Abstract: Wireless Power transmission (WPT) is a useful and convenient technology that can be employed to collect solar energy and concentrate on earth surface without the need for a wire connection called as solar power satellites (SPS). WPT via Resonance, for example, can be applied in the future to stable and CO2-free space-based solar power satellites. Overall, WPT will support both future energy production and the environment. This paper provides an analysis of wireless power transfer with an assessment of its practical applicability in terms of power range and efficiency. There are four types of satellites are accessed, one is primary and others are secondary. The secondary satellites are placed in triangular axis and primary satellite is placed at center of triangle for maximum power transfer .This assessment is obtained through the design and construction of a resonant inductive wireless powering system(in secondary satellites) suited to supply a main satellite transceiver(i.e. primary) for power range from 480-1920 watts with efficiency 80-90%. In this paper the formula for calculating the mutual inductance between circular coils with lateral and angular misalignment by using the approach of F. W. Grover is presented. This system is evaluated and designed by using MATLAB 2012a coding.