This experimental study presents the parametric analysis for the round pin-finned heat sinks subjected to steady heat densities for effective and reliable cooling of mobile electronic devices. Phase change material (PCM) namely paraffin wax is adopted as energy storage material and aluminum made round pin-fins are selected as thermal conductivity enhancers (TCEs). A constant volume fraction of 9% of round pin-fins is selected with pin diameter of 2 mm, 3 mm and 4 mm and input heat flux was provided from 1.6 kW/m(2) to 3.2 kW/m(2) with an increment of 0.4 kW/m(2). Three volume fractions of psi = 0.0, = 0.5 and psi = 1.0 of PCM amount are poured in each configuration of pin-finned heat sinks. A heat sink with no fin is chosen as a reference heat sink to quantify the effect of PCM and TCEs. The thermal performance of PCM filled heat sinks are analyzed to explore the effect of volumetric fractions of PCM, heat densities, pin diameter on latent heat phase, enhancement in operation time, heat capacity and thermal conductance. Three reference set point temperatures (SPTs) are chosen and results have evidenced that a 3 mm pin diameter heat sink has best thermal performance. (C) 2017 Elsevier Ltd. All rights reserved.