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Abstract
This paper presents a novel neutral point clamped full-bridge topology for transformerless photovoltaic grid-tied inverters. Transformerless grid-connected inverters have been used widely in recent years since they offer higher efficiency and lower costs. Ground leakage current suppression is the main issue which should be considered carefully in transformerless photovoltaic grid-connected inverters. Among different methods used to decline ground leakage current, neutral point clamped (NPC) topologies are considered more useful and effective. In NPC topologies, the short-circuited output voltage at the freewheeling period is clamped to the middle of the DC bus voltage. Therefore, the common-mode voltage (CM) will be constant at the whole switching period. Various NPC topologies such as H6 [1], HB-ZVR [2], oH5 [3], and PN-NPC [4] have been proposed. In this paper, a novel NPC topology is proposed which has lower power losses and higher efficiency over previous topologies. Furthermore, the proposed NPC topology exhibits a similar ground leakage current with the PN-NPC topology. The proposed NPC topology is analyzed theoretically using simulation studies and an experimental prototype is provided to verify theoretical analysis and simulation studies.
Highlights
Due to the limit reservation of fossil fuels such as oil, coal, gas, etc. tendency to exploiting of renewable energy resources such as solar and wind energies have been growing rapidly worldwide
In neutral point clamped (NPC) topologies, the short circuited output voltage at the freewheeling period is clamped to the middle of the DC bus voltage
Various topologies have been proposed for the reduction of ground leakage current in transformerless grid-tied inverters [5,6,7,8,9,10,11,12,13,14,15,16,17,18,19]
Summary
Due to the limit reservation of fossil fuels such as oil, coal, gas, etc. tendency to exploiting of renewable energy resources such as solar and wind energies have been growing rapidly worldwide. Of not flowing ground leakage current in a grid-tied inverter with the galvanic isolation, the total price and space required to the grid-connected inverter will be very high as well as its efficiency will be very low. Various topologies have been proposed for the reduction of ground leakage current in transformerless grid-tied inverters [5,6,7,8,9,10,11,12,13,14,15,16,17,18,19]. The main disadvantage of a transformerless grid-tied inverter is that ground leakage current is produced because of common- mode voltage variations in switching periods.
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