给出了采用链式STATCOM实现平衡化补偿的主电路结构及电压-无功综合控制方法。
Main circuit configuration and integrated voltage-reactive power control scheme for balancing compensation with cascade inverters based STATCOM is proposed.
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。
The structure of the sine wave inverter is given, the working principles of the control circuit and voltage feedforward are analyzed.
其中硬件控制系统主要介绍了包括主芯片的外围电路,信号采集模块以及电机驱动模块。
Among them the control system of hardware has introduced the peripheral circuit including main chip mainly, the module the signal gathers and the motor driving module.
在设计STATCOM装置时,可根据系统要求的不同,控制目标的不同,选取不同的控制方法和主电路结构。
For design of STATCOM device the different control method and main electric structure can be selected according to different requirements for system and control targets.
重点介绍了永磁交流伺服系统的控制策略,位置检测和辨识、主电路和驱动技术等关键技术。
This article introduced emphatically the control strategy, position detection and identification, drive technique as well as main circuit of permanent magnet Ac servo system.
该电力有源滤波器以主电流为控制对象,控制电路比较简单。
The filter takes the main current as a controlled object. Its control circuit is simple.
以TMS320F2812作为主控CPU,以IR2110作为驱动芯片,完成了导弹舵机伺服控制系统的硬件设计,进行了控制器主电路的分析与设计。
The missile rudder servo controller adopts TMS320F2812 as main CPU, IR2110 as drive chip. Each part of main circuit is analyzed in detail.
提出了采用单相statcom实现平衡化补偿的两种主电路结构及电压无功综合控制方法。
Two kinds of main circuit configuration and integrative voltage reactive power control scheme for balancing compensation with single phase STATCOM are proposed.
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。
The SPMC75F2413A chip is used as main control chip to control single-phase bridge inverter main circuit.
在本次论文中,给出了控制系统的主电路图及软件设计。
At the present This thesis has the system's scheme of hardware main circuit diagram and software design.
本文介绍了8k型电力机车辅助变流器的特点、主电路元件参数及控制。
It is introduced here the characteristics, the parameters of the power circuit devices and the control method of the auxiliary converter of 8k electric locomotive.
硬件设计包括主电路与控制电路两部分。
Hardware designs include the main electrocircuit and control electrocircuit designs.
本文介绍了在实现三相四线制有源电力滤波器时所采用的两种不同的主电路结构及其控制方法。
In this paper, two types of main power circuits and their control methods are introduced when constructing active power filter in three phase four wire system.
接着,本文介绍了控制器的工作原理,给出了两种斩波控制方式的比较、控制器主电路参数设计和驱动电路设计。
Then, through analysis of working principle of the controller, comparison between two current hysteretic control, strategies and design of main circuit parameters are given.
对该焊机的主电源结构、小车行走控制电路、送丝电路、单片机控制电路以及焊接过程控制软件等的设计作了较详细的介绍。
The design of main power sources structure, the control circuit for welding tractor and wire feeder, SCM control circuit and software for welding process are introduced in detail.
主要介绍一种大功率超声波逆变电源装置的主电路、控制电路、驱动与保护电路的设计,并给出实验结果。
This paper introduces the design of high power supersonic inverting power supply, including main circuit, controlling circuit, driving and protecting circuits, and gives experimental results.
接着详细介绍了电力操作电源的设计过程,包括主电路的设计以及控制电路的设计。
Next the design process of this power supply, which include the main circuit design, control and auxiliary circuit design, are introduced in detail.
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。
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.
第三章详细介绍了软起动控制器的硬件设计,包括主电路、控制电路、驱动保护回路和辅助开关电源电路的分析和设计。
The third chapter mainly introduces the hardware design of soft starter, including the main circuit, control circuit, drive circuit, and protect circuit and auxiliary switched power design.
文中对所研制的焊接磁搅拌装置的主电路、控制电路、驱动电路进行了研究和设计。
The main circuit, control circuit and driving circuit of the developed device was studied and designed in the paper.
本文介绍48V/500A全数字交流调速控制器主电路及其保护电路的设计。
The paper introduces the design of the main circuit and protection circuits of 48V/500A all-digital AC speed regulation controller.
同时给出了主电路、控制电路、主要参数的计算方法及相关波形。
The structure of main circuit and the control circuits and the relative calculations are also given.
就其电源的主体结构,全桥主电路、控制电路、驱动电路以及保护电路的工作原理作了简要的论述。
The composition of the inverter, the working principle of full-bridge main circuit, controlling circuit, drive circuit and protect circuit are described.
阐述了调功器的设计原理、主回路和控制回路的电路图。
There is description on the design principle of power regulator, circuit drawings for main and control feedback circuits.
介绍了综合电力滤波系统的主电路和控制电路,分析了滤波原理及控制方法。
The main circuit and control circuit construction are introduced, the filtering principle and control strategy are discussed.
主电路以反并联的晶闸管作为控制开关,控制焊接用的电阻点焊变压器通电与否。
In the main circuit, the inverse parallel couple SCRs (silicon-controlled rectifier) are used as a electric switch, switching the transformer of resistance spot welding.
主电路以反并联的晶闸管作为控制开关,控制焊接用的电阻点焊变压器通电与否。
In the main circuit, the inverse parallel couple SCRs (silicon-controlled rectifier) are used as a electric switch, switching the transformer of resistance spot welding.
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