CN110398698A

CN110398698A - A kind of method of battery management system SOH estimation

Info

Publication number: CN110398698A
Application number: CN201910691929.6A
Authority: CN
Inventors: 林少青
Original assignee: Huizhou Keda Star Technology Co Ltd
Current assignee: Huizhou Sunway Electronics Co ltd
Priority date: 2019-07-30
Filing date: 2019-07-30
Publication date: 2019-11-01
Anticipated expiration: 2039-07-30
Also published as: CN110398698B

Abstract

The invention discloses a kind of methods of battery management system SOH estimation, comprising the following steps: S1:BMS is powered on；S2: monomer voltage current acquisition；S3: numerical value calculates；S4: threshold check；S5:RO is calculated；S6: acquisition comparison；S7:SOH valuation.The present invention takes median estimation on line RO (V by acquiring multi-group data_x, T_x) referred to, without doing a large amount of calibration experiments before measurement, workload when estimation is reduced, and by the synchronous acquisition of voltage and current, the fluctuation situation of voltage and current in a period of time can be clearly observed, judge the health status of battery.

Description

A kind of method of battery management system SOH estimation

Technical field

The present invention relates to a kind of methods that field of batteries more particularly to battery management system SOH are estimated.

Background technique

Battery management system is the system being managed to battery, usually have the function of measurement cell voltage, prevent or The unusual conditions such as battery over-discharge, overcharge, excess temperature are avoided to occur, management object is usually the secondary electricity that can be charged again Pond.

Existing battery management system estimates that it needs largely to be tried in advance based on the internal resistance of cell for the estimation of SOH It tests and is demarcated, obtain the battery initial internal resistance at different SOC, and under different charge and discharge operating conditions, voltage and current acquisition It cannot synchronize, cause calculated distortion.

Summary of the invention

The purpose of the present invention is to solve disadvantages existing in the prior art, and a kind of battery management system proposed The method of SOH estimation.

To achieve the goals above, present invention employs following technical solutions:

A kind of method of battery management system SOH estimation, comprising the following steps:

S1:BMS is powered on；BMS obtains power-on time after powering on, then acquire the open-circuit voltage V of battery₀If this is powered on Time and last time power-on time meet interval T, then satisfy the requirements one, if open-circuit voltage at this time or open-circuit voltage close on voltage It is not recorded, then satisfies the requirements two；

S2: monomer voltage current acquisition；Consistently online acquires the monomer voltage and electric current of battery, by the voltage and electricity of acquisition Stream storage backup is V₁、V₂…V_nAnd I₁、I₂…I_n, the corresponding time is t₁、t₂…t_n, wherein sampling time interval perseverance is t, As n=9, optimal value is obtained, estimation result is more accurate, in t₁Moment records V₁And I₁, in t₂Moment records V₂And I₂, in t_n Moment records V_nAnd I_n, by the t of record_n、V_nAnd I_nIt is divided into one group of group record backup, i.e. t₁、V₁、I₁One group, t₂、V₂、I₂One Group ... t_n、V_n、I_nOne group, it is convenient for subsequent step quick calling；

S3: numerical value calculates；Evaluation I₂-I₁, I₃-I₂…I_n-I_(n-1), (I₁+I₂+…+I_n) t and record intermediate threshold voltage V_(n+1)/2With electric current I_(n+1)/2If (I₁+I₂+…+I_n) t > 0.01C, then it abandons calculating；

S4: threshold check；All I in comparison step S3_n-I_(n-1)With I_aSize, if all I_n-I_(n-1)<I_a, then it represents that t₁~t_nElectric current is stablized in time, voltage stabilization.

S5:RO is calculated；According to formula RO (V_x, T_x)=(V₀-V_(n+1)/2)/I_(n+1)/2Calculate RO value, then record RO value, The temperature value T of battery pack_xAnd monomer voltage V_x, condition one and condition two need to be met when calculating RO value；

S6: acquisition comparison；BMS acquires open-circuit voltage after powering on, then the temperature T and monomer voltage of online acquisition battery pack V, if the numerical value of temperature T is close to temperature T_x, the numerical value of monomer voltage V is close to V_x, then according to voltage and current Synchronos method calculate R (V, T)=(V₀-V_(n+1)/2)/I_(n+1)/2, SOH (V_x, T_x)=RO (V_x, T_x)/R (V, T).

