This study proposes a pulsating heat pipe with a magnetic drive pump. The auxiliary power source of the magnetic drive pump at the condensing section is designed to increase the replenishment rate of the working fluid in the evaporation section. The pulsating heat pipe in this study uses water and methanol as working fluids with volume filling rates of 60%~80%. Input powers are 200~600 W and the heat transfer distance between the evaporation and condensation sections is 25 cm. The experiment explores the thermal resistance improvement of the pulsating heat pipe with or without turning on the magnetic pump. The experimental results show that when the input power is 400 W and the filling rate of water is 70%, the thermal resistance improvement of the pulsating heat pipe with the magnetic pump is 5.3% compared to the pulsed heat pipe without the magnetic pump. In addition, when the input power is 600 W and the filling rate of methanol is 70%, the thermal resistance improvement of the pulsed heat pipe with the magnetic drive pump can be as high as 60.9% compared to the pulse heat pipe without the magnetic drive pump.