指導教授

執行計畫(Research/Collaboration Projects of NSTC)

112年度國科會：應用於次世代通訊之超寬頻射頻前端模組與關鍵子電路整合的每秒數萬兆位元收發器

               (計畫主持人)

111年度國科會：應用於第五代NR行動通訊網路之低雜訊放大器與調變增益技術之研究 (計畫主持人)     (榮獲國科會電信學門計畫成果發表會-優良海報展示獎)

111年度教育部：5G通訊低功耗高傳輸收發機前端模組之研究 (計畫主持人)

109年度國科會：應用於5G通訊sub-6GHz & 28GHz之低功耗低雜訊放大器與低損耗帶通濾波器之研究 (計畫主持人)

獲獎情形(Awards and Honors)

2024/1                  111年度國科會電信學門計畫成果發表會-優良海報展示獎

2023/10                111年度國立暨南國際大學-學術研究類傑出校友

2023/8                  2023國研院 優良晶片成果發表會-特優奬：(獲獎題目)應用於毫米波頻段3.1~ 23.7 GHz、低功耗可變增益             放大器之研究

2023/8                  2023國研院 優良晶片成果發表會-優等奬：(獲獎題目)應用於5G 通訊28 GHz寬頻低雜訊放大器與增益提昇           技術

2022/8                  2022國研院 優良晶片成果發表會-特優奬：(獲獎題目)應用於K/Ka 毫米波通訊頻段16~30 GHz、2.62 dB 低           雜訊放大器使用電流再利用技術

2022/8                  2022國研院 優良晶片成果發表會-特優奬：(獲獎題目)應用於5G 通訊與超寬頻系統1.88 dB 低雜訊放大器             與雜訊消除技術之研究

2022/8                  2022國研院 優良晶片成果發表會-特優奬：(獲獎題目)應用於5G 通訊28 GHz 可變增益與寬頻低雜訊放大             器之研究

2022/8                  2022國研院 優良晶片成果發表會-優等奬：(獲獎題目)應用於sub-6GHz & 超寬頻系統2.3 mW 低功率、2.8              dB 低雜訊寬頻放大器之研究

2022/5                  指導學生黃仲達榮獲2022年國研院SNDCT論文比賽--『高頻、感測器與戲光子元件及電路技術』組之優等           獎：(獲獎題目) DC-38 GHz CMOS SPDT Switch for 5G Multi-Band Communications.

2021/5                  110年度 中國電機電子學會台中分會優秀青年工程師

2020/1                  108年度 創惟科技研發工程事業處優秀之星                               

2011/6                   榮獲2011年斐陶斐榮譽獎  

2011/4                   2011年國家晶片系統設計中心晶片-設計佳作獎: (獲獎題目)使用雜訊抑制技術之3~10GHz低功率、20 dB高           功率增益與2.7 dB低雜訊分散式放大器之研究                             

2011/4                   2011年國家晶片系統設計中心晶片-設計佳作獎: (獲獎題目)應用於超寬頻系統2.17 mW低功率低雜訊放大             器之研究                                                                                                     

2010/4                   2010年國家晶片系統設計中心晶片-設計佳作獎: (獲獎題目)應用於60 GHz無線區域網路與77 GHz汽車防撞           雷達系統使用改良型傳輸零點技術之低損耗帶通濾波器之研究        

研究專長與興趣 (Research Interests)

• 射頻積體電路設計 RF integrated circuit design

• 無線通訊元件及系統設計 Design of wireless communication components and systems

• 微波工程 Microwave engineering

• 晶片與印刷电路板之信號完整性分析 Analysis of signal integrity and power integrity (PCB/IC)

學歷 (Education)

國立暨南大學電機工程博士

學術著作 (Publications)

A. 期刊論文 (Selected Journal Papers)

[A1]  J. F. Chang, and Y. S. Lin, “3.8-mW 26–29 GHz CMOS LNA With 21.6-dB Gain and 2.49-dB NF avg Using Dual Self-Bias and Gain Boosting,” IEEE Microwave and Wireless Technology Letters, vol. 34, no. 01, pp. 72 - 75, Jan. 2024. (SCI)

[A2]  J. F. Chang, and Y. S. Lin, “SPDT Switch Using λ/9-TL-Based-λ/4-TL and DTMOS With Floating R for 28-GHz 5G New Radio,” IEEE Microwave and Wireless Technology Letters, vol. 33, no. 11, pp. 1536 - 1539, Nov. 2023. (SCI)

