CN201349126Y - Protective circuit board of lead-acid battery pack for electrically driven vehicle - Google Patents

Abstract

The utility model discloses a protective circuit board of a lead-acid battery pack for an electrically driven vehicle, which comprises a lithium battery protecting chip, a first field effect tube, a second field effect tube, resistors, capacitors, a bleeder circuit, a driving circuit for the first field effect tube and a driving circuit for the second field effect tube. The utility model adopts the lithium battery protecting chip which is cheap and reliable, and voltage division is carried out by the bleeder circuit; the lithium battery protecting chip is suitable for the lead-acid battery, and the driving circuits for the field effect tube is added to boost a driving voltage so as to achieve the effect that the first field effect tube and the second field effect tube are well driven. The utility model has the advantages that creative peripheral circuit design is carried out on the basis of the existing lithium battery protecting chip, and the lithium battery protecting chip is suitable for the lead-acid battery pack; the lead-acid battery pack, particularly the lead-acid battery pack free of maintenance, has comprehensive protecting functions at a relatively low cost so as to reach the designed ideal service life.

Description

The protective circuit plate of Lead Acid Battery Used for Electric Vehicle group

Technical field

The utility model relates to lead acid accumulator, especially the protective circuit plate of Lead Acid Battery Used for Electric Vehicle group.

Technical background

Electric bicycle, battery-operated motor cycle are that main LEV (Light Electric Vehicle) (hereinafter to be referred as " electric motor car ") has reached more than 5,000 ten thousand ones at home, and annual speed with more than 2,000 ten thousand ones is increasing, these electric motor cars overwhelming majority uses maintenance-free lead accumulator, the designed life of lead acid accumulator is generally more than 3 years, but on average be about 14 months actual life, the short life of lead acid accumulator has increased the recovery and the plumbous reproduction operation amount of old and useless battery greatly, and large-scale plumbous recovery and regenerative process cause very big environmental burden also to waste resource.

The main cause that lead acid accumulator can't reach designed life is: the reliable protection device all is not set in all Lead Acid Battery Used for Electric Vehicle.The variation of environment for use allows battery arrive end-of-life ahead of time, mainly shows the following aspects:

(1) battery is overcharged and is caused end-of-life:

Normal charging battery of electric vehicle device all has overcharge protection, if but in the use charger overheated (for example fan damages, and it is bad to dispel the heat) may cause overcharge protection unusual; Secondary is changed the charger additives for overcharge protection inferior unreliable (but generally being adopted because of cheap) in market; Single battery falls behind or the battery cell short circuit all causes overcharge protection to realize; The battery sulfuration causes overcharge protection to finish; The overheated overcharge protection that will cause of battery can't be finished.

After battery was overcharged, the water in the electrolyte was decomposed, and internal resistance increases, plate vulcanizing, and capacity descends, charging heating even distortion, end-of-life.

(2) battery over-discharge causes end-of-life:

Normal controller all is provided with over; Component wear overheated or controller may cause over to lose efficacy; Behind the over, cell voltage gos up, and controller is removed deep-discharge protection, and the user continues to use (discharge) will cause battery over-discharge; Behind the battery over-discharge, the user not long-time discharge of little electric current of charging or alarm in time will cause serious sulfuration of battery or micro-short circuit.

Battery by overdischarge after, produce sulfuration and micro-short circuit, capacity descends, internal resistance increases, charging process heating even distortion cause end of life.

(3) the battery thermal runaway causes end-of-life:

Summer or in the environment of sweltering heat the charging will cause thermal runaway; Battery temperature rose after the battery thermal runaway showed charging, terminal voltage descends on the contrary, constant voltage charge process charging current can't drop to charger and change the lamp set point, charger can't judge whether charge saturated and can't realize stopping the charging, the charging that does not stop causes battery dehydration internal resistance to increase, cause continuing heating, up to distortion.Battery used more than 1 year, and the migration that positive pole contains the anode antimony of antimony allows the battery cathode overpotential of hydrogen evolution descend to cause dehydration may cause battery " to change lamp " and causes the charging process thermal runaway.

Thermal runaway is the global difficult problem of maintenance-free battery industry, and battery itself can't solve this defective.During the battery of electric vehicle thermal runaway, as long as, may cause battery end of life through the trickle charge of accumulative total more than 48 hours.

(4) battery is caused end-of-life by short circuit:

Short circuit may cause lead to burn or the fusing of plumbous part; Short circuit may produce fire or blast.In the installation process of battery of electric vehicle, the careless short circuit of operating personnel can't be avoided.

