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New !恭喜本實驗室榮獲 113 國科會電信學門計畫優良海報展示獎 Ku頻段之射頻前端發射機關鍵積體電路設計
New !恭喜本實驗室榮獲 113 國科會電信學門計畫優良海報展示獎 Ku頻段之射頻前端發射機關鍵積體電路設計
EMAIL:chenjd@nqu.edu.tw 082313556
經歷:(起迄年月)
專任
國中教師 (89年9月起迄90年8月)
揚智科技 (90年9月起迄92年8月)
國立金門技術學院助理教授(97年8月起迄100年8月)
國立金門大學助理教授(100年8月起迄102年2月)
國立金門大學副教授(102年2月起迄107年7月)
國立金門大學教授(108年8月起迄今)
兼任
國立金門大學電子工程系系主任(106年8月起迄109年7月)
研究領域
1、射頻積體電路設計 2、類比積體電路設計
誠摯邀請對電子學、電路模擬與實務、 積體電路設計有興趣同學,加入我們,開創晶片設計的未來!
國際期刊審查委員
1. Microelectronics Journal
2. Integration, the VLSI Journal
3. Journal of Circuits, Systems, and Computers
4. Circuits, Systems, and Signal Processing Journal
5. International Journal of Electronics and Communications
6. International Journal of Circuit Theory and Applications
7. IEEE Microwave and Wireless Technology Letters
8. Journal of Circuits, Systems, and Computers
9. IEEE Transactions on Circuits and Systems I: Regular Papers
10. International Journal of Electronics
11. Analog integrated circuits and signal processing
國科會計畫
New !恭喜本實驗室榮獲 113 國科會電信學門計畫優良海報展示獎 Ku頻段之射頻前端發射機關鍵積體電路設計
New !恭喜本實驗室榮獲 113 國科會電信學門計畫優良海報展示獎 Ku頻段之射頻前端發射機關鍵積體電路設計
1. 113 年度Ku頻段之射頻前端發射機關鍵積體電路設計
2. 111年度應用於Ku頻段通訊系統前端接收機關鍵射頻積體電路設計
3. 105年度應用於超寬頻通訊系統之發射機線性度改善前置關鍵積體電路設計
4. 104年度應用於超寬頻通訊系統之接收機線性度改善前置關鍵積體電路設計
5. 101年度應用於超寬頻無線個人區域網路之低電壓低功率發射機前置積體電路
6. 100年度應用超寬頻短距離汽車雷達接收機前置積體電路
7. 099年度應用於寬頻無線個人區域網路之低電壓低功率接收機晶片設計
教育部計劃
1. 114年教育部教學實踐研究計畫 個別化與支持性教學策略應用於超大型積體電路設計導論教學 主持人。
2. 104-105年度 教育部 智慧電子跨領域應用專題系列-行動裝置電源管理系統應用 主持人。
3. 103-104年度 教育部 智慧電子跨領域應用專題系列-行動裝置電源管理系統應用 主持人。
4. 101-103年度 教育部 智慧電子跨領域應用專題系列-行動裝置電源管理系統應用 共同主持人。
5. 教育部RFID資訊應用與安全人才培育先導型計畫98-99年度RFID資訊應用與安全學程計畫 共同主持人。
6. 教育部顧問室前瞻晶片系統設計(SoC)學程計畫98-99年度積體電路佈局與雛型系統設計(PAL)學程計畫 共同主持人。
指導學生榮譽
1. 指導學生參加2025 光電與通訊工程應用研討會最佳論文獎 作者 魏政耀、陳俊達
2. 指導學生參加2025 智慧生活科技研討會(積體電路設計組)佳作獎 作者 范宗慶、陳俊達
3. 指導學生參加2024 智慧生活科技研討會積體電路設計 最佳論文獎 作者 吳定鴻、陳俊達
4. 指導學生參加2023 全國電信研討會 最佳論文獎 作者 賴冠佑、陳俊達
5. 指導學生參加2022 智慧生活科技研討會積體電路設計 佳作論文獎 作者 梁聖玄、陳俊達
6. 指導學生參加2020光電與通訊工程應用研討會 優秀論文獎 作者吳佳祐、陳俊達
7. 指導學生參加2019光電與通訊工程應用研討會 最佳論文獎 作者 鄭繕譯、陳俊達
8. 指導學生參加2017 智慧生活科技研討會積體電路設計 最佳論文獎 作者 簡孟楷、陳俊達
9. 指導學生參加2016 光電與通訊工程應用研討會 海報優秀論文獎 作者 錢嘉賓、陳俊達
10. 指導學生參加2013 光電與通訊工程應用研討會 優秀論文獎 作者 呂士聖、陳俊達
期刊
1. Jun-Da Chen, Zhao-Ping Zeng, “Analysis and Design of Marchand Balun and Its Application in CMOS Down-Conversion Mixers for Satellite Network Receivers,” Integration, the VLSI Journal, February 2026. (SCI full paper; corresponding author) Q2
2. Jun-Da Chen, Liang-Chung Shen, “An S to Ku band Wideband Low-Voltage Low-Power Up-Conversion Mixer in 0.18-μm CMOS technology, ” Integration, the VLSI Journal, vol. 106, January 2026. (SCI full paper; corresponding author) Q2
3. Jun-Da Chen, Shan-Yi Cheng, “ A High Isolation 16–19 GHz Down-Conversion Mixer in 0.18-μm SiGe Bi-CMOS, ” Integration, the VLSI Journal, vol. 102, May 2025. (SCI full paper; corresponding author)Q2
4. Jun-Da Chen, Jia-Yu Wu, “ A 24–30 GHz Wideband, Low Voltage, Low-Power Down-Conversion Mixer in 0.18-μm SiGe Bi-CMOS Technology, ” Circuits Syst Signal Process, March 2025. (SCI full paper; corresponding author) Q3
