the collector electrode of interface triode in the base stage of charging two pipe and interface unit, charging one pipe is connected together with the collector electrode of charging two pipes, becomes the output of P type charhing unit.

N-type discharge cell is by the pipe that discharges, electric discharge base stage all-in resistance, electric discharge door diode, excision switch, discharge a pipe trigger resistance, discharge resistance, discharge two pipe trigger resistance, discharge two pipe compositions: a termination of discharge resistance is by the positive pole of rechargable battery, another termination electric discharge one pipe of discharge resistance and the collector electrode of electric discharge two pipes, in one termination logical AND charging display unit of electric discharge base stage all-in resistance, two function resistance and charging show the series connection point of luminous tube, another termination electric discharge door diode of electric discharge base stage all-in resistance is to electric discharge base stage control point, the pipe trigger resistance that discharges is connected between the base stage of electric discharge base stage control point and electric discharge one pipe, the two pipe trigger resistance that discharge are connected between the base stage of electric discharge base stage control point and electric discharge two pipes, discharge the emitter of a pipe and the grounded emitter line of electric discharge two pipes.

Interface unit is made up of interface triode, base resistance, door diode: the grounded emitter line of interface triode, the output of operational amplifier in one termination impulse generating unit of base resistance, the positive pole of another termination door diode of base resistance, the base stage of the negative pole connection interface triode of door diode.

Impulse generating unit is by operational amplifier, integrating resistor, integrating capacitor, frequency-adjustable resistance, homophase divides and presses inclined resistance, homophase divides pressure inclined resistance, steering diode, duty ratio adjustable resistance, duty limiting resistance forms: the inverting input of operational amplifier and the indirect integrating resistor of output, integrating capacitor is connected between the inverting input of operational amplifier and ground wire, steering diode, duty ratio adjustable resistance, duty-cycle limit resistant series, be connected between the inverting input of operational amplifier and output, the output of operational amplifier and the indirect homophase of in-phase input end divide and press inclined resistance, frequency-adjustable resistance and homophase divide depresses inclined resistant series between the in-phase input end and ground wire of operational amplifier.

To start with end unit by sampling adjustable resistance, sample time inclined resistance, to compare on transport and placing device, homophase inclined voltage-stabiliser tube under inclined resistance, homophase, sample adjustable limit value resistance, clamp diode 1, clamp diode 2 form.

Sampling adjustable resistance with sample adjustable limit value resistance and be serially connected in the output of charhing unit with between the inverting input comparing transport and placing device, sampling adjustable lower bias resistance is connected on and compares between the inverting input of transport and placing device and ground wire, on homophase, inclined resistance is connected on signal input with between the in-phase input end comparing transport and placing device, under homophase, inclined voltage-stabiliser tube is connected on and compares between the in-phase input end of transport and placing device and ground wire, the negative pole of two clamp diodes is all connected on and compares on the output of transport and placing device, the positive pole of clamp diode 1 connects the positive pole of door diode, the positive pole of clamp diode 2 connects the positive pole of electric discharge door diode.

Logical AND charging display unit shows luminous tube by charging and two function resistance form: a termination signal of two function resistance inputs, the positive pole of another termination charging display luminous tube, the collector electrode of the negative pole connection interface triode of charging display luminous tube.

Load unit shows protective resistance form by by rechargable battery, battery terminal contact display, battery terminal contact: the contact of battery terminal contact display series-connected cell shows a protective resistance and is connected between the output of charhing unit and ground wire.

2, two triodes in N-type discharge cell are NPN triode, and two triodes in P type charhing unit are PNP triode.

3, operational amplifier is that two transport and placing devices of same integrated circuit LM324 inside are welded into comparing transport and placing device.

4, the power >=1W of discharge resistance.

Further illustrate:

1, operation principle explanation.

After opening power supply, all unit are started working, and wherein P type charhing unit and N-type discharge cell are greater than the process of electric discharge to being undertaken charging by rechargable battery.Until charging terminates.

In charging process, because impulse generating unit work, constantly control P type charhing unit is in and opens and off-state, so the whole course of work is the pulse current charge adopted.

Not only in pulse current charge process, the charging physical process of employing is, in charging but also in special form of discharging.Also discharge switch can be adopted to be excised by N-type discharge cell, and only adopt the form of pulse current charge, thus add selectivity flexibly.