[A3]  Y. S. Lin, C.Y. Huang, C.T. Huang, J. F. Chang, N.W. Tien, and Y. H. Chuang, " Design and Analysis of Complementary Metal–Oxide–Semiconductor Single-Pole Double-Throw Switches for 28 GHz 5G New Radio,"  Electronics, vol. 12, no. 12, 2023. (IF=2.9) (SCI)

[A4] J. F. Chang, and Y. S. Lin, “5.85-mW 3.1–23.7-GHz Two-Stage CMOS VGA With 2.53-dB NF Using Concurrent Current Steering,” IEEE Microwave and Wireless Components Letters, vol. 32, no. 11, pp. 1331-1334, 2022. (SCI)

[A5] J. F. Chang, and Y. S. Lin, “7.4-mW, 22.7–29.7 GHz CMOS VGA With 23.7 dB (19.2 to−4.5 dB) Gain Tuning Range and 3.26 dB NFavg,” IEEE Microwave and Wireless Components Letters, vol. 32, no. 9, pp. 1075-1078, 2022. (SCI)

[A6]  J. F. Chang, and Y. S. Lin, “A 13.7-mW 21-29 GHz CMOS LNA with 21.6 dB Gain and 2.74 dB NF for 28 GHz 5G Systems,” IEEE Microwave and Wireless Components Letters, vol. 32, no. 2, pp. 137-140, 2022. (IF=2.862) (SCI)

[A7] J. F. Chang, and Y. S. Lin, “Complementary Current-Reused 3.7–11.9 GHz LNA Using Body-Floating and Self-Bias Technique for Sub-6 GHz 5G Communications,” Springer Circuits, Systems, and Signal Processing, vol. 41, pp. 5967-5989, 2022. (SCI)

[A8]  J. F. Chang, and Y. S. Lin, "High Linearity DC-38 GHz CMOS SPDT Switch,"  Applied Sciences  , vol. 11, no. 10, 2021. (IF=2.679, (Rank=73/160)) (SCI)

[A9]  J. F. Chang, and Y. S. Lin, "3-9 GHz CMOS LNA using body floating and self-bias technique for sub-6 GHz 5G communications," IEEE Microwave and Wireless Components Letters, vol. 31, no. 6, pp. 608-611, 2021. (IF=2.862) (SCI)

[A10]              Y. S. Lin, J. F. Chang, and P.T. Yeh, " Coupled-line-based millimeter-wave CMOS spiral power dividers with tapered TLs  ,"Analog Integrated Circuits and Signal Processing , vol. 11, no. 6, pp. 608-611, 2021. (SCI)

[A11]             Y. S. Lin, J. F. Chang, K. S. Lan, and Y. J. Chen, " 28 GHz coupled-line-based CMOS power combiners and phase shifter, and power amplifiers with the power combiners ,"Analog Integrated Circuits and Signal Processing , vol. 11, no. 3, pp. 469-487, 2022. (SCI)

[A12]             Y. S. Lin, , C. D. Huang, B. S. Chen, and J. F. Chang, " Design and analysis of noninverting single-spiral CMOS Wilkinson power dividers and their quadrature couplers and baluns ,"Analog Integrated Circuits and Signal Processing , vol. 11, no. 3, pp. 499-516, 2022. (SCI)

[A13]             J. F. Chang, and Y. S. Lin, "A High-Voltage Driving 60 GHz Power Amplifier with Psat of 13 dBm and PAE of 9.1% in 90 nm CMOS for IEEE 802.11ad Communication Systems," Microwave and Optical Technology Letters, vol. 55, no. 9, pp. 2033-2039, Sep. 2013. (SCI)

[A14]             J. F. Chang, and Y. S. Lin, "A High-Performance Distributed Amplifier Using Multiple Noise Suppression Techniques," IEEE Microwave and Wireless Components Letters, vol. 21, no. 9, pp. 495-497, Sep. 2011. (SCI)

[A15] Y. S. Lin, J. F. Chang, and S. S. Lu, "Analysis and Design of CMOS Distributed Amplifier Using Inductively-Peaking Cascaded Gain Cell for UWB Systems," IEEE Trans. on Microwave Theory and Techniques, vol. 59, no. 10, pp. 2513-2524, Oct. 2011. (SCI)

[A16]             Y. S. Lin, J. F. Chang, C. C. Chen, H. B. Liang, P. L. Huang, T. Wang, G. W. Huang, and S. S. Lu, "Ultralow-Loss and Broadband Micromachined Transmission Line Inductors for 30-60 GHz CMOS RFIC Applications," IEEE Transactions on Electron Devices, vol. 54, no. 9, pp. 2512-2519, Sep. 2007. (SCI)

