Title :
A predictive analog dead-time control circuit for a buck converter
Author :
Luyan Mei ; Williams, Doug ; Eberle, William
Author_Institution :
Sch. of Eng., Univ. of British Columbia, Kelowna, BC, Canada
Abstract :
In this paper, a one-step predictive dead-time control circuit for a synchronous buck converter is proposed. It consists of dead-time detection and optimization circuits. The detection circuit utilizes an integrated dead-time detection diode which accurately detects body diode conduction of the synchronous MOSFET. The dead-time optimization circuit is an analog circuit which eliminates the major shortcoming of digital methods, specifically dead-time dithering in the steady state. Operation of the circuit is verified using PSIM. The results of the simulation show that the circuit reduces the body diode conduction time of the synchronous MOSFET to less than 4ns at 20A load, 12V input, 1.2V output and 500kHz switching frequency. As a result, the buck converter conduction losses can be reduced by 16.3%.
Keywords :
MOSFET circuits; analogue integrated circuits; power convertors; predictive control; body diode conduction; conduction losses; integrated dead-time detection diode; optimization circuits; predictive analog dead-time control circuit; synchronous MOSFET; synchronous buck converter; Benchmark testing; Capacitors; Discharges (electric); Logic gates; MOSFET; Optimization; Pulse width modulation; DC-DC converters; buck converter; dead-time control; power electronics;
Conference_Titel :
Electrical and Computer Engineering (CCECE), 2013 26th Annual IEEE Canadian Conference on
Conference_Location :
Regina, SK
Print_ISBN :
978-1-4799-0031-2
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2013.6567695
