To improve the dynamic performance of the system, a new load-current feedforward control scheme was proposed.
为了提高系统的动态性能,提出一种新型的负载电流前馈控制方案。
Using both feedforward and feedback control techniques, the scheme realizes well control for output current of voltage-source inverter.
通过前馈与反馈控制技术,该方案实现了对系统输出电流的良好跟踪和简单控制。
In the multiple-loop control strategy for sinusoidal inverters based on load current feedforward, delay of the feedforward directly impacts the system's performance.
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。
On the basis of the stationary state mathematical model of a PWM current-source converter, the paper analyzes the coupling of a converter and presents a simple decoupling feedforward control method.
在建立电流源型PWM变流器稳态数学模型的基础上,分析了系统的耦合关系,提出了一种基于小偏量线性化的前馈解耦控制方案。
Active Filter access point and then after the line current harmonics back to the company as the regulator's input, adjusting the feedforward control error.
再将有源滤波器接入点后的线上电流的谐波分量反馈回来,作为调节器的输入,调整前馈控制的误差。
APF then access points al0ng the harmonic current feedback, as a regulator input, adjusted feedforward control error.
再将有源滤波器接入点后的线上电流的谐波分量反馈回来,作为调节器的输入,调整前馈控制的误差。
APF then access points al0ng the harmonic current feedback, as a regulator input, adjusted feedforward control error.
再将有源滤波器接入点后的线上电流的谐波分量反馈回来,作为调节器的输入,调整前馈控制的误差。
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