馬凱學

馬凱學

馬凱學,天津大學教授、博導、中國電子學會會士、國家傑出青年科學基金獲得者。現任天津大學微電子學院院長、電子科學與技術一級學科負責人、天津國家“芯火”雙創平台負責人、天津市積體電路行業協會會長。天津市成像與感知微電子技術重點實驗室主任和天津市重點領域創新團隊負責人。本科、碩士畢業於西北工業大學博士畢業於新加坡南洋理工大學。從業二十多年先後在中國空間技術研究院504所、新加坡科技電子公司、南洋理工大學電子科技大學等企業和高校工作(研究所和企業10年)。現從事矽基CMOSGaAs射頻、毫米波太赫茲積體電路與系統研發,牽頭承擔國家重點研發專項和國家重點基金等項目。主要從事5G/6G毫米波和太赫茲通感融合可重構前端積體電路與微系統等方面的研究。

基本介紹

基本情況,教育經歷,工作經歷,主要貢獻,專利成果,獲獎情況,論文成果,

基本情況

馬凱學教授為中國電子學會會士、國家傑出青年科學基金獲得者。現任天津大學微電子學院院長、電子科學與技術一級學科負責人、天津國家“芯火”雙創平台負責人、天津市積體電路行業協會會長。天津市成像與感知微電子技術重點實驗室主任和天津市重點領域創新團隊負責人。本科、碩士畢業於西北工業大學,博士畢業於新加坡南洋理工大學。從業二十多年先後在中國空間技術研究院504所(今西安分院)、新加坡科技電子公司、南洋理工大學和電子科技大學等企業和高校工作(研究所和企業10年),從事航天衛星、飛船有效載荷、地面站和無線通信設備和積體電路系統相關的研發工作,擔任項目負責人、研發經理、技術管理會委員和技術顧問,技術總監等職位。國際上提出了新型電磁調控機理和SISL積體電路設計與實現平台、基於CMOS、SiGe BiCMOS、GaAs和SOI等工藝提出多種新型射頻、毫米波積體電路與系統。2013年擔任電子科技大學教授、博導。前期研發成果部分轉化公司主打產品銷往歐美或用於中國在軌衛星,作為技術負責人成功開發了首個低功耗可重構60GHz SiGe毫米波系統SOC設計,封裝和系統測試演示為數十家國際媒體報導,並完成高速無線通信系統,成果為數十家科技媒體報導並獲新加坡信息通信科技聯合會新興技術獎項。
現從事矽基CMOS和GaAs射頻、毫米波和太赫茲積體電路與系統研發,牽頭承擔國家重點研發專項和國家重點基金等項目。主要從事5G/6G毫米波、太赫茲通感融合可重構前端積體電路與微系統等方面的研究。
曾任中國電子學會青年科學家微波與電路系統專委會首任主任委員和國際微波領域頂級期刊IEEE TMTT副主編,IEEE Microwave Magazine 客座主編,UCMMT2020主席等,國家重點研發專項相關指南編寫專家和評審專家、工信部和國家基金委會評專家等。兼任行動網路和移動通訊多媒體技術國家重點實驗室學術委員會委員、中國電子學會空間電子分會副主任委員、微波學會委員和《電子學報》編委等。

教育經歷

工作經歷

  • 1997.9 -2002.12 中國空間技術研究院第504所 項目負責人、微波室毫米波組組長
  • 2004.4 -2005.4 日本電通新加坡通信實驗室 研究助理
  • 2005.9 -2007.8 新加坡麥斯科技公司 研發經理、項目負責人
  • 2007.9 -2010.2 新加坡科技電子公司 研發經理、項目負責人
  • 2010.3 -2011.3 新加坡科技電子公司 技術顧問(兼職)
  • 2010.3 -2013.2 新加坡南洋理工大學 高級研究員
  • 2013.2 -2018.1 電子科技大學 教授
  • 2018.2 -2022.12 天津大學微電子學院院長 教授

