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A Construction Method of Active Disturbance Rejection Controller for BSG System of Hybrid Electric Vehicle

An active disturbance rejection controller and hybrid electric vehicle technology, applied in adaptive control, general control system, control/adjustment system, etc. Parameter mutation and other issues

Inactive Publication Date: 2015-11-18
JIANGSU UNIV
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  • Application Information

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Problems solved by technology

[0002] The hybrid vehicle BSG system is a strongly coupled nonlinear time-varying complex system. During the actual operation, the system parameters will change suddenly, and there are some serious external disturbances. Therefore, it is necessary to achieve high-quality control of the hybrid vehicle BSG system is very difficult
[0003] The conventional control method of hybrid electric vehicle BSG system is generally PID control. However, the traditional PID control method has the following disadvantages: (1) Since the combination of linear parameters often does not have the optimal choice, it is easy to cause system rapidity and overshoot (2) Since the actual output signal of the system is a smooth signal, and the given signal of the system is not smooth, so taking the rough input signal as the given value of the smooth output signal will cause Oscillation and instability of the system output; (3) Integral control in the PID control method is to eliminate the static error of the system, and then the integral action will cause the system stability to deteriorate, the oscillation will be more severe, and it may also cause integral saturation

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  • A Construction Method of Active Disturbance Rejection Controller for BSG System of Hybrid Electric Vehicle
  • A Construction Method of Active Disturbance Rejection Controller for BSG System of Hybrid Electric Vehicle
  • A Construction Method of Active Disturbance Rejection Controller for BSG System of Hybrid Electric Vehicle

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Embodiment Construction

[0030] The present invention will be described in further detail below in conjunction with the accompanying drawings.

[0031] The concrete implementation of the present invention divides following 8 steps:

[0032] 1. If figure 1 and figure 2 As shown, the q-axis current regulator and the d-axis current regulator are connected in parallel first, and then connected in series with the Park inverter to form a current control module; the SVPWM module is connected in series with the voltage source inverter to form an extended inverter control module, where The SVPWM module outputs six PWM signals to drive the voltage source inverter; the Clark converter and the Park converter are connected in series to form a current detection module; the position sensor is connected in series with the speed and angle calculation part to form a speed angle detection and calculation module, in which the speed and angle An output of the calculation part is the angle θ, and this signal is simultan...

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Abstract

The invention discloses a construction method for an active-disturbance-rejection controller of a hybrid electric vehicle BSG system. Specifically, the method includes the following steps that a composite controlled object is constructed; a second-order extended state observer is constructed; a proper reference trajectory transition process is arranged through a first-order tracking differentiator; the error of an output signal of the first-order tracking differentiator and an output signal of the second-order extended state observer serves as an input signal of a nonlinear PID controller; a signal formed by the output signal of the second-order extended state observer and an output signal of a fuzzy compensator in a superposition mode is combined with an output signal of the nonlinear PID controller to serve as a given input of the composite controlled object; the active-disturbance-rejection controller is constructed to control the composite controlled object. The construction method does not rely on a precise mathematic model of the system, internal disturbance and external disturbance of the system can be ascribed to total disturbance to be observed and compensated, and thus the hybrid electric vehicle BSG system has better disturbance resistance and a better steady-state characteristic.

Description

technical field [0001] The invention relates to a method for constructing an active disturbance rejection controller for a BSG system of a hybrid electric vehicle, and belongs to the technical field of hybrid electric vehicle belt-driven starter generator (hereinafter referred to as BSG) control technology. Background technique [0002] The hybrid vehicle BSG system is a strongly coupled nonlinear time-varying complex system. During the actual operation, the system parameters will change suddenly, and there are some serious external disturbances. Therefore, it is necessary to achieve high-quality control of the hybrid vehicle BSG system is very difficult. [0003] The conventional control method of hybrid electric vehicle BSG system is generally PID control. However, the traditional PID control method has the following disadvantages: (1) Since the combination of linear parameters often does not have the optimal choice, it is easy to cause system rapidity and overshoot (2) S...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05B13/00
Inventor 江浩斌陈龙孙晓东汪若尘徐兴李可
Owner JIANGSU UNIV
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