This paper introduces the DC motor control system which adopts PWM technology and the TL494 as the core technology.
本文介绍了以TL 494为核心,采用PWM技术的直流电机控制系统。
In practical aspect, firstly, brushless DC motor control system is designed from two aspects: hardware and software.
在实际方面,首先,本文从硬件和软件两个方面进行了无刷直流电机控制系统的设计。
DC motor control system based on TMS320LF2407 is introduced, and the DC motor is effectively controlled by this system.
研制了一套基于TMS320 LF 2407的直流电机控制系统,实现了对直流电机运行的有效控制。
Finally, designs brushless DC motor control system hardware circuits based on TI's DSP chip TMS320F2812 and ir's IR2133, and compose the corresponding software.
最后,基于TI公司的DSP芯片TMS320F 2812和IR公司的驱动芯片IR 2133设计了直流无刷电动机控制系统的硬件电路,并编写了相应的软件。
The error of inductosyn Angle measurement system will cause ripple of speed in DC motor control system. This error is equal to adding a disturbance to the input.
由于感应同步器测角系统的误差的存在,相当于在系统的输入端加入了一个干扰,从而在电机控制系统中引起电机速率的波动。
Carry out the debugging of a brushless DC motor control system hardware and software, meanwhile analyse and explain problems they encounter, at last putting up with solutions.
进行了直流无刷电动机控制系统的软、硬件调试,同时对调试过程中碰到的题目进行分析和阐述,并提出解决方法。
Four PWM modes used in the brushless DC motor control system are introduced and their different influences on the commutation torque ripple of BLDC motors are analyzed in detail.
介绍了无刷直流电机控制系统中的四种PWM调制方式,详细分析了四种不同的调制方式对无刷直流电机换相转矩脉动的影响。
This article presents a design of permanent magnetic brushless DC motor control system and mainly involves the hardware circuit design of speed closed loop and power module drive.
介绍了一种永磁无刷直流电机控制系统的设计方案,主要涉及速度闭环和功率模块驱动的硬件电路设计;并通过实验证明该设计可直接用于小型无刷直流电机的控制。
And then it studies a number of key technologies around the sensor less brushless DC motor control system: Rotor position detection, motor starting and the PWM control technology.
然后分析研究无位置传感器无刷直流电机控制系统的几项关键技术:转子位置检测、启动和PWM控制技术等。
According to engineering design method a double closed-loop DC motor control system was designed, a modulator structure was selected and computed, and its parameter was corrected.
采用工程设计方法对双闭环直流调速系统进行辅助设计,选择调节器结构,进行参数计算和近似校验。
The DC motor speed control system for providing an effective way.
对于直流电机速度控制系统的实现提供了一种有效的途径。
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 tension control system using permanent-magnet DC torque motor as executive component is design. It can inspect and adjust tension at real-time during winding.
设计了以永磁式直流力矩电动机为执行元件的张力控制系统,它能够实时检测和调整缠绕过程中纤维的张力。
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。
The nacelle azimuth control of DC torque motor under the reaction flywheel control mode is presented, and the nacelle azimuth control system is investigated in theory.
提出了用直流力矩电动机在反作用飞轮控制方式下对气球吊篮的方位控制,从理论上研究了气球吊篮方位控制系统。
In this paper, a DC motor speed control system based on fuzzy controller theory is introduced.
本文主要介绍了以模糊控制理论为基础的直流电机调速模糊控制系统。
Discuss the DC adjust voltage and timing system simulator process and way of the container crane, which containing the DC motor drive and drivers' select, drivers connection and control.
集装箱装卸桥直流调压调速系统仿真过程及方法,其中包括直流电机传动及驱动器选择、驱动器接线与控制。
The control system for the brushless DC motor based-on 80c196mc consists of 80c196mc, IPM, speed displaying and speed setting module.
基于80c 196MC芯片的无刷直流电机控制系统,包括80c 196 MC、IPM、速度显示及速度设定模块。
The direct self control was proposed to brushless DC motor drive system.
将直接自控制方案应用于无刷直流电机的调速系统中。
This paper presents bushless DC motor servocontrol system based on DSP, then makes a brief about control strategy and design scheme of software and hardware that realizes this control system.
介绍了一种基于DSP的无刷直流电机伺服控制系统,简述了实现该控制系统的软件和硬件设计方案及控制策略。
The controller of the DC motor speed adjusting system is developed, which is based on ITAE optimum control theory combined with PI control.
提出了一种用于直流电机调速系统的控制器设计方法,该方法主要基于ITAE最优控制理论,并结合PI控制。
Using PWM to drive motor, and we design a circuit in DC serve control system.
利用PWM驱动方式控制电机的转动,并设计出了直流伺服控制系统硬件电路图。
The closed -loop control system of position, velocity, current using Limited Angle Brushless DC Torque Motor is designed and simulated and its reliability is designed.
完成了有限转角无刷直流力矩电机的位置、速度、电流闭环控制系统的设计和仿真,并完成了控制系统的可靠性设计。
The testing results show that the control system based on DSP can implement closed loop control the DC motor.
系统的测试结果表明,基于DSP的无刷直流电动机控制系统,可以实现对电动机的全数字化双闭环控制。
The design of the speed control system of brushless DC motor based on SPMC65P2404A is implemented, which used in the electric-bicycle.
以SPMC65 P 2404 A单片机为核心,设计了一种用于电动自行车的无刷直流电动机调速控制系统。
A scheme of control system for a wide_range and high_precision velocity DC torque motor is introduced.
结合所做的天文望远镜控制系统项目,介绍一种宽范围、高精度直流力矩电机速度控制系统的实现方案。
Brushless DC motor control and Electric Differential (ED) control are the cores of EV control system.
本文重点分析了电动汽车控制系统的核心:直流无刷电机驱动控制和电子差速控制。
This paper introduces an electric bicycle controller combined with DC brushless motor, specially describes the system and control technology of the new mode and applied electric bicycle's controller.
本文介绍了一种与直流无刷电动机配合使用的电动自行车控制器,着重论述了此种新型、实用的电动自行车控制器的系统构成和设计技术。
The principle of brushless DC motor the control method with position sensor is introduced, and the control system based on DSP is presented.
介绍了直流无刷电机的工作原理和基于位置传感器的控制方法,提出了基于数字信号处理器(dsp)的控制系统。
The principle of brushless DC motor the control method with position sensor is introduced, and the control system based on DSP is presented.
介绍了直流无刷电机的工作原理和基于位置传感器的控制方法,提出了基于数字信号处理器(dsp)的控制系统。
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