(5) battery sulfuration and the aging end-of-life that causes:

Battery has been grown service time, produces sulfuration and aging phenomenon naturally; Often unsaturated the causing progressively of charging vulcanized; Overdischarge does not have timely forced charge will cause sulfuration.

More than the problem ubiquity in actual use of five aspects, cause lead acid accumulator can't reach useful life of design, and the electrochemical techniques of the problem aspect five by battery itself can't thoroughly solve at all more than in the maintenance-free battery that electric motor car uses.In this case, must solve deficiency and the defective that battery itself exists by the means of electronics.

All be provided with the protective circuit plate in the existing lithium battery, as shown in Figure 1, this protective circuit plate comprises li-ion cell protection chip, two field effect transistor, two resistance and an electric capacity; First resistance is connected between the vdd terminal of the positive pole of battery pack and li-ion cell protection chip; electric capacity is connected between the vdd terminal and VSS end of li-ion cell protection chip; the Co end of li-ion cell protection chip connects the grid of second field effect transistor; the Do end of li-ion cell protection chip connects the grid of first field effect transistor; the VM end of li-ion cell protection chip is connected to the source electrode of second field effect transistor by second resistance; the drain electrode of first field effect transistor is connected with the drain electrode of second field effect transistor, and the source electrode of first field effect transistor connects the negative pole of battery pack.

As shown in Figure 2, the li-ion cell protection chip comprises five voltage detector U1-U5, a reference voltage unit, corresponding delay circuit, a frequency division control logic, a vibration control logic circuit and a circuit that allows or forbid to zero volt battery charge.When charging voltage or charging current are changed from small to big, when surpassing set point, output Co end just transfers low level to through inner corresponding delay.After overcharging or charging overcurrent, power brick is left charger and is had load to be connected to vdd terminal, and when the voltage drop of battery was under overcharging detected value, the respective detection device was reset and the output of Co end becomes high level.If power brick is still on charger, even the voltage drop of battery is under overcharging detected value the time, the over-charge protective state still can not removed.The VM end of li-ion cell protection chip is through the signal of the above-mentioned second resistance detection negative pole of output end, and process comparator and battery cathode voltage compare the sense of current and the size of judging battery and whether surpasses set point.The D0 end is the output pin of overdischarge detector and discharge over-current detector.When discharge voltage by height to low, and when being lower than the threshold voltage of overdischarge detector, the D0 end just changes low level after through the internal fixation time-delay.Detected put after, as charger is connected with battery pack, and the D0 end transfers high level to when powered battery voltage is higher than the threshold voltage of overdischarge voltage detector.Built-in overcurrent, short circuit detector can detect the state of discharge over-current, and through after the built-in constant time lag, become low level by output D0 end and cut off discharge; Thereby or the value that makes the D0 end when detecting short circuit current immediately step-down cut off discharge.In case after detecting overcurrent or short circuit, power brick can be separated D0 end level with load and become height.In addition, after detecting overdischarge, the protection chip will suspend internal circuit work to maintain extremely low power consumption level (conventional value is in 0.3 microampere).

Above-mentioned this li-ion cell protection chip; by judgement to cell voltage, charging current, discharging current, short circuit current; the process of control charge or discharge; battery pack is carried out additives for overcharge protection, charge over-current protection, over, discharge over-current protection, short-circuit protection, allow lithium battery reach the desirable useful life of design.

Because li-ion cell protection chip cheapness is reliable again; with of the protection of li-ion cell protection chip application in lead acid accumulator; should be than the scheme that is easier to expect; but this method of the practice of up to the present also having no talent; reason is that enforcement and design process exist bigger difficulty, also has certain skill.Parameter and lead acid accumulator that wherein the underlying cause is a lithium battery are different fully, the difference such as the following table of the parameter of single-unit lithium ion battery (is example with 3.7V800mAH) and lead-acid battery group (is example with 48V10Ah):

The contrast project	Single-unit lithium ion battery (3.7V800mAH)	Lead-acid battery group (48V10Ah)
			Additives for overcharge protection voltage	4.28V	60V
Over voltage	2.5V	40V
			The discharge over-current protection	3A	25A
Short circuit current protection	6A	150A

According to above contrast as can be seen, the protection chip of lithium battery can not simple application in the protection of lead acid accumulator, main cause is: withstand voltage deficiency, reason such as the operating voltage point is not inconsistent, and is little to the driving voltage of metal-oxide-semiconductor, and power is little.To must make creationary periphery circuit design with the li-ion cell protection chip application in lead acid accumulator, up to the present, but also the scheme of not finding practice.