The charge rule coexisted at charge and discharge is, within a cycle of pulse, when when P type charhing unit is opened N-type discharge cell close, otherwise when when P type charhing unit is closed N-type discharge cell open-minded.Due within a cycle of pulse, the time of charging is long, and the time of electric discharge is short, so charging process is in AC charging state.Such charging modes is conducive to the scientific maintenance to battery, also has restitution to a certain degree to the battery damaged simultaneously.

When not contacted by rechargable battery, or after being put in place by rechargable battery charging, because charging output exports high-order, start with end unit through comparing amplification, export low level signal, the base stage of clamper interface triode is low level, thus make this pipe collector for high-order, thus make the base stage of P type charhing unit two pipe for high-order, make this two pipe be in reverse bias, thus make two pipes be in disconnection shape.Stop charging to supplementary battery.

Meanwhile because start with end unit through comparing amplification, export low level signal, clamper electric discharge base stage all-in resistance (in figure 10.3), so N-type discharge cell two pipe collector is height, stop by the electric discharge of rechargable battery.

After full by the battery charging of charging, P type charhing unit and N-type discharge cell are closed, and now connected tiny stream resistance is to the tiny stream electric current being provided required maintenance by rechargable battery.

2, line feature analysis.

(1), P type charhing unit.

Two triodes in P type charhing unit are that mode in parallel is charged to by rechargable battery, such benefit is, the power of charging is shared by two triodes, instead of only a triode is born, as everyone knows, the damage of triode, has much relations with power consumption, and the power in this measure is divided into two, add reliability.

For jumbo battery, only two triodes in P type charhing unit need be changed to large power triode.

(2), N-type discharge cell.

Two triodes in N-type discharge cell are all NPN triode, with the form of parallel connection to the electric discharge being formed transient state by rechargable battery, in the overall process of charging, carry out again in good time electric discharge, namely be in the one-period of pulse, when operational amplifier (611 in Fig. 2) exports as time high-order, P type charhing unit is in conducting state, charge to by rechargable battery, N-type discharge cell is now closed.Otherwise within a cycle of pulse, when operational amplifier (611 in Fig. 2) exports as low level, when P type charhing unit is in open-circuit condition, N-type discharge cell is now in again conducting state, forms spark to by rechargable battery.The reason forming such logical relation is that interface triode (701 in Fig. 2) assume responsibility for corresponding logic function, plays buffer action again to two parts simultaneously.Make it to be independent of each other mutually.By rechargable battery charging overall process in be in the state of filling not only but also putting, when charge and discharge is proper, its benefit be can realize charge maximum scientific.Some electrical property even can be allowed to be in very poor state under, can recovery to a certain degree.

The electric current of electric discharge is still comparatively large, so also used the parallel way of two triodes, is namely by two triode shareds, greatly improve N-type discharge cell life-span.

The base stage of N-type discharge cell is connected with electric discharge excision switch over the ground, adds flexibility.

(3), starting and end unit.

This unit is by sampling adjustable resistance (501.4 in Fig. 2), the lower inclined resistance (501.3 in Fig. 2) of sampling, comparing on transport and placing device (501 in Fig. 2), homophase inclined voltage-stabiliser tube (501.2 in Fig. 2) under inclined resistance (501.1 in Fig. 2), homophase, sample 501.7 in adjustable limit value resistance (501.5 in Fig. 2), clamp diode 1(Fig. 2), 501.8 in clamp diode 2(Fig. 2) form.

Voltage-stabiliser tube has partially been connected into, so its comparative voltage is very stable under comparing the in-phase end of transport and placing device (501 in Fig. 2).The sampling adjustable resistance (501.4 in Fig. 2) of end of oppisite phase can adjust sampling voltage neatly, again because connected the adjustable limit value resistance of sampling (501.5 in Fig. 2), so can not produce excessive deviation in debug process.Because comparison amplifier has very high sensitivity.So start and stop successful.

(4), interface unit.

This unit is made up of interface triode (701 in Fig. 2), base resistance (701.2 in Fig. 2), door diode (701.1 in Fig. 2).

Interface triode (701 in Fig. 2) base series has door diode (701.1 in Fig. 2), and Main Function exports as low level once operational amplifier (611 in Fig. 2), can reliably make interface transistor base be zero-bit.

Interface triode mainly contains four large functions.

