The paper analyzes the operation of electronic gear in the digital AC servo system, introduces the principle of the electronic gear.
文章分析了数字式交流伺服系统中的电子齿轮环节的作用,介绍了电子齿轮的基本原理。
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。
The developed digital AC servo system construction, basic principle and hardware and software structures are presented.
介绍了开发的全数字交流伺服系统的组成、基本原理及软、硬件结构。
This paper presents an AC servo system based on fuzzy neural variable structure control.
本文提出了一种基于模糊神经变结构控制的交流伺服系统。
By comparison with analogue AC servo system, some remarkable features of digital AC servo system, such op programming function, system stability and system performance are described.
通过与模拟交流伺服系统的比较,说明了全数字交流伺服系统可编程能力强、系统稳定性好、系统性能提高等特点。
The results of experiments show that the ac servo system based on fuzzy control has quick response speed, high steady accuracy and good robustness.
实验结果表明基于模糊控制的交流伺服系统具有较快的响应速度、较高的稳态精度和较强的鲁棒性。
One important research aspect has come into being which is robot integral joint design driven directly by AC servo system.
由交流伺服系统直接驱动的机器人关节一体化设计已成为一个重要研究方向。
The results of experiments show that ac servo system based on fuzzy PID control has quick response speed, high steady accuracy and good robustness.
实验结果表明,基于模糊pid控制的交流伺服系统具有响应速度快、稳态精度高和鲁棒性强等特点。
The results of experiments show that AC servo system based on integral partition PID control has quick response speed and h.
实验结果表明,基于积分分离PID控制的交流伺服系统具有响应速度快、稳态精度高等特点。
The software and hardware of a digital AC servo system using a digital controller DMC300A as the control center is designed. This method to obtain some important parameters is proposed.
论述了以数字控制器DMC300A为核心的数字式交流伺服系统的硬件和软件设计,对设计过程中所涉及到的重要参数给出了设定方法。
This article introduced emphatically the control strategy, position detection and identification, drive technique as well as main circuit of permanent magnet Ac servo system.
重点介绍了永磁交流伺服系统的控制策略,位置检测和辨识、主电路和驱动技术等关键技术。
A cascaded slide mode control scheme is designed for permanent magnetic synchronous machine ac servo system.
针对永磁同步电机交流伺服系统,提出了串级滑模控制方案。
This subject mainly researches the application of the AMK AC servo system in the fitter tip attachment assembly.
本课题研究的主要内容是AMK交流伺服控制系统在烟机卷接机组中的应用。
The results of experiments show that AC servo system based on DRNN PID control has quick response speed, high steady accuracy and good robustness.
实验结果表明,基于对角递归神经网络整定的PID控制的交流伺服系统具有响应速度快、稳态精度高和鲁棒性强等特点。
In this paper a new control strategy suited for AC servo system of permanent magnet AC motor is introduced.
本文介绍了一种适用于正弦波永磁同步伺服系统的控制策略。
Aim at technics and control of build-up standard machine, particular introduced the appliance of Siemens SIMODRIVE 611a ac servo system in build-up standard machine.
针对机械比对力机的工艺和控制要求,详细介绍了西门子SIMODRIVE 611a交流伺服驱动系统在机械比对力机上的应用。
Test circuit of AC servo system was composed of current test circuit, voltage test circuit, speed and position test circuit.
交流伺服系统检测电路由电流、电压、转速及位置检测电路组成。
The experiment proves that the AC servo system using the dynamic design can acquire chattering free, static errorless, fast and robust response.
实验证明,这种设计方法可保证伺服系统具有无抖动、无静差、响应快且鲁棒性好,是一种很实用的工程控制方法。
The experiment results show that: the dynamic performance of the AC servo system is remarkably improved when the intelligent PI controller is used.
实验结果表明:采用智能p I控制器的交流伺服系统,动态性能得到改善。
This paper deals with an AC servo system with permanent magnetic brushless motor driven by square wave current.
研究了方波电流驱动的永磁无刷电机交流伺服系统。
A design strategy for 80c196mc - based AC. servo system is described.
提出了一种用80c 196MC单片机控制的交流伺服系统设计方案。
In this thesis, AC servo system of permanent magnet synchronous motor is designed to be suited to lathe.
本文设计了车床用永磁同步电动机交流伺服驱动系统。
Grounded on the work above, a high performance full digital PM AC servo system based on the TMS320F240 is developed, and its monitor control system designed.
在上述工作的基础上,研制开发了一套基于TMS320F240的高性能全数字永磁交流伺服系统,并设计开发了相应的上位机监控软件。
The hardware of permanent magnet AC servo system is designed, including system power main circuit, system control circuit and auxiliary circuit.
设计了永磁交流伺服系统硬件电路,包括系统功率主电路、系统控制电路和辅助电路。
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。
The neuron controller with its self-learning ability can realize the on-line learning algorithm, and it is adopted as the position controller of the AC servo system.
利用神经元的自学习功能实现神经元控制器的在线学习,并以神经元控制器作为交流伺服系统的位置调节器;
For digitized AC servo system, it needs software to support it's closed-loop control. Its control quality is decided by the program of control computation directly.
数字化的交流伺服系统是靠软件完成控制计算来支持闭环控制的,它的控制计算程序直接决定了系统的控制质量。
AC servo system is a kind of complex and nonlinear Time-varying systems.
交流伺服系统是一种复杂的非线性时变系统。
To improve the tracking performance of ac servo-system, PFC-PID cascade control strategy is presented by combining the PFC with PID control.
为了提高交流伺服系统的跟踪性能,将预测函数控制(pfc)和PID控制相结合,提出了一种PF C - PID串级控制策略。
This paper introduce a method to design the no-place, velocity sensor ac servo system, use self-adapt slid mode observer to estimate the place and velocity of rotor.
介绍一种无位置、速度传感器的交流伺服系统的设计方法,它采用自适应滑模观测器来估算转子的位置及速度。
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