基于单周控制的电压型可调交流电源

针对工业应用的实际需要,将单周控制技术应用于电压型逆变电路中,给负载提供所需要的交流电压源.根据单周控制原理,解决了2个关键性的问题.首先,用2个积分器交互工作解决了积分器的复位问题;再用增加直流偏移量解决实际电路中遇到的电压测量问题.对于逆变电路而言,提高直流电压利用率可以提高逆变器的输出能力,减少逆变器开关的动作次数,就能减少开关损耗.采用双积分器单周控制的电压型逆变电源,其逆变电路硬件结构简单,输出电压幅值和频率可调,具有快速的动态响应,较强的抑制电源扰动,直流电压利用率可达到92.8%,电压谐波总畸变率(THD)最小为0.255 9%,降低了谐波损耗.

One-cycle Technique Based Adjustable Ac Source

By using one-cycle control theory, a novel voltage source inverter is proposed. The conventional one-cycle control technique needs that the integrator is reset instantaneously. But it is very difficult to realize with hardware due to the finite time constant of the reset circuitry. Therefore, based on the one-cycle technique, the paper gives a new control scheme to resolve the problem with dual switched integrator, and the performance of the integrators is close to ideal. The paper also uses the dc offset to implement the voltage measurement. Furthermore, the amplitude and frequency of the output voltage are effectively adjustable. The one-cycle control technique not only provides fast dynamic response, but also can admirably suppress the perturbation yielded by dc source and abate the undesired harmonic contents. Simulation studies were performed to prove the proposed scheme. The results show that the one-cycle control based voltage source inverter makes good use of dc source that is 92.8% and THD is only O. 255 9%.