CN109428363A - A kind of passive balance policy optimization method of battery management system - Google Patents

Abstract

A kind of passive balance policy optimization method of battery management system, comprising the following steps: step 1: battery pack or battery system energization or key are placed in NO grades；Step 2: battery management system completes system initialization, self-test；Step 3: judge whether battery status is state after last charging by self-detection result, alternatively, quiescent time > setting value；Step 4: the acquisition of battery static state open-circuit voltage is executed according to the judging result of battery status；Step 5: the data acquired using battery static state open-circuit voltage, battery management system calculate equalizing voltage judgment value (Tp)；Step 6: battery when battery Tn (n=1,2..11..) > equalizing voltage judgment value (Tp) is to need balanced battery；Step 7: the time required to calculating balancing battery Tn；Step 8: it executes and implements equilibrium.The present invention can solve the problem of existing lithium battery passive balanced way time is short, accuracy is low, effect is poor, high failure rate.

Description

A kind of passive balance policy optimization method of battery management system

Technical field

The present invention relates to lithium battery and battery management system technical field, specifically a kind of battery management system it is passive Weigh policy optimization method.

Background technique

More and more paid attention in terms of with the development of lithium battery technology and energy conservation and environmental protection, the application of lithium battery Field is more and more wide, such as applies in portable electronic product, electric car and solar power system new energy field On.

In major applications occasion, the series connection of multiple groups battery is needed to carry out using to reach enough output voltages and output Power.But due between single battery each in battery pack there are inconsistent, it is each after continuous charge and discharge cycles The state-of-charge of single battery will appear serious imbalance, show as voltage degree of divergence between single battery increasingly Greatly, this will cause permanent damage to battery.

Balanced management at present is concentrated mainly on design hardware circuit and realization system control aspect, to obtain high-energy conversion Efficiency and balancing speed, and have ignored the specific influence that balance policy improves battery inconsistency.Currently, most domestic factory The passive balanced mode of family is: the real-time voltage that charging end is sampled according to battery management system judges that magnitude of pressure differential is come to electricity Pond carries out equilibrium, and there are the following problems for this balanced way:

Time is short: equilibrium concentrates on charging end and just starts equilibrium, does not accomplish real time equaliser；

Accuracy is low, and effect is poor: existing balanced way, is judged by the real-time voltage of battery management system sampling Equilibrium judges inaccuracy, the problem of mistake equilibrium in the case where battery pack charge and discharge is with the presence of electric current；

High failure rate: existing balanced way is to judge equilibrium by the real-time voltage of battery management system sampling, interior Circuit conditioning switch in portion's is regular to carry out cut-offfing movement, increases battery management system failure rate.

Therefore it is badly in need of a kind of battery balanced control strategy optimization method, by different balance policies, screen optimum equalization side Formula extends the battery cyclic service life, reduces battery operating cost.

Summary of the invention

It is an object of the invention to overcome above-mentioned the shortcomings of the prior art, and provide a kind of quilt of battery management system Dynamic balance policy optimization method, can solve the existing lithium battery passive balanced way time is short, accuracy is low, effect is poor, The problem of high failure rate.

The object of the present invention is achieved like this:

A kind of passive balance policy optimization method of battery management system, passive equilibrium are using existing battery management The passive balancer of system is realized by policy optimization, comprising the following steps:

Step 1: battery pack or battery system energization or key are placed in NO grades；

Step 2: battery management system completes system initialization, self-test；

Step 3: judge whether battery status is state after last charging by self-detection result, alternatively, quiescent time > setting value, judging result be it is yes, enter step four, judge structure be it is no, enter step eight；

Step 4: the acquisition of battery static state open-circuit voltage is executed according to the judging result of battery status；

Step 5: the data acquired using battery static state open-circuit voltage, battery management system calculate equalizing voltage judgment value (Tp)；

Step 6: battery when battery Tn (n=1,2..11..) > equalizing voltage judgment value (Tp) is to need balanced electricity Pond；

Step 7: the time required to calculating balancing battery Tn；

Step 8: it executes and implements equilibrium.

The calculation method of the equalizing voltage judgment value (Tp) is as follows:

Minimum value (the Tmin)+permissible pressure setting of equalizing voltage judgment value (Tp)=acquisition battery static state open-circuit voltage Value.

The value that SOC is corresponded to according to battery static state open-circuit voltage, the calculation method the time required to balancing battery Tn are as follows:

The time required to balancing battery Tn=(Tn corresponds to the corresponding SOC of SOC- equalizing voltage judgment value (Tp)) * nominal capacity * SOH/ euqalizing current.

