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Zhigong Wang
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2020 – today
- 2024
- [j45]Longbin Zhu, Zhijun Zhou, Wenjie Wang, Siyuan Xie, Qiao Meng, Zhigong Wang:
A High CMRR Differential Difference Amplifier Employing Combined Input Pairs for Neural Signal Recordings. IEEE Trans. Biomed. Circuits Syst. 18(1): 100-110 (2024) - [j44]Yixin Zhou, Keping Wang, Simeng Yin, Wenyuan Li, Fanyi Meng, Zhi-Gong Wang, Kaixue Ma:
A Fully Integrated Stimulator With High Stimulation Voltage Compliance Using Dynamic Bulk Biasing Technique in a Bulk CMOS Technology. IEEE Trans. Circuits Syst. I Regul. Pap. 71(6): 2525-2537 (2024) - 2023
- [j43]Haiyang Xia, Zhiqiang Liu, Huan Liu, Xu Wu, Tao Zhang, Lianming Li, Zhigong Wang:
An integrated 60 GHz differential-fed patch array antenna in low-cost QFN package. Microelectron. J. 137: 105839 (2023) - [j42]Zhijun Zhou, Keping Wang, Longbin Zhu, Rui Yang, Jihong Li, Wenjie Wang, Yuhao Xu, Zhigong Wang:
A Differential Difference Amplifier Employing Pseudo-Differential CMFB for Neural Signal Recording Applications. IEEE Trans. Circuits Syst. II Express Briefs 70(4): 1341-1345 (2023) - [j41]Zhijun Zhou, Longbin Zhu, Wenjie Wang, Jihong Li, Qiao Meng, Zhigong Wang:
A Capacitively Coupled Chopper Instrumentation Amplifier With Compensated Auto-Zeroed DC Servo-Loop for Neural Signal Recording. IEEE Trans. Circuits Syst. II Express Briefs 70(12): 4314-4318 (2023) - 2022
- [j40]Geliang Yang, Kai Tang, Zhigong Wang:
A CMOS balun with common ground and artificial dielectric compensations applied in a wideband RF front-end. Microelectron. J. 125: 105465 (2022) - [j39]Yixin Zhou, Shiyue Ma, Zhi-Gong Wang, Hao Zhang, Keping Wang:
Analysis and Design of High-Efficiency Charge Pumps With Improved Current Driving Capability Using Gate Voltage Boosting Technique. IEEE Trans. Circuits Syst. I Regul. Pap. 69(6): 2364-2375 (2022) - [j38]Zhijun Zhou, Hong Liao, Longbin Zhu, Yuekai Liu, Lisen Zhu, Keping Wang, Zhigong Wang:
A Bootstrapped Pseudo Resistor by Reusing OTA-C Filter for Neural Signal Processing. IEEE Trans. Circuits Syst. II Express Briefs 69(3): 714-718 (2022) - [c31]Longbin Zhu, Zhijun Zhou, Qiao Meng, Xiao-Ying Lü, Zhi-Gong Wang:
A Differential Difference Amplifier With A Combined Input Pairs for Neural Signal Recordings. BioCAS 2022: 265-269 - 2021
- [j37]Hai-Peng Wang, Zhengyang Bi, Wenjie Fan, Yixin Zhou, Yu-Xuan Zhou, Fei Li, Keping Wang, Xiao-Ying Lü, Zhi-Gong Wang:
Real-Time Artifact Removal System for Surface EMG Processing During Ten-Fold Frequency Electrical Stimulation. IEEE Access 9: 68320-68331 (2021) - 2020
- [j36]Jianjun Zhang, Yunhua Feng, Xiao-Ying Lü, Zhigong Wang:
