CN201466772U - Charger management circuit - Google Patents

Abstract

The utility model discloses a charger management circuit. The charger management circuit comprises a power supply energizing detection circuit, a battery polarity detection circuit, a battery state detection circuit, a battery voltage detection circuit, a charging control circuit, a power tube charging output circuit and a LED indicating lamp control circuit, wherein the LED indicating lamp control circuit is used to control the work state of the indicating lamp according to the detection result of each detection circuit; and the charging control circuit is used to control whether the power tube charging output circuit is used to charge a lithium ion battery according to the detection result of each detection circuit. The charger management circuit can be used to effectively and instantly monitor the state of the lithium ion battery and control the charging current of the lithium ion battery, thus greatly increasing the safety and reliability of the lithium ion battery charging and prolonging the service life of the lithium ion battery.

Description

A kind of charger management circuit

Technical field

The utility model relates to a kind of battery charger, relates in particular to a kind of charge management circuit that is fit to various model lithium ion batteries.

Background technology

Lithium ion battery is because its capacity is big and voltage is higher than the AA battery, therefore be used in increasing occasion, simultaneously again because the chemical characteristic of lithium ion battery itself, the charging environment causes easily blasts, so very high to the charge management circuit requirement, generally all be furnished with special charger with the electronic product of lithium ion battery.Like this when one family has multiple different electronic product, the mobile phone of different model different vendor for example just needs the lithium ion charger of a plurality of special uses, loses or damage one of them all must reconfigure.Therefore, occurred a kind of omnipotent charger that is called on the market, this universal charger can be to the lithium ion cell charging of various models, but it is to be built by simple discrete device, fatal shortcoming is arranged: can not carry out monitoring in real time to lithium ion battery, battery explosion phenomenon takes place easily.

Therefore, along with different electronic product technology popularize with and the reaching its maturity and enriching constantly of the charger of coupling, and electronic product user's magnanimity increases, how to improve the fail safe and the reliability of lithium ion cell charging, prolong the useful life of lithium ion battery, make the charger product have more the market competitiveness, become problem anxious to be solved.

Summary of the invention

The purpose of this utility model is to provide a kind of charger management circuit, can monitor the state of lithium ion battery effectively in real time, and control is to the charging current of lithium ion battery, and then improves the fail safe and the reliability of lithium ion cell charging greatly, prolongs the useful life of lithium ion battery.

For solving technical problem of the present utility model, the utility model discloses a kind of charger management circuit, wherein, this charger management circuit comprises: power supply electrifying testing circuit, battery polar testing circuit, test circuit for cell status, battery voltage detection circuit, charging control circuit, power tube charging output circuit, LED light control circuit; Wherein

Described power supply electrifying testing circuit, the battery polar testing circuit, test circuit for cell status, battery voltage detection circuit link to each other with described LED light control circuit and charging control circuit respectively, described charging control circuit also with described power tube charging output circuit;

Described power supply electrifying testing circuit is used to detect that described lithium ion battery is current whether powers on;

Described battery polar testing circuit, the battery polar when being used to detect lithium ion battery and putting into the lithium ion universal charger;

Described test circuit for cell status is used to detect the current battery status of lithium ion battery;

Described battery voltage detection circuit is used to detect the current voltage of lithium ion battery;

Described LED light control circuit is used for the operating state according to the testing result control indicator light of each testing circuit;

Described charging control circuit is used for whether charging output circuit to lithium ion cell charging according to the testing result power controlling pipe of each testing circuit.

More excellent, when described battery voltage detection circuit detection cell voltage is charged to about 4.15V, described battery voltage detection circuit is further used for testing result is sent to described charging control circuit, transfers constant voltage charge by described charging control circuit power controlling pipe charging output circuit to by constant current charge.

More excellent, when described battery voltage detection circuit detection cell voltage is charged to 4.2V, described battery voltage detection circuit is further used for testing result is sent to described LED light control circuit, control saturated indicator light by the LED light control circuit and light, described charging control circuit is further used for stopping for charging according to testing result power controlling pipe charging output circuit.

