Yan Lü scite author profile

A full-wave active rectifier switching at 13.56 MHz with compensated bias current for a wide input range for wirelessly powered high-current biomedical implants is presented. The four diodes of a conventional passive rectifier are replaced by two cross-coupled PMOS transistors and two comparator- controlled NMOS switches to eliminate diode voltage drops such that high voltage conversion ratio and power conversion efficiency could be achieved even at low AC input amplitude |VAC|. The comparators are implemented with switched-offset biasing to compensate for the delays of active diodes and to eliminate multiple pulsing and reverse current. The proposed rectifier uses a modified CMOS peaking current source with bias current that is quasi-inversely proportional to the supply voltage to better control the reverse current over a wide AC input range (1.5 to 4 V). The rectifier was fabricated in a standard 0.35 μm CMOS N-well process with active area of 0.0651 mm(2). For the proposed rectifier measured at |VAC| = 3.0 V, the voltage conversion ratios are 0.89 and 0.93 for RL=500 Ω and 5 kΩ, respectively, and the measured power conversion efficiencies are 82.2% to 90.1% with |VAC| ranges from 1.5 to 4 V for RL=500 Ω.

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An Analog-Assisted Tri-Loop Digital Low-Dropout Regulator

Huang

Lü

Seng-Pan

et al. 2018

IEEE J. Solid-State Circuits

100

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Development of a circuit for functional electrical stimulation

Cheng

Lü

Tong

et al. 2004

IEEE Trans. Neural Syst. Rehabil. Eng.

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Yan Lü

A Wide Input Range Dual-Path CMOS Rectifier for RF Energy Harvesting

A 13.56 MHz CMOS Active Rectifier With Switched-Offset and Compensated Biasing for Biomedical Wireless Power Transfer Systems

An Analog-Assisted Tri-Loop Digital Low-Dropout Regulator

Development of a circuit for functional electrical stimulation

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