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±3% voltage variation and 95% efficiency 28nm constant on-time controlled step-down switching regulator directly supplying to Wi-Fi systems.

, , , , , , , , , , , and . VLSIC, page 1-2. IEEE, (2014)

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±3% voltage variation and 95% efficiency 28nm constant on-time controlled step-down switching regulator directly supplying to Wi-Fi systems., , , , , , , , , and 2 other author(s). VLSIC, page 1-2. IEEE, (2014)94% Performance improvement by time-shift control (TSC) technique in cloud computing voltage regulator module (VRM)., , , , and . ISCAS, page 909-912. IEEE, (2013)Implantable biomedical device supplying by a 28nm CMOS self-calibration DC-DC buck converter with 97% output voltage accuracy., , , , , , , , , and . ISCAS, page 1366-1369. IEEE, (2015)17.10 0.65V-input-voltage 0.6V-output-voltage 30ppm/°C low-dropout regulator with embedded voltage reference for low-power biomedical systems., , , , and . ISSCC, page 304-305. IEEE, (2014)An Embedded Dynamic Voltage Scaling (DVS) System Through 55 nm Single-Inductor Dual-Output (SIDO) Switching Converter for 12-Bit Video Digital-to-Analog Converter., , , , , , , , , and 3 other author(s). IEEE J. Solid State Circuits, 47 (7): 1568-1584 (2012)Inductorless and electrolytic capacitorless pseudo-sine current controller in LED lighting system with 1.1W/2.2W power reduction., , , , , , , , and . ESSCIRC, page 442-445. IEEE, (2012)Delay-Lock-Loop-Based Inductorless and Electrolytic Capacitorless Pseudo-Sine-Current Controller in LED Lighting Systems., , , and . IEEE Trans. Very Large Scale Integr. Syst., 23 (12): 2852-2861 (2015)Boundary Conduction Mode Controlled Power Factor Corrector With Line Voltage Recovery and Total Harmonic Distortion Improvement Techniques., , , , , and . IEEE Trans. Ind. Electron., 61 (7): 3220-3231 (2014)Single controller current balance (SCCB) technique for voltage-mode multi-phase buck converter., , , , , , , and . ISCAS, page 761-764. IEEE, (2011)Single-Inductor Quad-Output Switching Converter With Priority-Scheduled Program for Fast Transient Response and Unlimited Load Range in 40 nm CMOS Technology., , , , , , , , , and 1 other author(s). IEEE J. Solid State Circuits, 50 (7): 1525-1539 (2015)