More excellent; described charger management circuit also comprises overheating protection circuit; described overheating protection circuit is connected with described charging control circuit; be used for Current Temperatures is passed to described charging control circuit; charge output circuit when temperature reaches certain preset temperature value, not to described lithium ion cell charging by described charging control circuit power controlling pipe.

Compared with prior art, the utlity model has following beneficial effect:

The disclosed charger management circuit of the utility model, described LED light control circuit is used for the operating state according to the testing result control indicator light of each testing circuit; Described charging control circuit is used for whether charging output circuit to lithium ion cell charging according to the testing result power controlling pipe of each testing circuit.Can monitor the state of lithium ion battery effectively in real time, and control charging current, and then improve the fail safe and the reliability of lithium ion cell charging greatly, prolong the useful life of lithium ion battery lithium ion battery.

Description of drawings

Fig. 1 is a kind of lithium ion universal charger management circuit block diagram of the utility model embodiment;

Fig. 2 is a kind of battery plus-negative plate charge control module circuit theory diagrams of the utility model embodiment;

Fig. 3 is a kind of battery status and the positive and negative level of the battery judge module circuit theory diagrams of the utility model embodiment;

Fig. 4 is the power supply electrifying testing circuit schematic diagram of a kind of circuit inside of the utility model embodiment;

Fig. 5 is the inner constant current charge control module of a kind of circuit circuit theory diagrams of the utility model embodiment;

Fig. 6 is a kind of circuit over-heat inside protective circuit schematic diagram of the utility model embodiment.

Specific embodiment

Below in conjunction with Figure of description lithium ion universal charger management circuit of the present utility model is specifically described.

See also Fig. 1, a kind of lithium ion universal charger management circuit block diagram for the utility model embodiment, this lithium ion universal charger management circuit can comprise: power supply electrifying testing circuit 11, battery polar testing circuit 12, test circuit for cell status 13, battery voltage detection circuit 14, charging control circuit 15, power tube charging output circuit 16, LED light control circuit 17.

This power supply electrifying testing circuit 11, battery polar testing circuit 12, test circuit for cell status 13 and battery voltage detection circuit 14 all are connected with LED light control circuit 17, output detection signal separately is to LED light control circuit 17 respectively, LED light control circuit 17 can connect indicator light L1, L2, L3 respectively, and different indicator lights can be represented different detected states.Battery polar testing circuit 12, test circuit for cell status 13 and battery voltage detection circuit 14 can also all be connected with charging control circuit 15, whether output detection signal is charged according to different testing result control lithium ion batteries by charging control circuit 15 to charging control circuit 15 respectively.Simultaneously, charging control circuit 15 also connects power tube charging output circuit 16, the operating state of power controlling pipe charging output circuit 16, i.e. and whether charging control circuit 15 power controlling pipes charging output circuit 16 gives lithium ion cell charging.

The workflow of this lithium ion universal charger management circuit can be as described below, when this lithium ion battery is put on the charger, if this moment, supply voltage did not insert, this lithium ion universal charger management circuit is powered by lithium ion battery, because at this moment lithium ion battery is as power supply, lithium ion battery is with the current discharge of about 0.8mA. and this lithium ion universal charger management circuit detects battery status, for example power supply electrifying testing circuit 11 detects whether lithium ion battery is current powers on, battery polar when battery polar testing circuit 12 detection lithium ion batteries are put into the lithium ion universal charger, test circuit for cell status 13 detects the current battery status of lithium ion battery, and battery voltage detection circuit 14 detects the current voltage of lithium ion battery etc.

