ABSTRACT
Recently, single-stage boost inverter topologies like Z-Source Inverter (ZSI), Switched Boost Inverter (SBI) and quasi-Switched Boost Inverter (qSBI) are gaining more attention in Renewable Energy Source (RES) applications. This paper proposes a dual dc source-based qSBI (DqSBI) topology which can be used as a micro-inverter for integrating various RES like solar photovoltaic, fuel cell etc. This study explains the principle of operation, design and steady-state analysis of the DqSBI topology. It also presents a performance comparison with conventional dc-dc boosted inverter and SBI topologies. The proposed inverter topology can achieve high voltage gain with low voltage stress across the switch, capacitor and diode. By using shoot through duty ratio, this topology provides a 110 V (rms) ac from a 324 V dc link voltage. The dc link voltage is obtained from a dc source of 36 V. The THD in the output voltage is 4.13%. Due to the reduced THD, the filter size and cost of the entire system are reduced. A 200-W laboratory prototype is developed to verify the theoretical concepts with an output voltage of 110 V (rms)/50 Hz. The Simple Boost Control (SBC) modulation strategy is used to generate shoot through and non-shoot through pulses. The modulation control algorithm is implemented using Spartan −3E Field Programmable Gate Array (FPGA) processor.
Additional information
Notes on contributors
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P. Sriramalakshmi
P Sriramalakshmi was born in Tamil Nadu, India. She received her BTech degree in electrical engineering from National Institute of Technology, Silchar, India. She has done ME from College of Engineering, Guindy, Chennai, India. She is currently working toward her PhD in VIT, Chennai. Her research area includes Z source inverter, DC-DC converter and single-stage boost inverters. Email: [email protected]
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Sreedevi V. T.
V T Sreedevi was born in Kerala, India. She received her master of technology and PhD from National Institute of Technology, Trichy, India. She is currently working as professor in the School of Electrical Engineering, VIT, Chennai. Her research area includes AC-DC converters for electric vehicles,multilevel inverters, z-source inverters and resonant converters.