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Publications
                                

BOOK AND BOOK CHAPTER

[Book] H. Wang and K. Sengupta, RF and mm-Wave Power Generation in Silicon, 1st edition, Academic Press, Elsevier, Dec. 2015.
                                
[Book Chapter 1] S. Hu, S. Kousai, J. Park, O. Chlieh, and H. Wang, “A transformer-based reconfigurable digital polar Doherty power amplifier fully integrated in bulk CMOS,” RF and mm-Wave Power Generation in Silicon, 1st edition, Academic Press, Elsevier, Dec. 2015, Ch 9, pp. 247-271.

[Book Chapter 2] T. Chi and H. Wang, “Silicon-based THz signal generation with multiphase subharmonic injection-locking oscillators,” RF and mm-Wave Power Generation in Silicon, 1st edition, Academic Press, Elsevier, Dec. 2015, Ch 19, pp. 519-547.

[Book Chapter 3] H. Wang and A. Hajimiri, “CMOS magnetic biosensing technology for Point-of-Care (PoC) molecular-level diagnosis application,” Low Power Emerging Wireless Technologies (Devices, Circuits, and Systems), CRC Press, Taylor and Francis Group, 2013, Ch 14, pp. 333-360.

[Book Chapter 4] H. Wang and A. Hajimiri, “CMOS magnetic biosensing technology for Point-of-Care (PoC) molecular-level diagnosis application,”Integrated Microsystems: Electronics, Photonics, and Biotechnology (Devices, Circuits, and Systems), CRC Press, Taylor and Francis Group, 2011, Ch 5, pp. 109-132.        

[Book Chapter 5] H. Wang, “Doherty Architecture For mm-wave/RF Digital and Analog Power Amplifiers,” IC Design Insights - from Selected Presentations at CICC 2017 (Tutorials in Circuits and Systems), River Publishers, 2019, Ch 7, pp. 221-264.

 

JOURNAL  PUBLICATIONS

[J-1] M. Huang, Y. Chen, P. Peng, H. Wang, and G-K. Chang, "A Full Field-of-View Self-Steering Beamformer for 5G Mm-Wave Fiber-Wireless Mobile Fronthaul," accepted and to appear in J. Light. Technol., 2020.

[J-2] D. Jung, S. Li, J. Park, T. Huang, H. Zhao, and H. Wang, "A CMOS 1.2V Hybrid Current-/Voltage-Mode Three-Way Digital Doherty PA with Built-In Phase Nonlinearity Compensation," accepted and to appear in IEEE J. of Solid-State Circuits, 2020.

[J-3] H. Nguyen and H. Wang, "A Coupler-Based Differential Mm-Wave Doherty Power Amplifier with Impedance Inverting and Scaling Baluns," accepted and to appear in IEEE J. of Solid-State Circuits, 2020.

[J-4] M. Huang, T. Chi, S. Li, T. Huang, and H. Wang, "A 24.5-43.5 GHz Ultra-Compact CMOS Receiver Front-End with Calibration-Free Instantaneous Full-Band Image Rejection for Multiband 5G Massive MIMO," accepted and to appear in IEEE J. of Solid-State Circuits, 2020.

[J-5] M. Huang and H. Wang, "A Mm-Wave Wideband MIMO RX with Instinctual Array-Based Blocker/Signal Management for Ultra-Low-Latency Communication," IEEE J. of Solid-State Circuits, vol. 54, no. 12, pp. 3553 - 3564, Dec. 2019.

[J-6] F. Wang, T. Li, S. Hu, and H. Wang, "A Super-Resolution Mixed-Signal Doherty Power Amplifier for Simultaneous Linearity and Efficiency Enhancement," IEEE J. of Solid-State Circuits, vol. 54, no. 12, pp. 3421 - 3436, Dec. 2019.

[J-7] J. Park, S. I. Grijalva, D. Jung, S. Li, G. V. Junek, T. Chi, H. C. Cho, and H. Wang, "Intracellular cardiomyocytes potential recording by planar electrode array and fibroblasts co-culturing on multi-modal CMOS chip," Biosens. Bioelectron., vol. 144, 111626, Nov. 2019.

[J-8] S. Li, T. Chi, T. Huang, D. Jung, M. Huang, and H. Wang, "A Buffer-Less Wideband Frequency Doubler in 45nm CMOS-SOI with Transistor Multi-Port Waveform Shaping Achieving 25% Drain Efficiency and 46-89GHz Instantaneous Bandwidth," IEEE Solid-State Circuits Lett., vol. 2, no. 4, pp. 25 - 28, Apr. 2019.

[J-9] S. Hu, F. Wang, and H. Wang, "A 28/37/39-GHz Linear Doherty Power Amplifier in Silicon for 5G Applications," IEEE J. of Solid-State Circuits, vol. 54, no. 6, pp. 1586 - 1599, Jun. 2019.

[J-10] S. Li, T. Chi, J. Park, H. Nguyen, and H. Wang, "A 28GHz Flip-Chip Packaged Chireix Transmitter with On-Antenna Outphasing Active Load Modulation," IEEE J. of Solid-State Circuits, vol. 54, no. 5, pp. 1243 - 1253, May 2019.

[J-11] T. Li and H. Wang, "Millimeter-Wave Continuous-Mode Power Amplifier for 5G MIMO Applications," IEEE Trans. Microw. Theory. Tech (Early Access), 2019. --- IEEE T-MTT Special Issue on 5G Hardware and System Technologies

[J-12] M. Huang, T. Chi, F. Wang, T. Li, and H. Wang, "A Full-FoV Autonomous Hybrid Beamformer Array with Unknown Blockers Rejection and Signals Tracking for Low-Latency 5G Mm-Wave Links," IEEE Trans. Microw. Theory. Tech (Early Access), 2019. --- IEEE T-MTT Special Issue on 5G Hardware and System Technologies

[J-13] D. Jung, H. Zhao, and H. Wang, "A CMOS Highly Linear Doherty Power Amplifier with Multigated Transistors," IEEE Trans. Microw. Theory. Tech, vol. 67, no. 5, pp. 1883 - 1891, May 2019.

[J-14] F. Wang and H. Wang, "A Noise Circulating Oscillator," IEEE J. of Solid-State Circuits, vol. 54, no. 3, pp. 696 - 708, Mar. 2019.

[J-15] A. Wang, D. Jung, J. Park, G. Junek, and H. Wang, "Electrode-Electrolyte Interface Impedance Characterization of Ultra-Miniaturized Microelectrode Arrays over Materials and Geometries for Sub-Cellular and Cellular Sensing and Stimulation,” IEEE Transactions on NanoBioscience (TNB) EMBS special issue, vol. 18, no. 2, pp. 248 - 252, Apr. 2019.