Then need spend a large amount of development costs and research and development time for lead acid accumulator design protection chip specially, cost is too high, causes existing lead acid accumulator not have the reliable protection device.

The utility model content

The purpose of this utility model provides a kind of protective circuit plate of Lead Acid Battery Used for Electric Vehicle group with low cost; it carries out creationary periphery circuit design on the basis of li-ion cell protection chip; thereby realize lead acid accumulator is carried out comprehensive reliable protection, allow lead-acid batteries particularly the maintenance-free lead accumulator group reach desirable useful life of design.

The technical solution of the utility model is such: the protective circuit plate of Lead Acid Battery Used for Electric Vehicle group, comprise li-ion cell protection chip, first field effect transistor, second field effect transistor, resistance and electric capacity, the VM end of li-ion cell protection chip is connected to the source electrode of second field effect transistor by resistance, the drain electrode of first field effect transistor is connected with the drain electrode of second field effect transistor, and the source electrode of first field effect transistor connects the negative pole of battery pack; Also comprise the drive circuit of bleeder circuit, first field effect transistor and the drive circuit of second field effect transistor; the power end of above-mentioned bleeder circuit connects the positive terminal of battery pack; the output of above-mentioned bleeder circuit connects the vdd terminal of above-mentioned li-ion cell protection chip; the Co of above-mentioned li-ion cell protection chip holds the grid that is connected to above-mentioned second field effect transistor by the drive circuit of above-mentioned second field effect transistor, and the Do end of above-mentioned li-ion cell protection chip is connected to the grid of above-mentioned first field effect transistor by the drive circuit of above-mentioned first field effect transistor.

Be connected with temperature detect switch (TDS) between the drive circuit of the Co of above-mentioned li-ion cell protection chip end and above-mentioned second field effect transistor, this temperature detect switch (TDS) places battery interior or be attached to the hull outside face of battery or place in the battery case.

After adopting such scheme, the utility model adopts the reliable again li-ion cell protection chip of cheapness, carries out dividing potential drop by bleeder circuit, makes the li-ion cell protection chip be applicable to lead acid accumulator; And increased the field effect transistor drive circuit, driving voltage has been improved, to reach the effect that drives first field effect transistor and second field effect transistor well.And the utility model is also set up temperature switch at the Co of li-ion cell protection chip end, realizes battery thermal runaway controlled function.During work, when the total voltage of battery pack changed, the voltage that is added in the vdd terminal of li-ion cell protection chip changed according to a certain percentage, realized the controlled function of li-ion cell protection chip, to reach the purpose of control battery pack.The beneficial effects of the utility model are: the utility model has carried out creationary periphery circuit design on the basis of existing li-ion cell protection chip; make it be applicable to lead-acid batteries; by comparatively cheap cost just can allow lead-acid batteries particularly the maintenance-free lead accumulator group have overcharge protection; the charge over-current defencive function; deep-discharge protection; the discharge over-current defencive function; short-circuit protection function; the thermal runaway defencive function; not damaged repair function after single balanced repair function that only falls behind and the sulfuration reaches desirable useful life of design.This lead-acid accumulator protecting circuit board of the present utility model, with low cost, highly reliable, reach the purpose of penetration and promotion fully, very significant meaning is arranged.

Description of drawings

Fig. 1 is the circuit theory diagrams of the lithium battery protection circuit plate commonly used.

Fig. 2 is the circuit theory diagrams of li-ion cell protection chip among Fig. 1.

Fig. 3 is circuit theory diagrams of the present utility model.

Fig. 4 is the structural relation figure of the utility model protective circuit plate and lead acid accumulator.

Fig. 5 is the circuit theory diagrams of a specific embodiment of the present utility model.

