海德汉研制生产光栅尺、角度编码器、旋转编码器、数显装置和数控系统。
HEIDENHAIN develops and manufactures linear encoders, angular encoders, rotary encoders, digital readouts, and numerical controls.
位置显示单位为可视化的角度编码器或测量值与线性编码器,长度计,旋转编码器。
Position display units serve to visualize the values measured with linear encoders, length gauges, rotary encoders or Angle encoders.
头架主轴(c1轴)采用高精度滚动轴承主轴结构,配置角度编码器闭环反馈控制,达到极高的回转精度和定位精度。
Work head spindle (C1axis) USES high precision rolling bearing structure, and Angle encoder close-loop control, which make it get extremely high rotary precision and positioning precision.
针对SSI接口的绝对值角度编码器,提出了一种伴随读出方式读取绝对值角度编码器值的方法,实现了信号的并行读取。
This paper presents the way of concomitance reading (CR) based on SSI interface in operating processes, which achieves the aim of parallel reading data.
本文基于PIC 16f874单片机,介绍了一种低成本、实用性强并提供RS- 232串口输出的高精度同步机角度编码器。
A synchronous motor Angle encoder with low cost, high practicality and RS-232 serial output interface based on PIC16F874 MCU is introduced in the paper.
目前常用的伺服电机是交流伺服电机,在电机的轴端装有光电编码器,通过检测转子角度用以变频控制。
Now commonly used servo motor is ac servo motor, the axial end in motor with photoelectric encoder, by examining the rotor Angle to frequency conversion control.
常用的伺服电机是交流伺服电机,在电机的轴端装有光电编码器,通过检测转子角度用以变频控制。
Commonly used servo motor is ac servo motor, the motor shaft with in the photoelectric encoder, by detecting the rotor Angle to frequency conversion control.
编码器检测步进电机旋转角度,以补发脉冲的方式解决了步进电机的丢步问题,保证载带每次运行恰好一个工位。
The encoder measures the rotated Angle of the step motor and solves the problem of pulse losing by supplementing pulse, which ensures that the tape moves one fit step every time.
在自动化,旋转编码器作为传感器,加速度,角度,位置,速度和。
In automation, rotary encoders are used as sensors for Angle, position, speed and acceleration.
主要介绍了旋转编码器的工作原理,通过8051单片机来累计旋转编码器被刮水器转轴带动所产生的脉冲数,将其换算转化为角度,从而达到测量刮水器转角的目的。
Making use of rotary encoder attains the purpose of measuring rotative Angle of wiper through single chip computer 8051 to count the pulse of rotary encoder generating, which is drove by wipers axle.
该系统的速度反馈元件采用测速发电机,角度测量元件采用光电编码器。
Measuring generator is used for velocity feedback in this system, and photoelectricity coding component is used for Angle measure.
主要研究成果包括如下四个部分:首先,从编码器的角度出发,针对传统喷泉码码长较长的问题,研究了短码长喷泉码的设计。
First, from the perspective of encoder designing, we study fountain codes with short code-length, which is likely to reduce the decoding latency and buffer requirement.
《角度测量器》用光电编码器测量角度,每个脉冲为 0.72度。
" Angle measuring device" with the optical encoder measuring the angle of each pulse is 0.72 degrees.
《角度测量器》用光电编码器测量角度,每个脉冲为 0.72度。
" Angle measuring device" with the optical encoder measuring the angle of each pulse is 0.72 degrees.
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