Inductive power transfer (IPT) converter is increasingly popular as a form of wireless grid to vehicle (G2V) interface. Compared with conventional plug-in interface, wireless G2V interface without physical contact is more user- friendly and preferable. An IPT converter usually connects to a vehicle's DC-link providing a voltage bus for on-board DC/DC converters. To maintain the voltage bus without using a voltage regulator, the IPT converter can work at its native load-independent voltage output point. However, high efficiency performance and low output sensitivity to misalignment are always conflicting, which poses difficulties to design of the IPT converter as a practical wireless G2V interface. In this paper, the relationship among compensation parameters, power efficiency and output voltage sensitivity of a series/series- parallel (S/SP) compensated IPT converter is studied. Detailed design methodology is theoretically illustrated and experimentally verified to optimize the power efficiency and restrict the output sensitivity to an acceptable level, thus satisfying requirements of a wireless G2V interface.