Embodiment

The protective circuit plate of the utility model Lead Acid Battery Used for Electric Vehicle group; as shown in Figure 3; comprise the li-ion cell protection chip IC; the first field effect transistor MOS1; the second field effect transistor MOS2; resistance R and capacitor C; bleeder circuit; the drive circuit of the drive circuit of first field effect transistor and second field effect transistor; the VM end of li-ion cell protection chip IC is connected to the source electrode of the second field effect transistor MOS2 by resistance R; the drain electrode of the first field effect transistor MOS1 is connected with the drain electrode of the second field effect transistor MOS2; the source electrode of the first field effect transistor MOS1 connects the negative pole of battery pack BT1; the power end of bleeder circuit connects the positive terminal of battery pack BT1; the output of bleeder circuit connects the vdd terminal of li-ion cell protection chip IC; the Co end of li-ion cell protection chip IC is connected to the canopy utmost point of the second field effect transistor MOS2 successively by the drive circuit of the temperature detect switch (TDS) Kt and second field effect transistor, the Do end of li-ion cell protection chip IC is connected to the grid of the first field effect transistor MOS1 by the drive circuit of first field effect transistor.

In circuit shown in Figure 3; electric current flows by counter clockwise direction in major loop during charging; during discharge; electric current flows in major loop in the direction of the clock; no matter be charging or discharge; when electric current flows through the first field effect transistor MOS1 and the second field effect transistor MOS2; because the existence of field effect transistor internal resistance; two ends two field effect transistor produce pressure reduction; the VM end of li-ion cell protection chip IC compares through voltage signal and the battery cathode that resistance R detects, and is used to judge charge over-current, discharge over-current and short-circuit signal.The realization principle and the process of the every function of the utility model protective circuit plate are as follows:

(1) realization of overcharge protection: in circuit shown in Figure 3; battery pack BT1 terminal voltage in charging process improves constantly; through after the dividing potential drop of bleeder circuit; the vdd terminal voltage of li-ion cell protection chip IC is also along with raising; the detection comparator output switching activity that overcharges of li-ion cell protection chip IC inside when voltage reaches set point; the output of the Co of li-ion cell protection chip end transfers low level to by high level after control logic circuit is judged; the level that the drive circuit of second field effect transistor carries out after the voltage amplification also changes low by height; the second field effect transistor MOS2 disconnects (describing in the protection of the field effect transistor specific embodiment below) again, and overcharge protection is realized.Behind the additives for overcharge protection, battery can't continue charging, but can externally discharge by the parasitic diode of the second field effect transistor MOS2.

(2) realization of charge over-current defencive function: in circuit shown in Figure 3; when charging current is excessive; charge over-current detection comparator output switching activity in the li-ion cell protection chip IC; the Co of li-ion cell protection chip end output low level after control logic circuit is judged; the level that the drive circuit of second field effect transistor carries out after the voltage amplification also changes low by height; the second field effect transistor MOS2 disconnects (describing in the protection of the field effect transistor specific embodiment below) again, and the charge over-current defencive function is realized.After the charge over-current, battery can't continue charging, when the parasitic diode by the second field effect transistor MOS2 can externally discharge.

(3) realization of deep-discharge protection: in circuit shown in Figure 3; battery pack descends in the discharge process terminal voltage; after the bleeder circuit sampling; the voltage of vdd terminal that is added in the li-ion cell protection chip IC is also along with decline; when voltage drops to set point; the output switching activity of overdischarge detection comparator; after logical circuit judgement and time-delay; the Do end output of li-ion cell protection chip IC is changeed low level by high level; turn-off (describing in the protection of the field effect transistor specific embodiment below) by the first field effect transistor MOS1 behind the drive circuit of first field effect transistor, deep-discharge protection is realized again.Behind the over, battery pack can't continue discharge, but can be recharged by the parasitic diode of the first field effect transistor MOS1 inside.

4) realization of discharge over-current defencive function: in circuit shown in Figure 3; when the discharge over-current comparator in the li-ion cell protection chip IC detects discharging current above set point; the output level upset; after the judgement and time-delay through logical circuit; the Do end output of li-ion cell protection chip transfers low level to by high level; amplifying signal through the drive circuit of first field effect transistor also transfers low level (describing again in the protection of the field effect transistor specific embodiment below) to; the first field effect transistor MOS1 turn-offs, and the discharge over-current defencive function is realized.Behind the over, battery pack can't continue discharge, but can be recharged by the parasitic diode of the first field effect transistor MOS1 inside.

(5) realization of short-circuit protection function: in circuit shown in Figure 3; output level overturn after li-ion cell protection chip IC internal burden short-circuit detecting comparator detected short-circuit signal; after the judgement of process logical circuit and the time-delay of nanosecond; the Do end output of li-ion cell protection chip transfers low level to by high level; similar with above-mentioned overdischarge principle, the first field effect transistor MOS1 turn-offs immediately, when short-circuit signal is not removed; short-circuit protection function keeps, and the short-circuit protection function of circuit is realized.

