Jin-Fa Chang
±iÀAªk§U²z±Ð±Â
Associate Professor
Dept. of Electronic Engineering,
National Changhua University of Education,
2,Shih-Da Rd., Changhua City, Taiwan 500

Tel: 04-7232105 #8316

Fax:
Email :
jfchang@cc.ncue.edu.tw

Website:

¯Á¤Þ:

Professional biography
Research

Awards and Honors

Experiences

Education
Research Interests
Publications

°õ¦æ­pµe(Research/Collaboration Projects of NSTC)

112¦~«×°ê¬ì·|¡GÀ³¥Î©ó¦¸¥@¥N³q°T¤§¶W¼eÀW®gÀW«eºÝ¼Ò²Õ»PÃöÁä¤l¹q¸ô¾ã¦Xªº¨C¬í¼Æ¸U¥ü¦ì¤¸¦¬µo¾¹

               (­pµe¥D«ù¤H)

111¦~«×°ê¬ì·|¡GÀ³¥Î©ó²Ä¤­¥NNR¦æ°Ê³q°Tºô¸ô¤§§CÂø°T©ñ¤j¾¹»P½ÕÅܼW¯q§Þ³N¤§¬ã¨s (­pµe¥D«ù¤H)     (ºaÀò°ê¬ì·|¹q«H¾Çªù­pµe¦¨ªGµoªí·|-Àu¨}®ü³ø®i¥Ü¼ú)

111¦~«×±Ð¨|³¡¡G5G³q°T§C¥\¯Ó°ª¶Ç¿é¦¬µo¾÷«eºÝ¼Ò²Õ¤§¬ã¨s (­pµe¥D«ù¤H)

109¦~«×°ê¬ì·|¡GÀ³¥Î©ó5G³q°Tsub-6GHz & 28GHz¤§§C¥\¯Ó§CÂø°T©ñ¤j¾¹»P§C·l¯Ó±a³qÂoªi¾¹¤§¬ã¨s (­pµe¥D«ù¤H)

Àò¼ú±¡§Î(Awards and Honors)

2024/1                  111¦~«×°ê¬ì·|¹q«H¾Çªù­pµe¦¨ªGµoªí·|-Àu¨}®ü³ø®i¥Ü¼ú

2023/10                111¦~«×°ê¥ßº[«n°ê»Ú¤j¾Ç-¾Ç³N¬ã¨sÃþ³Ç¥X®Õ¤Í

2023/8                  2023°ê¬ã°| Àu¨}´¹¤ù¦¨ªGµoªí·|-¯SÀu奬¡G(Àò¼úÃD¥Ø)À³¥Î©ó²@¦ÌªiÀW¬q3.1~ 23.7 GHz¡B§C¥\¯Ó¥iÅܼW¯q©ñ¤j¾¹¤§¬ã¨s

2023/8                  2023°ê¬ã°| Àu¨}´¹¤ù¦¨ªGµoªí·|-Àuµ¥奬¡G(Àò¼úÃD¥Ø)À³¥Î©ó5G ³q°T28 GHz¼eÀW§CÂø°T©ñ¤j¾¹»P¼W¯q´£ª@§Þ³N

2022/8                  2022°ê¬ã°| Àu¨}´¹¤ù¦¨ªGµoªí·|-¯SÀu奬¡G(Àò¼úÃD¥Ø)À³¥Î©óK/Ka ²@¦Ìªi³q°TÀW¬q16~30 GHz¡B2.62 dB §CÂø°T©ñ¤j¾¹¨Ï¥Î¹q流¦A利¥Î§Þ³N

2022/8                  2022°ê¬ã°| Àu¨}´¹¤ù¦¨ªGµoªí·|-¯SÀu奬¡G(Àò¼úÃD¥Ø)À³¥Î©ó5G ³q°T»P¶W¼eÀW¨t²Î1.88 dB §CÂø°T©ñ¤j¾¹»PÂø°T®ø°£§Þ³N¤§¬ã¨s

