組別/跨組別 Area
積體電路與系統組/
辦公室 Office
EE-322
電話 Phone
02-2730-3287
Office Hour
Thu. 13:30-15:30
實驗室 Laboratory
射頻積體電路實驗室 RFIC Lab.
Location : EE-B01
Phone : 02-2733-3141 ext. 7399
學術背景與專業概覽
Academic and Professional Overview
| 學、經歷 | |
| 課程 | |
| 研究領域 |
| Education & Experience | |
| Course | |
| Research Areas |
著作 Publications
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Journals/
Proceedings/
Scholarly Works
研究計畫 Projects
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NSC/
Industry
[1]
H.‐C. Chen*, M.‐Y. Yen, T.‐Y. Lin and K.-H. Cheng (2024, Mar). Analysis of super‐source‐follower‐based GHz‐bandwidth biquadratic low‐pass filters. International Journal of Circuit Theory and Applications (Wiley).
[2]
C.-Y. Chang and H.-C. Chen*, "CMOS Transmitter and PCB Probe For MMW-Transmission-Based Glucose Sensors," in IEEE Sensors Journal, vol. 24, no. 7, pp. 9375-9382, 1 April1, 2024, doi: 10.1109/JSEN.2024.3369610.
[3]
Y. -J. Chou, H. -C. Chen* and Y. -M. Chang, "Design and Analysis of Sub-Sampling Phase-Locked Loop for Quantum Computing," in IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vol. 31, no. 9, pp. 1330-1338, Sept. 2023, doi: 10.1109/TVLSI.2023.3290262.
[4]
S. -J. Lin, H. -C. Chen and H. -W. Chiu, "CMOS Monolithic Thermostatic Microwave Heater With Bioimpedance Load Effect Compensation," in IEEE Transactions on Microwave Theory and Techniques, 2022, doi: 10.1109/TMTT.2022.3200086.
[5]
S. -J. Lin and H. -C. Chen*, "A TDC-Based Temperature Sensor for Biomedical Applications," in IEEE Sensors Journal, vol. 22, no. 11, pp. 10396-10403, 1 June1, 2022, doi: 10.1109/JSEN.2022.3170932.
[6]
Yeh, K. Y., Chiu, H. W., Tseng, W. T., Chen, H. C., Yen, C. T., Lu, S. S., & Lin, M. L. (2021). "A Dual-mode Multifunctional Pulsed Radio-Frequency Stimulator for Trigeminal Neuralgia Relief and its Animal Model." IEEE Transactions On Biomedical Circuits and Systems, Volume: 15, Issue: 4, pp. 719 - 730, Aug. 2021.
[7]
Tzu-Yu Tseng, Hsiao-Chin Chen* and Hung-Wei Chiu, "Monolithic CMOS Microwave Heater with Programmable Thermostat Function for Thermotherapy", IEEE Trans. Circuits Syst. II, Exp. Briefs, vol.68, no.1, pp. 196-200, Jan. 2021.(SCI)
[8]
Chi-Sing Yuen and Hsiao-Chin Chen*, "Probe-Antenna and Multifunctional Switch for Biomedical Neural Implants", online published, Biomedical Microdevices, Oct. 2020.(SCI)
[9]
Ming-Yu Yen and Hsiao-Chin Chen*, "A Highly Integrated 400-800 MHz Spectrum Sensing System Based on Envelope Detection", IEEE Trans. Circuits Syst. II, Exp. Briefs, vol. 67, no.12, pp.3008-3012, Dec. 2020.(SCI)(10.1109/TCSII.2020.2997948)
[10]
Ming-Yu Yen, Hsiao-Chin Chen*, Yu-Lun Wei and Chi-Yin Chung, "A CMOS Transmitter Analog Baseband for 5G Mobile Communication", Electronics, 8(11), 1319, Nov. 2019. (SCI)
[11]
Hsiao-Chin Chen*, Hong-Qi Xiao and Tzu-Yu Tseng,"A Monolithic CMOS Microwave Heater", IEEE Transactions on Microwave Theory and Techniques, Vol. 67, No. 12, pp.4783-4790, Aug., 2019. (SCI)
[12]
Hsiao-Chin Chen, Hong-Yi Yang, Chia-Chun Kao and Tzyh-Ghuang Ma* "Slot Antenna With Non-Foster and Negative Conductance Matching in Consecutive Bands", IEEE Antennas and Wireless Propagation Letters, Vol. 18, No. 6, pp. 1203-1207, June 2019.(SCI)
[13]