[J-16] M. Nosrati, S. Shahsavari, S. Lee, H. Wang and N. Tavassolian, "A Concurrent Dual-Beam Phased-Array Doppler Radar Using MIMO Beamforming Techniques for Short-Range Vital-Signs Monitoring," IEEE Trans. Antennas Propag, vol. 67, no. 4, pp. 2390 - 2404, Apr. 2019.

[J-17] A. M.-Sabzevari, S. Li, E. Garay, H. Nguyen, H. Wang, and N. Tavassolian, “Synthetic Ultra-High-Resolution Millimeter-Wave Imaging for Skin Cancer Detection,” IEEE Trans. Biomedical Engineering (TBME), vol. 66, no. 1, pp. 61 - 71, Jan. 2019.

[J-18] T. Chi, J. Park, S. Li, and H. Wang, "A Millimeter-Wave Polarization-Division-Duplex Transceiver Front-End with An On-Chip Multifeed Self-Interference-Canceling Antenna and An All-Passive Reconfigurable Canceler," IEEE J. of Solid-State Circuits, vol. 53, no. 12, pp. 3628 - 3639, Dec. 2018.

[J-19] H. Nguyen, T. Chi, S. Li, and H. Wang, "A Linear High-Efficiency Millimeter-Wave CMOS Doherty Radiator Leveraging Multi-Feed On-Antenna Active Load-Modulation," IEEE J. of Solid-State Circuits, vol. 53, no. 12, pp. 3587 - 3598, Dec. 2018.

[J-20] J. Park, S. I. Grijalva, M. K. Aziz, T. Chi, S. Li, M. N. Sayegh, A. Wang, H. Cho and H. Wang, "Multi-parametric cell profiling with a CMOS quadmodality cellular interfacing array for label-free fully automated drug screening," Lab Chip, vol. 18, pp. 3037-3050, 2018.

[J-21] E. Hardy, Y. Wang, S. Iyer, R. Mannino, Y. Sakurai, T. Barker, T. Chi, Y. Youn, H. Wang, A. Brown, W. Lam, "Interdigitated microelectronic bandage augments hemostasis and clot formation at low applied voltage in vitro and in vivo," Lab Chip, vol. 18, pp. 2985-2993, 2018.

[J-22] A. Mirbeik-Sabzevari, S. Li, E. Garay, H. T. Nguyen, H. Wang, and N. Tavassolian, "W-Band Micromachined Antipodal Vivaldi Antenna Using SIW and CPW Structures," IEEE Trans. Antennas Propag., vol. 66, no. 11, pp. 6352 - 6357, Nov. 2018.

[J-23] J. Park, Y. Wang, S. Pellerano, C. Hull, and H. Wang, “A CMOS Wideband Current-Mode Digital Polar Power Amplifier with Built-In AM-PM Distortion Self-Compensation,” IEEE J. of Solid-State Circuits, vol. 53, no. 2, pp. 340 - 356, Feb. 2018.

[J-24] H. Wang, F. Dai, and H. Wang, “A Reconfigurable Vernier Time-to-Digital Converter with 2-D Spiral Comparator Array and 2nd-Order ΔΣ Linearization,” IEEE J. of Solid-State Circuits, vol. 53, no. 3, pp. 738 - 749, Mar. 2018.

[J-25] J. Park, M. K. Aziz, S. Li, T. Chi, S. I. Grijalva, J. Sung, H. Cho, and H. Wang, “1024-Pixel CMOS Multi-Modality Joint Cellular Sensor/Stimulator Array for Real-Time Holistic Cellular Characterization and Cell-Based Drug Screening,” IEEE Trans. Biomed. Circuits Syst., vol. 12, no. 1, pp. 80 - 94, Nov. 2017.

[J-26] T. Chi, S. Li, J. Park, and H. Wang, “A Multi-Feed Antenna for High-Efficiency On-Antenna Power Combining,” IEEE Trans. Antennas Propag., vol. 65, no. 12, pp. 6937 - 6951, Dec. 2017.

[J-27] T. Li and H. Wang, “A Millimeter-Wave Fully Integrated Passive Reflection-Type Phase Shifter with Transformer-Based Multi-Resonance Loads for 360 Phase Shifting,” IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 65, no. 4, pp. 1406 - 1419, Nov. 2017.

[J-28] S. Li, T. Chi, and H. Wang, “A Millimeter-Wave Dual-Feed Square Loop Antenna for 5G Communications,” IEEE Trans. Antennas Propag., vol. 65, no. 12, pp. 6317 - 6328, Dec. 2017. --- IEEE T-AP December 2017 Special Issue on “Antennas and Propagation Aspects of 5G Communications."

[J-29] S. Hu, S. Kousai, and H. Wang, “A Compact Broadband Mixed-Signal Power Amplifier in Bulk CMOS with Hybrid Class-G and Dynamic Load Trajectory Manipulation,” IEEE J. of Solid-State Circuits, vol. 52, no. 6, pp. 1463 - 1478, Jun. 2017.

[J-30] M. Huang, T. Chi, F. Wang, and H. Wang, “An All-Passive Negative Feedback Network for Broadband and Wide Field-of-View Self-Steering Beam-Forming with Zero DC Power Consumption,” IEEE J. of Solid-State Circuits, vol. 52, no. 5, pp. 1260 - 1273, May 2017.

[J-31] J. Park, S. Hu, Y. Wang, and H. Wang, “A Highly Linear Dual-Band Mixed-Mode Polar Power Amplifier in CMOS with An Ultra-Compact Output Network,” IEEE J. of Solid-State Circuits, vol. 51, no. 8, pp. 1756 - 1770, Aug. 2016.

[J-32] M. Zia, T. Chi, J. Park, A. Su, J. L. Gonzalez, P. K. Jo, M. P. Styczynski, H. Wang, and M. S. Bakir, “A 3D Integrated Electronic Microplate Platform for Lowcost Repeatable Biosensing Applications,” IEEE Trans. Compon., Packag., Manuf. Technol., vol. 6, no. 12, pp. 1827 - 1833, Dec. 2016.

[J-33] J. Park and H. Wang, “A Fully Differential Ultra-Compact Broadband Transformer-Based Wilkinson Power Divider,” IEEE Microw. Wireless Compon. Lett., vol. 26, no. 4, pp. 255 - 257, Apr. 2016.

[J-34] S. Hu, S. Kousai, and H. Wang, “A Broadband Mixed-Signal CMOS Power Amplifier with A Hybrid Class-G Doherty Efficiency Enhancement Technique,” IEEE J. of Solid-State Circuits, vol. 51, no. 3, pp. 598 - 613, Mar. 2016.

