Two integrated high-speed gate drivers to enable high-frequency operation of synchronous rectifiers in high-voltage switching power converters are presented in this paper. The first synchronous gate driver for a CMOS power train consists of a capacitively coupled level shifter (CCLS) that offers negligible propagation delays and no static current consumption, and requires only one off-chip capacitor to enable high-side power pMOS driving capability without any external floating supply. The second synchronous gate driver consists of a low-power high-speed dynamically controlled level shifter (DCLS) with a reliability-enhanced error-suppression technique for driving a dual-nMOS power train. In addition, a dynamic timing control (DTC) is developed to generate proper dead time for power FETs in order to enable soft switching operation of the converter under different input voltages for enhancing the converter reliability. The converter power efficiency can be also improved by minimizing both switching and short-circuit power losses under high-input-voltage conditions. Implemented in a 0.5 mu m 120 V CMOS process, both proposed CCLS and DCLS have demonstrated to shift up 5 V signal to 100 V and 40 V, respectively, improving the FoM by at least 10 times and 2.9 times compared to respective state-of-the-art level shifters. The DTC circuit enables proper ZVS operation in a synchronous buck converter with the CCLS-based gate driver over a wide input supply range from 40 V to 100 V, providing a converter maximum power-efficiency improvement of 11.5%.

• 出版日期2015-6