[A17]             J. F. Chang, and Y. S. Lin, "3.2~9.7 GHz Ultra-Wideband Low Noise Amplifier with Excellent Stop-band Rejection," IET Electronics Letters, vol. 48, no. 1, pp. 44-45, Jan. 2012. (SCI)

[A18]             J. F. Chang, and Y. S. Lin, "DC-10.5-GHz CMOS Distributed Amplifier with RC Gate Terminal Network for UWB Pulse Radio Systems," IET Trans. on Microwaves, Antennas, and Propagation, vol. 6, no. 2, pp. 127-134, Feb. 2012. (SCI)

[A19]             J. F. Chang, and Y. S. Lin, " A 9.45 mW 3~9 GHz Receiver Frond-End with Excellent Stop-band Rejection for UWB Systems Using 0.18 mm CMOS Technology," IET Trans. on Microwaves, Antennas, and Propagation, vol. 6, no. 3, pp. 282-289, Mar. 2012. (SCI)

[A20]             J. F. Chang, and Y. S. Lin, "A 0.99 mW 3-10 GHz CG CMOS UWB LNA Using T-match Input Network and Self-Body-Bias Technique," IET Electronics Letters, vol. 47, no. 11, pp. 658-659, May 2011. (SCI)

[A21]             J. F. Chang, and Y. S. Lin, "A 3.15 dB NF, 7.2 mW 3~9 GHz CMOS Ultra-Wideband Receiver Front-End," IET Electronics Letters, vol. 47, no. 25, pp. 1401-1402, Dec. 2011. (SCI)

[A22]             J. F. Chang, and Y. S. Lin, "A Low-Power 3.2~9.7 GHz Ultra-Wideband Low Noise Amplifier with Excellent Stop-band Rejection Using 0.18 mm CMOS Technology," Microwave and Optical Technology Letters, vol. 54, no. 5, pp. 1253-1261, May 2012. (SCI)

[A23]             J. F. Chang, and Y. S. Lin, "A 3.1 dB NF, 21.31 dB Gain Micro-machined 3~10 GHz Distributed Amplifier for UWB Systems in 0.18 um CMOS Technology," Microwave and Optical Technology Letters, vol. 54, no. 5, pp. 1163-1167, May 2012. (SCI)

[A24]             C. Y. Lin, J. F. Chang, and Y. S. Lin, "Design and Implementation of a 2.8-dB Insertion Loss V-Band Bandpass Filter in 0.13 um CMOS Technology," Microwave and Optical Technology Letters, vol. 54, no. 8, pp. 2001-2006, Aug. 2012. (SCI)

[A25]             J. F. Chang, and Y. S. Lin, "A 2.76-mW, 3- to 10-GHz Ultra-Wideband LNA Using 0.18-mm CMOS Technology," Microwave and Optical Technology Letters, vol. 53, no. 1, pp. 94-97, Jan. 2011. (SCI)

[A26]             J. F. Chang, and Y. S. Lin, "A 3.9 dB NF, 24.5 dB Gain 0.3~10.5 GHz Distributd Amplifier Using Dual-Inductive-Peaking Cascade Gain Cell for UWB Systems in 0.18-μm CMOS," Microwave and Optical Technology Letters, vol. 53, no. 10, pp. 2228-2232, Oct. 2011. (SCI)

[A27]             J. F. Chang, and Y. S. Lin, "Design and Implementation of a High-Performance V-Band CMOS Bandpass Filter," Microwave and Optical Technology Letters, vol. 52, no. 2, pp. 309-316, Feb. 2010. (SCI)

[A28]             J. F. Chang, and Y. S. Lin, "Miniature 1.87-dB Insertion-Loss V-Band CMOS Bandpass Filter with Two Enhanced Finite Transmission Zeros," Microwave and Optical Technology Letters, pp. 1830-1836, vol. 52, no. 8, Aug. 2010. (SCI)

[A29] Y. T. Chiu, Y. S. Lin, and J. F. Chang, "A 18.85 mW 20-29 GHz Wideband CMOS LNA with 3.85±0.25 dB NF and 18.1±1.9 dB Gain," Microwave and Optical Technology Letters, vol. 52, no. 9, pp. 2017-2020, Sep. 2010. (SCI)

[A30] J. F. Chang, and Y. S. Lin, "A 3-10 GHz Low-Power, Low-Noise CMOS Distributed Amplifier Using Splitting-Load Inductive Peaking and Noise-Suppression Techniques," IET Electronics Letters, vol. 45, no. 20, pp. 1033-1035, 2009. (SCI)

