Extended Kalman particle filtering based SOC (State Of Charge) estimation method and system

An extended Kalman and particle filter technology, which is applied in the field of electric vehicle power battery management system, can solve the problems of high model accuracy, no feedback correction, and unsatisfactory accuracy, so as to improve accuracy, improve estimation accuracy, and meet model requirements. The effect of precision requirements

Pending Publication Date: 2017-02-15
CAPITAL NORMAL UNIVERSITY
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Problems solved by technology

The ampere-hour integration method is theoretically simple and has a small amount of calculation, but it does not have the effect of feedback correction, and there will be cumulative errors; the neural network method is suitable for simulating highly nonlinear systems, but it needs to establish an accurate neural network model and requires a large number of Data training; the Kalman filter method can...

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  • Extended Kalman particle filtering based SOC (State Of Charge) estimation method and system
  • Extended Kalman particle filtering based SOC (State Of Charge) estimation method and system
  • Extended Kalman particle filtering based SOC (State Of Charge) estimation method and system

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[0047] The technical scheme of the present invention is described in detail below in conjunction with accompanying drawing:

[0048] according to figure 1 , a SOC estimation method based on extended Kalman particle filter includes the following steps:

[0049] Step 1, test the battery, conduct a discharge-resting experiment on the battery through the single battery test system, obtain the corresponding data of the state of charge and open circuit voltage, and fit the relationship function expression of SOC-OCV;

[0050] Such as figure 2 Shown is the overall block diagram of the system based on extended Kalman particle filter, including power battery, single battery test system, computer and other three parts. In step 1, it is necessary to use the single battery test system among them to conduct a discharge-standstill experiment on lithium ions, and then obtain the SOC-OCV relationship function.

[0051] The single battery test system can realize the charge and discharge te...

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Abstract

The invention relates to an extended Kalman particle filtering based SOC (State Of Charge) estimation method and system. The method comprises the steps of performing a discharging-standing test on a battery through a single battery test system so as to acquire an SOC-OCV (Open Circuit Voltage) function relational expression; building an equivalent circuit model of the battery; generating a particle set according to initial probability distribution; performing online parameter identification on the model according to the current data; and performing extended Kalman particle filtering on the particles by using the updated model; and updating a particle weight, and judging whether resampling is required or not according to the number of effective particles. In allusion to problems of low estimation accuracy, existence of an accumulative error, high requirements for model precision and the like of an existing SOC estimation method, the invention adopts the method for online model parameter identification to improve the model precision and adopts the method of combining Kalman filtering and particle filtering to improve the SOC estimation accuracy. The method provided by the invention can effectively estimate the SOC and suppress noises, has the advantage of high precision, and can be applied to the field of a battery management system.

Description

technical field [0001] The invention relates to the field of electric vehicle power battery management systems, in particular to an SOC estimation method and system based on extended Kalman particle filter. Background technique [0002] When the oil crisis broke out, energy and environmental issues gradually attracted people's attention, and people urgently needed new energy vehicles to solve these problems, so electric vehicles gained attention. As the power source of electric vehicles, power batteries undertake all or part of the power output of electric vehicles. During the working process, the electric vehicle battery pack often produces overcharge and overdischarge phenomena due to long charging and discharging time, which not only affects the performance of the battery, but also shortens the service life of the battery and reduces the cost performance of the vehicle. The SOC (State Of Charge) of the power battery is the remaining power of the power battery, which is o...

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Application Information

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IPC IPC(8): G01R31/36
CPCG01R31/367
Inventor 袁慧梅陈诚
Owner CAPITAL NORMAL UNIVERSITY
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