If lithium ion battery damages, test circuit for cell status 13 sends to LED light control circuit 17 with detected testing result; It is low excessively perhaps to work as lithium ion battery voltage, and battery voltage detection circuit 14 sends to LED light control circuit 17 with detected testing result, controls Battery Indicator Light L1 for extinguishing by LED light control circuit 17.If lithium ion battery is full, test circuit for cell status 13 sends to LED light control circuit 17 with detected testing result, lights expression by LED light control circuit 17 control indicator light L3 and need not charge.If battery status is normal and battery electric quantity less than, test circuit for cell status 13 sends to LED light control circuit 17 with detected testing result, 17 control Battery Indicator Light L1 light by the LED light control circuit, simultaneously, charging control circuit 15 is given lithium ion cell charging according to testing result power controlling pipe charging output circuit 16.

This lithium ion universal charger is connected with the mains behind the voltage, and each testing circuit in this this lithium ion universal charger management circuit also detects lithium ion battery, and Battery Indicator Light L1 extinguishes the expression lithium ion battery to be damaged, not to lithium ion cell charging.When battery voltage detection circuit 14 detects cell voltage greater than 4.2V, testing result is sent to LED light control circuit 17, saturated indicator light L3 is bright by 17 controls of LED light control circuit, simultaneously, charging control circuit 15 charges output circuit 1 not to lithium ion cell charging according to testing result power controlling pipe.When battery voltage detection circuit 14 detects cell voltage greater than 1.5V during less than 4.2V, testing result is sent to LED light control circuit 17, by the 17 control charging indicator light L2 flickers of LED light control circuit, at this moment, charging control circuit 15 charges normal according to 16 pairs of lithium ion batteries of testing result power controlling pipe charging output circuit, and charging current is constant to be 200mA.

When battery voltage detection circuit 14 detects cell voltages and is charged to about 4.15V, testing result is sent to charging control circuit 15, transfer constant voltage charge by charge output circuit 16 of charging control circuit 15 power controlling pipes to by constant current charge.

When battery voltage detection circuit 14 detection cell voltages are charged to 4.2V, testing result is sent to LED light control circuit 17, saturated indicator light L3 lights by 17 controls of LED light control circuit, and charging control circuit 15 stops for charging according to testing result power controlling pipe charging output circuit 16.

For preventing that superheat state from appearring in charging; circuit can also increase overheating protection circuit; this overheating protection circuit is connected with charging control circuit 15; Current Temperatures can be passed to charging control circuit 15, charge output circuit 16 when temperature reaches certain preset temperature value, not to lithium ion cell charging by charging control circuit 15 power controlling pipes; for example; when circuit temperature surpasses uniform temperature, for example 100 ℃ the time, cut off charging current.

Respectively the structure and the course of work of above-mentioned testing circuit is described in detail below.

See also Fig. 2, battery plus-negative plate charging control circuit schematic diagram for the utility model embodiment, lithium ion universal charger of the present utility model is designed to the charge management circuit of the lithium ion battery of suitable various models, so battery is when packing charger into, might be just, negative level connects anti-, this lithium ion universal charger circuit indoor design the auto polarity discrimination module, and export a control signal and give the MOS power tube that charges, charging MOS power tube is designed to two couples of PMOS and two pairs of NMOS pipes, as shown in Figure 2, a controller (control) connects and connects two couples of PMOS and two pairs of NMOS pipes respectively, when battery just connects, by PMOS pipe P35 and NMOS pipe N30 battery (battery) is charged, when the battery reversal connection, battery (battery) is charged by PMOS pipe P34 and NMOS pipe N31.

See also Fig. 3, battery status and the positive and negative level of battery decision circuitry schematic diagram for the utility model embodiment, this is the circuit to battery status and the positive and negative level judgement of battery, PIN1 among the figure and PIN7 are respectively the two poles of the earth of battery, when the voltage difference of PIN1 and PIN7 during less than 1.5V, output control signal A50, the A50 control circuit disconnects charging current, this circuit also compares the level of PIN1 and PIN7 simultaneously, when the level of PIN7 is higher than PIN1, judge battery for just connecing, otherwise the judgement battery is reversal connection.

