The thesis focuses on digital analysis and control of dual-phase interleaved synchronous buck converter, and the architecture of feedback is composed of A/D Converter, Compensator, and DPWM (Digital Pulse Width Modulator). The dual-phase interleaved synchronous buck converter is controlled platform or power stage, and the compensator is sensing output voltage and inductor current with PI (Proportional-Intergration) compensator, which the current loop also uses chain control algorithm to keep the current sharing. Building the circuit using the toolbox System Generator for DSP, simulating the design in Matlab/Simulink, and verifying it by hardware in the loop. Transport the design to bitstream file, and download to Xilinx FPGA (Field Programmable Gate Array) - Spartan 3E by ChipScope. Or transport the design to hardware description language (HDL) to synthesis, implementation and configuration in Xilinx ISE (Integrated Synthesis Environment). The sample rate of A/D converter is 1.4MHz, input voltage of the power stage is 12V, output voltage is 1.34V and the switching frequency is 500KHz. In experiment, focuses on load transient response, and analyses current sharing under Chain Control.