搜索资源列表
de-mo-an
- POWER ELECTRONICS DOCUMENT-POWER ELECTRONICS DOCUMENTSS
conform-ME-Paper-for-simulation
- it gives good insight about power electronics
power-electronics-and-systems
- matlab的相关程序,关于电机调速方面的,-matlab related procedures, motor speed,
Inverter
- power electronics projects
Fig5x17
- 电力电子、电机控制系统仿真模型7.1版本範例-Version 7.1 example of power electronics, motor control system simulation model
1
- 电力电子行业,变频器或者整流器用到的三电平控制算法,极具参考价值 -Three-level control algorithm used by the power electronics industry, inverter or rectifier, great reference value
pe_manual
- power electronics manual for students
P3a
- Important document and scr ipts from matlab about power electronics.
index
- PSCAD Simulation in a Power Electronics Application Coursep
(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
FPGA-based-AC-Servo-System
- 基于 FPGA 的交流电机控制系统 华中科技大学 硕士论文 陈彦伶 电力电子与电力传动 2009 年 5 月 31 日-Chen Yanling power electronics and electric drive based on FPGA AC motor control system, Huazhong University of Science and Technology Thesis May 31, 2009
BLDCM-based-on-NIOS
- 基于NIOSII的无刷直流电机控制器设计 庄任勤 大连海事大学 硕士论文 电力电子与电力传动 2009年6月 本文介绍了无刷直流电机的工作原理,研究了无刷直流电机的PWM调制方式,实现了基于Nios软核的无刷直流电机控制系统的SOPC设计。系统硬件包括以FPGA为核心的控制电路和用于电机驱动的三相全桥逆变电路,对FPGA及其外围设备的选择和逆变电路的设计做了大量研究工作。软件设计包括在Quartusn中用vHDL语言生成的位置检测模块、电机控制模块和PID调节器的I
chapter26
- 汽车电力电子手册第26章翻译,讲述电机容错控制系统-Automotive Power Electronics Handbook Chapter 26 translation, tells the motor fault tolerant control system
PowerElectronics
- Power Electronics in pscad
dctodc
- This file contain some new articles that is related to dc to dc converters. This may be useful for power electronics engineers
Voltage-SourcedPConverters
- 电力系统 电力电子 statcom 英文资料-Power electronics power systems statcom
PowerElectronics
- Power Electronics studios convert
SPWM_invertor
- 电能最基本的形态为:DC、AC 四大基本状态转换: DC→AC、DC→DC、AC→DC、AC→AC • 电力电子器件只是工作在两种状态 开通、关断 开通:即工作在高度饱和导通状态 如何利用电力电子器件的开通和关断两种状态实现电能四大基本状态之间的转换就是电力电子学所要研究的核心内容-The most basic form of power: DC, AC Four basic state transitions: DC → AC, DC → DC, AC
PSPICE-simulation-applications
- PSPICE 仿真在开关电源中的应用,可以作为电力电子工程师重要参考资料-PSPICE simulation of the switching power supply applications, can serve as an important reference for power electronics engineers
ACTIVE-CLAMP-FLYBACK-FORWARD-CONVERTER
- GENERAL POWER ELECTRONICS SIMULIK MODELS