摘要本文主要介绍了电液伺服阀驱动电路的设计与仿真,驱动电路的主要由调零电路、限流电路、前置放大电路、功率放大电路和颤振信号发生电路组成。根据设计任务书的要求,论文主要对驱动电路的功率放大电路和前置放大电路两部分进行设计与仿真,并且用multisim10 对设计的电路进行仿真。重点讲述了电液伺服阀驱动的电路中各元件参数的选取和相关的计算过程,在对所有电路设计完成后,将两个电路结合,再次用软件对其进行仿真,使其结果与论文要求,达到控制电液伺服阀的目的。60820
毕业论文关键词 电液伺服阀 功率放大电路 前置放大电路 multisim
Title The Design and Simulation of Electro-hydraulic Servo Valve Drive Circuit
Abstract
This paper mainly describes the design and simulation of electro-hydraulic servo valve drive circuit. Drive circuit mainly consist of nulling circuit, current limit circuit, preamplifier circuit, power amplifier circuit and flutter signal circuit. According to the requirements, this paper focuses on the two parts of the power amplification circuit and preamplifier circuit of the drive circuit design and simulation, and use Multisim10 for the simulation of the circuit. The paper focuses on the principle and the calculation process of component parameters about the electro-hydraulic servo valve driving circuit. On all circuit design is completed, to combine two circuits, again use software for simulation, the results with paper and theoretical calculated values conform to the requirements, can achieve the goal of control of electro-hydraulic servo valve.
Keywords electro-hydraulic servo valve drive circuit Multisim10 preamplifier circuit simulation
目 录
1 绪论 1
1.1 电液伺服系统的工作原理 1
1.3 电液伺服系统的应用 3
1.3.1 电液伺服系统的应用实例 3
1.4 电液伺服系统的分类 5
2 电液伺服阀驱动电路 6
2.1电液伺服控制电路 7
2.11 控制放大器的构成及分类 8
2.2电液伺服阀的驱动电路 9
3 电液伺服阀控制电路的功率放大电路 10
3.1 功率放大电路的设计 10
3.2 功率放大器中各元件参数的确定 12
3.3 功率放大电路的仿真 19
4 前置放大电路与颤振电路的设计与仿真 24
4.1前置放大电路的设计 24
4.2 前置放大电路的仿真 26
4.3 电液伺服阀颤振电路 28
4.31 颤振电路的条件 28
4.32 颤振电路的选择 30
4.33 颤振电路各元件参数的确定 31
4.34 颤振电路的仿真 32
结 论 33