主要貢獻

在移動通信、衛星通信和軟體無線電等相關的射頻微波和太赫茲積體電路與系統領域發表英文專著2部合著中文專著1部, 專利40餘項, SCI/EI檢索論文超過330篇,其中IEEE期刊文章130篇。研發成果部分轉化公司主打產品銷往歐美或用於中國在軌衛星和地面終端。作為技術負責人成功開發了首個低功耗可重構60GHz SiGe毫米波前端系統SOC,封裝和系統測試,並完成高速無線通信演示系統,成果為數十家科技媒體報導並獲新加坡信息通信科技聯合會新興技術獎。

專利成果

  • 馬凱學, 徐巍,一種基於介質集成懸置線的波導腔結構,中國:FE17Y1040,2017-01-05
  • 馬凱學, 馬宗琳,一種人工複合介質填充的介質集成懸置線,中國:FE16Y1014,2017
  • 馬凱學, 胡建全,一種寬頻瞬態複雜電磁頻譜監測儀,中國:FE16Y0761,2016-11-25
  • 馬凱學, 馬宗琳,一種多標準全雙工二次變頻式收發,中國:FE17Y1067,2017-04-12
  • 馬凱學, 馬宗琳, 一種多標準全雙工直接變頻式收發機,中國:FE17Y1066,2017-04-12
  • 馬凱學,喬波,楊輝. 一種數位化恆溫恆流排水控制裝置[P].中國:201621049509.6,2016-09-12
  • 馬凱學,喬波,孔令旭,楊輝. 多功能智慧型水流量測控裝置[P].中國:201610722893.X,2015-08-25
  • 馬凱學,喬波,孔令旭.一種無線無源感測器網路節點[P].中國:201610727542.8,2016-08-25
  • 馬凱學,喬波.一種基於PWM信號控制的電動比例調節閥[P].中國:201610722093.8,2016-08-25
  • K. Ma; K. Wang and K. S. YEO, “New Ultra-Wideband ESD Protection for RFIC,” ETPL ref: NTU: TD/90/11 applied USA PCT
  • K. Ma, S. Mou; K. S. Yeo, “A Standing-Wave Switch and Implementation for RFIC,” ETPL ref: SRC/Z/06840, NTU: TD/087/11 applied USA Provisional
  • K. Ma, S. Mou and K. S. Yeo, “Harmonic Frequency Conversion Modulator, Demodulator and Mixer for Transceiver,” USA patent Number: 61/693,474, PCT/SG2013/000373
  • K. Ma, K. M. LIM; K. S. Yeo, “Multiple-Mode Filter for Radio Frequency Integrated Circuits,” WO Patent 2,012,057,708, 2012
  • K. Ma, J. Gu, J.-G. Ma, Y. Lu; K. S. Yeo, “Linearization Techniques for Non-Class A Power Amplifier Using Active and Passive Devices,” US Patent Appln No: 61/406,588, USA patent Number: 13/881,573, Filed in 25, April, 2013 Also applied as TaiWan patent
  • K. Ma, Y. Lu; J. Gu; K. S. Yeo, “Miniaturized Passive Structures for ESD Protection and Input and Output Matching”, US Patent Appln No: 61/394,787, USA patent Number: 13/880,550 Filed in 19, April, 2013, Also applied as TaiWan patent
  • K. Ma, S. MOU; K. S. Yeo, “Miniaturized Passive Low Pass Filter for Radio Frequency Integrated Circuits,” US Patent Appln No: 61/394,788, USA patent Number: 13/880,481 Filed in 19, April, 2013 (Also applied as TaiWan patent)
  • K. Ma, M. Nagarajan; S. Mou; K. S. Yeo, “Integrated Circuit Architecture with strongly coupled LC tanks,” PCT/SG2010/000398, USA patent Number: 13/879,885 Filed in 17, April, 2013 (Also applied as TaiWan patent), WO 2012053983 A1
  • K. Ma, and K. T. Chan, “Quasi-planar Circuits with Air Cavities” PCT Patent WO/2007/149046 (USA), US Patent Appln No: 61/405,244, US patent Number: 13/880,499 Filed in 19, April, 2013
  • K. Ma, J. Ma, H. Zhu, J. Miao, M. A. Do, and K. S. Yeo, “DC voltage controlling variable frequency RF/microwave and millimeter resonator” US Provisional 60/603,058 19 Aug. 2004

