Due to the development of portable, medical and industrial devices, the usage of mobile devices is getting higher and higher. To charge safely, the technology of wireless power transfer is needed. The common wireless charging methods for mobile devices are inductive coupling and resonant coupling. The inductive coupling uses the mutual inductance generated by the magnetic field when the two coils are close. The disadvantages of inductive coupling are the short coil distance and additional loss caused by reactive power. The resonant coupling is to compensate the two coils to the same resonant frequency with capacitors. Eliminating the imaginary impedance to create a load close to pure resistance, and a good transmission distance can be achieved. The resonant coupling alliances include Qi and AirFuel Alliance, and the AirFuel Alliance uses the 6.78 MHz ISM band. The advantage is that the distance and coil placement have lower impact on transmission efficiency. The wireless power transfer system implemented in the thesis is divided into three parts. The first part is the analysis of two coupling coils, including series-series coupling and series-parallel coupling. The second part is to use the Class E power amplifier to drive the coil of the wireless power transfer system, deriving the formula and design parameter for Class E power amplifier, and using series-parallel coupling to transmit power. According to measurement, the output power of the Class E power amplifier is about 1.89 W and efficiency is up to 83.66 %. The coil transmission efficiency is 80.52 %. The overall system efficiency is 67.36 %. The third part is to reduce the complexity of transmitter, eliminating the need for additional signal generator and driving circuits. The Class E power amplifier is made into a power oscillator by LC feedback, and using series-parallel coupling to transmit power. According to measurement, the output power of the power oscillator is about 2.22 W and efficiency is up to 73.38 % when the coil distance is 0.5 cm. The coil transmission efficiency is 92.84 %. The overall system efficiency is 68.13 %.