5. Jun-Da Chen, Zhi-Xiang Chen, “An Ultra-Wideband Low-Voltage High-Gain Up-conversion CMOS mixer in CMOS 0.18-µm Technology for 3–16 GHz,” International Journal of Circuit Theory and Applications, March 2025. (SCI full paper; corresponding author) Q3
6. Jun-Da Chen, Jia-bin Qian, “ A Highly Linear, Low Power, Highly Efficient, CMOS Wideband Power Amplifier for 2–5 GHz Wireless Communications, ” Circuits Syst Signal Process, vol. 43, pp. 4691–4714 2024. (SCI full paper; corresponding author) Q3
7. Jun-Da Chen, Meng-Kai Jian, “A 1–18-GHz High-Gain and Low-Voltage Down-Conversion Mixer in 0.18-μm CMOS Technology, ” in IEEE Access, vol. 11, pp. 120944-120954, 2023. (SCI full paper; corresponding author) Q2
8. Jun-Da Chen, Zhi-Xiang Chen, “A 2.8–10 GHz CMOS Current Reuse Cascaded Linearity Improving Ultra-Wideband Low Noise Amplifier,” Circuits Systems and Signal Processing, vol. 42, pp. 5091–5107, 2023. (SCI full paper; corresponding author) Q3
9. Jun-Da Chen, Meng-kai Jian, “A 1.5–7 GHz wideband low-voltage low-power switched transconductor up-conversion mixer,” AEU - International Journal of Electronics and Communications, vol. 134, May 2021,153681. (SCI full paper; corresponding author) Q2
10. Jun-Da Chen, Jia-bin Qian, and Sheng-yi Huang, “A Low-Noise and High-Gain Folded Mixer for a UWB System in 0.18-μm SiGe Bi-CMOS Technology, ”IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 2, pp. 612–616, Feb. 2021. (SCI; corresponding author) Q1
11. Jun-Da Chen and Jia-bin Qian,“Low-power up-conversion folded CMOS mixer for 2–12 GHz ultra-wideband applications,” IET Microwaves, Antennas & Propagation, vol. 14, no. 15, pp. 1975–1982, December 2020. doi: 10.1049/iet-map.2020.0287. (SCI full paper; corresponding author) Q3
12. Jun-Da Chen and Wen-Jun Wang, “A K-Band Low-Noise and High-Gain Down-Conversion Active Mixer Using 0.18-µm CMOS Technology,” Wireless Personal Communications, vol. 104, no.1, pp. 407–421, Jan. 2019. doi: 10.1007/s11277-018-6027-4. (SCI full paper; corresponding author)
13. Jun-Da Chen and Wen-Jun Wang, “ A 1.5~5 GHz CMOS broadband low-power high-efficiency power amplifier for wireless communications, Integration, the VLSI Journal, vol. 63, pp.167–173, Sept. 2018. doi: 10.1016/j.vlsi.2018.07.003 (SCI full paper; corresponding author)
14. Jun-Da Chen and Jie Zhang, “ A 0.7V 6.66–9.36 GHz Wide Tuning Range CMOS LC VCO With Small Chip Size,” International Journal of Electronics, vol. 104, no.10, pp. 1763–1776, May 2017. doi 10.1080/00207217.2017.1326173 (SCI full paper; corresponding author) (NSC 100-2221-E-507-003)
15. Jun-Da Chen and Song-Hao Wang, “A Low-Power, High-Gain, and Low-Noise 802.11a Down-Conversion Mixer in 0.35-µm SiGe Bi-CMOS Technology,” Journal of Circuits, Systems, and Computers, vol. 26, no.9, 1750134, September 2017. (SCI full paper; corresponding author) doi: 10.1142/S0218126617501341 (99-2221-E-507-005)
16. Jun-Da Chen and Song-Hao Wang, “A Low-Power and High-Gain Ultra-Wideband Down-Conversion Active Mixer in 0.18-µm SiGe Bi-CMOS Technology,” Circuits Systems and Signal Processing, vol. 36, no.7, pp.2635–2653, July. 2017. (SCI full paper; corresponding author) (99-2221-E-507-005)
