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STM32-USART
- STM32 控制电机的PID PWM 实现闭环控制的程序-STM32 motor control PID PWM closed-loop control of the program
fullbridge_double_frequency
- 建立了单相的PWM整流器电路闭环控制的仿真模型。版本R2007-The simulation model of the closed-loop control of single-phase PWM rectifier circuit. Version R2007
DSPBasedDigitalControlOfOnlineUPS
- 本文介绍了一种控制对象以中小型UPS为模型的、基于TMS320F240的数字化控制平台的样机实验系统。经对比系统采用了单极性调制的SPWM方式,并根据核心处理芯片的各类资源给出了一套具体的软硬件数字化实现方案。系统硬件部分主要包括输出电压、输出电流、市电频率/相位等各类信号的采集和处理,以及输出PWM信号的隔离、驱动等。系统软件部分则包括UPS各种系统功能的实现,其中主要研究了软件锁相环(市电跟踪)、有效值调节、各类保护、PWM波的生成、闭环控制等的实现。-This article descri
4-Conventional-and-direct-current-control
- This paper proposes an optimal control strategy for an HVdc light system using a direct current vector control mechanism. The proposed approach is compared with the traditional vector control method for different HVdc control requirements, su
buckboost
- 采用STC12C5A60S2单片机实现,PID运算,产生PWM波。实现Boost电路闭环调节。-The adoption STC12C5A60S2 SCM PID calculation, generate a PWM wave. Boost circuit closed-loop regulation.
PIC-of-PID-control
- 这是一本利用PIC控制电机中PID算法的书籍。其中介绍了如何用PIC实现PWM的产生以及对BLDC电机闭环系统的PID控制。-This is a PIC PID algorithm to control the motor books. Which describes how to use PIC PWM generation and control of BLDC motor PID closed-loop system.
weijiyuanli
- 本次课程设计利用软件定时方式采用Intel 8255A可编程外设接口芯片唐都TD-PITC 实验系统上模拟直流电动机闭环调速系统,A/D转换器实现模拟信号到数字信号的转换,设置电机转速的给定值,通过PWM方式可实现电机转速的调节,LED灯显示电机转速的大小状态。-The curriculum design using software timing mode analog closed-loop DC motor speed control system on the Intel 8255A p
IJETT-V3I2P210
- PWM Based Automatic Closed Loop Speed Control of DC Motor
(Renesas-Electronics)
- BLDC motor control is required to understand the motor rotor position and steering mechanism of rectifier. For the closed-loop speed control, there are two additional requirements, namely for the rotor speed \ / or motor current and PWM signals were
Keil-c51
- 直流电机开闭环控制程序,PWM实现加减速,正反转,大多数可以适用-DC motor open closed-loop control, PWM to achieve acceleration and deceleration, reversing, most can be applied
DegreeControl
- 基于C51单片机的温度控制小程序,通过两路PWM输出控制一个水泥电阻的温度,用DS18B20完成温度的检测,LCD1602显示,里面有一个简单的闭环控制子程序,欢迎参考。-C51 microcontroller-based temperature control of small procedures, through the two PWM outputs to control a temperature of the cement resistor, complete with temper
DC-Motor
- MSP430G2553 lunchpad,通过PWM输出驱动L298N工作来控制直流电机,并利用编码器实现闭环PID控制,使其能转过指定的角度-Working through the PWM output driver L298N to control the DC motor, and use the encoder to achieve closed-loop PID control, so that it can turn a specified angle
stepmotor
- MSP430G2553 lunchpad,通过输出PWM控制L298N来驱动步进电机,并通过码盘或编码器实现反馈实现闭环控制-L298N through PWM control output to drive the stepper motor, and through the encoder or encoder feedback closed-loop control to achieve
test
- 人为数字给定直流电机转速,与霍尔测速得到的直流电机转速(反馈量)进行比较,其差值经过PID运算,将得到控制量并产生PWM脉冲,通过驱动电路控制直流电机的转动,构成直流电机闭环调速控制系统。 -For digital dc motor speed, given with hall speed of dc motor speed (feedback) comparison, the difference through the PID arithmetic, will get control a
pwmzhengliu
- 实现三相的pwm整流,电压电流双闭环控制-Achieve three-phase pwm rectifier voltage and current double closed loop control
boost_close_loop
- This simulation file is in matlab software and is about the pwm closed loop chopper.
main
- 采用两个温度传感器采集不同地方的两个温度,根据两个温度传感器的温度差进行比较确定电机旋转方向(正转或反转),并自动控制电机转速,温度差越高速度越快。电机调速采用PWM方式,并需要采集电机速度实现闭环控制,并将温度和电机速度通过液晶显示器显示出来。-Using two temperature sensors collect two temperatures in different places, were compared to determine motor rotation directio
PMSG_for_WindPower_GridSide
- PMSG网侧的结构包括逆变器、PWM发生器、电压矢量控制。采用电压外环和电流内环的双闭环控制。设计电流控制器时,希望稳态电流无静差,而且动态要求上,永磁直驱风力发电系统中不允许在电流调节过程中有太大的电流超调.-PMSG network side structure includes an inverter, PWM generators, voltage vector control. Using a voltage outer and inner current double closed
STM32_PID
- 基于STM32F103R8的PID算法例程,PWM输出控制信号,ADC输入反馈信号,形成闭环控制,完整工程源码。-PID algorithm based STM32F103R8 routines, complete engineering source, PWM output control signal, ADC input feedback signal to form a closed-loop control.
Asynchronous-motor-simulation
- 首先,介绍了交流调速及其相关技术的发展现状和发展趋势,以及交流调速系统的主要控制策略。选用工业变频器用异步电机作为研究对象,利用坐标变换理论,分析了异步电机在三相静止坐标系、两相静止与旋转坐标下的电机基本数学模型及其矢量控制原理。利用转子磁场定向的矢量控制技术,实现了异步电机定子电流的转矩分量和励磁分量的解耦。分析了空间矢量脉宽调制算法以及实现方法,最后设计了异步电机的双闭环矢量控制系统。 然后,利用Matlab/Simulink搭建了异步电机数学模型,建立了基于电压空间矢量脉宽调制的异步电