基于模糊PID控制的变排量液压马达系统仿真

与定排量液压马达系统相比较，变排量液压马达系统可降低流量消耗、提高总体效率、减小设备尺寸，且具有响应速度快等优点，能满足大功率和大惯量负载使用需求。针对液压伺服系统的非线性和负载参数的时变性等特点，对变排量液压马达控系统制策略进行了研究，通过对其进行AMESim建模仿真，分析了其速度控制和运动位置控制方法。由于常规PID控制器的控制参数在系统动态响应中是固定不变的，液压系统在工作过程中受到负载扰动而使得输出速度波动较大，从而造成不平稳性。故采用模糊自整定PID控制方法，在线实时调整PID控制参数，运用AMESim和Matlab/Simulink软件对该伺服系统进行联合建模仿真。仿真结果表明，与常规PID控制相比较，模糊PID控制在响应速度和平稳性等方面具有显著优势。

Simulation of Variable Displacement Hydraulic Motor System Based on Fuzzy PID Control

Compared with fixed displacement hydraulic motor system, variable displacement hydraulic motor system has a significant improvement in peak flow consumption, overall efficiency and equipment size, and has the advantage of fast response. It can meet the demand of high power and large inertia load. Based on the nonlinearity characteristic of the hydraulic servo system and the time variability of the load parameters, the control strategy of the variable displacement hydraulic motor control system is studied. The speed control and the motion position control method are analyzed by AMESim modeling and simulation. Conventional PID controller can not adjust control parameters according to load changes in real time, which can cause instability due to speed fluctuation. Therefore, we utilize the fuzzy PID control model of AMESim and Simulink in Matlab to model and simulate the servo system. Simulation results show that compared with the conventional PID control, fuzzy PID control has a significant advantage in terms of response speed and stability performance.