Ching-Hong Su and Hsiao-Chin Chen*, "A 470-990 MHz Digital Controlled VCO with Temperature Compensation", Microwave and Optical Technology Letters, No. 60, pp. 2618–2625, 2018 . (SCI) (https://doi.org/10.1002/mop.31490)
[14]
Chen-Mao Wu, Hsiao-Chin Chen*, Ming-Yu Yen,and San-Ching Yang, "Chopper-Stabilized Instrumentation Amplifier with Automatic Frequency Tuning Loop", Micromachines 2018, 9, 289. (SCI)
[15]
Ji-Yan Lin, Hsiao-Chin Chen*, and Ming-Yu Yen,"Sensor/Antenna Interface IC for Implantable Biomedical Monitoring System", IEEE Transactions on Microwave Theory and Techniques, vol. 66, issue 3, pp. 1660-1667, March 2018. (SCI)
[16]
Hsiao-Chin Chen*, Ming-Yu Yen, and Kuo-Jin Chang, "Searching for Spectrum Holes: A 400-800 MHz Spectrum Sensing System", IEEE Transactions on Very Large Scale Integration Systems, No. 12, Vol. 23, pp. 2841-2851, Dec., 2015. (SCI)
[17]
Hsiao-Chin Chen*, Ming-Yu Yen, Qi-Xiu Wu, Kuo-Jin Chang, and Li-Ming Wang, "Batteryless Transceiver Prototype for Medical Implant in 0.18-μm CMOS Technology", IEEE Transactions on Microwave Theory and Techniques, vol. 62, issue 1, pp. 137-147, Jan. 2014.(SCI)
[18]
Hsiao-Chin Chen*, Shu-Wei Chang, and Bo-Rong Tu, “RF Front-End and Complex BPF for Reconfigurable Low- IF Receiver”, IEICE Transactions on Electronics, vol. E96-C, no.2, pp.251-261, Feb., 2013. (SCI)
[19]
Hsiao-Chin Chen* "Interview: Hsiao-Chin Chen on her work in battery-less ASK/OQPSK transmitters for medical implants," IET Electronics Letters, Volume 48, Issue 17, pp.1030, Aug., 2012. (SCI)
[20]
Hsiao-Chin Chen* and Wei-Kan Lee, "Battery-less ASK/O-QPSK Transmitter for Medical Implants," IET Electronics Letters, Volume 48, Issue 17, pp.1036-1038, Aug., 2012. (SCI, NSC100-2212-E-011-049-MY3)
[21]
Hsiao-Chin Chen*, Chia-Hao Kuo, and Wei-Kan Lee, "A Transceiver with Injection-Locked Frequency Multiplier for Short-Range Wireless Applications", Microwave and Optical Technology Letters Volume 53, Issue 12, pages 2733–2737, December 2011 (SCI).
[22]
Shey-Shi Lu, Hsiao-Chin Chen* and Shih-An Yu, "More on the Impulse Sensitivity Functions of CMOS Differential LC Oscillators", IEICE Trans. Fundam. Electron. Commun. Comput. Sci., Vol.E94-A No.8 pp.1671-1681, Aug., 2011. (SCI)
[23]
Yu-Tso Lin, Yo-Sheng Lin, Chun-Hao Chen, Hsiao-Chin Chen, Yu-Che Yang, and Shey-Shi Lu*, “A 0.5-V Biomedical System-on-a-Chip for Intrabody Communication System,” IEEE Trans. on Industry Electronics, pp. 690-699, vol. 58, no. 2, Feb. 2011. (SCI)
[24]
Hsiao-Chin Chen* and Hung-Wei Chiu, "VCO with Miller-Theorem-Based Varactors," IET Electronics Letters, pp. 990-991 July, 2010. (SCI)
[25]
Yu-Hsiang Wang, Kuan-Ting Lin, Tao Wang, Hong-Wei Chiu, Hsiao-Chin Chen, and Shey-Shi Lu*, "A 2.1 to 6GHz Tunable-band LNA with Adaptive Frequency Responses by Transistor Size Scaling",IEEE Microwave and Wireless Components Letters, vol. 20, no. 6, pp. 346-348, June 2010. (SCI)
[26]
Yen-Jen Chen, Yu-Tso Lin, Fang-Ren Liao, Hsiao-Chin Chen, Shey-Shi Lu*, "A low-power CMOS receiver for wireless sensor networks", Microwave and Optical Technology Letters Volume 51, Issue 11, pp. 2618-2620, November 2009. (SCI)
[27]
Hsiao-Chin Chen, Tao Wang, Hung-Wei Chiu, Yu-Che Yang, Tze-Huei Kao, Guo-Wei Huang and Shey-Shi Lu*, "A 5-GHz-Band CMOS Receiver with Low LO-Self-Mixing Front-end", IEEE Transactions on Circuits and Systems I, vol. 56, no. 4, pp. 705-713, April, 2009. (SCI)
