Traditional pulse-width-modulated (PWM) flyback converters suffer from serious electromagnetic interference (EMI) and have lower conversion efficiencies due to hard switching operations. This paper proposes a soft switching flyback converter with an active-clamp circuit. An active clamp circuit was added to the traditional PWM flyback converter, in order to achieve zero-voltage-switching (ZVS) at both the main and auxiliary switches. This design could reduce most of the switching loss and voltage spikes across the switches and improve the overall efficiency of the converter. The boundary resonant inductor and capacitor were designed to achieve ZVS in both discontinuous conduction mode (DCM) and continuous conduction mode (CCM). The theoretical analysis of the proposed converter was verified using a prototype with the following properties: 120 W with DC 127~183 V input voltage, 24 V output voltage, and 50 kHz operated frequency. Based on the experimental results, the efficiency of the proposed soft switching flyback converter was approximately 82.3% at rated output power.