S7:SOH valuation；Different V_xAnd T_xDifferent SOH can be calculated, take multiple groups SOH calculate average value as finally SOH estimated value.

Preferably, in step s3, (I₁+I₂+…+I_n) t be t_nThe discharge capacity of battery pack in time, if discharge capacity Greater than 0.01C (this is preferred value, can also choose other and limit numerical value), then without I₂-I₁, I₃-I₂…I_n-I_(n-1)Calculating, RO etc. stays in next power up cycle and is calculated.

Preferably, in step s 4, threshold value I_aFor preset value, i.e. t_n-1To t_nThe current differential I of time_n-I_(n-1)Always it protects It holds and is being less than threshold value I_a, then it is assumed that current fluctuation is smaller, and voltage, electric current are more stable.

The invention has the following advantages:

1, it does not need to do a large amount of calibration experiment to battery before measurement to obtain the internal resistance of battery, by acquiring multiple groups Median estimation on line one initial RO (V of data_x, T_x) referred to, the step of system measures battery is reduced, it can It is quickly obtained desirable value.

2, acquisition is synchronized to voltage and current, t successively acquires voltage and current at regular intervals, obtains Value of one group of voltage and current about time change, the size according to the transformation degree of voltage and current in each time interval are It can be appreciated that the fluctuation situation of voltage and current.

In conclusion the present invention takes median estimation on line RO (V by acquiring multi-group data_x, T_x) referred to, it is not necessarily to A large amount of calibration experiments are done before measurement, reduce workload when estimation, and by the synchronous acquisition of voltage and current, it can be clear The fluctuation situation for observing voltage and current in a period of time, judges the health status of battery.

Detailed description of the invention

Fig. 1 is a kind of step block diagram of the method for battery management system SOH estimation proposed by the present invention；

Fig. 2 is a kind of program flow diagram of the method for battery management system SOH estimation proposed by the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

Embodiment one:

Referring to Fig.1-2: a kind of method of battery management system SOH estimation, comprising the following steps:

S1:BMS is powered on；BMS obtains power-on time after powering on, then acquire the open-circuit voltage V of battery₀If this is powered on Time and last time power-on time meet interval T, then satisfy the requirements one, if open-circuit voltage at this time or open-circuit voltage close on voltage It is not recorded, then satisfies the requirements two.

S2: monomer voltage current acquisition；Consistently online acquires the monomer voltage and electric current of battery, by the voltage and electricity of acquisition Stream storage backup is V₁、V₂…V_nAnd I₁、I₂…I_n, the corresponding time is t₁、t₂…t_n, wherein sampling time interval perseverance is t, As n=9, optimal value is obtained, estimation result is more accurate, in t₁Moment records V₁And I₁, in t₂Moment records V₂And I₂, in tn Moment records V_nAnd I_n, by the t of record_n、V_nAnd I_nIt is divided into one group of group record backup, i.e. t₁、V₁、I₁One group, t₂、V₂、I₂One Group ... t_n、V_n、I_nOne group, it is convenient for subsequent step quick calling.

S3: numerical value calculates；Evaluation I₂-I₁, I₃-I₂…I_n-I_(n-1), (I₁+I₂+…+I_n) t and record intermediate threshold voltage V_(n+1)/2With electric current I_(n+1)/2If (I₁+I₂+…+I_n) t > 0.01C, then it abandons calculating, (I₁+I₂+…+I_n) t be t_nIt is electric in time The discharge capacity of Chi Bao, if discharge capacity is greater than 0.01C, without I₂-I₁, I₃-I₂…I_n-I_(n-1)Calculating, RO etc. stays in Next power up cycle is calculated.

S4: threshold check；All I in comparison step S3_n-I_(n-1)With I_aSize, if all I_n-I_(n-1)< Ia, then it represents that t₁~t_nElectric current is stablized in time, voltage stabilization, threshold value I_aFor preset value, i.e. t_n-1To t_nThe current differential I of time_n-I_(n-1)Begin It is maintained at eventually less than threshold value I_a, then it is assumed that current fluctuation is smaller, and voltage, electric current are more stable.