(6) realization of thermal runaway defencive function: in charging process; as long as circuit does not enter additives for overcharge protection or charge over-current protection; the Co end output high level of li-ion cell protection chip IC; the second field effect transistor MOS2 is in conducting state, and when battery pack temperature surpassed set point, temperature switch Kt disconnected; the high level of the Co end output of li-ion cell protection chip IC is cut off; the second field effect transistor MOS2 turn-offs, and battery charge is under an embargo, and the thermal runaway defencive function is realized.After the thermal runaway protection, battery continues charging and is under an embargo, but can be discharged through the parasitic diode of the second field effect transistor MOS2 inside, has a power failure to prevent the electric motor car use.

(7) realization of the not damaged repair function after single equilibrium reparation that only falls behind, the sulfuration.When single only the backwardness or monomer when falling behind appears in battery pack; battery pack is charged than charging normal the higher charger of device voltage as long as use; charge latter stage; protective circuit enters the additives for overcharge protection state; at this time; as long as circuit connects very little load, such as connecting alarm, battery terminal voltage descends; after arriving set point; over is removed, and battery is recharged again, along with the rising of charging voltage; baffle enters additives for overcharge protection again; so circulation, battery pack is being accepted batch (-type) voltage clamp Bradycardia and is being dashed, this intermittently Bradycardia dash very obviously and very little cell damage to the repairing effect after reparation after the battery pack disequilibrium and the sulfuration.Micro-damage repair function after single equilibrium reparation that only falls behind, the sulfuration is accomplished.The method that battery is repaired on the market is a variety of, actual specific after, said method is the simplest the most effective, and is also minimum to the damage of battery.

The protective circuit plate of the utility model Lead Acid Battery Used for Electric Vehicle group; during use; as shown in Figure 4; in series battery 1; wherein inlay protective circuit plate 2 of the present utility model in the battery (or many); and allow 1 one-tenth series connection of major loop and whole battery group of protective circuit plate 2; the volume of protective circuit plate is very little; after embedding battery; keep the outside dimension of battery not need to increase; and battery keeps original anodal and two binding posts of negative pole, does not need to increase the binding post that has more so that install.In the utility model, also can protective circuit plate 2 is external, only temperature switch Kt is attached to battery surface or puts into battery or rest battery case and get final product.

Be example now, the principle of work and power of the utility model Lead Acid Battery Used for Electric Vehicle group protective circuit plate is described with the special-purpose maintenance-free lead accumulator group of 48V10Ah (6-DZM-10) electric motor car of consumption maximum on the market.

As shown in Figure 5, battery pack is 48V10Ah, and the battery BT2 that is unified into 36V by the battery BT1 of 12V and 3 12V battery strings is in series, and protective circuit plate of the present utility model is mounted in it in the middle of the battery of a 12V.The method that the selection major parameter of IC is selected:

(1) the additives for overcharge protection voltage of li-ion cell protection chip IC is chosen as 4.28V; over voltage is chosen as 2.9V; divider resistance R1:(R2+IC internal resistance)=2.5; when battery BT1 charging voltage reached 15V, the vdd terminal voltage of li-ion cell protection chip IC was 4.28V, enters additives for overcharge protection; in discharge process; when cell voltage dropped to 10.15V, the voltage of the vdd terminal of li-ion cell protection chip IC dropped to 2.9V, and battery pack enters over.

In actual selection, above parameter is that reasonably because the maximum charging voltage of charger is traditionally arranged to be 14.8V/12V, when charger was out of control, the li-ion cell protection chip IC was carried out the protection of 15V/12V relatively.Same reason, the over voltage operated by rotary motion of controller for electric vehicle is at 10.5V/12V, and when controller was out of control, the protective circuit plate carried out the protection of 10.15V/12V.Above parameter can be selected rather than unique selection according to actual conditions, as long as satisfy the actual needs that use.

(2) to the selection of the control signal voltage of the charge over-current of li-ion cell protection chip IC; suppose internal resistance Rmos1+Rmos2=0.012 ohm of field effect transistor; when charging current surpasses 10A; pressure reduction on two field effect transistor is 0.12V; at this time selecting the charge over-current detection voltage of li-ion cell protection chip IC is 0.12V, and the protective circuit plate enters the charge over-current protection when charging current surpasses 10A.Same method has determined that the current value of discharge over-current protection, the current value of short-circuit protection just can determine the parameter of the li-ion cell protection chip IC selected.Above parameter can be carried out other selections according to actual conditions, to satisfy the needs that use.