One is the pulse current charge logic producing charhing unit.Its reason is under the excitation of pulse unit, through the transmission of this pipe, makes the base stage of two triodes in charhing unit produce the pulse change of height.(when interface transistor collector is low level, charhing unit is forward bias, is the state of energising, otherwise when interface transistor collector be high-order, charhing unit is without biased, is off state) thus make the collector electrode of this unit produce the change of just shape.Whole charging process is made to become pulse current charge shape.

Two is show luminous tube (in figure 801.1) with under the cooperation of two function resistance (in figure 801) with charging, provides the pulse excitation electric current of N-type discharge cell.Thus produce electric discharge logic function.The largest benefit of this spline structure to save an anti-phase triode be necessary for needed for N-type discharge cell.Thus circuit is made more to simplify.Its reason is, this anti-phase triode directly can not be served as by interface triode.

If be connected on interface transistor collector by the input of the base stage of N-type discharge cell simply, when interface transistor collector is high-order, shunt current is just had to flow to the base stage of N-type discharge cell two triode.The negative role produced is when P type charhing unit now should be closed, and because there being shunting to exist, P type charhing unit just can not thoroughly be closed.Become the inconsistency filling not only but also put.After have passed through the isolation of charging display luminous tube, flow into the electric current needed for base stage of two triodes of N-type discharge cell, can't help charging triode biasing resistor (201.3 in Fig. 2) provides, and changes and provided by the charging display luminous tube two function resistance of connecting, and just avoids this problem up hill and dale.So can decrease an anti-phase triode, but performance but can not be affected.

Three is as complete charge state of switch pipe.After being raised by rechargable battery voltage, start and exports low level signal with end unit, clamper interface transistor base, cause interface transistor collector voltage for high-order, make two triodes closedowns of charhing unit.

Four is the expansions achieving voltage and current relationship, because this circuit can be used for higher being charged by the battery of rechargable battery and relatively high power, its charging voltage may be 12 volts as being 24 volts, the voltage that voltage high like this may bear higher than normal integrated circuit, simultaneously when being Large Copacity by rechargable battery, charging transistor base electric current may be very large, so can by expanding after mouth triode, and unfettered.

(5), logical AND charging display unit.

This unit is made up of with two function resistance (801 in Fig. 2) display luminous tube (801.1 in Fig. 2) of charging.

The principle formed is when interface transistor collector is for time high-order, and the branch road that the charging display luminous tube as load is formed becomes open circuit.Otherwise when interface transistor collector is low level, have filling electric current to flow to interface transistor collector from power supply, charging display luminous tube is bright.Such method of attachment is adopted to be to save loop pressure drop.Simultaneously a very important reason, with coordinating of interface triode, can reduce by a triode, and circuit is reduced the number of.(principle in interface triode " two are " described).

(6), impulse generating unit.

The feature of this unit is not only a clapp oscillator, not only can adjust frequency in the line, and can adjust duty ratio.

Impulse generating unit.Have 3 effects in the present invention, one is by interface triode control P type charhing unit, and the form of charging becomes the form of pulse current charge.Two is control N-type discharge cell by interface triode, and in charging overall process, realizes the complex form of charging limit, limit electric discharge.Three is the adjustments realizing duty ratio.Make the overall process of charging, realizing and the recombination process of charge and discharge, remain best situation.

It forms pulse, and the principle of frequency-adjustable is, divided by the output of operational amplifier (611 in Fig. 2) and the connected homophase of in-phase end and press inclined resistance (611.4 in Fig. 2) and to divide with in-phase end homophase over the ground and depress inclined resistance (611.5 in Fig. 2), become in-phase end comparative voltage, also threshold voltage is become, when the output of operational amplifier is high-order, charged to integrating capacitor (611.2 in Fig. 2) by integrating resistor (611.1 in Fig. 2), when being charged to threshold values, output cataclysm is low level, at this moment integrating capacitor is discharged by duty ratio series arm, when current potential is lower than in-phase end, operational amplifier output terminal becomes a high position, start the charging process of second round.Frequency-adjustable resistance (611.3 in Fig. 2) defines frequency of oscillation coarse adjustment, can adjust frequency.

The present invention is designed with duty ratio adjustable line, to realize by the adjustment of the discharge and recharge time of rechargable battery.The meaning of duty ratio be pulse in one-period, the ratio of high bit time and low bit time.

Realize that duty ratio is adjustable to be made up of duty ratio adjustable resistance (611.7 in Fig. 2), steering diode (611.6 in Fig. 2), duty limiting resistance (611.8 in Fig. 2) series arm and integrating resistor (611.1 in Fig. 2).