[J-35] T. Chi, J. S. Park, J. C. Butts, T. A. Hookway, A. Su, C. Zhu, M. P. Styczynski, T. C. McDevitt, and H. Wang, “A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening,” IEEE Trans. Biomed. Circuits Syst., vol. 9, no. 6, pp. 801-814, Dec. 2015.

[J-36] J. Park and H. Wang, “A Transformer-Based Poly-Phase Network for Ultra-Broadband Quadrature Signal Generation,” IEEE Trans. Microw. Theory. Tech, vol. 63, no. 12, pp. 4444 - 4457, Dec. 2015.

[J-37] H. Wang, S. Kousai, K. Onizuka, S. Hu, “The Wireless Workhorse: Mixed-Signal Power Amplifiers Leverage Digital and Analog Techniques to Enhance Large-Signal RF Operations,” IEEE Microwave Magazine, vol 16, no. 9, pp. 36-63, Oct. 2015. --- 2016 IEEE MTT-S Microwave Magazine Best Paper Award.

[J-38] S. Hu, S. Kousai, and H. Wang, “Antenna Impedance Variation Compensation By Exploiting A Digital Doherty Power Amplifier Architecture,” IEEE Trans. Microw. Theory. Tech, vol. 63, no. 2, pp. 580-597, Feb. 2015.

[J-39] T. Chi, J. Luo, S. Hu, and H. Wang, “A Multi-Phase Sub-Harmonic Injection Locking Technique for Bandwidth Extension in Silicon-Based THz Signal Generation,” IEEE J. of Solid-State Circuits, vol. 50, no. 8, pp. 1861 - 1873, Aug. 2015.

[J-40] S. Hu, S. Kousai, J. Park, O. Chlieh, and H. Wang, “Design of A Transformer-Based Reconfigurable Digital Polar
Doherty Power Amplifier Fully Integrated in Bulk CMOS
,” IEEE J. of Solid-State Circuits, vol. 50, no. 5, pp. 1094 – 1106, May 2015.

[J-41] H. Wang, “Magnetic Sensors for Diagnostic Medicine: CMOS-Based Magnetic Particle Detectors for Medical Diagnosis Applications,” IEEE Microwave Magazine, vol. 14, no. 5, pp. 110-130, Jul/Aug 2013.

[J-42] A. Pai, A. Khachaturian, S. Chapman, A. Hu, H. Wang, and A, Hajimiri, “A Handheld Magnetic Sensing Platform for Antigen and Nucleic Acid Detection,” Analyst, vol. 139, pp. 1403 – 1411, Dec. 2013.

[J-43] H. Wang, C-C. Weng, and A. Hajimiri, “Phase Noise and Fundamental Sensitivity of Oscillator-Based Reactance Sensors,” IEEE Trans. Microw. Theory. Tech, vol. 61, no. 5, pp. 2215-2229, May 2013.

[J-44] H. Wang, A. Mohdavi, D. Tirrell, and A. Hajimiri, “A Magnetic Cell-Based Sensor,” Lab Chip, vol. 12, pp. 4465-4471, 2012.

[J-45] Y. Wang, H. Wang, C. Hull, and S. Ravid, “A Transformer-Based Broadband Front-end Combo in Standard CMOS," IEEE J. of Solid-State Circuits, vol. 47, no. 8, pp. 1810 – 1819, Aug. 2012.

-------- Before Georgia Tech --------

[J-46] H. Wang, C. Sideris, and A. Hajimiri, “A CMOS Broadband Power Amplifier With a Transformer-Based High-Order Output Matching Network,” IEEE J. of Solid-State Circuits, vol. 45, no. 12, pp. 2709 – 2722, Dec. 2010.
 
[J-47] S. Jeon, Y.-J. Wang, H. Wang, F. Bohn, A. Natarajan, A. Babakhani, and A. Hajimiri, “A Scalable 6-to-18GHz Concurrent Dual-Band Quad-Beam Phased-Array Receiver in CMOS,” IEEE J. of Solid-State Circuits, vol. 43, no. 12, pp. 2660-2673, Dec. 2008.

 

PEER REVIEWED CONFERENCE  PUBLICATIONS

[C-1] D. Munzer, S. Er, M. Chen, Y. Li, N. S. Mannem, T. Zhao, H. Wang, "Residual Network Based Direct Synthesis of EM Structures: A Study on One-to-One Transformers," accepted and to appear in Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2020.

[C-2] A. Ahmed, M. Huang, H. Wang, "A Mixer-First Extremely Wideband 43-97 GHz RX Frontend with Broadband Quadrature Input Matching and Current Mode Transformer-Based Image Rejection for Massive MIMO Applications,” accepted and to appear in Proc. IEEE Custom Integrated Circuits Conference (CICC), Mar 2020.

[C-3] M. Huang,Y. Chen, R. Shiu, H. Wang, G. K. Chang, “Wide FoV Autonomous Beamformer Supporting Multiple Beams and Multi-Band Operation for 5G Mobile Fronthaul,” accepted and to appear in Proc. Optical Fiber Communication Conference (OFC), March. 2020.

[C-4] D. Jung, S. R. Kumashi, J. Park, S. T. Sanz, S. Grijalva, A. Wang, S. Li, H. C. Cho, C. Ajo-Franklin, and H. Wang, "A CMOS Multi-Modality In-Pixel Electrochemical and Impedance Cellular Sensing Array for Massively Paralleled Synthetic Exoelectrogen Characterization," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020.

[C-5] S. Li, T. Chi, D. Jung, T. Huang, M. Huang, and H. Wang, "An E-Band High-Linearity Antenna-LNA Frontend with 4.8dB NF and 2.2dBm IIP3 Exploiting Multi-Feed On-Antenna Noise-Canceling and Gm-Boosting," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020.

[C-6] F. Wang and H. Wang, "A 24-30GHz Watt-Level Broadband Linear Doherty Power Amplifier with Multi-Primary Distributed-Active-Transformer Power-Combining Supporting 5G NR FR2 64QAM with >19 dBm Average Pout and
>19% Average PAE," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020.

[C-7] F. Wang and H. Wang, "An Instantaneously Broadband Ultra-Compact Highly Linear PA with Compensated Distributed Balun Output Network Achieving >17.8dBm P1dB and >36.6% PAEP1dB over 24-40GHz and Continuously Supporting 64-/256-QAM 5G NR Signals over 24-42GHz," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020.

