搜索资源列表
bldc.matlab.rar
- 在分析无刷直流电机(BLDC)数学模型的基础上,提出了一种无刷直流电机控制系统仿 真建模的新方法。在Matlab/Simulink环境下,把独立的功能模块和S函数相结合,构建了无刷直流 电机系统的仿真模型。系统采用双闭环控制:速度环采用离散PID控制,根据滞环电流跟踪型PWM 逆变器原理实现电流控制。仿真和试验结果与理论分析一致,验证了该方法的合理性和有效性。 此方法也适用于验证其他控制算法的合理性,为实际电机控制系统的设计和调试提供了新的思路。 ,Based on the mathe
rectifier-model
- PWM rectifier model in matlab
PV-inverter-control-strategies
- 本资料为光伏逆变器的控制策略介绍,包括一种线电流解耦逆变器控制和一种单相分时复合级联逆变器控制。-The data for the PV inverter control strategies introduced, including an inverter line current decoupling control and sharing of a single-phase inverter control complex cascade.
Inverter-
- :电流滞环控制具有易于实现、快速的动态响应和无条 件稳定等优点,但该控制方法使逆变器的开关频率不固定, 造成逆变器输出滤波器设计困难,因此很少有文献提及此种 滤波器的设计方法。该文研究了一种基于电流滞环控制的半 桥双降压式逆变器输出滤波器的设计方法。该方法从短路特 性和稳压精度两方面阐述了如何最优选取滤波电感,从谐振 频率和无功补偿两方面阐述了如何最优选取滤波电容-Hysteresis current control method has the characters
C02-welding
- 波形控制CO2逆变焊接电源的研制,波形控制是当前焊机控制的主流技术-CO2 waveform control the development of inverter welding power source, waveform control is the current mainstream technology welding machine control
1158297630
- 我给别人做的逆变器,功率50~4000w,实地作过样机,波形良好纯正弦波,带冰箱,洗衣机彩电没任何问题.具有过电流保护,稳压反馈,全单片机控制.希望大家能多提意见,共同学习.-I do to others, inverter, power 50 ~ 4000w site for prototype waveform good pure sine wave, with a refrigerator, washing machine color TV did not have any problem
The-Control-Strategy-Inverter
- 在风力发电网侧逆变器动态数学模型基础上 采用空间矢量脉冲宽度调制 SVPWM 方式和电网电压合成矢量定向 实现了电流有功分量和无功分量的解耦及功率因数的可调控制.-Dynamic mathematical model based on wind power grid-side inverter the resultant vector of the vector mode and the grid voltage space vector pulse width modulation direc
JAM1003_24012-2011-03-181
- 本软件主要实现光伏逆变,并且有很好的对电流和MPPT跟踪功能。-This software PV inverter, and have a good tracking capabilities of current and MPPT.
compensation-of-dead-time
- 交流伺服系统中的死区效应分析与补偿分析了逆变器的死区效应产生的原因及其对交流伺服系统控制性能产生的影响,指出死区补偿的关键 在于电流相位的获取,为了克服实际系统中电流零点的模糊性,提出了一种基于两相静止坐标系下的前馈死 区补偿方法. 该方法通过对三相输出电流一个周期内补偿电压进行傅里叶变换,发现仅需补偿1 ,5 ,7 次谐波 分量即可消除死区效应. 仿真和试验结果验证了这种方法的正确性和可行性.-AC servo system analysis and compensation of
Discussion-on-inverter-
- 为了产生可变的电压和频率,该设备首先要把三相或单相交流电变换为直流电(DC)。然后再把直流电(DC)变换为三相或单相交流电(AC),我们把实现这种转换的装置称为“变频器”inverted-In order to produce a variable voltage and frequency, the device must first three-phase or single-phase AC power is converted to DC (DC). Current (DC) and t
10.1.1.41.4045-(1)
- A power inverter is a device that converts DC power (also known as direct current), to standard AC power (alternating current). Inverters are used to operate electrical equipment from the power produced by a car or boat battery or renewable energy so
Modeling-of-asynchronous-motor
- 三相异步电动机变频器调速系统,它通过变频器,将频率固定的交流电变换成频率连续可调交流电源。本文为基于Matlab的异步电动机变频调速系统的仿真研究。-Three-phase asynchronous motor inverter speed control system, through the inverter, the fixed-frequency alternating current is converted into frequency AC power continuously a
bustypes
- power quality for multilevel inverter current sourse
IFOC_IREG
- IFOC,Current PI regulator, Modul ’PWM’, Modul ’Ramp compare register, Modul ’Ramp generator, Modul ’Inverter’, Modul ’Arm a (b, c)’,
design-of-SRM
- design of SRM The Mathcad programs were saved as version 6 files from version 2001. Since no special features not available in version 6 were used it is expected that they can be run by Mathcad 6 or later. Flux.mcd A program to plot the SRM
foc-principle
- 空间矢量脉宽调制(SV PWM ) 技术不仅具有 线性调制范围宽、输出谐波小和易于数字化实现 的特点, 而且比常规SPWM 高15 的直流电压利 用率[ 1~ 3 ] , 因而被广泛用于变频器、U PS 、无功补 偿器、有源电力滤波器和储能系统电力变换器等 领域. 对SV PWM 常规算法和快速算法进行分析, 并证明了二者的等效性. 同时, 利用MA TLABö Sim u link 对在不同输入电压参考信号和不同零矢 量分配方式下的调制信号和逆变器输出
A-Current-Controller-Design-for-Current-Source.ra
- current controller design for current source inverter
Hysteresis-Current-Control-in-Three-Phase-voltage
- Hysteresis Current Control in Inverter
48-Sensorless-Current-Control-of-Three-Phase
- This paper presents a modified adaptive Kalman filter for sensorless current control of a three-phase inverter-based distributed generation system. Measurement and digital signal processor delays have been compensated by using a modified Kalman
inventer &conventer
- Converter and Inverter are devices that convert the current from AC to DC and vice versa.