S5:RO is calculated；According to formula RO (V_x, T_x)=(V₀-V_(n+1)/2)/I_(n+1)/2Calculate RO value, then record RO value, The temperature value T of battery pack_xAnd monomer voltage V_x, condition one and condition two need to be met when calculating RO value.

S6: acquisition comparison；After BMS is powered on, open-circuit voltage V is acquired₀, the then temperature T and monomer of online acquisition battery pack Voltage V, if the numerical value of temperature T is close to temperature T_x, the numerical value of monomer voltage V is close to V_x, then calculated according to voltage and current Synchronos method R (V, T)=(V₀-V_(n+1)/2)/I_(n+1)/2, SOH (V_x, T_x)=RO (V_x, T_x)/R (V, T), if this powers on accumulative electric discharge Capacity does not obtain stable electric current in the time greater than 0.01C, then abandons this acquisition comparison.

When the present embodiment is in use:

1, BMS is powered on；BMS obtains power-on time after powering on, the open-circuit voltage backup for then acquiring battery is V₀=12V, If this power-on time and last time power-on time meet interval T, one is satisfied the requirements, if open-circuit voltage or open-circuit voltage at this time The voltage that closes on be not recorded, then satisfy the requirements two.

2, monomer voltage current acquisition；Consistently online acquires the monomer voltage and electric current of battery, by the voltage and electricity of acquisition Stream storage backup is V₁=10V, V₂=11V, V₃=10.5V, V₄=10V, V₅=10V, V₆=11V, V₇=10V, V₈=11V, V₉ =12V and I₁=10mA, I₂=11mA, I₃=12mA, I₄=10mA, I₅=10mA, I₆=12mA, I₇=10mA, I₈=10mA, I₉=11mA, corresponding time are t₁=0.001s, t₂=0.002s, t₃=0.003s, t₄=0.004s, t₅=0.005s, t₆=0.006s, t₇=0.007s, t₈=0.008s, t₉=0.009s, wherein sampling time interval perseverance is t=0.001s, that is, is existed t₁Moment records V₁And I₁, in t₂Moment records V₂And I₂, in t_nMoment records V_nAnd I_n, by the t of record₁、V₁、I₁One group, t₂、V₂、 I₂One group ... t₉、V₉、I₉One group, it is convenient for subsequent step quick calling.

3, numerical value calculates；Evaluation I₂-I₁, I₃-I₂…I_n-I_(n-1), (I₁+I₂+…+I_n) t and record intermediate threshold voltage V_(n+1)/2With electric current I_(n+1)/2If (I₁+I₂+…+I_n) t > 0.01C, then it abandons calculating, I₂-I₁=1mA, I₃-I₂=1mA, I₄-I₃ =-2mA, I₅-I₄=0mA, I₆-I₅=2mA, I₇-I₆=-2mA, I₈-I₇=0mA, I₉-I₈=1mA, (I₁+I₂+I₃+I₄+I₅+I₆+ I₇+I₈+I₉) t=(10+11+12+10+10+12+10+10+11) mA × 0.001s=0.096mAs, 0.096mAs=0.0096C < 0.01C, recording voltage V_(n+1)/2=V₅=10V and electric current I_(n+1)/2=I₅=10mA.

4, threshold check；All I in comparison step S3_n-I_(n-1)With I_aSize, if all I_n-I_(n-1)<I_a, then it represents that t₁ ~t_nElectric current is stablized in time, voltage stabilization, sets I_a=4mA is respectively less than 4mA through more all differences, then t₁~t₉Time Interior, voltage stabilization, electric current are stablized.

5, RO is calculated；According to formula RO (V_x, T_x)=(V₀-V_(n+1)/2)/I_(n+1)/2Calculate RO value, then record RO value, The temperature value T of battery pack_xAnd monomer voltage V_x, RO (V_x, T_x)=(V₀-V_(n+1)/2)/I_(n+1)/2=(12V-10V)/10mA= 200 Ω record temperature value T at this time_x=24 DEG C, monomer voltage V_x=12V.

6, acquisition comparison；BMS acquires T=25 DEG C of the temperature and monomer voltage V of battery pack after powering on₀=12V, temperature T's Numerical value is close to temperature T_x, monomer voltage V₀Numerical value close to V_x, R (V, T)=(V is calculated according to voltage and current Synchronos method₀- V_(n+1)/2)/I_(n+1)/2=V₅/I₅=2V/10mA=200 Ω, SOH (V_x, T_x)=RO (V_x, T_x)/R (V, T)=200 Ω/200 Ω × 100%=100% represents being in a good state of health for battery pack.

