本文研究脉冲编码调制(PCM)控制方式的气压位置伺服系统。
A pneumatic position servo system with pulse code modulation (PCM) is described in this paper.
系统采用CPU驱动直流无刷电机转动,编码器输出的正余弦信号指示电机的位置。
The system with CPU drives the DC brushless motor, and the encoder indicates the motor position outputting the sine and cosine signal.
使用增量式光电编码器测量电机位置的伺服系统中,在电机启动时,普遍存在无法准确测量出电机转轴初始位置的问题。
The inaccurate measurement of initial position of motor rotor when the motor starts is a problem existing in a servo system applying increment photo-electricity pulse coder.
在传统的运动控制系统中,通常采用光电编码器或旋转变压器来检测转子的位置和速度。
In conventional motion control systems, photoelectric encoders or rotary transformers are used for this purpose.
在传统的运动控制系统中,通常采用光电编码器或旋转变压器来检测转子的位置和速度。
In conventional motion control systems, optical encoders or electromagnetic resolvers are used for this purpose.
文章介绍的是采用由高速脉冲计数器、PL C和光电增量编码器构成的位置环控制系统。
The article expound a kind of position control system that is made up of high speed pulses counter, PLC and light cell code device.
轴角编码技术在闭环数字伺服系统中反映角位置量方面有着极为重要的应用。
The angle coding technique takes a great part in the use of closed digital servo control system for detecting the offset of angle.
调平机构部分,用三相混合式步进电机替代原有的交流电机,位置反馈部分,用编码器替代高精度电位器,这样构成了一个半闭环系统。
About the mechanism of adjusting crossbeam balance, the three-phase blend stepping motor take the place of the A. C. motors, the coder as a feedback device, then make up of a closed-loop system.
系统在探测器端上加入编码发射电路,每个探测器编码由12位组成,编码信号包括探测器的位置信息和探测器类别信息。
Coded and emitter circuit was added in detectors, each detector's coded was consisted of 12 bits, and detectors coded signal included its position information and category information.
方法:首先,比较分析编码结构光系统的解析几何模型和射影几何模型,统一了二者的设备参数、姿态和位置参数。
Method: First, device parameters and azimuth parameters of analytic geometry model and projective geometry model of coded structured light system were analyzed and unified.
应用光电编码器作为滚珠丝杠转角位置检测元件实现了半闭环补偿控制,提高了系统的精度。
The photoelectric encoder is used for measuring the angular position of rotating ballscrew. Semi closed loop compensation control is realized and system accuracy is improved.
通过变频器、交流伺服电机、行程光电编码器等设备组成了行程控制系统,实现了可移动台架位置的精确控制。
Travelling control system is composed of a transducer, an AC servo motor, an optical encoder and other components, which achieves precise control of the movable bench's position.
采用光电编码器作为角位置传感器,以有刷直流电机作为伺服系统的伺服电机,使用控制器MCL2805实现全数字伺服控制系统。
The system takes photo-electricity coder as Angle position sensor, using brush DC motor as servo motor. The full-digital servo system is based on controller MCL2805.
采用光电编码器作为角位置传感器,以有刷直流电机作为伺服系统的伺服电机,使用控制器MCL2805实现全数字伺服控制系统。
The system takes photo-electricity coder as Angle position sensor, using brush DC motor as servo motor. The full-digital servo system is based on controller MCL2805.
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