Academic Profile : Faculty
Assoc Prof Chan Pak Kwong
Associate Professor, School of Electrical & Electronic Engineering
Email
Journal Articles
(Not applicable to NIE
staff as info will be
pulled from PRDS)
(Not applicable to NIE
staff as info will be
pulled from PRDS)
X.B. Ding, P.K. Chan and K.N. Leung. (2020). A 40nm CMOS Hysteretic Buck DC-DC Converter with Digital-Controlled Power-Driving-Tracked-Duration Current Pump. IEEE Access, 8, 177374-177384.
K.C. Koay and P.K. Chan. (2018). A 0.18um CMOS Voltage-to-Frequency Converter with Low Circuit Sensitivity. IEEE Sensors Journal , 18(15), 6245-6253.
F. Xiao and P.K. Chan. (2017). A Performance-Aware Low-Quiescent Headphone Amplifier in 65nm CMOS. IEEE Journal of Solid-State Circuits, 52(2), 505-516.
X.L. Tan, S.S. Chong, P. K. Chan and U. Dasgupta. (2014). A LDO Regulator with Weighted Current Feedback Technique for 0.47nF – 10nF Capacitive Load. IEEE Journal of Solid-State Circuits, 49(11), 2658-2672.
S.S. Chong and P. K. Chan. (2012). Cross Feedforward Cascode Compensation for Low-Power Three-Stage Amplifier with Large Capacitive Load. IEEE Journal of Solid-State Circuits, 47(9), 2227-2234.
K.C. Koay and P.K. Chan. (2018). A 0.18um CMOS Voltage-to-Frequency Converter with Low Circuit Sensitivity. IEEE Sensors Journal , 18(15), 6245-6253.
F. Xiao and P.K. Chan. (2017). A Performance-Aware Low-Quiescent Headphone Amplifier in 65nm CMOS. IEEE Journal of Solid-State Circuits, 52(2), 505-516.
X.L. Tan, S.S. Chong, P. K. Chan and U. Dasgupta. (2014). A LDO Regulator with Weighted Current Feedback Technique for 0.47nF – 10nF Capacitive Load. IEEE Journal of Solid-State Circuits, 49(11), 2658-2672.
S.S. Chong and P. K. Chan. (2012). Cross Feedforward Cascode Compensation for Low-Power Three-Stage Amplifier with Large Capacitive Load. IEEE Journal of Solid-State Circuits, 47(9), 2227-2234.