[C-8] N. S. Mannem, M. Huang, T. Huang, and H. Wang, "A Reconfigurable Series/Parallel Quadrature Coupler Doherty PA in CMOS-SOI with VSWR Resilient Linearity and Back-Off PAE for 5G MIMO Arrays," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020.

[C-9] S. Li, M. Huang, D. Jung, T. Huang, and H. Wang, "A 28GHz Current-Mode Inverse-Outphasing Transmitter Achieving 40%/31% PA Efficiency at Psat/6dB PBO and Supporting 15Gbit/s 64QAM for 5G Communication," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2020.

[C-10] F. Wang, K. Xu, J. Romberg, and H. Wang, “Optimal Control for Mm-Wave Mixed-Signal Doherty Power Amplifier: A Bandit-Problem Approach,” accepted and to appear in Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2020.

[C-11] D. Munzer, S. Er, M. Chen, Y. Li, N. S. Mannem, T. Zhao, and H. Wang, “Machine Learning (ML) Assisted Direct Synthesis of On-Chip Passive Structures,” accepted and to appear in Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2020.

[C-12] A. Amr, M. Huang, and H. Wang, “An Passive Extremely Wideband RX Frontend in CMOS SOI for Massive MIMOs,” accepted and to appear in Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2020.

[C-13] F. Wang, K. Xu, J. Romberg, and H. Wang, “An Artificial-Intelligence (AI) Assisted Mm-Wave Doherty Power Amplifier with Rapid Mixed-Mode In-Field Performance Optimization,” Proc. IEEE IMC-5G, August 2019.

[C-14] A. Banerjee, L. Zhang, H. Wang, P. Wambacq, “Sub-THz and THz Signal Generation Using Photonic and Electronic Techniques,” Proc. IEEE IMC-5G, August 2019.

[C-15] D. Jung, J. Park, G. Junek, S. Grijalva, S. Kumashi, A. Wang, S. Li, H. Cho, H. Wang, "A 21952-Pixel Multi-Modal CMOS Cellular Sensor Array with 1568-Pixel Parallel Recording and 4-Point Impedance Sensing," Proc. IEEE VLSI Tech. Cir. Symp., June 2019. --- “Technical Tip Sheet” of 2019 VLSI symposium to highlight the technical trends and exemplary papers of the conference.

[C-16] S. Lee, M. E.D. Smith, S. Li, and H. Wang, "An Ultra-Wideband Edge-Fed Octagonal Four-Arm Archimedean Spiral Antenna," Proc. IEEE AP-S/URSI, June 2019.

[C-17] H. Nguyen and H. Wang, "A Coupler-Based Differential Doherty Power Amplifier with Built-In Baluns for High Mm-Wave Linear-Yet-Efficient Gbit/s Amplifications," Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2019. --- 2019 IEEE RFIC Conference Best Student Paper Award finalist.

[C-18] M. Huang, T. Chi, T. Huang, S. Li, F. Wang and H. Wang, "A 24.5-43.5GHz Compact RX with Calibration-Free 32-56dB Full-Frequency Instantaneously Wideband Image Rejection Supporting Multi-Gb/s 64-QAM/256-QAM for Multi-Band 5G Massive MIMO," Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2019. --- 2019 IEEE RFIC Conference Best Student Paper Award finalist.

[C-19] H. Wang, F. Wang, T. Li, H. Nguyen, S. Li, and T. Huang, "Broadband, Linear, and High-Efficiency Mm-Wave PAs in Silicon --- Overcoming Device Limitations by Architecture/Circuit Innovations," Proc. IEEE International Microwave Symposium (IMS), Jun. 2019.

[C-20] S. Lee, M. Huang, Y. Youn, and H. Wang, "A 15 – 55 GHz Low-Loss Ultra-Compact Folded Inductor-Based Multi-Section Wilkinson Power Divider for Multi-Band 5G Applications," Proc. IEEE International Microwave Symposium (IMS), Jun. 2019.

[C-21] M. Huang, T. Huang, M. Swaminathan, and H. Wang, "Ultra-Compact Concurrent Multi-Directional Beamforming Receiving Network for Full-FoV High-Efficiency Wireless Power Transfer," Proc. IEEE International Microwave Symposium (IMS), Jun. 2019.

[C-22] D. Jung, J. Park, S. Li, T. Huang, H. Zhao, and H. Wang, "A 1.2V Single Supply Hybrid Current-/Voltage-Mode Three-Way Digital Doherty PA with Built-In Large-Signal Phase Compensation Achieving Less-Than 5° AM-PM," Proc. IEEE Custom Integrated Circuits Conference (CICC), Apr. 2019. --- 2019 IEEE CICC Conference Best Student Paper Award.

[C-23] T. Yang, M. Huang, Y. Chen, P, Peng, H. Wang and G. K. Chang, “A 4-channel Beamformer for 9-Gb/s MMW 5G Fixed-wireless Access over 25-km SMF with Bit-loading OFDM,” Proc. Optical Fiber Communication Conference (OFC), March. 2019.

[C-24] F. Wang, K. Xu, J. Romberg, and H. Wang, “An Artificial-Intelligence (AI) Assisted Mm-Wave Multi-Band Doherty Transmitter,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2019.

[C-25] M. Huang and H. Wang, "A Wideband 27-41GHz N-Input-N-Output MIMO Receiver Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker Suppression and Signal Beamforming," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2019.

[C-26] F. Wang and H. Wang, "A Highly Linear Super-Resolution Mixed-Signal Doherty Power Amplifier for High-Efficiency mm-Wave 5G Multi-Gb/s Communications," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-27] M. Huang and H. Wang, "A 27-to-41GHz MIMO Receiver with N-Input-N-Output Using Scalable Cascadable Autonomous Array-Based High-Order Spatial Filters for Instinctual Full-FoV Multi-Blocker/Signal Management," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-28] H. Nguyen and H. Wang, "A 60GHz CMOS Power Amplifier with Cascaded Asymmetric Distributed-Active-Transformer Achieving Watt-Level Peak Output Power with 20.8% PAE and Supporting 2Gsym/s 64-QAM Modulation," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-29] H. Nguyen and H. Wang, "A mm-Wave 3-Way Linear Doherty Radiator with Multi Antenna Coupling and On-Antenna Current-Scaling Series Combiner for Deep Power Back-Off Efficiency Enhancement," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2019.

[C-30] S. Zeinolabedinzadeh, C Ulusoy, R. Schmid, F. Inanlou, I. Song, T. Chi, J. Park, H. Wang, and J. Cressler, "A W-Band SiGe Transceiver with Built-in Self-Test,” Proc. IEEE SiRF, Jan 2019.

