Adopting ac servo motor as the driving device, can the dc servo motor and a high precision, high performance as the half closed loop or closed loop control system.
采用交流伺服电机作为驱动器件,可以和直流伺服电机一样构成高精度,高性能的半闭环或闭环控制系统。
The DC servo motors are controlled with motion controller LM629 and motor drive chip LMD18200 based on PC104 bus.
在PC 104总线控制下,应用运动控制芯片LM 629和电动机驱动芯片LMD18200实现了直流伺服电动机的控制。
At present already in a wide range of replaced the dc servo motor.
目前已经在很大范围内取代了直流伺服电机。
Adopting ac servo motor as a drive device, can and dc servo motor as a high precision, high performance and a half closed loop or closed loop control system.
采用交流伺服电机作为驱动器件,可以和直流伺服电机一样构成高精度,高性能的半闭环或闭环控制系统。
In order to control the single joint's motion of the robot, a joint servo controller which integrates motion control and driving of the DC motor is designed.
针对机器人单关节的运动控制,设计了集直流电机运动控制和驱动于一体的关节伺服控制器。
The position tracking controller with good performance is the guarantee of high precision brushless DC motor servo system.
为了设计高精度的直流无刷电机伺服控制系统,性能优良的位置跟踪控制器是其重要保障。
The position and velocity were controlled by servo and the DC motor respectively.
输出控制量最终通过舵机和直流电机分别对小车的位置和速度进行控制。
It proves that the controlling system designed by this paper is a more perfect system using in the DC servo motor controlling field.
本文设计的控制系统是一套较为理想的直流伺服电动机控制系统。
Slotted on shaft end, suitable for DC motor and servo motor.
轴头开槽,适用于直流电机,伺服电机。
Simulation results indicate that the clutch engaging speed can be accurately controlled by using DC servo motor dual closed loop control system. The start quality of Vehicle was improved.
结果表明:直流伺服电机驱动离合器,能很好地控制离合器的结合速度,提高车辆起步品质。
In this paper, a DC brushless motor servo-control system based on DSP is designed.
本文设计了一种基于DSP的直流无刷电动机伺服控制系统。
The system consists of 80C196KB/KC single chip microcomputer, 27C64 memory, optical coder and its external decode circuit, motor drive circuit, current - limiting circuit, DC servo motor etc.
本系统由80C196KB/KC单片机、27C64存贮器、光学编码器及外部译码电路、电机驱动电路、限流电路、直流伺服电机等组成。
The magnetic field of a low-inertia REPM DC servo motor with ferrite shielding case was calculated by the finite element method.
本文采用有限元法对带铁氧体屏蔽罩的稀土永磁低惯量直流伺服电动机的磁场进行了计算。
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。
This paper presents a digitized DC motor position servo control system based on DSP.
提出一种基于数字信号处理器(DSP)的全数字直流位置伺服控制系统。
Stage features micrometer grade screw with lead pitch 0.5 mm, miniature linear bearing and non-contact limit switches with a choice of either stepper or DC servo motor with encoder.
阶段具有千分尺等级螺钉以及0.5毫米的引脚间距的特点,微型直线轴承和非接触式限位开关带有,任一步进机或直流伺服电机编码器的选择。
A servo card in PLC for printed DC motor used in TF3 equipment has been developed.
介绍了TF 3装盘机电气控制系统所需的印刷直流电动机伺服控制板的研制。
The permanent magnetic servo DC motor is used as the driving source of making the axis of the tear tape rotate to feed the packing mechanism with the tear tape.
该系统采用永磁式直流伺服电机为驱动源驱动撕带轴的转动,向包装机构供给撕带。
This paper analyzes the armature reaction of the brushless DC servo motor by means of finite element method (FEM), and points out that the armature reaction has great influence on torque ripple.
采用数值计算方法对无刷直流电机的电枢反应作了分析,指出了电枢反应对力矩波动的影响。
The packet loss of networked DC servo motor control system is studied by the sliding-mode control method to improve its robustness.
利用滑模变结构控制方法对存在丢包情况下的网络直流伺服电机控制系统的鲁棒性问题进行了研究。
Intelligent Power IC (IPM) is applied to a radar servo system, which is drived by brushless DC motor. The system can be used in harsh circumstances and get some satisfactory performance.
在无刷直流电动机驱动的雷达伺服系统中,采用了智能功率驱动模块(IPM)来实现功率驱动,它能够满足苛刻的环境要求,并能获得比较满意的系统性能。
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.
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。
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