[28]
Hsiao-Chin Chen, Tao Wang, Hung-Wei Chiu, Tze-Huei Kao and Shey-Shi Lu*, “0.5-V 5.6-GHz CMOS Receiver Subsystem”, IEEE Transactions on Microwave Theory and Techniques, vol. 57, no. 2, pp. 329-335, Feb., 2009. (SCI, NSC 97-2218-E-011-001)
[29]
Chun-Hao Chen, Rong-Zhang Hwang, Long-Sun Huang, Shi-Ming Lin, Hsiao-Chin Chen, Yu-Che Yang, Yu-Tso Lin, Shih-An Yu, Yo-Sheng Lin, Yiao-Hong Wang, Nai-Kuan Chou and Shey-Shi Lu∗, "A Wireless Bio-MEMS Sensing System for C-Reactive Protein Detection Based on Nanomechanics", IEEE Transactions on Biomedical Engineering, Nov., 2008. (SCI)
[30]
T. Wang, H.-C. Chen, P.-L. Huang, Y.-Y. Chiang and S.-S. Lu, “RFICs on Polydimethylsiloxane for Flexible Electronics Applications”, IEE Electronics Letters, Vol. 43, Nov., 2007. (SCI)
[31]
Y.-T. Lin, H.-C. Chen, T. Wang, Y.-S. Lin and S.-S. Lu, “3–10-GHz Ultra-Wideband Low-Noise Amplifier Utilizing Miller Effect and Inductive Shunt–Shunt Feedback Technique”, IEEE Trans. on Microwave Theory and Technique, vol. 55, no. 9, pp. 1832-1843, Sept. 2007. (SCI)
[32]
Hsiao-Chin Chen, Tao Wang and Shey-Shi Lu, “A 5-6 GHz 1-V LO-Self-Mixing-Free CMOS Direct-Conversion Receiver with an Integrated Quadrature Coupler,” IEEE J. of Solid-State Circuits, vol. 42, no.9, pp. 1963-1975, Sept. 2007. (SCI)
[33]
Hsiao-Chin Chen, Tao Wang, Shey-Shi Lu, and Guo-Wei Huang, “A Monolithic 5.9-GHz CMOS I/Q Direct-Down Converter Utilizing a Quadrature Coupler and Transformer-Coupled Subharmonic Mixers”, IEEE Microwave and Wireless Components Letters, vol. 16, no. 4, pp. 197-199, April 2006. (SCI)
[34]
Tao Wang, Hsiao-Chin Chen, Hung-Wei Chiu, Yo-Sheng Lin, Guo Wei Huang, Shey-Shi Lu “Micromachined CMOS LNA and VCO by CMOS Compatible ICP Deep Trench Technology,” IEEE Trans. on Microwave Theory and Technique, vol. 54, NO. 2, Feb. 2006. (SCI)
[35]
Hsiao-Chin Chen, Hung-Wei Chiu, Tao Wang and Shey-Shi Lu, “A low-power low-phase-noise LC-VCO with MEMS Cu inductors,” IEEE Microwave and Wireless Components Letters, vol.15, no.6, pp.434-436, Jun. 2005. (SCI)
[36]
C. C. Meng, S. S. Lu, M. H. Chiang and H. C. Chen, “DC-8 GHz 11 dB Gain Gilbert Micromixer Using GaInP/GaAs HBT Technology”, IEE Electronics Letters, vol. 39, no.8, pp. 637-638, April, 2003. (SCI, El, 89-E-FA-06-2-4)
[37]
H. C. Chen, C. C. Meng and S. S. Lu, “2.4 GHz CMOS double balanced Gilbert Cell Micromixer”, Microwave & Optical Tech. Letters, vol. 28 no.4, pp.251~253, February 2001. (SCI, El, NSC 89-2219-E-002-044)
[38]
S. S. Lu, C. C. Meng, T. W. Chen, and H. C. Chen, “A novel interpretation of transistor S parameters by poles and zeros for RFIC Circuit Design”, IEEE Trans. on Microwave Theory and Technique, Vol.49, No.2, pp. 406~409, February 2001. (SCI, El, NSC 89-2219-E-002-044)
[39]
S. S. Lu, C. C. Meng, T. W. Chen, and H. C. Chen, “The origin of the kink phenomenon of transistor scattering parameter S22”, IEEE Trans. on Microwave Theory and Technique, Vol.49, No.2, pp. 333-340, February 2001. (SCI, El, NSC 89-2219-E-002-044)
[1]
Jhen-Nong Wu, Yan-Ming Chang, Zih-Yao Shen and Hsiao-Chin Chen, "Investigation on CMOS On-Chip Inductors Using Various Patterned Ground/Floating Shield Techniques", IEEE ICEIB 2021 BEST PAPER AWARD.
