This work describes an interleaved multi-phase, multi-switch boost converter for fuel cell applications. Different options of P'WM switching patterns are detailed with special emphasis in those that pursue input current ripple minimization and part reduction. The topology studied contains n power modules (phases) with m switches per module. From the different available configurations, the multi-phase, multi-switch boost converter operating in interleaving mode, so-called multi-interleaved boost converter (MIBC), performs remarkably in terms of magnetics, input and output current ripple and part count. MIBC description, modeling and simulation are provided in this paper. Finally, a comparative trade-off analysis is performed between the interleaved multi-phase, multi-switch boost converter and the traditional interleaved boost converter for a stand-alone, battery backedup, 1 kW fuel cell power system. Copyright (C) 2015, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.