[C-31] A. Wang, D. Jung, J. Park, G. Junek, and H. Wang, "Electrode-Electrolyte Interface Impedance Characterization of Ultra-Miniaturized Microelectrode Arrays over Materials and Geometries for Sub-Cellular and Cellular Sensing and Stimulation,” Proc. IEEE EMBS Micro and Nanoengineering in Medicine Conference (MNM), Dec 2018.

[C-32] A. Wang, J. Park, D. Jung, G. Junek, and H. Wang, "Enabling AI-Assisted Drug Screening and Synthetic Biology Engineering: Multi-Parametric Data-Driven Cell Profiling by CMOS Multi-Modal Cellular Interfacing Arrays,” Proc. Association for the Advancement of Artificial Intelligence (AAAI) Fall Symposium: Artificial Intelligence for Syntheic Biology, Oct 2018.

[C-33] S. Li, T. Chi, T. Huang, H. Nguyen, and H. Wang, "A 28GHz Packaged Chireix Transmitter with Direct On-Antenna Outphasing Load Modulation Achieving 56%/38% PA Efficiency at Peak/6dB Back-Off Output Power,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2018. --- 2018 RFIC Best Student Paper Award (2nd Place).

[C-34] T. Li and H. Wang, "A Continuous-Mode 23.5-41GHz Hybrid Class-F/F-1 Power Amplifier with 46% Peak PAE for 5G Massive MIMO Applications,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2018.

[C-35] S. Li, T. Chi, H. Nguyen, and H. Wang, "Performance of V-Band On-Chip Antennas in GlobalFoundries 45nm CMOS SOI Process for Mm-Wave 5G Applications," Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-36] D. Jung, H. Zhao, and H. Wang, "A Highly Linear Doherty Power Amplifier with Multigated Transistors Supporting 80MSymbol/s 256-QAM,"Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-37] E. Garay, M. Huang, and H. Wang, "A Cascaded Self-Similar Rat-Race Hybrid Coupler Architecture and its Compact Fully Integrated Ka-band Implementation," Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-38] M. Aziz, E. Garay, M. Huang, S. Li, and H. Wang, "An Ultra-Compact Folded Inductor Based Wideband Gysel Power Divider for Multi-Band 5G Applications," Proc. IEEE International Microwave Symposium (IMS), Jun. 2018.

[C-39] M. Huang and H. Wang, "Scalable Wideband Hybrid Beam-Forming MIMO Receiver Array with Multi-Stage Closed-Loop Beam-Formers for Full-FoV Dynamic and Autonomous Unknown Blocker Rejection and Signal Tracking," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2018.

[C-40] T. Chi, J. Park, S. Li, and H. Wang, "A Mm-Wave Full-Duplex Transceiver Front-End with an On-Chip Multi-feed Self-Interference-Cancelling Antenna and an All-Passive Canceler," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2018.

[C-41] H. Nguyen and H. Wang, "A 62-68GHz Multi-Feed Antenna-Based CMOS Doherty Radiator Achieving 27.5%/20.1% PAE at Peak/6dB Back-Off Output Power and 20.2% Average PAE for 6Gb/s 64-QAM Modulation," Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2018.

[C-42] F. Wang and H. Wang, "A Noise Circulating Cross-Coupled VCO with A 195.6dBc/Hz FoM and 50kHz 1/f3 Noise Corner," Proc. IEEE Custom Integrated Circuits Conference (CICC), Apr. 2018. --- 2018 IEEE CICC Conference Best Student Paper Award.

[C-43] M. Huang, T. Chi, F. Wang, T. Li, and H. Wang, "A 23-to-30GHz Hybrid Beamforming MIMO Receiver Array with Closed-Loop Multistage Front-End Beamformers for Full-FoV Dynamic and Autonomous Unknown Signal Tracking and Blocker Rejection," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-44] T. Li, M. Huang, and H. Wang, "A Continuous-Mode Harmonically-Tuned 19-to-29.5GHz Ultra-Linear PA Supporting 18Gbit/s at 18.4% Modulation PAE and 43.5% Peak PAE," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-45] H. Nguyen, TChi, S. Li, and Hua Wang, "A 62-to-68GHz linear 6Gb/s 64-QAM CMOS Doherty radiator with 27.5%/20.1% PAE at peak/6dB back-off output power leveraging high-efficiency multi-feed antenna-based active load modulation," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-46] T. Chi, J. Park, S. Li, and H. Wang, "A 64GHz Full-Duplex Transceiver Front-End with An On-Chip Multi-Feed Self-Interference-Cancelling Antenna and An All-Passive Canceler Supporting 4Gb/s Modulation in One Antenna Footprint," IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2018.

[C-47] H. Wang, S. Hu, T. Chi, F. Wang, S. Li, M. Huang, and J. Park, "Towards Energy-Efficient 5G Mm-Wave Links: Exploiting Broadband Mm-Wave Doherty Power Amplifier and Multi-Feed Antenna with Direct On-Antenna Power Combining (Invited),” Proc. IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM), Sep. 2017.

[C-48] C. Li, M. Wang, T. Chi, A. Kumar, M. Boenke, D. Wang, N. Cahoon, A. Bandyopadhyay, A. Joseph, H. Wang, "5G Mm-Wave Front-End-Module Design with Advanced SOI Process (Invited),” Proc. 12th IEEE International Conference on ASIC (ASICON), Oct. 2017.

[C-49] A. Peterson, H. Wang, M. Tentzeris, G. Li, I. Akyildi, "Addressing the Challenges of 5G Systems: Research at the Georgia Institute of Technology (Invited),” Proc. IEEE AP-S/URSI, June 2017.

[C-50] T. Chi, H. Wang, M. Huang, F. Dai, and H. Wang, "A Bidirectional Lens-Free Digital-Bits-In/-Out 0.57mm2 Terahertz
Nano-Radio in CMOS with 49.3mW Peak Power Consumption Supporting 50cm Internet-of-Things Communication,” Proc. IEEE Custom Integrated Circuits Conference (CICC), May 2017. --- 2017 IEEE CICC Conference Best Paper Award (top 1 paper among all the paper categories).

[C-51] J. Park, M. K. Aziz, S. Gonzalez, D. Jung, T. Chi, S. Li, H. C. Cho, H. Wang, "A CMOS 22k-Pixel Single-Cell Resolution Multi-Modality Real-Time Cellular Sensing Array,” Proc. IEEE Custom Integrated Circuits Conference (CICC), May 2017.

[C-52] H. Wang, F. Dai, H. Wang, "A 330μW 1.25ps 400fs-INL Vernier Time-to-Digital Converter with 2D Reconfigurable Spiral Arbiter Array and 2nd-Order ΔΣ Linearization,” Proc. IEEE Custom Integrated Circuits Conference (CICC), May 2017.

