@inproceedings{bawa_huang_ghovanloo_2010, title={An efficient 13.56 MHz active back-telemetry rectifier in standard CMOS technology}, DOI={10.1109/iscas.2010.5537296}, abstractNote={In this paper, we present the design of a high-frequency (HF) rectifier implemented in a 0.5-μm 3M/2P 5V standard CMOS process for wireless power transmission across short-range inductive links. The rectifier has been optimized for 13.56 MHz ISM band, and achieves power conversion efficiency (PCE) of ~83% and voltage conversion ratio > 92% in post-layout simulations. We have successfully incorporated a dual-mode back-telemetry capability in this rectifier with little area or efficiency overhead, which tolerates wide load-fluctuations at the secondary side. With these improvements, this active back-telemetry rectifier (ABTR) is geared towards increasing the overall system efficiency, data transfer rate, and reading range in applications such as implantable microelectronic devices (IMD) and radio frequency identification (RFID).}, booktitle={2010 ieee international symposium on circuits and systems}, author={Bawa, G. and Huang, A. Q. and Ghovanloo, M.}, year={2010}, pages={1201–1204} }
 @inproceedings{bawa_ghovanloo_2009, title={Analysis, design, and implementation of a high-efficiency full-wave rectifier in standard CMOS technology}, volume={60}, number={1-2}, booktitle={Analog Integrated Circuits and Signal Processing}, author={Bawa, G. and Ghovanloo, M.}, year={2009}, pages={71–81} }