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Disambiguation of "Tsai, Tsung-Yen"

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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)

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Tsing-Tshih Tsung

Jieh-Wen Tsung

Yen Yen Kwan

Tina Yener

Nazlı Yener Aǧabeyoǧlu

 

Other publications of authors with the same name

A 20MS/s buck/boost supply modulator for envelope tracking applications with direct digital interface., , , , , , and . A-SSCC, page 73-76. IEEE, (2014)Ultra-low voltage ripple in DC-DC boost converter by the pumping capacitor and wire inductance technique., , , , , and . A-SSCC, page 301-304. IEEE, (2016)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)±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)Unsymmetrical parallel switched-capacitor (UP-SC) regulator with fast searching optimum ratio technique., , , , , , , , , and . ESSCIRC, page 287-290. IEEE, (2017)A low quiescent current and cross regulation single-inductor dual-output converter with stacking MOSFET driving technique., , , , , , , , , and 1 other author(s). ESSCIRC, page 352-355. IEEE, (2017)A Pseudo-Ramp Controlled Three Level Buck Converter with an Auto-Ripple Cancellation Technique for Low Output Voltage Ripple in Sub-Threshold Applications., , , , , and . ESSCIRC, page 122-125. IEEE, (2018)Instruction-Cycle-Based Dynamic Voltage Scaling Power Management for Low-Power Digital Signal Processor With 53% Power Savings., , , , , , , , , and 1 other author(s). IEEE J. Solid State Circuits, 48 (11): 2649-2661 (2013)A Pre-Charge Tracking Technique in the 40MHz High-switching 48-to-5V DC-DC Buck Converter with GaN Switches for Reducing Large Self-commutation Loss and Achieving a High Efficiency of 95.4%., , , , , , and . ESSCIRC, page 311-314. IEEE, (2021)Dynamic-Charging Current-Scaling Technique with Dual Accurate Current Control and Temperature Loops with Charging-Current Accuracy up to 99.6% for 1.6× Faster Lithium-Ion Battery Charging., , , , , , , , , and 1 other author(s). ISSCC, page 434-436. IEEE, (2019)