獲獎情況

  • 2022年高等教育(本科生)天津市級教學成果獎特等獎,排名第一
  • 指導學生獲得2022年全國微波毫米波會議“學生優秀論文獎”
  • 2019年獲天津市優秀科技工作者
  • 2019年獲中國電子學會自然科學獎二等獎(排名第一)
  • 2019年獲中國電子學會優秀論文獎 (8篇獲獎論文之一)
  • 2018年獲天津市重點領域創新團隊負責人
  • 2018年獲第五屆中國電子學會優秀科技工作者
  • 其他十餘項各類國際獎項
  • 2023年11月22日,入選美國電子電氣工程師學會發布的2024年IEEE Fellow名單。

論文成果

  • Z. Ma, K. Ma, K. Wang and F. Meng, "A 28GHz Compact 3-Way Transformer-Based Parallel-Series Doherty Power Amplifier With 20.4%/14.2% PAE at 6-/12-dB Power Back-off and 25.5dBm PSAT in 55nm Bulk CMOS," 2022 IEEE International Solid- State Circuits Conference (ISSCC), 2022, pp. 320-322
  • W. Ye, K. Ma and K. S. Yeo, "2.5 A 2-to-6GHz Class-AB power amplifier with 28.4% PAE in 65nm CMOS supporting 256QAM," 2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers, 2015, pp. 1-3
  • F. Meng, K. Ma and K. S. Yeo, "2.3 A 130-to-180GHz 0.0035mm2 SPDT switch with 3.3dB loss and 23.7dB isolation in 65nm bulk CMOS," 2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers, 2015, pp. 1-3
  • L. Zhang, K. Ma, H. Fu, F. Feng and Y. Wang, "A Dual-Band and Dual-State Doherty Power Amplifier Using Metal-Integrated and Substrate-Integrated Suspended Line Technology," IEEE Transactions on Microwave Theory and Techniques, vol. 70, no. 1, pp.402–415, Jan. 2022
  • X. Li, H. Fu, K. Ma and J. Hu, "A 2.4-4GHz Wideband 7-Bit Phase Shifter With Low RMS Phase/Amplitude Error in 0.5-μm GaAs Technology," IEEE Transactions on Microwave Theory and Techniques, vol. 70, no. 2, pp.1292–1301, Feb. 2022
  • T. Feng, K. Ma, Y. Wang and J. Hu, "Bandpass-Filtering Power Amplifier With Compact Size and Wideband Harmonic Suppression," IEEE Transactions on Microwave Theory and Techniques, vol. 70, no. 2, pp.1254–1268, Feb. 2022
  • W. Xu, K. Ma and Y. Guo, "Design of Miniaturized 5G SISL BPFs With Wide Stopband Using Differential Drive Inductor Resonators," IEEE Transactions on Microwave Theory and Techniques, vol. 70, no. 6, pp.3115–3124, June 2022
  • L. Zhang, K. Ma and H. Fu, "A 60-GHz 32-Way Hybrid Power Combination Power Amplifier in 55-nm Bulk CMOS," IEEE Transactions on Microwave Theory and Techniques, Sept. 2022
  • W. Liu, F. Feng, Y. Zhuo, J. Zhang, Q. Lin, K. Ma, Q. Zhang, "Electromagnetic Parametric Modeling Using Combined Neural Networks and RLGC-Based Eigenfunctions for Two-Port Microstrip Structures," IEEE Transactions on Microwave Theory and Techniques, vol. 70, no. 11, pp.4666–4682, Nov. 2022
  • D. Zhang, W. Fu, X. Deng, X. Xu, B. Zhang, H. Yu, K. Ma, "X -to Q -Band MMIC Predistortion Linearizers With Tunable Frequency-Dependent Phase Conversion Capacity Using GaAs HEMT Technology," IEEE Transactions on Microwave Theory and Techniques, Nov. 2022
  • Q. Cai, W. Che, K. Ma and Q. Xue, "A Compact Ku-Band Broadband GaAs Power Amplifier Using an Improved Darlington Power Stage," IEEE Transactions on Microwave Theory and Techniques, vol. 68, no. 7, pp.3068–3078, July 2020
  • Y. Wang, M. Yu and K. Ma, "Substrate Integrated Suspended Slot Line and Its Application to Differential Coupler," IEEE Transactions on Microwave Theory and Techniques, vol. 68, no. 12, pp.5178–5189, Dec. 2020
