%0 Journal Article %T Leakage Current Elimination with Improved Non-Isolated Nine-Level Inverter for Grid-Connected PV Panels %J Journal of Energy Management and Technology %I Iran Energy Association (IEA) %Z 2588-3372 %A Maalandish, Mohammad %A Pourjafar, Saeed %A Hosseini, Seyed Hossein %A Taghizadegan Kalantari, Navid %D 2017 %\ 10/01/2017 %V 1 %N 2 %P 46-55 %! Leakage Current Elimination with Improved Non-Isolated Nine-Level Inverter for Grid-Connected PV Panels %K Grid-connected %K Non-Isolated Converter %K Multi-Level Inverter %K Leakage Current %K Model Predictive Controller %R 10.22109/jemt.2017.83238.1008 %X In this paper, an improved structure with model predictive control (MPC) is presented to eliminate leakage current of grid-connected PV panels. The proposed topology consists of a PV panel in the input side, a non-isolated DC/DC multilevel boost converter and a nine-level inverter at the output side. The DC-DC multilevel boost converter can provide equal voltage levels in different rated power by controlling duty-cycle. The utilized dc-dc converter can increase the output voltage of PV panel to produce desired values at the input ports of the nine-level inverter. In Non-isolated grid-connected PV converters, there are parasitic capacitors between grid and PV panel which leads to the leakage current flowing through parasitic capacitors to the system. It causes a safety problem, injection of harmonic current to the grid, increasing losses, and efficiency reduction. In order to eliminate leakage current due to using the parasitic capacitor of PV panel, MPC control method is utilized to achieve high overall efficiency. To confirm the operation of presented structure and theoretical analysis, PSCAD/EMTDC software is used. %U https://www.jemat.org/article_50842_4d6bc3609a93cf8f14a0d054d1bbc62c.pdf