[2]
Zhong-Da Wu, Chih-Yu Chang, Hsiao-Chin Chen and Zih-Yu Lin, "Specification Development for Millimeter-Wave-Absorption-Based Non-Invasive Glucose System", IEEE ICEIB 2021 BEST PAPER AWARD.
[3]
Yu-Chen Cheng and Hsiao-Chin Chen (2021, May). CMOS LNA for DTV-Band Cognitive Radio Applications. ISCAS(Virtual).
[4]
Tzu-Fan Lee, Hsiao-Chin Chen and Chien-Wen Chiu (2019, Oct). Millimeter Wave Absorption Spectroscopy for Non-Invasive Glucose Measurement. 2019 International Conference on Biomedical Engineering and Biotechnology (ICBEB), Seoul, Korea.
[5]
Hong-Qi Xiao, Chi-Sing Yuen and Hsiao-Chin Chen (2018, Sep). A Monolithic Microwave Heater in 0.18-um CMOS Technology. 2018 International Conference on Solid State Devices and Materials (SSDM2018), Tokyo, Japan.
[6]
H. Q. Xiao, C. S. Yuen and H. C. Chen (2017, Dec). A CMOS microwave heating system. 2017 IEEE/SICE International Symposium on System Integration, Taipei, Taiwan.
[7]
Yu-Lun Wei, Hsiao-Chin Chen and Chi-Yin Chung (2017, May). 1.35 GHz programmable gain amplifier for 5G mobile communication. 2017 International Conference on Applied System Innovation , Sapporo, Japan.
[8]
Cheng-Han Yeh, Ming-Yu Yen and Hsiao-Chin Chen, "High Frequency VCO and Divider for Fifth-Generation Mobile Communications Technology", oral presentation in 2016 International Conference on Solid State Devices and Materials (SSDM 2016), Tsukuba, Japan, September 26-29, 2016.
[9]
Hsiao-Chin Chen, Chi-Yu Kao, and San-Ching Yang, "Batteryless Transmitter for Biomedical Implant", poster and short presentation in 2015 International Conference on Solid State Devices and Materials (SSDM 2015), Sapporo, Japan, September 27-30, 2015.
[10]
Chi-Yu Kao, Ming-Yu Yen, and Hsiao-Chin Chen,"Low-Noise Carrier Synthesis for MICS Applications", 2014 International Conference on Intelligent Green Building and Smart Grid (IGBSG), Taipei, Taiwan, April 23-25, 2014.
[11]
Wei-Kan Lee, Chi-Yu Kao, Hsiao-Chin Chen and Ya-Hsin Hsueh,"Dual-band transmitter for RFID applications",2013 IEEE 17th International Symposium on Consumer Electronics (ISCE), Hsinchu, Taiwan, June 3-6, 2013.
[12]
Yu-Jyun Lyu, Qi-Xiu Wu, Po-Shin Huang and Hsiao-Chin Chen “CMOS Analog Front End for ECG measurement system” , IEEE ISPACS 2012, Tamsui, New Taipei City, Taiwan, Nov. 4-7, 2012. (EI)
[13]
H. C. Chen and G. J. Chang, " 400-800MHz Spectrum Sensing System for Cognitive Radio", IEEE FTFC 2012, Paris, France, June 6-8, 2012.
[14]
H. K. Chen, T. Wang, K. T. Lin, H. C. Chen*, and S. S. Lu, "A 50-mW, 386 GHz/mm2 Wideband Amplifier in 0.13-um CMOS Technology," 2010 Asia-Pacific Microwave Conference (APMC 2010), Yokohama, Japan, December 7-10, 2010.
