Po-Han Peter Wang
Title
Cited by
Cited by
Year
A Near-Zero-Power Wake-Up Receiver Achieving −69-dBm Sensitivity
PHP Wang, H Jiang, L Gao, P Sen, YH Kim, GM Rebeiz, PP Mercier, ...
IEEE Journal of Solid-State Circuits 53 (6), 1640-1652, 2018
662018
24.5 A 4.5 nW wake-up radio with −69dBm sensitivity
H Jiang, PHP Wang, L Gao, P Sen, YH Kim, GM Rebeiz, DA Hall, ...
Solid-State Circuits Conference (ISSCC), 2017 IEEE International, 416-417, 2017
582017
A 6.1 nW Wake-Up Receiver Achieving –80.5 dBm Sensitivity via a Passive Pseudo-Balun Envelope Detector
PHP Wang, H Jiang, L Gao, P Sen, YH Kim, GM Rebeiz, PP Mercier, ...
IEEE Solid-State Circuits Letters 1 (5), 134-137, 2018
272018
A 400 MHz 4.5 nW −63.8 dBm sensitivity wake-up receiver employing an active pseudo-balun envelope detector
PHP Wang, H Jiang, L Gao, P Sen, YH Kim, GM Rebeiz, PP Mercier, ...
ESSCIRC 2017-43rd IEEE European Solid State Circuits Conference, 35-38, 2017
232017
A 0.4-V 0.93-nW/kHz relaxation oscillator exploiting comparator temperature-dependent delay to achieve 94-ppm/° C stability
H Jiang, PHP Wang, PP Mercier, DA Hall
IEEE Journal of Solid-State Circuits 53 (10), 3004-3011, 2018
222018
A 0.6 V 75nW All-CMOS Temperature Sensor With 1.67 m°C/mV Supply Sensitivity
X Wang, PHP Wang, Y Cao, PP Mercier
IEEE Transactions on Circuits and Systems I: Regular Papers 64 (9), 2274-2283, 2017
172017
28.2 A 220μW -85dBm Sensitivity BLE-Compliant Wake-up Receiver Achieving -60dB SIR via Single-Die Multi-Channel FBAR-Based Filtering and a 4-Dimentional Wake-Up Signature
PHP Wang, PP Mercier
2019 IEEE International Solid-State Circuits Conference-(ISSCC), 440-442, 2019
82019
A 4.4 μW− 92/− 90.3 dBm Sensitivity Dual-Mode BLE/Wi-Fi Wake-up Receiver
PHP Wang, PP Mercier
2020 IEEE Symposium on VLSI Circuits, 1-2, 2020
42020
A 22.3-nW, 4.55 cm² Temperature-Robust Wake-Up Receiver Achieving a Sensitivity of-69.5 dBm at 9 GHz
H Jiang, PHP Wang, L Gao, C Pochet, GM Rebeiz, DA Hall, PP Mercier
IEEE Journal of Solid-State Circuits 55 (6), 1530-1541, 2019
42019
20.1 A 28µW IoT Tag That Can Communicate with Commodity WiFi Transceivers via a Single-Side-Band QPSK Backscatter Communication Technique
PHP Wang, C Zhang, H Yang, D Bharadia, PP Mercier
2020 IEEE International Solid-State Circuits Conference-(ISSCC), 312-314, 2020
32020
Low power wake-up receiver
PH Wang, H Jiang, D Hall, P Mercier
US Patent 10,804,946, 2020
12020
An Interference-Resilient BLE-Compatible Wake-Up Receiver Employing Single-Die Multi-Channel FBAR-Based Filtering and a 4-D Wake-Up Signature
PHP Wang, PP Mercier
IEEE Journal of Solid-State Circuits 56 (2), 416-426, 2020
12020
A Dual-Mode Wi-Fi/BLE Wake-Up Receiver
PHP Wang, PP Mercier
IEEE Journal of Solid-State Circuits 56 (4), 1288-1298, 2021
2021
A Low-Power Backscatter Modulation System Communicating Across Tens of Meters With Standards-Compliant Wi-Fi Transceivers
PHP Wang, C Zhang, H Yang, M Dunna, D Bharadia, PP Mercier
IEEE Journal of Solid-State Circuits 55 (11), 2959-2969, 2020
2020
Ble and/or wifi compliant and blocker-resilient wake-up receiver and method
PH Wang, P Mercier
US Patent App. 16/742,476, 2020
2020
A 5nW Wake-Up Receiver With Better Than-63dBm Sensitivity via an Active Pseudo-Differential Envelope Detector
PP Mercier, PHP Wang, H Jiang, L Gao, P Sen, YH Kim, GM Rebeiz, ...
2018 Government Microcircuit Applications and Critical Technology Conference …, 2018
2018
A 10nW Wake-Up Radio with -60dBm Sensitivity
PM Drew Hall, Haowei Jiang, Po-Han Peter Wang, Li Gao, Pinar Sen, Young-Han ...
2017 Government Microcircuit Applications and Critical Technology Conference …, 2017
2017
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