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Miao Meng
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2020 – today
- 2026
[j7]Yongling Zhang
, Ji Xiong, Miao Meng
:
A Low-Power Backscatter System With a Digitally Controlled Reconfigurable 16-QAM Modulator for Energy-Efficient Wireless Communication. IEEE J. Solid State Circuits 61(4): 1577-1588 (2026)
[c20]Minghao Chen, Gangzhen Zhu, Wenjun Zhao, Hong Liao, Xiaoxu Yang, Yuqian Li, JiaHao Dong, Bingfang Wang, Zhiqiang Chang, Ying Fang, Jiangfeng Wu, Lei Qiu, Miao Meng:
An 8.2μW Fully-Packaged Wireless Implantable SoC for Chemical and Electrical Neural Signal Monitoring. CICC 2026: 1-4
[c19]Xiaopeng Wang, Haiwen Tian, Huosheng Wen, Zhongxiao Tian, Jiaqi Yang, Lei Wang, Rui Bai, Yifan Wu, Shenglong Zhuo, Miao Meng, Lei Qiu:
A 0.38 ppm/°C High-Order Compensated Voltage Reference Using Digitized Temperature Range Partitioning. CICC 2026: 1-4
[c18]Jiangfan Wen, Qide Cheng, Shenglong Zhuo, Miao Meng, Hui Zhang, Bingbing Yao, Lei Qiu:
A 13-b 320-MS/s Noise-Successive-Attenuated SAR ADC with R-C-Traded-Off Reference Buffer. CICC 2026: 1-4
[c17]Bingbing Yao, Jiangfan Wen, Likai Shen, Qide Cheng, Miao Meng, Hui Zhang, Lei Qiu:
A 150-Msps 77-dB SNDR SAR ADC in 28-nm CMOS. CICC 2026: 1-4
[c16]Yongling Zhang, Lei Qiu, Patrick P. Mercier, Miao Meng:
A Crystal-Less Backscatter Tag Demonstrating Bi-Directional 802.11b-WiFi Communication with On-the-Fly Baseband Processing. CICC 2026: 1-4
[c15]Yongling Zhang, Zheng Qin, Lei Qiu, Patrick P. Mercier, Miao Meng:
A Multi-Band IoT Tag Featuring a 150Mb/s Calibration-Free 64-QAM Backscatter Modulator and a 10Mb/s LO-Free DBPSK Receiver. CICC 2026: 1-4
[c14]Minghao Chen, Miao Meng:
A 23μW 158.4dB FoM Triple-Slope Current-to-Digital Converter with Digital Thermal Noise Reduction for Electrochemical Current Readout. ISCAS 2026: 4142-4146- 2025
[j6]Yongling Zhang
, Ji Xiong, Junzai Chen, Xiaoyu Li, Jinrui Zuo, Yan Wang
, Xiaoyi Wang
, Miao Meng
:
A Battery-Free BLE Backscatter Communication Chip for Wearable Systems. IEEE Solid State Circuits Lett. 8: 297-300 (2025)
[c13]Hong Liao, Wentao Ma, Xiaoxu Yang, Jianfang Nie, Bingfang Wang, Zhiqiang Chang, Yin Fang, Miao Meng:
An Implantable Fully-Packaged Current-Controlled Wireless Near-Adiabatic Neural Stimulator Achieving 71.7% Peak Efficiency and 13.5% Efficiency Variation Across Supported Stimulation Current Range. CICC 2025: 1-3
[c12]Ji Xiong, Yongling Zhang, Junzai Chen, Xiaoyu Li, Jinrui Zuo, Yan Wang, Xiaoyi Wang, Miao Meng:
A Wearable Backscatter System Featuring Concurrent RF Harvesting and Bidirectional Communication with Commodity BLE Transceivers. CICC 2025: 1-3- 2024
[c11]Wentao Ma, Miao Meng:
A Fully On-chip 0.04mm2 Power Management Unit with Low Output Ripple for Ultrasonic Wireless Powered Micro Implantable Medical Devices. BioCAS 2024: 1-4
[c10]Xiaoxu Yang, Yongling Zhang, Wentao Ma, Dahai Yao, Tianle Tang, Miao Meng:
A 45μW Ultrasonic Implantable Wireless Neural Recording Chip Featuring Simultaneous Power Transmission and Backscatter Communication. BioCAS 2024: 1-4
[c9]Yongling Zhang, Rongliang Luo, Ji Xiong, Siqi Liang, Miao Meng:
12.4 A 19μW 200Mb/s loT Tag Demonstrating High-Definition Video Streaming via a Digital-Switch-Based Reconfigurable 16-QAM Backscatter Communication Technique. ISSCC 2024: 224-226- 2023
[j5]Miao Meng
, Manideep Dunna
, Shihkai Kuo, Hans Chinghan Yu, Po-Han Peter Wang
, Dinesh Bharadia
, Patrick P. Mercier
:
A Fully-Reflective Wi-Fi-Compatible Backscatter Communication System With Retro-Reflective MIMO Gain for Improved Range. IEEE J. Solid State Circuits 58(9): 2501-2512 (2023)- 2021
[c8]Miao Meng
, Manideep Dunna, Hans Chinghan Yu, Shihkai Kuo, Po-Han Peter Wang
, Dinesh Bharadia, Patrick P. Mercier
:
12.2 Improving the Range of WiFi Backscatter Via a Passive Retro-Reflective Single-Side-Band-Modulating MIMO Array and Non-Absorbing Termination. ISSCC 2021: 202-204
[c7]Manideep Dunna, Miao Meng, Po-Han Wang, Chi Zhang, Patrick P. Mercier, Dinesh Bharadia:
SyncScatter: Enabling WiFi like synchronization and range for WiFi backscatter Communication. NSDI 2021: 923-937
2010 – 2019
- 2019
[j4]Miao Meng
, Dixiong Wang
, Binh Duc Truong
, Susan Trolier-McKinstry
, Shad Roundy
, Mehdi Kiani
:
A Multi-Beam Shared-Inductor Reconfigurable Voltage/SECE Mode Piezoelectric Energy Harvesting Interface Circuit. IEEE Trans. Biomed. Circuits Syst. 13(6): 1277-1287 (2019)
[j3]Miao Meng
, Mehdi Kiani
:
Gastric Seed: Toward Distributed Ultrasonically Interrogated Millimeter-Sized Implants for Large-Scale Gastric Electrical-Wave Recording. IEEE Trans. Circuits Syst. II Express Briefs 66-II(5): 783-787 (2019)
[c6]Miao Meng
, Mehdi Kiani:
Self-Image-Guided Ultrasonic Wireless Power Transmission to Millimeter-Sized Biomedical Implants. EMBC 2019: 364-367
[c5]Miao Meng
, Philip Graybill, Raddy L. Ramos, Amir Javan-Khoshkholgh, Aydin Farajidavar, Mehdi Kiani:
An Ultrasonically Powered Wireless System for In Vivo Gastric Slow-Wave Recording. EMBC 2019: 7064-7067
[c4]Miao Meng
, Ahmed Ibrahim, Tiancheng Xue, Hong Goo Yeo, Dixiong Wang
, Shad Roundy
, Susan Trolier-McKinstry, Mehdi Kiani:
Multi-Beam Shared-Inductor Reconfigurable Voltage/SECE-Mode Piezoelectric Energy Harvesting of Multi-Axial Human Motion. ISSCC 2019: 426-428- 2017
[j2]Miao Meng
, Mehdi Kiani:
Design and Optimization of Ultrasonic Wireless Power Transmission Links for Millimeter-Sized Biomedical Implants. IEEE Trans. Biomed. Circuits Syst. 11(1): 98-107 (2017)
[j1]Miao Meng
, Mehdi Kiani
:
A Hybrid Inductive-Ultrasonic Link for Wireless Power Transmission to Millimeter-Sized Biomedical Implants. IEEE Trans. Circuits Syst. II Express Briefs 64-II(10): 1137-1141 (2017)
[c3]Ahmed Ibrahim
, Miao Meng
, Mehdi Kiani:
Inductive and ultrasonic wireless power transmission to biomedical implants. ISCAS 2017: 1-4- 2016
[c2]Miao Meng
, Mehdi Kiani:
Optimal resonance configuration for ultrasonic wireless power transmission to millimeter-sized biomedical implants. EMBC 2016: 1934-1937- 2015
[c1]Miao Meng
, Ahmed Ibrahim
, Mehdi Kiani:
Design considerations for ultrasonic power transmission to millimeter-sized implantable microelectronics devices. BioCAS 2015: 1-4
Coauthor Index

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last updated on 2026-06-26 02:24 CEST by the dblp team
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