[1] LEE F C, MOK P K T. A monolithic current-mode CMOS DC-DC converter with on-chip current-sensing technique [J]. IEEE J Sol Sta Circ, 2004, 39(1): 3-14.
[2] LIOU W R, YEH M L, KUO Y L, et al. A high efficiency dual-mode buck converter IC for portable applications [J]. IEEE Trans Power Elec, 2008, 23(2): 667-677.
[3] ZHOU X, DONATI M, AMOROSO L, et al. Improved light-load efficiency for synchronous rectifier voltage regulator module [J]. IEEE Trans Power Elec, 2000, 15(5): 826-834.
[4] MAN Y T, MOK P K T, CHAN M. An auto- selectable- frequency pulse-width modulator for buck converters with improved light-load efficiency [C] // IEEE ISSCC. San Francisco, CA, USA. 2008: 440-442.
[5] PARK D, LEE H. Improvements in light-load efficiency and operation frequency for low-voltage current-mode integrated boost converters [J]. IEEE Trans Circ Syst II: Expr Briefs, 2014, 61(8): 599-603.
[6] MULLIGAN M D, BROACH B, LEE T H. A constant-frequency method for improving light-load efficiency in synchronous buck converters [J]. IEEE Power Elec Lett, 2005, 3(1): 24-29.
[7] JIA M, SUN Z, SIEK L. Anovel zero-voltage-detector for buck converter in discontinuous conduction mode (DCM) [C] // IEEE 4th SPEC. Singapore. 2018: 1-4.
[8] YAN W, PI C, LI W, et al. Dynamic dead-time controller for synchronous buck DC-DC converters [J]. Elec Lett, 2010, 46(2): 164-165.
[9] MANOHAR S K, BALSARA P T. 946% peak efficiency DCM buck converter with fast adaptive dead-time control [C] // Proceed ESSCIRC. Bucharest, Romania. 2013: 153-156.
[10] ZHOU M, LOW Q, SIEK L. A high efficiency synchronous buck converter with adaptive dead-time control [C]// ISIC. Singapore. 2016: 1-4.