Neural Signal Blocking Based on Spike Trapping Principle: Effect of Electrode and Pulse Parameters. IEEE Access 8: 64545-64554 (2020) - [j35]Zhengyang Bi, Yunlong Wang, Haipeng Wang, Yuxuan Zhou, Chenxi Xie, Lisen Zhu, Hongxing Wang, Bilei Wang, Jia Huang, Xiao-Ying Lü, Zhigong Wang:
Wearable EMG Bridge - A Multiple-Gesture Reconstruction System Using Electrical Stimulation Controlled by the Volitional Surface Electromyogram of a Healthy Forearm. IEEE Access 8: 137330-137341 (2020) - [j34]Najam Muhammad Amin, Lianfeng Shen, Danish Kaleem, Zhi-Gong Wang, Keping Wang, Faisal Siddiqui, Rana Saeed, Haroon Rasheed, Burhan Ahmed:
2.2-4.6-GHz Active Quasi-Circulator with > 24-dB Transmit-Receive Isolation. J. Circuits Syst. Comput. 29(5): 2050077:1-2050077:11 (2020) - [j33]Feng Yuan, Zhigong Wang:
An integrated microelectrode array system for neural signals recording. Microelectron. J. 96: 104686 (2020) - [c30]Jianjun Zhang, Yunhua Feng, Jun-Feng He, Xiao-Ying Lü, Zhi-Gong Wang:
System Design and Experimental Research of Neural Signal Blocking based on Spike Trapping Principle. EMBC 2020: 3819-3822 - [c29]Zhengyang Bi, Chenxi Xie, Yuxuan Zhou, Hai-Peng Wang, Xiao-Ying Lü, Zhi-Gong Wang:
An Anti Stimulation Artifacts and M-waves Surface Electromyography Detector with a Short Blanking Time*. EMBC 2020: 4126-4129 - [c28]Xi-Wen Chen, Xiao-Ying Lü, Zhi-Gong Wang, Zhi-Nina Fan, Chuan-Qing Zhu, Jia-Wei Chen, Li-Li Zhao:
Design and Experimental Research of Implantable Lower Esophageal Sphincter Stimulator Based on Android Bluetooth. EMBC 2020: 5220-5223 - [c27]Yixin Zhou, Zhigong Wang, Keping Wang:
High-Efficiency Charge Pumps with No Reversion Loss by Utilizing Gate Voltage Boosting Technique. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [j32]Xiao Chen, Zhi-Gong Wang, Fei Li:
A 3rd-order 1-bit Σ-Δ modulator with a 2-tap FIR filter embedded. IEICE Electron. Express 16(19): 20190365 (2019) - [j31]Lu Tang, Zhigong Wang, Tiantian Fan, Fa-en Liu, Changchun Zhang:
Optimized Charge Pump and Nonlinear Phase Frequency Detector for a Ka-Band Phase-Locked Loop in 90-nm CMOS Process. IEICE Trans. Electron. 102-C(11): 825-832 (2019) - [j30]Zhigong Wang, Dongyan Chen, Junhua Du:
Distributed variance-constrained robust filtering with randomly occurring nonlinearities and missing measurements over sensor networks. Neurocomputing 329: 397-406 (2019) - [c26]Chunling Tao, Xiaoyan Shen, Lei Ma, Jiahuan Shen, Zhiling Li, Zhigong Wang, Xiao-Ying Lü:
Comparative Study of Intraspinal Microstimulation and Epidural Spinal Cord Stimulation. EMBC 2019: 3795-3798 - 2018
- [j29]Long He, Lianming Li, Xu Wu, Zhigong Wang:
A Low-Power Wideband dB-Linear Variable Gain Amplifier With DC-Offset Cancellation for 60-GHz Receiver. IEEE Access 6: 61826-61832 (2018) - [c25]Zhi-Gong Wang, Xiao-Ying Lü, Yu-Jie Gao, Jianjun Zhang, Boshuo Wang:
Experimental Study on Nerve Signals Block for Spasticity Based on Antimissile Strategy. EMBC 2018: 2260-2263 - 2017