  • Y. Chu, K. Ma and Y. Wang, "A Novel Triplexer Based on SISL Platform," IEEE Transactions on Microwave Theory and Techniques, vol. 67, no. 3, pp.997–1004, March 2019
  • Y. Wang and K. Ma, "Low-Loss SISL Patch-Based Phase Shifters and the Mixer Application," IEEE Transactions on Microwave Theory and Techniques, vol. 67, no. 6, pp.2302–2312, June 2019
  • M. Li, K. Ma, J. Hu and Y. Wang, "Design and Fabrication of Low Phase Noise Oscillator Using $Q$ Enhancement of the SISL Cavity Resonator," IEEE Transactions on Microwave Theory and Techniques, vol. 67, no. 10, pp.4260–4268, Oct. 2019
  • Y. Wang, K. Ma and Z. Jian, "A Low-Loss Butler Matrix Using Patch Element and Honeycomb Concept on SISL Platform," IEEE Transactions on Microwave Theory and Techniques, vol. 66, no. 8, pp.3622–3631, Aug. 2018
  • Z. Ke, S. Mou, K. Ma and F. Meng, "A 0.7/1.1-dB Ultra-Low Noise Dual-Band LNA Based on SISL Platform," IEEE Transactions on Microwave Theory and Techniques, vol. 66, no. 10, pp.4576–4584, Oct. 2018
  • B Yu, K. Ma, F. Meng, K. S. Yeo, P. Shyam, S Zhang, P R. Verma, "Ultra-Wideband Low-Loss Switch Design in High-Resistivity Trap-Rich SOI With Enhanced Channel Mobility," IEEE Transactions on Microwave Theory and Techniques, vol. 65, no. 10, pp.3937–3949, Oct. 2017
  • N. Mahalingam, Y. Wang, B. Thangarasu, K. Ma and K. S. Yeo, "A 30-GHz Power-Efficient PLL Frequency Synthesizer for 60-GHz Applications," IEEE Transactions on Microwave Theory and Techniques, vol. 65, no. 11, pp.4165–4175, Nov. 2017
  • Z. Ma, K. Ma, S. Mou and F. Meng, "Quasi-Lumped-Element Filter Based on Substrate-Integrated Suspended Line Technology," IEEE Transactions on Microwave Theory and Techniques, vol. 65, no. 12, pp.5154–5161, Dec. 2017
  • Y. Luo, N. Zhang, Z. N. Chen, W. An and K. Ma, "Synthesis of Continuous Source Current for Gain Enhancement and Sidelobe Suppression of High-Order Mode Dipoles," IEEE Transactions on Antennas and Propagation, vol. 71, no. 1, pp.1047–1052, Jan. 2023
  • Y. Luo, J. Lai, N. Yan, W. An and K. Ma, "Codesign of Single-Layer Dual-Polarized Dual Compressed High-Order Modes Differentially Fed Patch Antenna and Solar Cells for Green Communication," IEEE Transactions on Antennas and Propagation, vol. 70, no. 3, pp.2289–2294, March 2022
  • X. Teng, Y. Luo, N. Yan and K. Ma, "A Cavity-Backed Antenna Using SISL Technology for 77 GHz Band Application," IEEE Transactions on Antennas and Propagation, vol. 70, no. 5, pp.3840–3845, May 2022
  • W. An, H. Wang, J. Wang, Y. Luo, K. Ma and J. Ma, "Low-Profile Wideband Microstrip Antenna Integrated With Solar Cells," IEEE Transactions on Antennas and Propagation, vol. 70, no. 9, pp.8530–8535, Sept. 2022
  • X. Guo, Y. Luo, Z. N. Chen, N. Yan, W. An and K. Ma, "Interferometric Phase Transmitarray for Spatial Power Combining to Enhance EIRP of Millimeter-Wave Transmitters," IEEE Transactions on Antennas and Propagation, vol. 70, no. 11, pp.10485–10493, Nov. 2022
  • N. Yan, D. Song, Y. Luo and K. Ma, "A Low-Cost Miniaturized Filtering Dielectric Resonator Antenna Based on SISL for 5G Applications," IEEE Transactions on Antennas and Propagation, vol. 70, no. 12, pp.11344–11352, Dec. 2022

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