See also Fig. 4, be electric decision circuitry schematic diagram on the utility model embodiment, VCC is a supply voltage, when not connecting additional power source voltage, a forward diode is arranged between circuit internal cell voltage Vbat and VCC, VCC=Vbat-0.6V, the value of cell voltage Vbat is generally below 4.2V, and the nominal operation value of VCC is more than 5V, designed a comparator according to this difference, whether supply voltage powered on do differentiation, when external voltage does not have the added-time, the work that comparator output signal CX1 can the cutoff module, only keep L1, L3 provides the module work of driving, reduces the power consumption of circuit with this, promptly reduces the power consumption of battery.

See also Fig. 5, the inner constant current charge control circuit of circuit schematic diagram for the utility model embodiment, the grid voltage 1.88V of NMOS pipe N42 is external reference voltage (by the conducting of LED lamp time voltage 1.88V as benchmark) among the figure, the grid voltage of NMOS pipe N41 is that cell voltage gets through electric resistance partial pressure, the charging level of its energy real time reaction battery, when cell voltage during less than 4.15V, P45, P46, P47, P48, N38 and resistance R 7 are formed a constant-current source, the design load of constant-current source is 1mA, P45, P46 and charge power pipe P34, the P35 (see figure 2) is formed current mirror, P34, the breadth length ratio of P35 is P45,200 times of the breadth length ratio of P46, therefore to the charging current of lithium ion battery with regard to constant be 200mA.

See also Fig. 6; circuit internal temperature protective circuit schematic diagram for the utility model embodiment; it mainly is a comparator; Vref3 among the figure is an internal reference voltage; design load is 400mV; an end of device difference input as a comparison; the other end of comparator difference input is a PN junction diode; temperature characterisitic according to the PN junction diode is that the PN junction forward voltage drop descends with the temperature rising; the PN junction forward voltage drop is about 600mV at normal temperatures, when junction temperature surpasses 100 ℃, and the comparator upset; export a signal and turn-off charging current, with protective circuit and battery.

Introduce in the lithium ion universal charger management circuit in above-mentioned embodiment, its design parameter is described in table 1 below:

Table 1

Claims (4)

1. a charger management circuit is characterized in that, this charger management circuit comprises: the power supply electrifying testing circuit, the battery polar testing circuit, test circuit for cell status, battery voltage detection circuit, charging control circuit, power tube charging output circuit, LED light control circuit; Wherein

Described power supply electrifying testing circuit, the battery polar testing circuit, test circuit for cell status, battery voltage detection circuit link to each other with described LED light control circuit and charging control circuit respectively, described charging control circuit also with described power tube charging output circuit;

Described power supply electrifying testing circuit is used to detect that described lithium ion battery is current whether powers on;

Described battery polar testing circuit, the battery polar when being used to detect lithium ion battery and putting into the lithium ion universal charger;

Described test circuit for cell status is used to detect the current battery status of lithium ion battery;

Described battery voltage detection circuit is used to detect the current voltage of lithium ion battery;

Described LED light control circuit is used for the operating state according to the testing result control indicator light of each testing circuit;

Described charging control circuit is used for whether charging output circuit to lithium ion cell charging according to the testing result power controlling pipe of each testing circuit.

2. charger management circuit as claimed in claim 1, it is characterized in that, when described battery voltage detection circuit detection cell voltage is charged to about 4.15V, described battery voltage detection circuit is further used for testing result is sent to described charging control circuit, transfers constant voltage charge by described charging control circuit power controlling pipe charging output circuit to by constant current charge.

3. charger management circuit as claimed in claim 1, it is characterized in that, when described battery voltage detection circuit detection cell voltage is charged to 4.2V, described battery voltage detection circuit is further used for testing result is sent to described LED light control circuit, control saturated indicator light by the LED light control circuit and light, described charging control circuit is further used for stopping for charging according to testing result power controlling pipe charging output circuit.

4. charger management circuit as claimed in claim 1; it is characterized in that; described charger management circuit also comprises overheating protection circuit; described overheating protection circuit is connected with described charging control circuit; be used for Current Temperatures is passed to described charging control circuit; charge output circuit when temperature reaches certain preset temperature value, not to described lithium ion cell charging by described charging control circuit power controlling pipe.

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