This paper presents the design method of servo system controller applying in image identifying and tracking system.
介绍了应用于图像识别与跟踪系统中的伺服系统控制器的设计方法。
A dynamic design method of robust sliding mode controller in AC servo system is proposed in the paper.
文章提出了一种适用于交流伺服系统的鲁棒滑模控制器的动态设计方法。
This paper presents a method to design high precision servo system controller by using high performance TMS320F2812 and high resolving RVDT compute chip AD2S83.
介绍了一种采用高性能的TMS320F 2812,以及高分辨率的RVDT解算芯片ad2s83的进行高精度伺服系统硬件设计的方法。
This paper introduces an AC servo control system based on the design of CPLD and analogue controller integration.
交流伺服控制系统的组成本文所设计的交流伺服控制系统是用于数控机床上的进给驱动系统。
In this paper the design of a discrete time variable structure controller (VSC) for a brushless DC motor drive (BLDCM) position servo system is introduced.
介绍了无刷直流电动机(BLDCM)位置伺服系统离散时间变结构控制器的设计方法。
Because of the essence of this control system is to complete servo cylinder test, we adopted many control strategies, and the design of digital controller of computer is the main research object.
又因为是试验台控制系统,其本质是为了进行伺服缸的试验,所以我们针对该系统应用了多种控制策略,其中计算机控制系统的数字控制器设计是本文研究的重点内容。
The hardware design of the servo controller. We choose the TMS320LF2407 DSP made by TI to implement the AC Servo System.
给出了伺服控制器的硬件设计,选用美国TI公司专门为数字运动和电机控制推出的DSP控制器TMS320LF2407来实现交流伺服系统。
Design method of a kind of discrete time two-port internal model controller (IMC)of servo system was proposed based on continuous-time two-port internal model control.
在陈庆伟学者提出的连续时间双口内模控制的基础上,提出了一种针对伺服系统的离散时间双口内模控制器设计方法。
A new method of IP robust controller design for NC machine tool droved by linear servo system was presented based on robust control theory.
对数控机床直线伺服系统IP控制器提出用鲁棒控制理论进行设计的新方法。
Then, the paper analyzes a kind of intelligence PID control method and design the intelligence PID controller for the servo system.
为了实现高速度、高加速度和高精度伺服系统的设计,系统的位置环采用智能PID控制。
The kernel technology of CAN and its soft-design in real system are interpreted in detail. Moreover, application of intelligence servo-controller based on CAN is provided.
对CAN技术核心内容及其在实际应用中的软硬件的设计作了详细说明;
The main work of this dissertation is to design the Electro-servo system of Fin-Stabilizer , and to study the controller of the system by experiment.
本论文就是基于某小型无人飞机起落架伺服加载系统的预研项目,对电动伺服加载系统作了较深入的分析和研究,提出了一些有效的控制方法。
The main work of this dissertation is to design the Electro-servo system of Fin-Stabilizer , and to study the controller of the system by experiment.
本论文就是基于某小型无人飞机起落架伺服加载系统的预研项目,对电动伺服加载系统作了较深入的分析和研究,提出了一些有效的控制方法。
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