Among Fig. 5, field effect transistor Q1, Q2 and resistance R 4, R5 constitute the drive circuit of the first field effect transistor MOS1, when the Do of li-ion cell protection chip IC end output high level, field effect transistor Q2 conducting, field effect transistor Q1 ends, the voltage of battery BT1 is added in by resistance R 5 on the grid of the first field effect transistor MOS1, the first field effect transistor MOS1 conducting; On the contrary, the first field effect transistor MOS1 ends in the time of the Do of li-ion cell protection chip IC end output low level.Identical principle, field effect transistor Q3, Q4 and resistance R 6, R7 form the drive circuit of the second field effect transistor MOS2, the second field effect transistor MOS2 conducting when the Co of li-ion cell protection chip IC end is high level, on the contrary end.

The guard method of the first field effect transistor MOS1 and the second field effect transistor MOS2 is finished by the field effect transistor drive circuit; the above-mentioned gate drive voltage method of direct short-circuit discharge over the ground that adopts when will allow field effect transistor end prevents that the field effect transistor pipe is operated in the amplification region and damages through excessive electric current.

In order to make protective circuit plate operating current as far as possible little; prevent that battery BT1 is consumed capacity and causes the battery pack disequilibrium; resistance R 1, R2, R4, R5, R6, R7 select high resistance measurement as far as possible; allow the total power consumption electric current of protective circuit plate less than 30uA; facts have proved fully and can accomplish; certainly, also can select other parameter according to actual needs.

Resistance R 3, capacitor C 1, resistance R 8 are carried out the parameter selection according to the requirement of li-ion cell protection chip IC manufacturer in the circuit.

Voltage-stabiliser tube VD and resistance R 9 are that when preventing short-circuit protection, reverse voltage punctures for the VM that protects the li-ion cell protection chip IC holds in the circuit.

In the circuit, enough withstand voltage diode D is set between the positive pole of resistance R 1 and battery BT1 protects the li-ion cell protection chip IC, reverse voltage damages the li-ion cell protection chip IC when preventing the short circuit generation.

Present embodiment is a kind of in the embodiment, and other practical circuits comprise:

1, directly the 48V battery pack is carried out the dividing potential drop sampling;

2, use fixedly step-down of voltage stabilizing didoe;

3, according to above principle at battery of electric vehicle parameter exploitation application-specific integrated circuit not needs carry out the dividing potential drop sampling;

4, improve the Co end of li-ion cell protection chip IC and the output voltage of Do end and directly drive first field effect transistor MOS1 and the MOS2;

5, the VM end of raising li-ion cell protection chip IC is withstand voltage, can not need protection;

6, use multisection lithium battery protection chip IC;

7, the fractionation of the function in the li-ion cell protection chip IC is finished.

These changes all be unable to do without the disclosed principle of the utility model.

Claims (2)

1, the protective circuit plate of Lead Acid Battery Used for Electric Vehicle group, comprise li-ion cell protection chip, first field effect transistor, second field effect transistor, resistance and electric capacity, the VM end of li-ion cell protection chip is connected to the source electrode of second field effect transistor by resistance, the drain electrode of first field effect transistor is connected with the drain electrode of second field effect transistor, and the source electrode of first field effect transistor connects the negative pole of battery pack; It is characterized in that: also comprise the drive circuit of bleeder circuit, first field effect transistor and the drive circuit of second field effect transistor; the power end of above-mentioned bleeder circuit connects the positive terminal of battery pack; the output of above-mentioned bleeder circuit connects the vdd terminal of above-mentioned li-ion cell protection chip; the Co of above-mentioned li-ion cell protection chip holds the grid that is connected to above-mentioned second field effect transistor by the drive circuit of above-mentioned second field effect transistor, and the Do end of above-mentioned li-ion cell protection chip is connected to the grid of above-mentioned first field effect transistor by the drive circuit of above-mentioned first field effect transistor.

2, the protective circuit plate of Lead Acid Battery Used for Electric Vehicle group according to claim 1; it is characterized in that: be connected with temperature detect switch (TDS) between the drive circuit of the Co of above-mentioned li-ion cell protection chip end and above-mentioned second field effect transistor, this temperature detect switch (TDS) places battery interior or be attached to the hull outside face of battery or place in the battery case.

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