Feedforward decoupling control method based on three-phase two-arm tri-level active power quality compensator
A technology of power quality and feed-forward decoupling, applied to AC networks to reduce harmonics/ripples, harmonic reduction devices, etc., can solve unbearable high voltage, large device voltage stress and switching loss, and inverter harmonics problems such as large content
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[0045] The structure diagram of ordinary three-level diode clamped inverter is as follows: figure 1 shown. figure 1 It consists of a diode-clamped three-level inverter module 1 and three output reactors 2 . It consists of twelve power switching devices and six diodes, and the withstand voltage of the power semiconductor devices is half of the DC bus voltage. Ordinary NPCTLI will generate five voltage levels at the AC side terminal voltage, and the output waveform distortion is small, but it uses too many power devices and the cost is high.
[0046] A three-level active power quality compensator based on three-phase two-arm figure 2 shown. figure 2 It is composed of three output reactors 2, a three-level inverter 3 and a voltage equalizing circuit 4 on the DC side. figure 2 Among them, the A-phase three-level switching arm of the three-phase inverter is composed of the upper pair of switching tubes T a1 and T a2 , the next pair of switching tubes T′ a1 and T' a2 and...
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