Of all the isolated power converters, flyback converters are widely used for low power electrical applications since its property of the simple circuit topology and low cost. In order to reduce the switching losses in flyback converters, many kinds of soft-switching techniques are developed. One of them is the valley-switching quasi-resonant converter (QRC), which has many advantages and still possesses the merits of conventional flyback converters. In this thesis, two different valley-switching techniques are proposed and implemented for the quasi-resonant flyback converter: perturbation and observation method and differentiator architecture. The circuit transmission delay and gate-drive delay are both considered and cancelled out in the proposed circuits. Therefore, the power MOSFET can be turned on when the drain-to-source voltage is at the valley of resonance, which is independent of the circuit transmission delay and gate-drive delay. By using the proposed architectures, the switching losses are minimized, the system efficiency is improved, and the EMI is also reduced. Finally, the experimental results are provided to verify the analysis and simulations.