The implementation of a non-isolated dual input bridge-type dc–dc converter for hybrid energy source integration is discussed in this paper. The proposed converter accommodates two sources using an inductor, a capacitor, two insulated-gate bipolar transistors (IGBTs) without the anti-parallel diode and two IGBTs with the anti-parallel diode. The different modes of operation of the converter are explained with detailed analytical waveforms and equivalent circuits. From the analysis, the steady-state output equation of the converter is derived. The boundary condition between the continuous conduction mode and discontinuous conduction mode operations is also derived. The dynamics of the converter is analyzed in detail with the help of a small signal model. The step response of different transfer functions is discussed. The computer simulations of the proposed converter topology have been carried out using MATLAB/Simulink. An experimental prototype of the proposed converter is also built and tested successfully in the laboratory environment. Performance comparison of the proposed converter is carried out with the conventional converter topologies in terms of component counts, efficiency, loss breakdown, and power density.