Analysis of TEG Based non-galvanic isolated DC-DC conversion system employing maximum power point tracking methods [articol]

Abstract

In the present scenarios, the electricity generation from waste heat has become a popular in both research and industrial sectors. The waste heat recovering techniques mostly use ThermoElectric Generator (TEG), to convert heat energy into electrical energy. In this paper non-galvanic isolated high step-up DC-DC power converter with switched capacitor cells is proposed for the ThermoElectric power generation systems. The non-galvanic isolated DC-DC conversion system has the advantage of good output regulation and switched capacitor converter has a high voltage gain. Hence, the proposed converter has high voltage gain and excellent voltage regulation. Also, the Maximum Power Point Tracking (MPPT) using Perturb and Observe (P&O) and Incremental Conductance (INC) techniques are used to track the maximum power from the TEG. This paper presents the design and simulation of proposed converter with tracking controller using PSIM.