- [j28]Li Ma, Zhigong Wang, Jian Xu:
A 1-V Current-Reused Wideband Current-Mirror Mixer in 180-nm CMOS with High IIP2. Circuits Syst. Signal Process. 36(5): 1806-1817 (2017) - [j27]Junqing Yang, Ruituo Huai, Hui Wang, Wenyuan Li, Zhigong Wang, Meie Sui, Xuecheng Su:
Global Positioning System-Based Stimulation for Robo-Pigeons in Open Space. Frontiers Neurorobotics 11: 40 (2017) - [j26]Yang Chen, Wenyuan Li, Zhigong Wang:
A 40-Gb/s 3-tap forward feedback equalizer with DLL-based delay time calibration. IEICE Electron. Express 14(3): 20161159 (2017) - [j25]Rong Wang, Chen Fan, Zhi-Gong Wang:
Design of Psub-SMPD and DNW-SMPD fabricated in a standard 0.18-µm CMOS process. IEICE Electron. Express 14(14): 20170611 (2017) - [j24]Yang Liu, Zhiqun Li, Hao Gao, Qin Li, Zhigong Wang:
A novel complementary push-push frequency doubler with negative resistor conversion gain enhancement. IEICE Electron. Express 14(15): 20170674 (2017) - [j23]Chen Fan, Rong Wang, Zhigong Wang:
A compact, low-power-consumption 5-Gbps OEIC receiver without equalizer fabricated in 0.18-µm CMOS technology. IEICE Electron. Express 14(15): 20170679 (2017) - [j22]Najam Muhammad Amin, Lianfeng Shen, Zhigong Wang, Muhammad Ovais Akhter, Muhammad Tariq Afridi:
60 GHz-Band Low-Noise Amplifier. J. Circuits Syst. Comput. 26(5): 1750075:1-1750075:17 (2017) - [j21]Li Ma, Zhigong Wang, Jian Xu, Najam Muhammad Amin:
A High-Linearity Wideband Common-Gate LNA With a Differential Active Inductor. IEEE Trans. Circuits Syst. II Express Briefs 64-II(4): 402-406 (2017) - [c24]Yu-Xuan Zhou, Hai-Peng Wang, Xiao-Peng Cao, Zhengyang Bi, Yu-Jie Gao, Xiao-Bin Chen, Xiao-Ying Lü, Zhi-Gong Wang:
Electromyographic Bridge - a multi-movement volitional control method for functional electrical stimulation: prototype system design and experimental validation. EMBC 2017: 205-208 - [c23]Xiao-Bin Chen, Yu-Xuan Zhou, Hai-Peng Wang, Xiao-Ying Lü, Zhi-Gong Wang:
Design of sEMG-detecting circuit for EMG-Bridge. EMBC 2017: 382-385 - [c22]Hai-Peng Wang, Ai-Wen Guo, Zhengyang Bi, Fei Li, Xiao-Ying Lü, Zhi-Gong Wang:
A wearable multi-pad electrode prototype for selective functional electrical stimulation of upper extremities. EMBC 2017: 714-717 - [c21]Xin-Chen Sun, Wanjun Tao, Chuan-Qing Zhu, Li-Li Zhao, Min Wang, Xiao-Ying Lü, Zhi-Gong Wang, Zhi-Ning Fan:
System design and experimental research of lower esophageal sphincter stimulator for treatment of gastroesophageal reflux disease. EMBC 2017: 2177-2180 - [c20]Xueliang Bao, Zhengyang Bi, Xiao-Ying Lü, Zhigong Wang:
Stimulation time determination for lower limb FES by using gait event and a "delay". EMBC 2017: 2462-2465 - 2016
- [j20]Li Ma, Zhigong Wang, Jian Xu, Rong Wang, Najam Muhammad Amin:
