Wu Xiaohui, Wu Xiaobo. Adaptive hysteresis window control technique for hysteretic DC-DC Buck converter with constant switching frequency[C]. Power and Energy Engineering Conference, 2010: 1-4.
[3]
Liu P J, Chiu H J, Lo Y K, et al. A fast transient recovery module for DC-DC converters[J]. IEEE Transactions Industry Electronics 2009, 56(7): 2522-2529.
[4]
Yanqi Zheng, Hua Chen, Ka Nang Leung. A fast-response pseudo-PWM Buck converter with PLL-based hysteresis control[C]. Very Large Scale Integration Systems, 2012: 1167-1174.
Liang Jia, Dong Wang, Yanfei Liu. A novel analog implementation of capacitor charge balance controller with a practical extreme voltage detector[C]. Applied Power Electronics Conference and Exposition, 2011: 245-252.
[7]
Trevisan D Saggini, Mattavelli S. Hysteresis-based mixed-signal voltage-mode control for DC-DC converters[C]. Power Electronic Specialists Conference, 2007: 2664-2670.
Jinbin Zhao, Terukazu Sato, Takashi Nabeshima. Characteristics of a Buck converter with new control scheme using a triangle waveform modulated by output voltage[J]. Electronics and Communications in Japan, 2007, 90(7): 52-59.
Xu Feng, Xu Dianguo, Liu Yuxiu. A novel nonlinear controlmethod for PWM DC-DC converter with optimizing transient response[J]. Proceedings of the CSEE, 2003, 23(12): 133-139.
He Mingzhi, Xu Jianping, Wu Songrong. Digital V2 control of DC-DC switching converters based on leading-edge modulation[J]. Journal of Southwest Jiaotong University, 2007, 42(4): 484-489.