[C-53] C. Li, M. Wang, T. Chi, A. Kumar, M. Boenke, N. Cahoon, A. Bandyopadhyay, A. Joseph, H. Wang, "A High-Efficiency 5G K/Ka  band Stacked Power Amplifier in 45nm CMOS SOI Process Supporting 9Gb/s 64 QAM Modulation with 22.4% Average PAE," Proc. IEEE Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS), Mar. 2017.

[C-54] T. Chi, M. Huang, S. Li, H. Wang, "A Packaged 90-to-300GHz Transmitter and 115-to-325GHz Coherent Receiver in CMOS for Full-Band Continuous-Wave Mm-Wave Hyperspectral Imaging,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-55] S. Hu, F. Wang, and H. Wang, "A 28GHz/37GHz/39GHz Multiband Linear Doherty Power Amplifier for 5G Massive MIMO Applications,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-56] J. Park, Y. Wang, S. Pellerano, C. Hull, H. Wang, "A 24dBm 2-to-4.3GHz Wideband Digital Power Amplifier with Built-In AM-PM Distortion Self-Compensation,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-57] T. Chi, F. Wang, S. Li, M. Huang, J. Park, and H. Wang, "A 60GHz On-Chip Linear Radiator with Single-Element 27.9dBm Psat and 33.1dBm Peak EIRP Using Multi-Feed Antenna for Direct On-Antenna Power Combining,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2017.

[C-58] M. Huang and H. Wang, "An All-Passive Negative Feedback Network for Broadband and Full Field-of-View Self-Steering Beam-Forming with Zero DC Power Consumption,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2017.

[C-59] E. Garay, M. Huang, and H. Wang, "A Cascaded Rat-Race Hybrid Coupler Architecture and its Compact Ka-band Implementation,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2017.

[C-60] J. Park, M. K. Aziz, T. Chi, A. Su, A. Zhao, H. C. Cho, M. Styczynski, and H. Wang, "Live Demonstration: A 1024-pixel CMOS Multi-Modality Sensing Array for Cell-Based Assays," Proc. IEEE SENSORS, Oct. 2016. --- This paper won the 2016 IEEE SENSORS Conference Best Live Demo Award (2nd Place).

[C-61] J. Park, T. Chi, A. Su, C. Zhu, J. H. Sung, H. C. Cho, M. Styczynski, and H. Wang, "An High-Density CMOS Multi-Modality Joint Sensor/Stimulator Array with 1024 Pixels for Holistic Real-Time Cellular Characterization," Proc. IEEE VLSI Tech. Cir. Symp., June 2016.

[C-62] S. Li, T. Chi, J. Park, and H. Wang, "A Multi-Feed Antenna for Antenna-Level Power Combining," Proc. IEEE AP-S/URSI, June 2016.

[C-63] M. Huang, T. Chi, and H. Wang, "A 5GHz All-Passive Negative Feedback Network for RF Front-End
Self-Steering Beam-Forming with Zero DC Power Consumption
,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2016. --- This paper won the 2016 RFIC Best Student Paper Award (2nd Place).

[C-64] S. Hu, F. Wang, and H. Wang, "A Transformer-Based Inverted Complementary Cross-Coupled VCO with a 193.3dBc/Hz FoM and 13kHz 1/f3 Noise Corner,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2016.

[C-65] S. Hu, S. Kousai, and H. Wang, "A Compact Broadband Mixed-Signal Power Amplifier in Bulk CMOS with Hybrid Class-G and Dynamic Load Trajectory Manipulation Operations,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2016.

[C-66] H. Wang, S. Hu, and S. Kousai, "Mixed-Signal Doherty Power Amplifiers in CMOS,” (invited) Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-67] S. Li, T. Chi, J. Park, W. Tanveer, H. Wang, and J. Papapolymerou, "A Fully Packaged D-Band MIMO Transmitter Using High-Density Flip-Chip Interconnects on A Flexible LCP Substrate,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-68] M. Huang and H. Wang, "An Ultra-Compact Folded Inductor Based Mm-Wave Rat-Race Coupler in CMOS,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-69] F. Wang and H. Wang, "An N-Way Transformer Based Wilkinson Power Divider in CMOS,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-70] F. Wang and H. Wang, "A Broadband Low-Loss Compact 4×4 Butler Matrix in CMOS with Stacked Transformer Based Quadrature Couplers,” Proc. IEEE International Microwave Symposium (IMS), May 2016.

[C-71] T. Chi and H. Wang, "A Scalable Active THz Frequency Multiplier Chain in Silicon with Multi-Phase Sub-Harmonic Injection Locking for Bandwidth Extension,” (invited) Proc. IEEE Asia-Pacific Microwave Conference (APMC), Dec. 2015.

[C-72] S. Hu and H. Wang, "A Hybrid Technique for PA Back-Off Efficiency Enhancement - A Broadband Mixed-Signal Class-G Doherty PA in CMOS,” (invited) Proc. 2015 IEEE Power Amplifier Symposium, Sep. 2015.

[C-73] M. Zia, T. Chi, C. Zhang, P. Thadesar, T. Hookway, J. Gonzalez, T. McDevitt, H. Wang, and M. S. Bakir, “A Microfabricated Electronic Microplate Platform for Low-cost Repeatable Bio-sensing Applications,” Proc. IEEE International Electron Devices Meeting (IEDM), Dec. 2015.

[C-74] M. Zia, C. Zhang, P. Thadesar, T. Hookway, T. Chi, J. Gonzalez, T. McDevitt, H. Wang,  and M. S. Bakir, “Fabrication of and Cell Growth on ‘Silicon Membranes’ with High Density TSVs for Bio-sensing Applications,” Proc. IEEE Biomedical Circuits and Systems Conference (BioCAS), Oct. 2015.

[C-75] J. S. Park, T. Chi, A. Su, C. Zhu, J. Butts, T. Hookway, T. McDevitt, M. Styczynski, and H. Wang, “Live Demonstration: A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening,” Proc. IEEE Biomedical Circuits and Systems Conference (BioCAS), Oct. 2015.

[C-76] J. Park, S. Hu, Y. Wang, and H. Wang, "A Highly Linear Dual-Band Mixed-Mode Polar Power Amplifier in CMOS with An Ultra-Compact Output Network,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2015. --- This paper won the 2015 CICC Best Student Paper Award.

[C-77] T. Li., J. Park, and H. Wang, "A 2-24GHz 360-Degree Full-Span Differential Vector Modulator Phase Rotator with Transformer-Based Poly-Phase Quadrature Network,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2015. --- 2015 CICC Best Student Paper Award Finalist.