Noise Analysis and Optimization of Programmable Gain Amplifier with DC Offset Cancelation. Circuits Syst. Signal Process. 35(3): 753-770 (2016) - [j19]Mohammed Mohsen Mohammed Nasr, Abdeldime Mohamed Salih Abdelgader, Zhi-Gong Wang, Lianfeng Shen:
VANET Clustering Based Routing Protocol Suitable for Deserts. Sensors 16(4): 478 (2016) - [c19]Hai-Peng Wang, Ai-Wen Guo, Zhengyang Bi, Yu-Xuan Zhou, Zhi-Gong Wang, Xiao-Ying Lü:
A novel distributed functional electrical stimulation and assessment system for hand movements using wearable technology. BioCAS 2016: 74-77 - [c18]Xueliang Bao, Zhengyang Bi, Hai-Peng Wang, Yu-Xuan Zhou, Xiao-Ying Lü, Zhi-Gong Wang:
An alternating controlled functional electrical stimulation strategy based on sample entropy for rehabilitation of lower extremity hemiplegia. BSN 2016: 25-30 - 2015
- [j18]Najam Muhammad Amin, Zhigong Wang, Zhiqun Li:
Erratum to: Folded down-conversion mixer for a 60 GHz receiver architecture in 65-nm CMOS technology. Frontiers Inf. Technol. Electron. Eng. 16(5): 428 (2015) - [c17]Litong Nie, Zhigong Wang, Lu Tang, Junliang Wang, Luosi Gao:
A CMOS charge pump with dual compensation amplifiers for phase-locked loops synthesizer. ASICON 2015: 1-4 - [c16]Hai-Peng Wang, Zhi-Gong Wang, Xiao-Ying Lü, Zonghao Huang, Yu-Xuan Zhou:
Design of a pulse-triggered four-channel functional electrical stimulator using complementary current source and time division multiplexing output method. EMBC 2015: 1671-1674 - [c15]Wanjun Tao, Zhigong Wang, Xiao-Ying Lü, Yujie Gao:
Effects of different configurations of multi-contact cuff electrode on recruitment characteristics of nerve stimulation. NER 2015: 498-501 - 2014
- [j17]Yong Liang, Zhigong Wang, Qiao Meng, Xiaodan Guo, Changchun Zhang:
Improvement of the bit-stream squarer and square root circuit based on ΣΔ modulation. IEICE Electron. Express 11(17): 20140575 (2014) - [j16]Mi Tian, Zhigong Wang, Jian Xu, Changchun Zhang:
Design of Q-enhanced Class-C VCO with robust start-up and high oscillation stability. IEICE Electron. Express 11(22): 20140982 (2014) - [j15]Fa-en Liu, Zhigong Wang, Zhiqun Li, Qin Li, Lu Tang, Geliang Yang:
A 31-45.5 GHz injection-locked frequency divider in 90-nm CMOS technology. J. Zhejiang Univ. Sci. C 15(12): 1183-1189 (2014) - [j14]Najam Muhammad Amin, Zhigong Wang, Zhiqun Li:
Folded down-conversion mixer for a 60 GHz receiver architecture in 65-nm CMOS technology. J. Zhejiang Univ. Sci. C 15(12): 1190-1199 (2014) - [j13]Ting Guo, Zhiqun Li, Qin Li, Zhigong Wang:
A 37 GHz wide-band programmable divide-by-N frequency divider for millimeter-wave silicon-based phase-locked loop frequency synthesizers. J. Zhejiang Univ. Sci. C 15(12): 1200-1210 (2014) - [c14]Wenlong Du, Wenyuan Li, Zhigong Wang, Xiao-Ying Lü:
Implanted electronic siren to alarm for bladder full with urine. EMBC 2014: 630-633 - [c13]Ting Guo, Zhiqun Li, Qin Li, Zhigong Wang:
A 20.5GHz wide-band programmable divide-by-N frequency divider. ISIC 2014: 164-167 - 2013
- [j12]Lidan Wang, Zhiqun Li, Zeng-Qi Wang, Zhigong Wang:
A 0.5V 0.18µm CMOS LC-VCO with a novel switched varactor technique. IEICE Electron. Express 10(15): 20130535 (2013) - [j11]Xiaoxia Wang, Zhigong Wang:
Low-power, low-area preamplifier for ultra high-speed multi-channel optical communication system. Int. J. Circuit Theory Appl. 41(2): 186-204 (2013) - [j10]Keping Wang, Xuemei Lei, Kaixue Ma, Kiat Seng Yeo, Xiang Cao, Zhigong Wang:
A CMOS Low-Power temperature-robust RSSI using Weak-Inversion limiting amplifiers. J. Circuits Syst. Comput. 22(10) (2013) - [j9]Geliang Yang, Zhigong Wang, Zhiqun Li, Qin Li, Fa-en Liu, Zhu Li:
Ka-band ultra low voltage miniature sub-harmonic resistive mixer with a new broadside coupled Marchand balun in 0.18-μm CMOS technology. J. Zhejiang Univ. Sci. C 14(4): 288-295 (2013) - [j8]Yingmei Chen, Zhigong Wang, Xiangning Fan, Hui Wang, Wei Li:
A 38 Gb/s to 43 Gb/s Monolithic Optical Receiver in 65 nm CMOS Technology. IEEE Trans. Circuits Syst. I Regul. Pap. 60-I(12): 3173-3181 (2013) - 2012
- [c12]Wenyuan Li, Fei Pei, Zhigong Wang, Xiao-Ying Lü:
Animal experiments with the microelectronics neural bridge IC. EMBC 2012: 823-826 - [c11]Zhi-Gong Wang, Xiao-Ying Lü, Yang Xia, Wenyuan Li, Zonghao Huang, Yu-Xuan Zhou, Xiaoyan Shen, Xintai Zhao, Jingdong Yang, Suyang Wang, Ming Ma, Bilei Wang:
Motor function rebuilding of limbs based on communication principle and electronic system. EMBC 2012: 843-846 - 2011
- [j7]Yingmei Chen, Zhigong Wang, Li Zhang:
A low-jitter low-power monolithically integrated optical receiver for SDH STM-16. Sci. China Inf. Sci. 54(6): 1293-1299 (2011) - [j6]Haixian Pan, Xiao-Ying Lü, Zhigong Wang, Tianling Ren, Tao Fang, Jie Zhang, Changjian Zhou, Ligang Wang:
Silicon-based microelectrode arrays for stimulation and signal recording of in vitro cultured neurons. Sci. China Inf. Sci. 54(10): 2199-2208 (2011) - [j5]Keping Wang, Zhigong Wang, Xuemei Lei, Xiang Cao, Peng Han, Geliang Yang, Kaixue Ma, Kiat Seng Yeo:
A Low-Loss Image-Reject Mixer Using Source Follower Isolation Method for DRM/DAB Tuner Applications. IEEE Trans. Circuits Syst. II Express Briefs 58-II(11): 729-733 (2011) - [c10]Zhi-Gong Wang, Xiao-Ying Lü, Wenyuan Li, Xiaoyan Shen, Zonghao Huang, Xintai Zhao, Liangjie Du, Zheng-Lin Jiang, Xingya Gao, Guohua Wang, Pan Haixian, Cunliang Zhu, Xin Gong, Lei Qiu:
Signal Regeneration and Function Rebuilding Using Microelectronic Neural Bridge between Two Far-Separated Nervous Systems. BSN 2011: 25-28
2000 – 2009
- 2009
- [c9]Haitao Zhao, Xiaoying Lv, Guiyang Li, Zhigong Wang:
Design and Experiments of Transmitter for Transcutaneous Energy Transmission. BSN 2009: 292-295 - [c8]Bangli Liang, Zhigong Wang, Dianyong Chen, Bo Wang, Guohui Situ, Tad A. Kwasniewski:
