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Disambiguation of "Mok, Philip K. T."

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A 16-28-W 92.8%-Efficiency Monolithic Quasi-Resonant LED Driver With Constant-Duty-Ratio Frequency Regulator.

, , , , and . IEEE Trans. Circuits Syst. II Express Briefs, 62-II (12): 1199-1203 (2015)

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Philip T Jäger

Johnson T K Lim

Franz Mok

Daniel Mok

Johanna Mok-Schmidt

 

Other publications of authors with the same name

An AC powered converter-free LED driver with low flicker., , and . ASP-DAC, page 11-12. IEEE, (2016)Comparative Studies of Common Control Schemes for Reference Tracking and Application of End-point Prediction., and . CICC, page 559-562. IEEE, (2007)A 14 nA quiescent current inductorless dual-input-triple-output thermoelectric energy harvesting system based on a reconfigurable TEG array., and . CICC, page 1-4. IEEE, (2018)Advances in active-feedback frequency compensation with power optimization and transient improvement., and . IEEE Trans. Circuits Syst. I Regul. Pap., 51-I (9): 1690-1696 (2004)Analysis and Design of a Thermoelectric Energy Harvesting System With Reconfigurable Array of Thermoelectric Generators for IoT Applications., , , and . IEEE Trans. Circuits Syst. I Regul. Pap., 64-I (9): 2346-2358 (2017)A Dual-Frequency Thermal Energy Harvesting Interface With Real-Time-Calculation ZCD., , and . IEEE J. Solid State Circuits, 56 (9): 2736-2747 (2021)Right-half-plane zero removal technique for low-voltage low-power nested Miller compensation CMOS amplifier., , and . ICECS, page 599-602. IEEE, (1999)A 2-V 23-μA 5.3-ppm/°C 4th-order curvature-compensated CMOS bandgap reference., , and . CICC, page 457-460. IEEE, (2002)23.1 A 0.15V-input energy-harvesting charge pump with switching body biasing and adaptive dead-time for efficiency improvement., , and . ISSCC, page 394-395. IEEE, (2014)A novel voltage-control scheme for low-voltage DC-DC converters with fast transient recovery., , and . ISCAS, page 256-259. IEEE, (2000)