Form pulse duty factor different and adjustable principle can be realized be: the resistance (611.1) of integrating resistor is very large in this unit, and the resistance carrying out duty ratio adjustable resistance and duty limiting resistance in series arm is very little, so when the operational amplifier in pulse generator is for exporting as low level, to the electric discharge of integrating capacitor, complete (because this branch road series resistance value is little) primarily of series arm, otherwise when capacitor charging, because steering diode is in reverse bias, so become open circuit, integrating capacitor charging can only be completed by integrating resistor, to to form time of an output voltage high position long, and the situation that the time exporting low level is short.

When such situation implements to and charges to battery, within the one-period time of pulse, be that the charging interval is long and the time that is electric discharge is short, and be the situation of charging to what formed by rechargable battery on the whole.

In the duty ratio series arm of this unit, duty ratio adjustable resistance and duty limiting resistance discharge soon to integrating capacitor, so the output height bit time of operational amplifier becomes longer, otherwise it is shorter, thus it is adjustable to realize duty ratio, the meaning of duty limiting resistance is in duty ratio adjustable resistance process, even if adjustable resistance is zero, the resistance value being unlikely to this branch road is zero.

Because generating unit has frequency-adjustable resistance and duty ratio adjustable resistance, so relative maximum scientific to being realized by the charging of rechargable battery.

Outstanding advantage is had after the invention process:

1, be the life-span substantially increasing charger by the present invention one, decrease the scrappage of charger, two is to being achieved science charging by rechargable battery, enhancing maintenance, extend by the life-span of rechargable battery, decrease scrappage.And these two kinds of products, no matter be chargeable battery, or supporting charger, be all the kind that the modern life is generally applied, so the environmental protection of two kinds of products can be strengthened.Environmental protection is without minor matter, so the present invention has positive effect.

2, the present invention also has important economic worth, for the value of common electronic product, as this series products of charger, do not having under valuable first material, its main points: first is Value of Science & Technology, second is manually add expense, 3rd cost being only element, and the element that the present invention increases is limited.After the invention process, can obviously feel after user: one is charger life-time dilatation, and two by rechargable battery life, three is that capacity significant change can not occur, therefore society is bound to accept, and admit its scientific value, therefore this excellent product can replace the product of inferior quality.Due in the modern life, this product purpose is very general, so can produce significant economic worth.

3, the charged form filling not only but also put is adopted, there is significant maintenance effects to by rechargable battery, some critics claim that chargeable battery is filled on the net bad, instead of damage, and this measure can be closed by the relative maximum scientific maintenance of the charging of rechargable battery, particularly to acid battery.And by such charging and discharging mode, the capacity of battery and life-span can not only be made to reduce, even make defective cell can obtain recovery to a certain extent, so meaning is very large.

4, excellent performance of the present invention, one is to adjustable flexibly by the ratio between the charging and discharging time of rechargable battery, namely be that duty ratio is adjustable, two is frequency-adjustable of paired pulses, three is to adjustable flexibly by charging voltage complete charge value, so from multi-angle stage construction, adapted to variety classes model by rechargable battery model.Another important point can charge to jumbo battery, as long as now the triode of P type charhing unit and N-type discharge cell is changed to large power triode.In addition the present invention is not afraid of in addition and overcharges etc. advantage.

5, be connected between each unit of the present invention science, and accomplished comprehensive utilization, and thus line circuit is simplified, reliability is high.

6, easily produce, easily debug, be well suited for minuscule-type-enterprise and produce.

Accompanying drawing explanation

Fig. 1 is the square frame principle unit graph of a relation of parallel pulse charge and discharge type low-carbon (LC) charger.

In figure: 1, voltage stabilizing exports; 9 trickle resistance; 11, discharge portion; 13, load; 30, live part; 50, starting and end unit; 61, impulse generating unit; 70, interface unit; 80, logical AND charging display unit; 300, the output of live part.

Fig. 2 is the schematic diagram that the element of a kind of scheme of parallel pulse charge and discharge type low-carbon (LC) charger connects.