A full-rate truly monolithic CMOS CDR for low-cost applications. CCECE 2009: 1208-1212 - [c7]Bangli Liang, Dianyong Chen, Bo Wang, Guohui Situ, Tad A. Kwasniewski, Zhigong Wang:
A monolithic high modulation efficiency CMOS laser diode / modulator driver. ICT 2009: 361-363 - 2008
- [c6]Zhi-Gong Wang, Xiao-Song Gu, Xiao-Ying Lü, Zheng-Lin Jiang, Wenyuan Li, Guang-Ming Lu, Yu-Feng Wang, Hui-Ling Wang, Zhenyu Zhang, Hong-Mei Shen, Yang Wu, Wei-Xing Shen, Jing-Yang Zhang, Dong Chen:
Microelectronic channel bridge and signal regeneration of injured spinal cords. APCCAS 2008: 658-661 - 2005
- [c5]Qingsheng Hu, Zhigong Wang, Jun Zhang, Jie Xiao:
Low complexity parallel Chien search architecture for RS decoder. ISCAS (1) 2005: 340-343 - 2004
- [c4]Lianming Li, Ting Huang, Jun Feng, Zhigong Wang, Mingzhen Xiong:
5 Gbps 0.35-μm CMOS driver for laser diode or optical modulator. ESSCIRC 2004: 279-282 - 2003
- [c3]Ting Huang, Zhigong Wang, En Zhu, Xiaoming Wang, Mingzhen Xiong:
24 Gb/s laser/modulator driver IC using 0.2μm gate length PHEMTs. ESSCIRC 2003: 277-280 - [c2]Wen-Hu Zhao, Zhi-Gong Wang, En Zhu:
A 3.125-Gb/s CMOS word alignment demultiplexer for serial data communications. ESSCIRC 2003: 389-392 - 2001
- [c1]Zhigong Wang, X.-H. Chen, Rui Tao, Ting Huang, Jun Feng, Tingting Xie, Haitao Chen:
2.5-Gb/s 0.35-μm CMOS ICs for optic-fiber transceiver. ICECS 2001: 689-692
1990 – 1999
- 1998
- [j4]Andreas Thiede, Zhi-Gong Wang, Michael Schlechtweg, Manfred Lang, Petra Leber, Zhihao Lao, Ulrich Nowotny, Volker Hurm, Michaela Rieger-Motzer, Manfred Ludwig, Martin Sedler, Klaus Köhler, Wolfgang Bronner, Jochen Hornung, Axel Hülsmann, Gudrun Kaufel, Bryan Raynor, Joachim Schneider, Theo Jakobus, Jürgen Schroth, Manfred Berroth:
Mixed signal integrated circuits based on GaAs HEMTs. IEEE Trans. Very Large Scale Integr. Syst. 6(1): 6-17 (1998) - 1997
- [j3]Manfred Lang, Zhi-Gong Wang, Zhihao Lao, Michael Schlechtweg, Andreas Thiede, Michaela Rieger-Motzer, Martin Sedler, Wolfgang Bronner, Gudrun Kaufel, Klaus Köhler, Axel Hülsmann, Brian Raynor:
20-40 Gb/s 0.2-μm GaAs HEMT chip set for optical data receiver. IEEE J. Solid State Circuits 32(9): 1384-1393 (1997) - 1994
- [j2]Zhi-Gong Wang, Manfred Berroth, Ulrich Nowotny, Peter Hofmann, Axel Hiilsmann, Klaus Köhler, Brian Raynor, Joachim Schneider:
7.5 Gb/s monolithically integrated clock recovery circuit using PLL and 0.3-μm gate length quantum well HEMT's. IEEE J. Solid State Circuits 29(8): 995-997 (1994) - 1991
- [j1]Zhigong Wang, Ulrich Langmann, Berthold G. Bosch:
Multi-Gb/s Silicon Bipolar Clock Recovery IC. IEEE J. Sel. Areas Commun. 9(5): 656-663 (1991)
Coauthor Index
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last updated on 2024-10-17 21:30 CEST by the dblp team
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