[C-78] T. Li and H. Wang, "A Millimeter-Wave Fully Differential Transformer-Based Passive Reflective-Type Phase Shifter,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2015.

[C-79] Y. Wang, E. Hardy, T. Chi, M. Huang, H. Wang, A. Brown, T. Barker, W. A. Lam, "Electrical-Wound Dressing Demonstrates That Low-Voltages Augment Hemostasis and Clot Formation,” Proc. BMES 2015 Annual Meeting, Tampa.

[C-80] J. Park, T. Chi, J. Butts, T. Hookway, T. C. McDevitt, and H. Wang, "A Multi-Modality CMOS Sensor Array for Cell-Based Assay and Drug Screening,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2015.

[C-81] S. Hu, S. Kousai, and H. Wang, "A Broadband CMOS Digital Power Amplifier with Hybrid Class-G Doherty Efficiency Enhancement,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, Feb. 2015.

[C-82] T. Chi, J. Papapolymerou, and H. Wang, “A +2.3dBm 124-158GHz Class-C Frequency Quadrupler with Folded-Transformer Based Multi-Phase Driving,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), May 2015.

[C-83] J. Park and H. Wang, "A Transformer-Based Poly-Phase Network for Ultra-Broadband Quadrature Signal Generation,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), May 2015.

[C-84] W. T. Khan, A. C. Ulusoy, R. Schmid, T. Chi, J. D. Cressler, H. Wang, J. Papapolymerou, "A D-band (110 to 170 GHz) SPDT Switch in 32 nm CMOS SOI,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), May 2015.

[C-85] S. Hu and H. Wang, "A Digital-Intensive Highly-Reconfigurable CMOS Doherty Power Amplifier Resilient to Antenna Mismatch,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2015.

[C-86] S. Lepkowski, J. Park, T. Chi, and H. Wang, "A Transformer Based Ultra-Compact 8×8 Mm-Wave Butler Matrix Fully Integrated in 65nm Bulk CMOS,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2015.

[C-87] T-W Li, J. Park, and H. Wang, "An Ultra-broadband 360° Full-Span Transformer-Based Differential Vector Modulator Phase Rotator In CMOS,” Proc. the Government Microcircuit Applications and Critical Technology Conference (GOMACTech), Mar. 2015.

[C-88] H. Wang and S. Hu, "Enhancing Doherty Power Amplifier Operation by A Digitally Reconfigurable Architecture,” Proc. 2014 Power Amplifier Symposium (invited), Sep. 2014.

[C-89] T. Chi, J. Luo, S. Hu and H. Wang, "A Multi-Phase Sub-Harmonic Injection Locking Technique for Bandwidth Extension in Silicon-Based THz Signal Generation,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2014. --- 2014 CICC Best Student Paper Award Finalist.

[C-90] S. Kousai, K. Onizuka, S. Hu, H. Wang and A. Hajimiri, "A New Wave of CMOS Power Amplifier Innovations: Fusing Digital and Analog Techniques with Large Signal RF Operations,” Proc. the IEEE Custom Integrated Circuits Conference (CICC) (Invited), Sep. 2014.

[C-91] H. Wang, A. Mohadavi, J. Park, T. Chi, J. Butts, T. A. Hookway, T. McDevitt, D. A. Tirrell, A. Hajimiri, "Cell Culture and Cell Based Sensors on CMOS,” Proc. the IEEE Biomedical Circuits and Systems Conference (BioCAS) (Invited), Oct. 2014.

[C-92] A. Chatterjee, H. Wang, A. Banerjee, D. Banerjee, V. Natarajan, S. Sen and S. Devarakond, "Design of Self-Healing Mixed-Signal/RF Systems and Support CAD Tools: a Scalable Approach,” Proc. IEEE International Midwest Symposium on Circuits and Systems (MWSCAS) (invited), Aug. 2014.

[C-93] C. Kim, C. Zhu, J. Zhang, and H. Wang, "A Reconfigurable Bio-Impedance Sensing Platform With Array-Based Detection Algorithm for 3D Tissue Characterization and Delineation,” Proc. BMES 2014 Annual Meeting, San Antonio, Texas, Oct. 2014.

[C-94] T. Chi, J. Park, R. L. Schmid, A. C. Ulusoy, J. D. Cressler, and H. Wang, "A Low-Power and Ultra-Compact W-band Transmitter Front-End in 90nm SiGe BiCMOS Technology,” Proc. IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM), Sep. 2014.

[C-95] J. Park, T. Chi, S. Hu, M. Styczynski, H. Wang, "A Scalable CMOS Cell Sensor Array,” Proc. Semiconductor Research Corporation SRC TECHCON, Sept. 2014.

[C-96] F. Inanlou, W. Khan, P. Song, S. Zeinolabedinzadeh, R. L. Schmid, T. Chi, A. C. Ulusoy, J. Papapolymerou, H. Wang, and J. D. Cressler, “Compact, Low-Power, Single-Ended and Differential SiGe W-band LNAs,” Proc. the 9th European Microwave Integrated Circuits Conference (EuMIC), Oct. 2014.

[C-97] J. Park and H. Wang, “A K-Band 5-Bit Digital Linear Phase Rotator with Folded Transformer Based Ultra-Compact Quadrature Generation,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2014.

[C-98] S. Hu, S. Kousai, J. Park, O. Chlieh, and H. Wang, “A +27.3dBm Transformer-Based Digital Doherty Polar Power Amplifier Fully Integrated in Bulk CMOS,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2014. --- This paper won the 2014 RFIC Best Student Paper Award (1st Place).

[C-99] J. Park, T. Chi, and H. Wang, “An Ultra-Broadband Compact Mm-Wave Butler Matrix in CMOS for Array-Based MIMO Systems,” Proc. IEEE Custom Integrated Circuits Conference (CICC)s, Sep. 2013.

[C-100] J. Park, S. Kousai, and H. Wang, “A Fully Differential Ultra-Compact Broadband Transformer Based Quadrature Generation Scheme,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2013.

[C-101] A. Borna, Y. Wang, C. Hull, H. Wang, A. Niknejad, “A Fully Integrated Highly Linear Receiver with Automatic IP2 Calibration Schemes for Multi-Standard Applications,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2013.

[C-102] A. Borna, C. Hull, Y. Wang, H. Wang, A. Niknejad, “An RF Receiver with an Integrated Adaptive Notch Filter for Multi-Standard Applications,” Proc. IEEE European Solid-State Circuits Conference (ESSCIRC), Sep. 2013.