Embodiment two:

Referring to Fig.1-2, a kind of method of battery management system SOH estimation, including following implementation steps:

2, monomer voltage current acquisition；Consistently online acquires the monomer voltage and electric current of battery, by the voltage and electricity of acquisition Stream storage backup is V₁=10V, V₂=11V, V₃=10.5V, V₄=10V, V₅=9.5V, V₆=11V, V₇=10V, V₈=11V, V₉=12V and I₁=10mA, I₂=11mA, I₃=12mA, I₄=10mA, I₅=10mA, I₆=12mA, I₇=10mA, I₈= 10mA、I₉=11mA, corresponding time are t₁=0.001s, t₂=0.002s, t₃=0.003s, t₄=0.004s, t₅= 0.005s、t₆=0.006s, t₇=0.007s, t₈=0.008s, t₉=0.009s, wherein sampling time interval perseverance is t= 0.001s, i.e., in t₁Moment records V₁And I₁, in t₂Moment records V₂And I₂, in t_nMoment records V_nAnd I_n, by the t of record₁、V₁、 I₁One group, t₂、V₂、I₂One group ... t₉、V₉、I₉One group, it is convenient for subsequent step quick calling.

3, numerical value calculates；Evaluation I₂-I₁, I₃-I₂…I_n-I_(n-1), (I₁+I₂+…+I_n) t and record intermediate threshold voltage V_(n+1)/2With electric current I_(n+1)/2If (I₁+I₂+…+I_n) t > 0.01C, then it abandons calculating, I₂-I₁=1mA, I₃-I₂=1mA, I₄-I₃ =-2mA, I₅-I₄=0mA, I₆-I₅=2mA, I₇-I₆=-2mA, I₈-I₇=0mA, I₉-I₈=1mA, (I₁+I₂+I₃+I₄+I₅+I₆+ I₇+I₈+I₉) t=(10+11+12+10+10+12+10+10+11) mA × 0.001s=0.096mAs, 0.096mAs=0.0096C < 0.01C, recording voltage V_(n+1)/2=V₅=9.5V and electric current I_(n+1)/2=I₅=10mA.

5, R is calculated；The collected open-circuit voltage of BMS is V₀=12V, temperature are 24 DEG C, this voltage and temperature are remembered It recorded, and directly obtained R0=200 Ω from memory space.

6, acquisition comparison；BMS acquires T=25 DEG C of the temperature and monomer voltage V of battery pack after powering on₀=12V, temperature T's Numerical value is close to temperature T_x, monomer voltage V₀Numerical value close to V_x, R (V, T)=(V is calculated according to voltage and current Synchronos method₀- V_(n+1)/2)/I_(n+1)/2=(V₀-V₅)/I₅=2.5V/10mA=250 Ω, SOH (V_x, T_x)=RO (V_x, T_x)/R (V, T)=200 Ω/250 Ω × 100%=80%, representing the health degree of battery pack is 80%.

Embodiment three:

2, monomer voltage current acquisition；Consistently online acquires the monomer voltage and electric current of battery, by the voltage and electricity of acquisition Stream storage backup is V₁=10V, V₂=11V, V₃=10.5V, V₄=10V, V₅=7V, V₆=11V, V₇=10V, V₈=11V, V₉ =12V and I₁=10mA, I₂=11mA, I₃=12mA, I₄=10mA, I₅=10mA, I₆=12mA, I₇=10mA, I₈=10mA, I₉=11mA, corresponding time are t₁=0.001s, t₂=0.002s, t₃=0.003s, t₄=0.004s, t₅=0.005s, t₆=0.006s, t₇=0.007s, t₈=0.008s, t₉=0.009s, wherein sampling time interval perseverance is t=0.001s, that is, is existed t₁Moment records V₁And I₁, in t₂Moment records V₂And I₂, in t_nMoment records V_nAnd I_n, by the t of record₁、V₁、I₁One group, t₂、V₂、 I₂One group ... t₉、V₉、I₉One group, it is convenient for subsequent step quick calling.