[15]
H. C. Chen and S. S. Lu,"6.8-10 GHz Frequency Synthesizer for Software-Defined-Radio," 2010 Asia-Pacific Microwave Conference (APMC 2010), Yokohama, Japan, December 7-10, 2010.
[16]
H. C. Chen, C. H. Kuo, and S. S. Lu,"The Effect of Field-Plate Technique on CMOS Ring Oscillator," poster and short presentation in 2010 International Conference on Solid State Devices and Materials (SSDM 2010), Tokyo, Japan, September 22-24, 2010.
[17]
H.-C. Chen, T. Wang and S.-S. Lu, "Low-loss On-chip Transformers for CMOS RFICs," Proceedings of the 39th European Microwave Conference, pp.252-255, Sept. 2009.
[18]
Y.P. Hsu, C.-H. Chen, H.-C. Chen and S.-S. Lu, “Low-Noise Wide-Dynamic-Range CMOS Analog Front-End IC for Portable Biomedical Applications”, IEEE Asia-Pacific Microwave Conference, Macao, Dec., 2008.
[19]
S.-L. Ying, C.-M. Hsieh, H.-C. Chen and H.-W. Chiu,“A Domino optimization method for the Low Dropout Regulator design automation”, IEEE Asia-Pacific Microwave Conference, Dec., Macao, 2008.
[20]
Hsiao-Chin Chen, Tao Wang, Yu-Che Yang, Yu-Hsuan Liu and Shey-Shi Lu, “CMOS RF circuits for 5-GHz BWA”, IEEE Mobile WiMAX Symposium, Orlando, Florida, USA, Mrach 2007.
[21]
H.-C. Chen, T. Wang, S.-S. Lu and G.-W. Huang, “A Low-phase-noise Area-efficient 3-D LC VCO in Standard 0.18-um CMOS Technology,” IEEE 13th MELECON Proceeding, pp.202-205, May, 2006.
[22]
C. Y. Liu, J. H. Hsu, H. C. Chen, S. S. Lu, S. H. Chang, “Electromechanical Oscillator Based on Carbon Nanotube Field-Effect Transistors,” ChemOnTubes, Arcachon, France, April 2-5, 2006.
[23]
C.-H. Chen, R.-Z. Hwang, L.-S. Huang, S. Lin, H.-C. Chen, Y.-C. Yang, Y.-T. Lin, S.-A. Yu, Y.-H. Wang, N.-K. Chou and S.-S. Lu, “A Wireless Bio-MEMS Sensor for C-Reactive Protein Detection Based on Nanomechanics”, IEEE ISSCC, No.30.6, San Francisco, Feb. 2006.
[24]
K. Y. Liu, C. H. Chen, Y. C. Yang, H. C. Chen, S. A. Yu and S. S. Lu, “A Low Power Fully Integrated Analog Baseband Circuit with Variable Bandwidth for 802.11 a/b/g WLAN,” 17th Asia-Pacific Microwave Conference, Suzhou, China, Dec. 2005.
[25]
Y. H. Liu, H. C. Chen, T. Wang and S. S. Lu, “A CMOS transmitter front-end with digital power control for WiMAX 802.16e applications,” 17th Asia-Pacific Microwave Conference, Suzhou, China, Dec. 2005.
[26]
Nan-Fu Chiu, Jmin-Min Wang, Cheng-Wei Liao, Chun-Hao Chen, Hsiao-Chin Chen, Lung-Jieh Yang, Shey-Shi Lu, Chii-Wann Lin, “An Implantable Multifunctional Needle Type Biosensor with Integrated RF Capability,” IEEE Engineering in Medicine and Biology 27th Annual Conference Shanghai, China, September 1-4, 2005.
[27]
C. Y. Wang, H. W. Chiu, H. C. Chen, S. S. Lu, and C. C. Meng, “A Low Power SiGe Micromixer for 2.4/5.2/5.7 GHz Multi-band WLAN Applications,” Proceedings of the Solid-State Devices and Materials, pp. 910-911, Tokyo, Japan, Feb. 2003.
[28]
H. W. Chiu, H.C. Chen, S. S. Lu, “Quality Factor Improvement of on-Chip Inductors for HIPERLAN RFIC by Micromachining,” Asia-Pacific Microwave Conference, vol. 2, Taipei, Dec. 2001.
