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。
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。
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。
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。
In this paper, we introduced the control theory of brushless DC motor, and proposed the design scheme, software method and hardware electric circuit for whole system.
介绍了无刷直流电动机的控制原理,给出了系统设计的整体方案,并详述了硬件电路和软件程序设计。
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 design principle and realization method of the digital PID control system are discussed according to the characteristic of DC brushless motor.
根据无刷直流电动机的特性,讨论了数字pid控制系统的设计原理和实现方法。
A kind of PID controller with fuzzy algorithm setting on-line PID parameters automatically was designed and applied in brushless DC motor speed control system.
通过设计一种模糊pid控制器,应用模糊算法在线自动整定PID参数的方法,将其应用于无刷直流电动机调速控制系统。
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 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。
A kind of closed loop timing control system based on position-sensorless control for axial blood pump of artificial heart brushless DC motor is introduced in this paper.
介绍一种用于人工心脏轴流式血泵的无位置传感器无刷直流电动机闭环调速控制系统的电路设计。
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。
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。
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 system with brushless DC motor (BLDCM for short) as its drive adopts three-loop control strategy to achieve the aim at high accuracy position trail of rudder.
该系统以无刷直流电机作为伺服电机,采用三闭环的控制策略,实现舵面位置的高性能跟踪。
The main purpose of this paper is to make three brushless DC motors as control object and based on relative coupling strategy to study synchronized control of multi-motor system.
以三台无刷直流电动机为控制对象,分析基于偏差耦合的多电机同步控制策略。
One kind of sensorless control system for brushless DC motor based on DSP was introduced and the principle of back-EMF zero-crossing detection and realization method was discussed in detail.
介绍了反电动势过零位置检测的原理及实现方法,并采用了数字式转速、电流双闭环控制。
Achieving the control of brushless DC motor by using fuzzy controller is one of effective means to improve system performance.
利用模糊控制实现无刷直流电动机的控制是提高系统性能的有效手段之一。
The Brushless DC Motor, important part of the system is well controlled including two-closed-loop control method, compensation for dead-time and analysis of fluctuation about swapping phases.
同时针对系统中的关键部分无刷直流电机采取了全面优良的控制策略,包括转速外环电流内环双闭环调速控制,死区补偿,换相脉动分析等。
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。
Based on AT89C51 single chip processor, divided driving control technology is applied to the control of DC brushless motor in real time tracking system, which increases the precision of control.
利用AT 89C5 1单片机实现将细分驱动控制技术应用于实时跟踪系统中的直流无刷电机控制,提高了控制精度,对控制系统的硬件和软件进行了详细介绍。
The construction and the control methods of brushless DC motor system are presented.
文章介绍了直流无刷电机的结构、控制方法以及采用复合模糊控制的方案。
Based on the power supply system on electric vehicle(EV) and the mathematical mode of brushless DC motor(BLDCM), a speed control system with bi-directional DC/DC converter was proposed.
在分析电动汽车电源系统和无刷直流电机数学模型的基础上,提出一种基于双向DC/DC变换器的无刷直流电机调速系统。
This paper presents the advantage of FPGA based motor control system compared with the traditional control technology of BLDCM (Brushless DC motor).
本文在介绍了传统无刷直流电机控制技术的基础上,分析了采用FPGA实现电机控制的优点。
SCM control of permanent magnet brushless DC motor speed control system applicable to electric bicycles, and other low-power work.
摘要单片机控制的永磁无刷直流电动机调速系统适用于电动自行车等小功率的工作情况。
SCM control of permanent magnet brushless DC motor speed control system applicable to electric bicycles, and other low-power work.
摘要单片机控制的永磁无刷直流电动机调速系统适用于电动自行车等小功率的工作情况。
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