Reduced Multisource Switched-Capacitor Multilevel Inverter Topologies

Multisource switched-capacitor multilevel inverters are proper topologies when multiple dc sources are available as renewable energy sources. However, these multilevel inverters have the main drawbacks of requiring a large number of power semiconductors, capacitors, and a low boost factor to achieve a large number of voltage levels, which complicates control, reduces performance, and raises the cost. This article presents two configurations for multisource switched capacitor multilevel inverters. First, a basic multisource switched-capacitor topology is proposed with a low number of capacitors and semiconductors that produce a zero voltage level and a large number of positive voltage levels. The input dc sources are operated in an asymmetric trinary algorithm while the capacitors are charged/discharged in a binary algorithm using parallel/series modes (without the need for any circuit balancing). Based on the proposed basic topology, two multilevel inverter topologies are proposed which create bipolar output voltage levels using two different circuits at the output. The first proposed topology uses a standard H-bridge inverter at the output of the basic topology, while the second topology uses an extra switched-capacitor (self-balancing) circuit. The comparison indicates that both proposed topologies have advantages over most reported multisource switched-capacitor multilevel inverters, such as a low number of capacitors, a low number of power semiconductors, low voltage stress, and high boost factors. Furthermore, the proposed topologies decrease the low-cost factor (CF) in comparison to other topologies. The capacitors' capacitance, power losses, and voltage ripples losses are both measured and evaluated in detail. Theoretical research is validated with the use of laboratory prototypes to validate the performance of the proposed topologies.     «

Multisource switched-capacitor multilevel inverters are proper topologies when multiple dc sources are available as renewable energy sources. However, these multilevel inverters have the main drawbacks of requiring a large number of power semiconductors, capacitors, and a low boost factor to achieve a large number of voltage levels, which complicates control, reduces performance, and raises the cost. This article presents two configurations for multisource switched capacitor multilevel inverters...     »