In figure: 1, voltage stabilizing exports; 9, trickle resistance; 10.2, discharge a pipe; 10.3, electric discharge base stage all-in resistance; 10.4, discharge door diode; 10.6, switch is excised; 10.8, discharge a pipe trigger resistance; 10.9, discharge resistance; 11.1, discharge two pipe trigger resistance; 11.2, discharge two pipes; 11.9, electric discharge base stage control point; 13.1, by rechargable battery; 13.2, battery terminal contact display; 13.3, battery terminal contact display protective resistance; 201.2; Charging one pipe; 201.3, charge a pipe biasing resistor; 301, charge two pipes; 301.1, charge two pipe biasing resistors; 501, transport and placing device is compared; 501.1, inclined resistance on homophase; 501.2, inclined voltage-stabiliser tube under homophase; 501.3, the lower inclined resistance of sampling; 501.4, sampling adjustable resistance; 501.5, adjustable limit value resistance is sampled; 501.7, clamp diode 1; 501.8, clamp diode 2; 611, operational amplifier; 611.1, integrating resistor; 611.2, integrating capacitor; 611.3, frequency-adjustable resistance; 611.4 homophases divide and press inclined resistance; 611.5 homophases divide pressure inclined resistance; 611.6, steering diode; 611.7 duty ratio adjustable resistances; 611.8, duty limiting resistance; 701, interface triode; 701.1, door diode; 701.2, base resistance; 801, two function resistance; 801.1, charging display luminous tube.

Fig. 3 is circuit and the connection layout of dummy load required for checkout.

In figure: 1, voltage stabilizing exports; 9, trickle resistance; 13.2, battery terminal contact display; 13.3, battery terminal contact display protective resistance; 161.1, inclined limit value resistance in dummy load; 161.2, dummy load voltage stabilizing value is adjustable; 161.3, inclined resistance under dummy load; 161.4, dummy load triode; 161.5, dummy load collector resistance; 201.2; Charging one pipe; 201.3, charge a pipe biasing resistor; 301, charge two pipes; 301.1, charge two pipe biasing resistors; 501, transport and placing device is compared; 501.1, inclined resistance on homophase; 501.2, inclined voltage-stabiliser tube under homophase; 501.3, the lower inclined resistance of sampling; 501.4, sampling adjustable resistance; 501.5, adjustable limit value resistance is sampled; 701, interface triode; 801, two function resistance; 801.1, charging display luminous tube.

Embodiment

Fig. 1, Fig. 2, Fig. 3 example has gone out a kind of enforcement product example, the detection figure during Fig. 3 example goes out to implement.

One, select element: two triodes in N-type discharge cell are NPN triode, two triodes in P type charhing unit are PNP triode.Operational amplifier is that two transport and placing devices of same integrated circuit LM324 inside are welded into comparing transport and placing device.Power >=the 1W of discharge resistance.Other resistor-capacitor unit is without particular/special requirement.

Two, circuit control panel is made, soldered elements: the schematic diagram of map interlinking 2 makes circuit control panel, the schematic diagram soldered elements of map interlinking 2.

Three, energising checks and debugging.

Check that welding is errorless, energising can be carried out and check and debugging.

1, to starting and the inspection of end unit and debugging.

As shown in Figure 3, be linked to be adjustable voltage-stabiliser tube analog circuit with a triode, replace being become dummy load by rechargable battery.Rear title dummy load.Connect to charge between output and ground with the voltage gear of universal instrument.

Debugging dummy load, allows the voltage gear in universal instrument be shown as different magnitudes of voltage, as 6 volts, and 12 volts, 18 volts, 24 volts.

Regulate the value of sampling adjustable resistance (501.4 in Fig. 3), make to compare transport and placing device (501 in Fig. 3) respectively 6 volts, 12 volts, 18 volts of 24 volts of values time, all there is 0 output, otherwise the adjustable limit value resistance of sample (501.5 in Fig. 3) and the value sampling adjustable resistance (501.4 in Fig. 3) should be exchanged for.

Supplemental instruction, the principle of adjustable voltage-stabiliser tube analog circuit is linked to be with a triode, when the upper inclined resistance of this pipe uprises, the voltage of charging end will increase the bias voltage that just can puncture this pipe, this pipe is made to enter magnifying state, the collector voltage of this dummy load triode (161.4 in Fig. 3) has a scope changed, and thus can be modeled to a different voltage stabilizing didoe, thus can simulate the value of 6 volts, 12 volts, 18 volts 24 volts.

2, paired pulses generating unit frequency the inspection of energising and debugging.

Dummy load in connection.The output of pulse generator is connected, cold junction ground connection with oscillographic hot junction.

