因此本文采用原副边电流双环控制。
The double loop control method is introduce in this article.
整个系统控制分为电压环控制和电流环滑模控制。
The whole control unit is divided into the voltage loop control and the current loop control.
研究了一种滞环控制的电流跟踪型SPWM逆变器。
We present a novel current-following SPWM inverter with delay-loop control.
本文详细分析两种控制策略—SPWM控制和滞环控制。
It is detailed to analyze two kinds of control strategy, -spwm and HCPM (Hysteresis Controlled Pulse Modulation).
文章提出了一种基于滞环控制和预测控制的自适应电流控制器。
This paper presents a new self-adaptive current controller based on hysteresis control and predictive control.
从系统抗干扰性、鲁棒性等方面与单环控制进行了理论分析和比较。
The system performances of disturbance rejection and robustness are analyzed and compared with single rate-loop control.
为了克服滞环控制的不足,串联侧采用恒频滞环来保持开关频率的稳定。
The constant frequency hysteresis is adopted to keep switching frequency stable and improve the hysteretic control.
通过备用电容器投切的滞环控制律的设计,以减少电容器组的投切次数。
Hysteresis control is designed for standby capacitor to reduce its switching times.
采用双环控制,使输出电流能够高度精确跟踪电流编程基准,防止了偏磁。
A double loop control method has been used, so the output current can accurately follow the programmable reference, and the flux imbalance is avoided.
控制系统采用双环控制,速度环采用PI转速控制,电流环采用矢量控制。
In the double loop of control system, a PI speed controller is adopted in the speed loop, and a vector controller is used in the current loop.
本文首先基于悬浮系统的确定性模型,运用双环控制思想设计其数字控制器。
This paper first utilizes the ideological design digital controler of double-loop control based on the magnetic definite model of system.
文中根据经典控制理论,采用电流、速度、位置三环控制作为系统控制策略。
According to classical control theory, using current, speed and position control as a three-ring system control strategy.
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。
In this paper a design method of half bridge dual buck inverters output filter based on hysteresis current control was presented.
该方案采用电感电流和输出电压瞬时值双环控制,以提高输出稳定性和动态响应。
To improve the steady state operation and dynamic response, a dual-loop control strategy which incorporates the inductor current and the instantaneous output voltage has been used.
DSTATCOM采用预测电流控制的双环控制方法和三电平逆变器的主电路设计。
DSTATCOM is designed with double loop control method of predictive current and 3-level inverter for its main circuit.
可采用SPWM控制功率管的关闭与导通,采用外环电压环,内环电流环的双环控制。
We can use SPWM to control power tube on or off, can use the double-loop control with the inductance current inner loop and capacitor voltage outer loop is introduced.
系统采用位置、速度和电流环三环控制,并结合空间矢量脉宽调制(SVPWM)算法。
The servo control system combines position loop, speed loop, current loop with algorithm of space vector pulse width modulation(SVPWM).
基于电流和电压的双环控制策略,研制了一台输出功率300w的功率因数校正电源样机。
A 300w experimental prototype of power supply with power-factor-correction function based on dual-loop control strategy is presented in this paper.
逆变器瞬时电压PID控制与电压电流双环控制相比,在电路结构、成本等方面更具优越性。
The instantaneous voltage PID control inverter has advantage on circuit and cost, compared with voltage current dual-loop control inverter.
将双频逆变器用于感应电动机调速系统中,采用单周控制、滞环控制、矢量控制等控制方法。
In this paper, double-frequency inverter was used in induction motor drive, and the next control means were adopted: one-cycle control, hysteresis control and vector control.
同时综合考虑多种控制策略的优劣,确定位置伺服控制的三环控制策略,明确各环调节作用。
At the same time considered the pros and cons of various control strategies, determine position servo control of the three-loops control strategy and a clear regulation of the effects.
控制电路以UC3525为核心,构成电流内环、电压外环的双环控制模式,实现系统稳压和限流。
With the strategy of the UC3525 core as well as an inner current-loop and an outer voltage-loop control, the output stable voltage and limited current are realized very well.
本文提出了一种逆变器数字多环控制技术,该方案在电流环和瞬时电压环之外附加了一个重复控制环。
This paper presents a digital multiple-loop control technology of inverters. The scheme incorporates a current loop with an instantaneous voltage loop, while a repetitive control outer loop is added.
通过对其换流过程的分析,提出了采用谐振开关控制,箝位开关控制的电流滞环控制的调制方式的策略。
By analyzing the process of the inversion, the control strategy of resonant switch and clamped switch modulation with current hysteresis control is discussed.
该文的理论推导和所得结论为改善三相四线并联apf应用电流滞环控制时的性能提供了较好的理论基础。
This paper offers a better theory basis for improving compensation capability of the three-phase four-wire APF controlled by hysteresis current control strategy.
在基于负载电流前馈解耦的正弦波逆变器多环控制策略中,负载电流前馈作用的延迟直接影响着系统的性能。
In the multiple-loop control strategy for sinusoidal inverters based on load current feedforward, delay of the feedforward directly impacts the system's performance.
根据需要电路电流过流保护的特点,重点介绍了滤波电感电流反馈做内环,输出电压做外环的双环控制策略。
Because the circuit needs current overload protect, a double loop strategy , with current feedback of filter inductance as inner loop and output voltage as outer loop, is studied.
采用了双环控制结构,先构造内环状态反馈以改善对象动态特性,然后按照内模控制原理设计外环的控制器。
First, the state feedback is used to improve the process static and dynamic performance. Then, the controller is designed based on the internal model control principle.
从滞环控制方式的特点入手,详细分析了单相滞环比较控制方式的原理并计算得出了实际的器件开关频率计算式。
Starting from the characteristics of hysreresis comparison control, the principle of hysreresis comparison control and the formula of actual switch frequency are gotten.
从滞环控制方式的特点入手,详细分析了单相滞环比较控制方式的原理并计算得出了实际的器件开关频率计算式。
Starting from the characteristics of hysreresis comparison control, the principle of hysreresis comparison control and the formula of actual switch frequency are gotten.
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