[A31] J. F. Chang, and Y. S. Lin, "Low-Power, High-Gain, and Low-Noise CMOS Distributed Amplifier for UWB Systems," IET Electronics Letters, vol. 45, no. 12, pp. 634-636, 2009. (SCI)

[A32] P. L. Huang, J. F. Chang, Y. S. Lin, and S. S. Lu, "A Micromachined V-Band CMOS Bandpass Filter with 2-dB Insertion-Loss," IET Electronics Letters, vol. 45, no. 2, pp. 100-101, 2009. (SCI)

[A33] M. C. Lu, J. F. Chang, Y. S. Lin, and L. C. Lu, "1.89-dB Insertion-Loss UWB BP-Filter with Three Finite Transmission Zeros Using Standard 0.18 um CMOS Technology," IET Electronics Letters, vol. 45, no. 1, pp. 56-57, 2009. (SCI)

[A34] Y. S. Lin, L. C. Lu, J. F. Chang, P. L. Huang, and S. S. Lu, "1.8-dB Insertion- Loss Planar UWB CMOS Bandpass Filter with Suspended Inductors," Microwave and Optical Technology Letters, vol. 51, no. 12, pp. 2946-2948, Dec. 2009. (SCI)

[A35] M. C. Lu, J. F. Chang, L. C. Lu, and Y. S. Lin, "Miniature 60-GHz-Band Bandpass Filter with 2.55-dB Insertion-Loss Using Standard 0.13 um CMOS Technology" Microwave and Optical Technology Letters, vol. 51, no. 7, pp. 1632-1635, Jul. 2009. (SCI)

[A36] J. F. Chang, Y. S. Lin, C. C. Chen, C. Z. Chen, P. L. Huang, T. Wang, and S. S.  Lu, "An Analysis of Substrate Effects on Transmission-Lines for Millimeter- wave CMOS RFIC Applications," Microwave and Optical Technology Letters, vol. 50, no. 2, pp. 319-324, Feb. 2008. (SCI)

[A37] C. C. Chen, Y. S. Lin, J. F. Chang, and J. H. Lee, "A K-Band Low-Noise Amplifier Using Shunt RC-Feedback and Series Inductive-Peaking Techniques," Microwave and Optical Technology Letters, vol. 50, no. 5, pp. 1148-1152, May 2008. (SCI)

[A38] J. F. Chang, Y. S. Lin, and C. C. Chen, "A High-Performance Miniaturized 3-15.5-GHz 13-dB CMOS Distributed Amplifier," Microwave and Optical Technology Letters, vol. 49, no. 11, Nov. 2007, pp. 2742-2747. (SCI)

B、Conference Papers(研討會論文)

[B1]  J. F. Chang, and Y. S. Lin, " CMOS LNA and VGA for 5G NR Using Gain-Linearity-Boosting and Body Floating Techniques,"  IEEE Radio and Wireless Week, San Antonio , Texas, USA  ,pp. xx-xx., 2024. 

[B2]  Y. S. Lin, C.-T. Huang, J. F. Chang, and Y.-C. Lin, "Push-Push VCO with PN- and Pout-Enhanced Off-State Parallel FETs,"  IEEE Radio and Wireless Week, Las Vegas, Nevada, USA ,pp. 70-73., 2022. [B2] Y. S. Lin, C.-T. Huang, B.-S. Chen, and J. F. Chang, "Spiral-TL-Based Compact Ka-Band SPDT Switch and Power Divider," IEEE Radio and Wireless Week, Las Vegas, Nevada, USA ,  pp. 91-94., 2022. 

[B3]  李青峯、葉宇利、謝文芩、陳乃維、張錦法、陳俊仁、施松佑、李祥維，"一輸入範圍-1.5V~8V、1.6GHz 位元速率差動型窗口比較器"，台灣精密工程研討會，TPTW2017，pp. 266-269，2017年11月。

[B4]  J. F. Chang, Y. S. Lin, and C. C. Wang, "A High-Voltage Driving 60 GHz Power Amplifier with Psat of 13 dBm and PAE of 9.1% in 90 nm CMOS for IEEE 802.11ad Communication Systems," IEEE International Symposium on Electromagnetic Compatibility, Denver, USA, Aug. 2013.