After being powered up, the vibration figure that oscilloscope has shows.

If incorrect, then may be that element welding is wrong, may be maybe that capacitor quality is bad, serious drain.

The resistance of regulating frequency adjustable resistance, make shown by oscilloscope frequency meet designing requirement, its rule is that resistance is larger, and frequency is slower, otherwise faster.

3, the logical check of docking port triode interface and logical AND charging display unit.

A, by interface transistor base shorted to earth, now this pipe collector should be high-order, estimates the collector electrode of P type charhing unit two triode without electricity, otherwise be that line is wrong with voltmeter.Charging display luminous tube (801.1 in Fig. 2) now should not work.

B but be low level at N-type discharge cell two transistor collector, and should saturation condition be in, if incorrect, in the situation that line is error-free, the base resistance values of discharge tube should be reduced.

C, connect power supply by after interface transistor base series resistance, now this pipe collector should be low level, and the collector electrode measuring P type charhing unit two triode with voltmeter has electricity, and should be saturated.If situation is incorrect, may be that line is wrong.Or two biasing resistor resistances are excessive, (201.1 in Fig. 2 and 301.1).Charging display luminous tube (801.1 in Fig. 2) light now.

D, connect power supply by after interface transistor base series resistance, now this pipe collector should be low level, and the collector electrode measuring N-type discharge cell two triode with voltmeter has electricity, and is cut-off state.If situation is incorrect, may be that line is wrong.May be diode (10.4 in Fig. 2) short circuit of electric discharge door especially, or not weld.Charging display luminous tube (801.1 in Fig. 2) now should not work.

4, paired pulses generating unit frequency the inspection of energising and debugging.

Dummy load in connection.With oscillographic hot junction concatenation operation amplifier (611 in Fig. 2) output, cold junction ground connection.

After being powered up, oscilloscope has the display of vibration figure, and wherein an important feature of waveform is that the high bit time within one-period is long, and the time of low level is short, if the direction that situation on the contrary, is steering diode (in Fig. 2 611.6) is welded anti-.

Regulate duty ratio adjustable resistance (611.7 in Fig. 2) resistance, make the duty ratio shown by oscilloscope meet designing requirement, its rule is that resistance is larger, and the high bit time within one-period is shorter.Otherwise resistance is less, the high bit time within one-period is longer.

5, to the energising inspection of P type charhing unit and N-type discharge cell.

Connect dummy load, in dummy load, inclined limit value resistance, makes it the situation of underfill electricity.

The base stage of A, property-line connection interface triode (in longer 2 701), be serially connected in by ammeter between the collector electrode of two triodes in P type charhing unit and the output of P type charhing unit, now ammeter is zero.

Between collector electrode ammeter being serially connected in two triodes in discharge resistance and N-type discharge cell, ammeter just has electric current to indicate.

B, with voltage stabilizing export connect the base stage of a resistance to interface triode, ammeter ammeter is serially connected between the collector electrode of two triodes in P type charhing unit and the output of P type charhing unit, and ammeter should have electric current to indicate.

Between collector electrode ammeter being serially connected in two triodes in discharge resistance and N-type discharge cell, ammeter is zero.

Correct above, the energising that P type charhing unit and N-type discharge cell are described correctly, as incorrect, then connects wrong, or the triode in P type charhing unit and N-type discharge cell damages.

C, closed electric discharge excision switch (10.6 in Fig. 2).

Now no matter analog charge triode is in is opened or open circuit conditions, and the collector electrode of two triodes in discharge cell should be height.

6, the battery terminal contact display in load unit is checked.

When installation is by rechargable battery, and when not switching on power, if this battery terminal contact display (13.2 in Fig. 3) Ying Liang, incorrect, may be that polarity weldering is anti-, or battery terminal contact display protective resistance (13.3 in Fig. 3) resistance be excessive.

7, to the detection of tiny stream electric current.

Be connected on by ammeter on tiny stream resistance (9 in Fig. 2) branch road, debugging tiny stream resistance, makes tiny stream electric current meet the requirements.Its rule is that more small area analysis is larger for resistance.Otherwise resistance more big current is less.

