A 0.35μm 50V CMOS sliding-mode control IC for buck converters

A 0.35μm 50V CMOS sliding-mode control IC for buck converters

This paper presents a hysteretic (sliding mode) control IC for a buck DC/DC converter for use as an envelope tracking power supply to increase the efficiency of an RF power amplifier. The IC integrates a high-bandwidth error amplifier, a comparator with hysteresis, and a high-side driver for an exte...

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Bibliographic Details
Published in:ESSCIRC 2007 - 33rd European Solid-State Circuits Conference pp. 182 - 185
Main Authors: Hoyerby, M.C.W., Andersen, M.A.E., Andreani, P.
Format: Conference Proceeding
Language:English
Published: IEEE 01-09-2007
Subjects:
Buck converters
CMOS integrated circuits
Driver circuits
Hysteresis
MOSFET circuits
Power amplifiers
Power supplies
Radiofrequency amplifiers
Radiofrequency integrated circuits
Sliding mode control
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Summary:This paper presents a hysteretic (sliding mode) control IC for a buck DC/DC converter for use as an envelope tracking power supply to increase the efficiency of an RF power amplifier. The IC integrates a high-bandwidth error amplifier, a comparator with hysteresis, and a high-side driver for an external N-channel power MOSFET. The total control loop delay using the implemented IC is 35 ns, this is shown to be a 30% reduction compared to a state-of-the-art discrete IC based solution. The presented results also show that it is viable to integrate a 100 MHz operational amplifier on the same die as a high-voltage MOSFET driver operating with slew rates in excess of 5 V/ns. The IC is demonstrated in a tracking power supply with 30 W output power and 3 mus rise/fall time, running from a 40 V input. The complete IC, including pads, takes up 4 mm 2 in a 0.35 mum 50 V CMOS process.
ISBN:9781424411252
1424411254
ISSN:1930-8833
2643-1319
DOI:10.1109/ESSCIRC.2007.4430275