3, numerical value calculates；Evaluation I₂-I₁, I₃-I₂…I_n-I_(n-1), (I₁+I₂+…+I_n) t and record intermediate threshold voltage V_(n+1)/2With electric current I_(n+1)/2If (I₁+I₂+…+I_n) t > 0.01C, then it abandons calculating, I₂-I₁=1mA, I₃-I₂=1mA, I₄-I₃ =-2mA, I₅-I₄=0mA, I₆-I₅=2mA, I₇-I₆=-2mA, I₈-I₇=0mA, I₉-I₈=1mA, (I₁+I₂+I₃+I₄+I₅+I₆+ I₇+I₈+I₉) t=(10+11+12+10+10+12+10+10+11) mA × 0.001s=0.096mAs, 0.096mAs=0.0096C < 0.01C, recording voltage V_(n+1)/2=V₅=7V and electric current I_(n+1)/2=I₅=10mA.

5, RO is calculated；The collected open-circuit voltage of BMS is 12V, and temperature is 24 DEG C, this voltage and temperature have been recorded It crosses, directly obtains R0=200 Ω from memory space.

6, acquisition comparison；BMS powers on T=25 DEG C of the temperature and monomer open-circuit voltage V of rear online acquisition battery pack₀=12V, The numerical value of temperature T is close to temperature T_x, monomer voltage V₀Numerical value close to V_x, according to voltage and current Synchronos method calculate R (V, T)= (V₀-V_(n+1)/2)/I_(n+1)/2=V₀-V₅/I₅=(12-7) V/10mA=500 Ω, SOH (V_x, T_x)=RO (V_x, T_x)/R (V, T)= 200 Ω/500 Ω × 100%=40%, the health status for representing battery pack decline more obvious.

The foregoing is only a preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, Anyone skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims

1. a kind of method of battery management system SOH estimation, which comprises the following steps:

S1:BMS is powered on；BMS obtains power-on time after powering on, then acquire the open-circuit voltage V of battery₀；

S2: monomer voltage current acquisition；Consistently online acquires the monomer voltage and electric current of battery, and the voltage and current of acquisition is deposited Deposit part is V₁、V₂…V_nAnd I₁、I₂…I_n, the corresponding time is t₁、t₂…t_n, wherein sampling time interval perseverance is t；

S3: numerical value calculates；Evaluation I₂-I₁, I₃-I₂…I_n-I_(n-1), (I₁+I₂+…+I_n) t and recording voltage V_(n+1)/2And electricity Flow I_(n+1)/2If (I₁+I₂+…+I_n) t > 0.01C, then it abandons calculating；

S4: threshold check；All I in comparison step S3_n-I_(n-1)With I_aSize, if all I_n-I_(n-1)<I_a, then it represents that t₁~t_n Electric current is stablized in time, voltage stabilization；

S5:RO is calculated；According to formula RO (V_x, T_x)=(V₀-V_(n+1)/2)/I_(n+1)/2RO value is calculated, RO value, battery are then recorded The temperature value T of packet_xAnd monomer voltage V_x；

S6: acquisition comparison；BMS acquires open-circuit voltage after powering on, then the temperature T and monomer voltage V of online acquisition battery pack, if The numerical value of temperature T is close to temperature T_x, the numerical value of monomer voltage V is close to V_x, then according to voltage and current Synchronos method calculate R (V, T)= (V₀-V_(n+1)/2)/I_(n+1)/2, SOH (V_x, T_x)=RO (V_x, T_x)/R (V, T)；

S7:SOH valuation；Different V_xAnd T_xDifferent SOH can be calculated, the average value for taking multiple groups SOH to calculate is as final SOH Estimated value.

2. a kind of method of battery management system SOH estimation according to claim 1, which is characterized in that in step s3, (I₁+I₂+…+I_n) t be t_nThe discharge capacity of battery pack in time, if discharge capacity is greater than 0.01C, without I₂-I₁, I₃- I₂…I_n-I_(n-1)Calculating, abandon this calculating.

3. a kind of method of battery management system SOH estimation according to claim 2, which is characterized in that in step s 4, Threshold value I_aFor preset value, i.e. t_n-1To t_nThe current differential I of time_n-I_(n-1)It remains at and is less than threshold value I_a, then it is assumed that current wave Dynamic smaller, voltage, electric current are more stable.