介绍了全桥逆变电路的工作方式。
The working mode of full bridge inverter circuit is introduced in this paper.
第三部分逆变电路,输出所需交流电压;
The third part introduces inverter circuit, it provides two needed sine output voltage.
PW M控制技术是逆变电路中应用最广泛的技术。
PWM control technology is the most popular technology in inverter circuit.
中文描述:开关,逆变电路,接口电路及驱动电路应用。
Description: Switching, Inverter Circuit, Interface Circuit And Driver Circuit Applications.
介绍了采用IGBT逆变电路的高压脉冲电源的设计和电路构成。
This paper presented an IGBT inverter for high voltage pulse source.
其技术特征是:变频逆变电路由时基集成电路和三极管连接而成;
The technical characteristics of the device is: the frequency conversion invert circuit consists of the connection of a time base integrated circuit and a triode;
该主电路采用晶闸管三相全控桥整流电路,IGBT单相全桥逆变电路。
This main circuit is composed of the three-phase fully-controlled bridge using GTO and the single-phase bridge inverter using IGBT.
提出了一种基于桥式逆变电路的新型单级功率因数校正变换器的电路拓扑。
This paper introduces a novel topology about single-stage PFC converter based on bridge inverter and analyzes its theory of operation.
串级逆变电路是在高压大功率电力电子变换器中应用较多的一种变换电路。
Cascade inverter has various applications in the high voltage and power multilevel inverter field.
介绍了在可控硅中频感应电炉中整流电路和逆变电路的常见故障及其排除方法。
The common breakdown and its removal of the rectifier circuits and inverse transforming circuits in intermediate frequency induction electric furnace for thyristor are introduced.
主电路主要由四部分组成:整流电路、逆变电路、高频变压器、焊丝加热电路。
The main circuit includes rectifier, inverter, high-frequency transformer and wire heating circuit.
提出了一种由斩波电路与全桥逆变电路构成的电压型大功率晶闸管全桥逆变主电路。
A voltage type high power invert circuit which is composed of chopper and thyristor full bridge invertor is proposed.
由于直流供电电源纹波的影响,电压控制SPWM逆变电路的输出谐波分量幅值较大。
Because of the ripple of the DC power supply, the output harmonic amplitude of the voltage controlled SPWM inverter is higher.
在高压大容量应用场合,多电平逆变电路具有显着的优势,比如输出谐波少、开关频率低等。
In high voltage and high power fields, multilevel inverter has significant advantages, such as less distorted output, lower switching frequency, etc.
该逆变电路克服了传统逆变器的直通问题,功率开关管和功率二极管可以分别得到最优设计。
This topology overcomes the shootthrough problem in traditional inverter. The switch and diode can be designed separately.
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;
Then the article designs and researches inverter circuit, driver circuit, working power supply, voltage regulator feedback circuit protection circuit of three-phase inverter power.
仿真验证试验结果表明所设计的基于人工神经网络的电力电子逆变电路的故障诊断系统是可行的。
The well-designed training set was verified by simulation test. The simulation result proved that the model was correct and the diagnosis method was feasible.
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。
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.
第二章对超音频感应加热电源做了详细的技术分析,包括它的整流电路、逆变电路和并联谐振槽路。
In the second chapter, it has introduced the super-frequency induction heating power supply in detail, including its rectifier, its inverter and its parallel-resonant load.
基于充电机安全性能,功率等级以及应用场合的考虑,主电路拓扑选用的是带隔离的半桥逆变电路。
In consideration of safety performance, power rating and applications of the recharger, the isolated half-bridge converter circuit is adopted in the main circuit topology.
提出了电源的逆变电路进行开关频率的自动跟踪时,避免电路进入似谐振状态而工作于谐振状态的方法。
Finally avoidance method of working in pseudo-resonant state during the inverter's switching frequency tracing control is suggested.
串联H桥多电平变频器的主回路从结构上可分为三相电容滤波不可控整流电路和单相电压型全桥逆变电路。
The series H-bridge multilevel converter's power circuit is composed of uncontrolled rectifier with filtering capacitor and single phase H-bridge voltage-type inverter.
本发明提出了一种高效电子镇流器,由整流滤波电路、高频逆变电路、功率调节电路及灯丝预热电路组成。
The efficient electronic ballast is composed of rectifier-filter circuit, high-frequency inverse transforming circuit, power regulation circuit and filament preheating circuit.
晶闸管三相半波可控整流与逆变电路的电压波形是不同的,而共阴极接法与共阳极接法的波形又有所不同。
The wave shape of Voltage in 3-phase controlled rectification is not as same as it does in circuit. The wave shape of common-cathode circuit is also different with that of common-anode.
逆变电路选用全桥式电路拓扑结构,逆变频率选为22khz,并以IGBT作为主电路的开关功率元件。
Full bridge topological structure, the frequency of 22khz, IGBT switching power device were adopted for inverter.
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 method of design high frequency transformer in half bridge inverter circuit is introduced exampled in detail, besides temperature rise and power loss are discussed.
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。
The hardware system mainly includes rectifier and filter circuit, regulate voltage and inverter circuit, drive and control circuit, output circuit, protection circuit etc.
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。
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。
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.
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