介绍了一种新的单周期控制方法——电荷控制法。
This paper proposes a new one-cycle-control, i. e. charge control.
传统的单周期控制有源电力滤波器以峰值电流检测的控制方式和纹波电流的存在导致补偿后的电源电流中含有直流分量。
There are DC off-sets in the compensated source current of the traditional APF with one-cycle control due to the existent ripple and the peak current detection.
其次,在考虑系统噪声和延时可以大于一个采样周期的情况下,提出了单包传输和多包传输的网络控制系统的模型。
Secondly, the model of NCS with single-packet and multiple-packet transmission under considering system noise and network-induced delay longer than one sampling are proposed.
这种技术利用单周期控制的积分性质和动态反应快的特点,对交错运行变换器的各单元电感电流进行控制,实现交错单元间电流的平均分配。
It makes use of the integrating character and the fast response of one cycle control to realize the current sharing of the interleaving converters.
单周期控制具有响应快、开关频率恒定、控制电路简单和易于实现等优点,是一种很有前途的控制方法。
One cycle control has the merits of rapid response, invariable switch frequency, simple control circuit and easy to realization and so on. One cycle control is very developing control method.
讨论了混沌被控制到单周期态时系统输出的振荡周期的变化规律与控制量的关系。
Relationship between vibration period of the system and control variables is discussed when chaos is controlled into single periodic state.
在论述单周期控制技术的基础上,重点讨论了单周期控制半桥DC/DC变换器的设计与实现,并给出了仿真与试验结果。
The design and realization of one-cycle controlled half-bridge DC/DC converter are mainly discussed on the basis of presenting one-cycle control technical.
提出了一种逆变器双环控制技术,该方案内环为单周期控制,外环采用K系数法设计的补偿器。
This paper presents a double-loop control of inverters. The inner-loop of this scheme is One-cycle Control and the outer-loop is the compensator designed by the K factor.
提出了一种逆变器双环控制技术,该方案内环为单周期控制,外环采用K系数法设计的补偿器。
This paper presents a double-loop control of inverters. The inner-loop of this scheme is One-cycle Control and the outer-loop is the compensator designed by the K factor.
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