[29]
C. C. Meng, S. S. Lu, H. C. Chen, M. H. Chiang, J. F. Kuan, D. C. Lin and G. W. Huang, “DC-8 GHz 11 dB Gain GaInP/GaAs HBT Double Balanced Gilbert Micromixer,” GaAs 2001 Conference, London, pp. 81~84, Sept. 2001.
[1]
專書: Shey-Shi Lu and Hsiao-Chin Chen. “Smart Sensors and Systems”, Ch. 13: Wireless CMOS Bio-medical SoCs for DNA/Protein/Glucose Sensing. (1st edition) (ISBN: 978-3-319-14711-6). Switzerland: Springer International Publishing. Nov, 2015. pp.303-358. 本人為第二作者.
[2]
中華民國專利: 變壓器反饋正交壓控振盪器。專利號碼: I640156。專利期間:2018/11/01-2037/12/25。
[3]
中華民國專利:具有超級源極隨耦器的低通濾波器及傳輸零點控制方法 專利號碼:I596895 專利期間:2017/08/21-2036/12/15
[4]
中華民國專利:頻譜感測系統及頻譜感測方法 專利號碼:I517612 專利期間:2016/01/11-2032/12/03
[5]
Chang; Jen-Chung, Hsu; Chia-Jung, Lu; Shey-Shi, Chen; Hsiao-Chin, Liow; Yu-Yee, “Frequency-converting circuit and down converter with the same,” US 7,672,658, March 2, 2010.
[6]
Chang; Jen-Chung, Hsu; Chia-Jung, Lu; Shey-Shi, Chen; Hsiao-Chin, Lin; Tzu-Chao, “Sub-harmonic mixer and down converter with the same,” US7,577,418, August 18, 2009
[7]
中華民國專利:可電子控制其工作頻率範圍的負載電路與匹配電路 專利號碼:I256781 專利期間:2006-2025
年度
計畫名稱
委託單位
112
量子位元控制電路 NSTC_x000D_
112-2221-E-011-134-MY3 (112/08/01~115/07/31)
國科會
109
非侵入式血糖量測系統(1/3)(109-2221-E-_x000D_
011-132-MY3)
科技部
108
隨身式微循環刺激技術之研發--子計畫二:用於微循環刺激_x000D_
之微波加熱器與介面電路
科技部
107
細胞晶片與細胞訊息傳遞之無線收發機
科技部
106
器官晶片與細胞訊息傳遞之無線收發機
科技部
104
適用於醫療平台之遙控動力微晶片船-子計畫四:頻譜感測系_x000D_
統(II)(104-2221-E-011-117-MY2)
國科會
103
適用於醫療平台之遙控動力微晶片船-子計畫四:頻譜感測系_x000D_
統(I)
國科會
100
適用於三叉神經痛及癲癇症之多功能神經刺激器-子計畫四:_x000D_
植入式生醫系統之無線收發機(NSC 100-2221-E-011 -049 -MY3)
國科會
99
軟體無線電系統晶片-子計畫二:軟體無線電基頻電路與頻率_x000D_
合成器
國科會
98
軟體無線電系統晶片-子計畫二:_x000D_
軟體無線電基頻電路與頻率合成器
國科會
97
低電壓接收機前端
國科會
年度
計畫名稱
委託單位
112-113
毫米波相關IC設計開發
達盛電子
112
射頻擷能與喚醒電路研究
系統電子
111-112
射頻積體電路研究(研發產字10095、無線電磁產字_x000D_
00106)
天芯科技
110
Ka頻段衛星通信射頻積體電路晶片(RFIC)及天線研究_x000D_
試製(2/2)
中科院
109
Ka頻段衛星通信射頻積體電路晶片(RFIC)及天線研究_x000D_
試製(1/2)
中科院
108
量子運算式人工智慧之微波電路(研發產字8330)
臺大、師大
107
智慧型混合式毫米波波束掃描系統及高速目標方位估測研發_x000D_
(分項B):毫米波收發機設計規劃
中科院、交大
106
下世代5G毫米波寬頻頻率合成器電路之先期開發研究
中科院
106
Ka頻段衛星通信技術及系統架構研究
中科院
105
毫米波微型天線研製及射頻積體電路研究設計
中科院
105
前瞻技術產學合作計畫-前瞻下世代行動通訊終端關鍵技術研_x000D_
究(3/3) (共同主持人)
聯發科、科技部
104
前瞻技術產學合作計畫-前瞻下世代行動通訊終端關鍵技術研_x000D_
究(2/3) (共同主持人)
聯發科、科技部