[C-103] A. Pai, A. Khachaturian, S. Chapman, A. Hu, H. Wang, and A. Hajimiri, “A Handheld Magnetic Sensing Platform for Antigen and Nucleic Acid Detection,” Proc. The 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (uTAS), Oct. 2013.

[C-104] C. Kim, C. Zhu, J. Zhang, and H. Wang, “A Microscopic Real-Time 3D Impedance Imaging Technique for Precise and Accurate Tumor Remove,” Proc. Center for Clinical and Translational Science Conference, University of Kentucky, Apr. 2013.

[C-105] J. Park and H. Wang, “A Passive Quadrature Generation Scheme for Integrated RF Systems ,” Proc. IEEE MTT-S International Wireless Symposium (IWS), Apr. 2013.

[C-106] H. Wang, A. Mohdavi, D. Tirrell, and A. Hajimiri, “A Label-free Magnetic Cell-Based Sensor for Real-time Chemical Detections,” Proc. BMES 2012 Annual Meeting, Atlanta.

-------- Before Georgia Tech --------

[C-107] H. Wang, “Integrated Biosensors in CMOS,” Proc. IEEE International Midwest Symposium on Circuits and Systems (MWSCAS) (invited), Aug. 2011.  

[C-108] Y. Wang, H. Wang, C. Hull and S. Ravid, “A Transformer-Based Broadband I/O Matching-Balun-T/R Switch Front-end Combo Scheme in Standard CMOS,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2011.
 
[C-109] H. Wang, K. Dasgupta, and A. Hajimiri, “A Broadband Self-Healing Phase Synthesis Scheme,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), Jun. 2011.
 
[C-110] H. Wang, C. Sideris, and A. Hajimiri, “A Frequency-Shift based CMOS Magnetic Biosensor with Spatially Uniform Sensor Transducer Gain,” Proc. IEEE Custom Integrated Circuits Conference (CICC), Sep. 2010.
 
[C-111] H. Wang, C. Sideris, and A. Hajimiri, “A 5.2-to-13 GHz Class AB CMOS Power Amplifier with a +25.2dBm Peak Output Power at 21.6% PAE,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, pp.44-45, Feb. 2010.

[C-112] H. Wang, S. Kosai, C. Sideris, and A. Hajimiri, “An Ultrasensitive CMOS Magnetic Biosensor Array with Correlated Double Counting (CDC) Noise Suppression,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), Jun. 2010.
 
[C-113] H. Wang, “A Frequency-Shift based CMOS Magnetic Biosensor Array for Point-of-Care (PoC) Molecular Diagnostics,” Proc. CMOS Emerging Technologies Workshop, Whistler, BC, Canada, (invited), May 2010.
 
[C-114] H. Wang, “High-Performance Magnetic-Based CMOS Biosensors,” Proc. NIH/IEEE Circuits and Systems for Medical and Environmental Applications Workshop, Merida, Mexico, Dec 2009.

[C-115] H. Wang and A. Hajimiri, “An ultrasensitive CMOS magnetic biosensor array for Point-of-Care (PoC) microarray application,” Proc. IEEE Design Automation Conference (DAC), 2009.
 
[C-116] H. Wang, “Biosensors for POC Applications,” Proc. IEEE 20th Annual Workshop on Interconnections with High Speed Digital Systems- Emerging Technologies, (invited), May 2009.
 
[C-117] H. Wang, Y. Chen, A. Hassibi, A. Scherer, and A. Hajimiri, “A Frequency-Shift CMOS Magnetic Biosensor Array with Single-Bead Sensitivity and No External Magnet,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, pp.438-439, Feb. 2009.
 
[C-118] H. Wang, S. Jeon, Y.-J. Wang, F. Bohn, A. Natarajan, A. Babakhani, and A. Hajimiri, “A tunable concurrent 6-to-18 GHz phased array system in CMOS,” Proc. IEEE MTT-S Int. Microwave Symp. (IMS), pp.687-690, Jun. 2008.
 
[C-119] H. Wang and A. Hajimiri, “A wideband CMOS linear digital phase rotator,” Proc. IEEE Custom Integrated Circuits Conference (CICC), pp.671-674, Apr. 2007.
 
[C-120] F. Bohn, H. Wang, A. Natarajan, S.Jeon, and A. Hajimiri, “Fully integrated frequency and phase generation for a 6–18GHz tunable multi-band phased-array receiver in CMOS,” Proc. IEEE Radio Frequency Integrated Circuits (RFIC), pp.439-442, Jun. 2008.  
 
[C-121] S. Jeon, Y. Wang, H. Wang, F. Bohn, A. Natarajan, A. Babakhani, and  A. Hajimiri, “A scalable 6-to-18GHz concurrent dual-band quad-beam phased-array receiver in CMOS,” IEEE International Solid-State Circuits Conference (ISSCC) Dig. Tech. Papers, pp.186–188, Feb. 2008.
                             
                            

PATENTS

[P-1] H. Wang, J. Hatlestad, “Posture Detector Calibration and Use”, U.S. Patent no. 8,366,641 B2, issued Nov 18, 2005.

[P-2] H. Wang, J. Hatlestad, and K. Maile, “Posture Detection System”, U.S. Patent no. 7,471,290 B2, issued Nov 18, 2005.

[P-3] H. Wang, A. Hajimiri, “Fully Integrated Temperature Regulator for Biochemical Application”, US patent no. 8,274,021 B2, issued Mar 6, 2009.

[P-4] H. Wang, A. Hajimiri, “Frequency-shift CMOS magnetic biosensor array with single bead sensitivity and no external magnet”, US patent no. 8,378,669 B2, issued Sep 15, 2009.

[P-5] H. Wang, A. Hajimiri, S. Kousai, “Noise Suppression Techniques in High-Precision Long-Term Frequency/Timing Measurements”, US patent no. 8,610,589 B2, issued Feb 22, 2010.

[P-6] F. Bohn, A. Hajimiri, H. Wang, Y-J. Wang, “Electronic Self-Healing Methods for Radio-Frequency Receivers”, US patent no. 8,305,106 B2, issued Aug 24, 2010.

[P-7] H. Wang, A. Hajimiri, “A Broadband Phase Synthesis Network with Self-Healing Capability”, US patent no. 8,391,426 B2, issued Nov 18, 2010.

[P-8] H. Wang, A. Hajimiri, “An Ultrasensitive Detection Platform for Sensing Magnetic and/or Electrical Energy Change”, US patent no. 8,878,684, issued Nov 4, 2014.

[P-9] H. Wang, A. Hajimiri, Y. Chen, “Effective-Inductance-Change Based Magnetic Particle Sensing”, US patent, no. 9,176,206 B2, issued Nov 3, 2015.

 

Last revised on Dec 30th, 2015.