Claims (4)

1. parallel pulse charge and discharge type low-carbon (LC) charger, is characterized in that: by trickle resistance, N-type discharge cell, load, P type charhing unit, and start and end unit, impulse generating unit, interface unit, logical AND charging display unit forms jointly;

Wherein: P type charhing unit is made up of the pipe that charges, the pipe biasing resistor that charges, charging two pipe, the two pipe biasing resistors that charge: charging one pipe is all connected on voltage stabilizing with the emitter of charging two pipes and exports, the pipe biasing resistor that charges is connected between the collector electrode of interface triode in the base stage of charging one pipe and interface unit, the two pipe biasing resistors that charge are connected between the collector electrode of interface triode in the base stage of charging two pipe and interface unit, charging one pipe is connected together with the collector electrode of charging two pipes, becomes the output of P type charhing unit;

N-type discharge cell is by the pipe that discharges, electric discharge base stage all-in resistance, electric discharge door diode, excision switch, discharge a pipe trigger resistance, discharge resistance, discharge two pipe trigger resistance, discharge two pipe compositions: a termination of discharge resistance is by the positive pole of rechargable battery, another termination electric discharge one pipe of discharge resistance and the collector electrode of electric discharge two pipes, in one termination logical AND charging display unit of electric discharge base stage all-in resistance, two function resistance and charging show the series connection point of luminous tube, another termination electric discharge door diode of electric discharge base stage all-in resistance is to electric discharge base stage control point, the pipe trigger resistance that discharges is connected between the base stage of electric discharge base stage control point and electric discharge one pipe, the two pipe trigger resistance that discharge are connected between the base stage of electric discharge base stage control point and electric discharge two pipes, discharge the emitter of a pipe and the grounded emitter line of electric discharge two pipes,

Interface unit is made up of interface triode, base resistance, door diode: the grounded emitter line of interface triode, the output of operational amplifier in one termination impulse generating unit of base resistance, the positive pole of another termination door diode of base resistance, the base stage of the negative pole connection interface triode of door diode;

Impulse generating unit is by operational amplifier, integrating resistor, integrating capacitor, frequency-adjustable resistance, homophase divides and presses inclined resistance, homophase divides pressure inclined resistance, steering diode, duty ratio adjustable resistance, duty limiting resistance forms: the inverting input of operational amplifier and the indirect integrating resistor of output, integrating capacitor is connected between the inverting input of operational amplifier and ground wire, steering diode, duty ratio adjustable resistance, duty-cycle limit resistant series, be connected between the inverting input of operational amplifier and output, the output of operational amplifier and the indirect homophase of in-phase input end divide and press inclined resistance, frequency-adjustable resistance and homophase divide depresses inclined resistant series between the in-phase input end and ground wire of operational amplifier,

To start with end unit by sampling adjustable resistance, sample time inclined resistance, to compare on transport and placing device, homophase inclined voltage-stabiliser tube under inclined resistance, homophase, sample adjustable limit value resistance, clamp diode 1, clamp diode 2 form:

Sampling adjustable resistance with sample adjustable limit value resistance and be serially connected in the output of charhing unit with between the inverting input comparing transport and placing device, sampling adjustable lower bias resistance is connected on and compares between the inverting input of transport and placing device and ground wire, on homophase, inclined resistance is connected on signal input with between the in-phase input end comparing transport and placing device, under homophase, inclined voltage-stabiliser tube is connected on and compares between the in-phase input end of transport and placing device and ground wire, the negative pole of two clamp diodes is all connected on and compares on the output of transport and placing device, the positive pole of clamp diode 1 connects the positive pole of door diode, the positive pole of clamp diode 2 connects the positive pole of electric discharge door diode,

Logical AND charging display unit shows luminous tube by charging and two function resistance form: a termination signal of two function resistance inputs, the positive pole of another termination charging display luminous tube, the collector electrode of the negative pole connection interface triode of charging display luminous tube;

Load unit shows protective resistance form by by rechargable battery, battery terminal contact display, battery terminal contact: the contact of battery terminal contact display series-connected cell shows a protective resistance and is connected between the output of charhing unit and ground wire.

2. parallel pulse charge and discharge type low-carbon (LC) charger according to claim 1, it is characterized in that: two triodes in N-type discharge cell are NPN triode, two triodes in P type charhing unit are PNP triode.

3. parallel pulse charge and discharge type low-carbon (LC) charger according to claim 1, is characterized in that: operational amplifier is that two transport and placing devices of same integrated circuit LM324 inside are welded into comparing transport and placing device.

4. parallel pulse charge and discharge type low-carbon (LC) charger according to claim 1, is characterized in that: the power >=1W of discharge resistance.