The setting value is 1min~5h.

Beneficial effects of the present invention are as follows:

When the passive balance policy optimization method of this battery management system can solve existing lithium battery passive balanced way Between it is short, accuracy is low, effect is poor, high failure rate the problem of.

Detailed description of the invention

Fig. 1 is the flow chart of one embodiment of the invention.

Specific embodiment

The invention will be further described with reference to the accompanying drawings and embodiments.

Referring to Fig. 1, the passive balance policy optimization method of this battery management system, passive equilibrium is using existing electricity The passive balancer of pond management system is realized by policy optimization, comprising the following steps:

Step 1: battery pack or battery system energization or key are placed in NO grades；

Step 2: battery management system completes system initialization, self-test；

Step 3: judge whether battery status is state after last charging by self-detection result, alternatively, quiescent time > setting value, judging result be it is yes, enter step four, judge structure be it is no, enter step eight；

Step 4: the acquisition of battery static state open-circuit voltage is executed according to the judging result of battery status；

Step 5: the data acquired using battery static state open-circuit voltage, battery management system calculate equalizing voltage judgment value (Tp)；

Step 6: battery when battery Tn (n=1,2..11..) > equalizing voltage judgment value (Tp) is to need balanced electricity Pond；

Step 7: the time required to calculating balancing battery Tn；

Step 8: equilibrium is implemented in execution, can balanced 1 batteries or simultaneously equilibrium simultaneously according to the setting requirements of BMS Multichannel battery, practical time for balance >=calculating balancing battery Tn required time.

Passive balance optimizing strategy process is to determine a need for rejudging and calculate balanced mode condition are as follows: electricity Whether pond state is state after last charging, alternatively, quiescent time > setting value.

Further, the calculation method of the equalizing voltage judgment value (Tp) is as follows:

Minimum value (the Tmin)+permissible pressure setting of equalizing voltage judgment value (Tp)=acquisition battery static state open-circuit voltage Value.

Further, the value that SOC is corresponded to according to battery static state open-circuit voltage, the calculating the time required to balancing battery Tn Method is as follows:

The time required to balancing battery Tn=(Tn corresponds to the corresponding SOC of SOC- equalizing voltage judgment value (Tp)) * nominal capacity * SOH/ euqalizing current.

Further, the setting value is 1min~5h, wherein the setting value can be according to different battery behaviors The different time is set.

Passive balance optimizing strategy process is that battery pack or battery system energization or key are placed in NO grades, completes system After initialization, self-test, that is, battery balanced judgement and calculating are completed, and execute equilibrium, without real-time according to battery management system Sampled voltage judges time for balance and balanced way.

The above disclosure is only a preferred embodiment of the invention, rather than limits claim of the invention with this Protection scope still belongs to the range that the present invention is protected according to equivalent variations made in the scope of the present invention.

Claims (4)

1. a kind of passive balance policy optimization method of battery management system, passive equilibrium is using existing battery management system The passive balancer of system is realized by policy optimization, which comprises the following steps:

Step 1: battery pack or battery system energization or key are placed in NO grades；

Step 2: battery management system completes system initialization, self-test；

Step 3: judge whether battery status is state after last charging by self-detection result, alternatively, quiescent time > is set Definite value, judging result be it is yes, enter step four, judge structure be it is no, enter step eight；

Step 4: the acquisition of battery static state open-circuit voltage is executed according to the judging result of battery status；

Step 5: the data acquired using battery static state open-circuit voltage, battery management system calculate equalizing voltage judgment value (Tp)；

Step 6: battery when battery Tn (n=1,2..11..) > equalizing voltage judgment value (Tp) is to need balanced battery；

Step 7: the time required to calculating balancing battery Tn；

Step 8: it executes and implements equilibrium.

2. the passive balance policy optimization method of battery management system according to claim 1, which is characterized in that the equilibrium The calculation method of voltage judgment value (Tp) is as follows:

Equalizing voltage judgment value (Tp)=acquisition battery static state open-circuit voltage minimum value (Tmin)+permissible pressure setting value.

3. the passive balance policy optimization method of battery management system according to claim 1, which is characterized in that the basis Battery static state open-circuit voltage corresponds to the value of SOC, and the calculation method the time required to balancing battery Tn is as follows:

Balancing battery Tn required time=(Tn corresponds to the corresponding SOC of SOC- equalizing voltage judgment value (Tp)) * nominal capacity * SOH/ is equal Weigh electric current.

4. the passive balance policy optimization method of battery management system according to claim 1, which is characterized in that the setting Value is 1min~5h.