20.5 A 2-/3-phase fully integrated switched-capacitor DC-DC converter in bulk CMOS for energy-efficient digital circuits with 14% efficiency improvement

@article{Jiang2015205A2,
  title={20.5 A 2-/3-phase fully integrated switched-capacitor DC-DC converter in bulk CMOS for energy-efficient digital circuits with 14% efficiency improvement},
  author={Junmin Jiang and Yan Lu and Cheng Huang and Wing-Hung Ki and Philip K. T. Mok},
  journal={2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers},
  year={2015},
  pages={1-3}
}
Reducing the supply voltage of digital circuits to the sub- or near-threshold regions minimizes dynamic power consumption and achieves better efficiency [1]. This technique is widely used in energy-efficient applications, and is especially beneficial for wirelessly powered devices such as wearable electronics, biomedicai implants and smart sensor networks. Such devices have long standby times and battery-less operation is highly desirable. As shown in Fig. 20.5.1, for a typical wireless power… CONTINUE READING
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