2022/8                  2022°ê¬ã°| Àu¨}´¹¤ù¦¨ªGµoªí·|-¯SÀu奬¡G(Àò¼úÃD¥Ø)À³¥Î©ó5G ³q°T28 GHz ¥iÅܼW益»P¼eÀW§CÂø°T©ñ¤j¾¹¤§¬ã¨s

2022/8                  2022°ê¬ã°| Àu¨}´¹¤ù¦¨ªGµoªí·|-Àuµ¥奬¡G(Àò¼úÃD¥Ø)À³¥Î©ósub-6GHz & ¶W¼eÀW¨t²Î2.3 mW §C¥\率¡B2.8 dB §CÂø°T¼eÀW©ñ¤j¾¹¤§¬ã¨s

2022/5                  «ü¾É¾Ç¥Í¶À¥ò¹FºaÀò2022¦~°ê¬ã°|SNDCT½×¤å¤ñÁÉ--¡y°ªÀW¡B·P´ú¾¹»PÀ¸¥ú¤l¤¸¥ó¤Î¹q¸ô§Þ³N¡z²Õ¤§Àuµ¥¼ú¡G(Àò¼úÃD¥Ø) DC-38 GHz CMOS SPDT Switch for 5G Multi-Band Communications.

2021/5                  110¦~«× ¤¤°ê¹q¾÷¹q¤l¾Ç·|¥x¤¤¤À·|Àu¨q«C¦~¤uµ{®v

2020/1                  108¦~«× ³Ð±©¬ì§Þ¬ãµo¤uµ{¨Æ·~³BÀu¨q¤§¬P                               

2011/6                   ºaÀò2011¦~´´³³´´ºaÅA¼ú  

2011/4                   2011¦~°ê®a´¹¤ù¨t²Î³]­p¤¤¤ß´¹¤ù-³]­p¨Î§@¼ú: (Àò¼úÃD¥Ø)¨Ï¥ÎÂø°T§í¨î§Þ³N¤§3~10GHz§C¥\²v¡B20 dB°ª¥\²v¼W¯q»P2.7 dB§CÂø°T¤À´²¦¡©ñ¤j¾¹¤§¬ã¨s                             

2011/4                   2011¦~°ê®a´¹¤ù¨t²Î³]­p¤¤¤ß´¹¤ù-³]­p¨Î§@¼ú: (Àò¼úÃD¥Ø)À³¥Î©ó¶W¼eÀW¨t²Î2.17 mW§C¥\²v§CÂø°T©ñ¤j¾¹¤§¬ã¨s                                                                                                     

2010/4                   2010¦~°ê®a´¹¤ù¨t²Î³]­p¤¤¤ß´¹¤ù-³]­p¨Î§@¼ú: (Àò¼úÃD¥Ø)À³¥Î©ó60 GHzµL½u°Ï°ìºô¸ô»P77 GHz¨T¨®¨¾¼²¹p¹F¨t²Î¨Ï¥Î§ï¨}«¬¶Ç¿é¹sÂI§Þ³N¤§§C·l¯Ó±a³qÂoªi¾¹¤§¬ã¨s                    

¬ã¨s±Mªø»P¿³½ì (Research Interests)

  • ®gÀW¿nÅé¹q¸ô³]­p RF integrated circuit design
  • µL½u³q°T¤¸¥ó¤Î¨t²Î³]­p Design of wireless communication components and systems
  • ·Lªi¤uµ{ Microwave engineering
  • ´¹¤ù»P¦L¨ê电¸ôªO¤§«H¸¹§¹¾ã©Ê¤ÀªR Analysis of signal integrity and power integrity (PCB/IC)

¾Ç¾ú (Education)

°ê¥ßº[«n¤j¾Ç¹q¾÷¤uµ{³Õ¤h

¸g¾ú (Experiences)

