Design and Optimization of Power MOSFET Output Stage for High-frequency Integrated DC-DC Converters

• Main Author: Lee, Junmin
• Other Authors: Ng, Wai Tung
• Language: en_ca
• Published: 2012
• Subjects: Power MOSFET; integrated DC-DC Converters; Interconnect Optimization; 0544
• Online Access: http://hdl.handle.net/1807/65440

Switching device power losses place critical limits on the design and performance of high-frequency integrated DC-DC converters. Especially, the layout of metal interconnects in lateral power MOSFETs has a profound effect on their on-resistances and conduction power losses. This thesis presents an analytical interconnect modeling and layout optimization technique for large-area power MOSFETs. The layout optimization of 24V LDMOS transistors in the area of 1 mm2 has achieved an improvement of 55 % in its on-resistance. The simulation result has been verified by experimental measurements on a test chip fabricated in TSMC 0.25 µm HV CMOS technology. In addition, this thesis presents an optimized output stage design methodology for the implementation of a 4 MHz, 12V to 1V integrated DC-DC converter. A segmented output stage scheme is employed to increase the converter efficiency at light load conditions. The peak efficiency of 84% was achieved at load current of 2 A.