[B5]  J. F. Chang, Y. S. Lin, J. H. Lee, C. C. Wang, "A Low-Power 3.2-9.7 GHz Ultra- Wideband Low Noise Amplifier with Excellent Stop-Band Rejection Using 0.18 mm CMOS Technology," IEEE Radio and Wireless Symposium, Santa Clara, California, USA, pp. 199-202, Jan. 2012.

[B6]  J. F. Chang, and Y. S. Lin, "A DC-10.5-GHz CMOS Distributed Amplifier with 3.2±0.3 dB NF, 10.5±1.4 dB Gain and ±13.8 ps Group Delay Variation," IEEE Radio and Wireless Symposium, Phoenix, Arizona, USA, pp. 307-310, Jan. 2011.

[B7]  J. F. Chang, and Y. S. Lin, "2.76 mW, 3-10 GHz Ultra-Wideband LNA Using 0.18 μm CMOS Technology," IEEE VLSI Design, Automation and Test, Hsin-Chu, Taiwan, pp. 188-191, Apr. 2011.

[B8] C. C. Chen, Y. S. Lin, J. H. Lee, and J. F. Chang, "A V-band CMOS Sub-Harmonic Mixer with Integrated Frequency Doubler and 180o Out-of-Phase Splitter," IEEE VLSI Design, Automation and Test, Hsin-Chu, Taiwan, pp. 192-195, Apr. 2011.

[B9] C. C. Chen, Y. S. Lin, P. L. Huang, J. F. Chang, and S. S. Lu, "A 4.9-dB NF 53.5-62-GHz Micro-machined CMOS Wideband LNA with Small Group- Delay- Variation," IEEE International Microwave Symposium, Anaheim, California, USA, pp. 489-492, May 2010.

[B10] Y. T. Chiu, Y. S. Lin, and J. F. Chang, "A 18.85 mW 20-29 GHz Wideband CMOS LNA with 3.85±0.25 dB NF and 18.1±1.9 dB Gain," IEEE Radio Frequency Integrated Circuits Symposium, Anaheim, California, USA, pp. 381-384, May 2010.

[B11] M. C. Lu, J. F. Chang, L. C. Lu, and Y. S. Lin, "Miniature 60-GHz-Band Bandpass Filter with 2.55-dB Insertion-Loss Using Standard 0.13 mm CMOS Technology," IEEE VLSI Design, Automation and Test, Hsin-Chu, Taiwan, pp. 92-95, Apr. 2009.

[B12] J. F. Chang, Y. S. Lin, P. L. Huang, and S. S. Lu, "A Micromachined V-Band CMOS Bandpass Filter with 2-dB Insertion-Loss Department," IEEE Electronic Components and Technology Conference, San Diego, California, USA, pp. 1590-1593, May 2009.

[B13] W. L. Hsu, C. Z. Chen, Y. S. Lin, and J. F. Chang, "A 9.3-GHz-Tuning-Range, 58-GHz CMOS Direct Injection-Locked Frequency Divider Using Input-Power- Matching Technique," IEEE Electronic Components and Technology Conference, San Diego, California, USA, pp. 1846-1849, May 2009.

[B14] J. F. Chang, Y. S. Lin, C. C. Chen, C. Z. Chen, T. Wang, and S. S. Lu, "A Miniature Micro-machined Millimeter-wave Bandpass Filter By CMOS Compatible ICP Deep-Trench Technology," IEEE Radio and Wireless Symposium, Orlando, Florida, USA, pp. 399-402, Jan. 2008.

[B15] J. F. Chang, Y. S. Lin, C. Z. Chen, C. C. Chen, P. F. Yeh, P. L. Huang, T. Wang, and S. S. Lu, "Ultra-Low-Loss and Broadband Micromachined Inductors and Transformers for 30-100 GHz  CMOS RFIC Applications by CMOS- Compatible ICP Deep Trench Technology," IEEE Radio and Wireless Symposium, Long Beach, California, USA, pp. 225-228, Jan. 2007.

C、Patents (專利)

[C1] J. F. Chang, Y. S. Lin，" TRANSISTOR AND AMPLIFIER THEREOF"，United State Patent ，證書號數：US 11699980 B2 (公告日：112年07月11日)

[C2] 張錦法及林佑昇，"電晶體及其放大器"，中華民國專利，證書號數： I785757  (公告日：111年12月01日)。

[C3]李青峰及張錦法，"輸入緩衝器及其雜訊消除方法"，中華民國專利，證書號數： I659616  (公告日：108年5月11日)。

[C4] 張錦法及林佑昇，"高增益低雜訊放大器"，中華民國專利，證書號數：I433454 (公告日：103年4月1日)。