2022/2 ¡V Present          §U²z±Ð±Â Assistant Professor                                                                   

°ê¥ß¹ü¤Æ®v½d¤j¾Ç National Changhua University of Education, Taiwan

2020/7 ¡V 2022/1           §U²z±Ð±Â Assistant Professor                                                                  

³{¥Ò¤j¾Ç Feng Chia University, Taiwan

2020/1 ¡V 2020/7          °Æ¸g²z Deputy Manager                                                                  

³Ð±©¬ì§Þ Genesys Loigc Inc., Taiwan

2019/7 ¡V 2019/12          (§Þ³N)±M®×¸g²z (Technical Manager) Project Manager     

³Ð±©¬ì§Þ Genesys Loigc Inc., Taiwan

2013/11¡V2019/06          ¤uµ{®v Engineer                                                                                           

¤u¬ã°| Industrial Technology Research Institute, Taiwan

2012/1 ¡V 2013/10          ¸ê²`¤uµ{®v Senior Engineer                                                                              

¥ß¿n¹q¤l Richwave Technology Corp., Taiwan

2010/4 ¡V 2011/1            ³X½Í¾ÇªÌ Visiting Scholar in Electrical Engineering                     

¥[¦{¤j¾Çº¸ÆW¤À®Õ University of California, Irvine, U.S.

¾Ç³NµÛ§@ (Publications)

A. ´Á¥Z½×¤å (Selected Journal Papers)

[A1]  J. F. Chang, and Y. S. Lin, ¡§3.8-mW 26¡V29 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 £f/9-TL-Based-£f/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¡VOxide¡VSemiconductor 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¡V23.7-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¡V29.7 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¡V11.9 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-£gm 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¡Ó0.25 dB NF and 18.1¡Ó1.9 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 ƒÝm 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 ƒÝm 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¡BConference Papers(¬ã°Q·|½×¤å)

[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]  §õ«C峯¡B¸­¦t§Q¡BÁ¤åÍÁ¡B³¯¤Dºû¡B±iÀAªk¡B³¯«T¤¯¡B¬IªQ¦ö¡B§õ²»ºû¡A"¤@¿é¤J½d³ò-1.5V~8V¡B1.6GHz ¦ì¤¸³t²v®t°Ê«¬µ¡¤f¤ñ¸û¾¹"¡A¥xÆWºë±K¤uµ{¬ã°Q·|¡ATPTW2017¡App. 266-269¡A2017¦~11¤ë¡C

[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¡Ó0.3 dB NF, 10.5¡Ó1.4 dB Gain and ¡Ó13.8 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 £gm 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¡Ó0.25 dB NF and 18.1¡Ó1.9 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¡BPatents (±M§Q)

[C1] J. F. Chang, Y. S. Lin¡A" TRANSISTOR AND AMPLIFIER THEREOF"¡AUnited State Patent ¡AÃҮѸ¹¼Æ¡GUS 11699980 B2 (¤½§i¤é¡G112¦~07¤ë11¤é)

[C2] ±iÀAªk¤ÎªL¦öª@¡A"¹q´¹Åé¤Î¨ä©ñ¤j¾¹"¡A¤¤µØ¥Á°ê±M§Q¡AÃҮѸ¹¼Æ¡G I785757  (¤½§i¤é¡G111¦~12¤ë01¤é)¡C

[C3]§õ«C®p¤Î±iÀAªk¡A"¿é¤J½w½Ä¾¹¤Î¨äÂø°T®ø°£¤èªk"¡A¤¤µØ¥Á°ê±M§Q¡AÃҮѸ¹¼Æ¡G I659616  (¤½§i¤é¡G108¦~5¤ë11¤é)¡C

[C4] ±iÀAªk¤ÎªL¦öª@¡A"°ª¼W¯q§CÂø°T©ñ¤j¾¹"¡A¤¤µØ¥Á°ê±M§Q¡AÃҮѸ¹¼Æ¡GI433454 (¤½§i¤é¡G103¦~4¤ë1¤é)¡C