Suppression of Real Power Back Flow of Nonregenerative Cascaded H-Bridge Inverters Operating Under Faulty Conditions

When the faulty cells of a nonregenerative cascaded H-bridge inverter are bypassed, it is necessary to inject a zero-sequence voltage into the inverter phase voltages so as to achieve the maximum balanced line-to-line voltage. However, the injected zero-sequence voltage may lead to a back flow of real power (BFRP) in at least one phase so that the dc voltage will rise to an intolerable level. To solve the problem, this paper proposes a new method of generating zero-sequence voltages. This method can not only maximize the available output voltage but also suppress the BFRP effectively. The zero-sequence voltage is always limited to an appropriate range to achieve the maximum output voltage through linear modulation. Closed-loop control is used to minimize the fundamental component of the zero-sequence voltage so that the power is less likely to flow back. Compared with the conventional methods, the proposed method allows the inverter to drive a load with a lower power factor not inducing BFRP or degrading the output voltage capability. As a result, the probability of overvoltage on the dc side is reduced. The experimental results show that the proposed method is effective and feasible.