PWM control technology is the most popular technology in inverter circuit.
PW M控制技术是逆变电路中应用最广泛的技术。
The working mode of full bridge inverter circuit is introduced in this paper.
介绍了全桥逆变电路的工作方式。
The third part introduces inverter circuit, it provides two needed sine output voltage.
第三部分逆变电路,输出所需交流电压;
Finally it is explained how the inverter circuit and the digital control circuit are design.
最后给出了本文实验所用的逆变器功率电路的设计和并联控制数字电路的设计。
Description: Switching, Inverter Circuit, Interface Circuit And Driver Circuit Applications.
中文描述:开关,逆变电路,接口电路及驱动电路应用。
An inverter circuit for generating high frequency power is provided in the apparatus main body 4.
装置本体(4)设有可产生高频率电力的倒相电路。
Computer aided analysis and design flow chart and program for current source inverter circuit are presented.
提出了该逆变器的通用计算机辅助分析与设计框图和源程序。
The power factor correction (PFC) and half-bridge inverter circuit topology are commonly used in modern high power factor electronic ballasts.
现代高功率因数电子镇流器结构中普遍采用功率因数校正(PFC)和半桥逆变谐振电路拓扑。
The effects on accuracy of analysis and the problems that should be considered in the design of inverter circuit after neglecting the stator resistance are indicated.
分析中考虑了定子电阻及换相期间反电势变化的影响,指出了忽略定子电阻后对分析的精确度带来的影响及主回路设计时所应注意到的一些问题。
The method of design high frequency transformer in half bridge inverter circuit is introduced exampled in detail, besides temperature rise and power loss are discussed.
依据一个半桥逆变电路的实例详细介绍了高频变压器设计的一般方法和步骤,并讨论变压器损耗和温升问题。
The hardware system mainly includes rectifier and filter circuit, regulate voltage and inverter circuit, drive and control circuit, output circuit, protection circuit etc.
电源系统硬件部分主要包括整流滤波电路、调压及逆变电路、驱动及控制电路、输出电路、辅助保护电路等。
At the same time, the control circuit must realize power regulating of the rectifying circuit and the inverter circuit and keep some parameters impervious to the interferer.
同时,控制电路必须对整流电路、逆变电路等系统主电路部分进行功率控制,使在各种扰动下维持系统各参量不偏离其设定值。
Then the article designs and researches inverter circuit, driver circuit, working power supply, voltage regulator feedback circuit protection circuit of three-phase inverter power.
对三相逆变电源的逆变电路、驱动电路、工作电源、保护电路和稳压反馈电路进行了设计研究;
Details on the design of inverter circuit structure, the realization of driving circuit, the method for the generation of SPWM signal and the specific control of MCU was introduced.
详细介绍了逆变电路结构、驱动电路的具体设计、SPWM信号产生方法及单片机如何实现控制等。
The thesis introduced the development principle of the power supply in detail, analyzed the rectification circuit, Buck circuit, inverter circuit, drive and protection circuit, etc.
本文对这种高频、高压电源的研制原理给予了详细介绍;
An air conditioner in which the arrangement can be simplified and the size can be reduced while having a plurality of compressors being driven through an inverter circuit, respectively.
提供了一种甚至在配置有分别通过反相电路驱动的多个压缩机时,也可以实现简化配置并减小尺寸的空气调节装置。
The main circuit is made up of input rectifier & filter circuit, first inverter circuit, high-frequency transformer, second inverter circuit, rectifier & filter circuit and output reactor.
主电路系统由输入整流滤波电路、前级逆变电路、高频变压器、整流滤波电路、后级逆变电路和输出电抗器组成。
Power electronics including power electronics, inverter circuit and control circuit of three parts, which is the basis for power electronic devices, power electronics converter technology is the core.
电力电子技术包括电力电子器件,变流电路和控制电路三个部分,其中电力电子器件是基础,变流技术是电力电子的核心。
Only one input of the digital circuit unit is the buffer or inverter, the input in more than one are called logic gates.
只有一个输入的数字电路单元是缓冲器或反相器,而输入在一个以上的则称为逻辑门。
The reliability in power circuit of inverter is assurance for VFD and other power transfer application.
逆变器主电路的可靠性是变频器等功率转化装置安全合理使用的保证。
The SPMC75F2413A chip is used as main control chip to control single-phase bridge inverter main circuit.
系统以SPMC75 F 2413 A作为主控芯片来控制单相桥式逆变主电路。
A full digital driving circuit for inverter and a set of experiment system have been developed.
经过大量的实验,以全数字化的方法设计了一套逆变器驱动电路,并研制了一套实验系统。
The structure of the sine wave inverter is given, the working principles of the control circuit and voltage feedforward are analyzed.
给出了正弦波逆变器的主电路结构,分析了控制电路及电压前馈的工作原理。
Its software is designed to calculate the running parameters of the AC drive system, including transformer, quadrant rectifier, DC circuit, inverter, AC motor and train load.
系统采用软件方式实时计算交流传动系统的运行参数,包括变压器、四象限整流器、直流中间回路、逆变器、电机及负载。
Its software is designed to calculate the running parameters of the AC drive system, including transformer, quadrant rectifier, DC circuit, inverter, AC motor and train load.
系统采用软件方式实时计算交流传动系统的运行参数,包括变压器、四象限整流器、直流中间回路、逆变器、电机及负载。
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