17. Jun-Da Chen and Cheng-Kai Ye, “Design of a CMOS bandgap Reference Circuit with a Wide temperature Range, High Precision and Low temperature coefficient,” Journal of Circuits, Systems, and Computers, vol. 23, no.8, pp.1–17, Jan. 2014. (SCI full paper; corresponding author) (101-2221-E-507-006)
18. Jun-Da Chen, “A Low-Voltage Ultra-Wideband Down-Conversion Mixer With Improved Power Conversion Gain,” International Journal of Electronics, vol. 98, no. 8, pp.1055–1073, August 2011. (SCI full paper; corresponding author) (NSC 99-2221-E-507 -005)。
19. Jun-Da Chen, “A Low-Power Ultrawideband Low-Noise Amplifier in 0.18 𝜇m CMOS Technology,”Active and Passive Electronic Components, pp.1–10, November 2013. (EI full paper; corresponding author) (NSC 99-2221-E-507 -005)
20. Jun-Da Chen, “A Low-Voltage High-Linearity Ultra-Wideband Down-Conversion Mixer in 0.18-μm CMOS Technology,” Microelectronics Journal, vol. 42, no.1, pp.113–126, Jan. 2011. (SCI full paper; corresponding author)
21. Jun-Da Chen, Zhi-Ming Lin and Jeen-Sheen Row, “A 5.25-GHz low-power down-conversion mixer in 0.18-μm CMOS technology,” Journal of Analog Integrated Circuits and Signal Processing, vol. 62, no.3, pp.301–312, March 2010. (SCI full paper; corresponding author
22. Jun-Da Chen, Zhi-Ming Lin and Jeen-Sheen Row, “A 2-GHz low–power down-conversion mixer in 0.18-μm CMOS technology,” IEICE Trans. on Electronics, vol. e91-c, no.1, pp.64-71, Jan. 2008. (SCI correspond author full paper)
研討會
1. Ren-You Cai, Jun-Da Chen,“ Integrated Design of a Low-Noise Amplifier and Mixer Circuit for 17.7–20.2 GHz Applications,” Proceedings of the 19th Intelligent Living Technology, Taichung, Taiwan, 283–286, Jun. 2025.
2. Cheng-Yao Wei, Jun-Da Chen,“ The up-converting mixer and balun combination for 10 to 16 GHz,” Proceedings of the 19th Intelligent Living Technology, Taichung, Taiwan, 540–543, Jun. 2025.
3. Zong-Qing Fan, Jun-Da Chen,“A High-Efficiency Three-Stage GaN Power Amplifier for Ku-Band Uplink Transmitters,” Proceedings of the 19th Intelligent Living Technology, Taichung, Taiwan, 540–543, Jun. 2025.
4. Bo-Song Yang, Jun-Da Chen,“Up-conversion mixer with a combining balun and gm-boosted for Ku-Band applications,” Proceedings of the 19th Intelligent Living Technology, Taichung, Taiwan, 288–292, Jun. 2025.
5. Zhi-Qiang Zeng, Jun-Da Chen,“Ku-band 13~18 GHz broadband GaN power amplifier utilising microstrip power combining technology,” Proceedings of the 19th Intelligent Living Technology, Taichung, Taiwan, 325–328, Jun. 2025.
6. Cheng-Yao Wei, Jun-DA Chen, “ CMOS power amplifier design of IOT 2.4GHz to 7.2GHz,” Proceedings of the 2025 Conference on Photonics and Communications, Kaohsiung, Taiwan, Nov. 2025.
7. Bo-Song Yang, Jun-DA Chen, “Power amplifier for 2.4G/5~6G IOT applications,” Proceedings of the 2025 Conference on Photonics and Communications, Kaohsiung, Taiwan, April 2025.
8. Zhi-Qiang Zeng, Jun-Da Chen,“ A CMOS Variable-Gain Power Amplifier for 2.4 to 7.2 GHz IOT Application,” Proceedings of the 2025 National Telecommunications Symposium, Taoyuan, Taiwan, January 2025.
9. Zong-Qing Fan, Jun-Da Chen,“ Diode-Linearized Broadband Power Amplifier Design for IoT,” Proceedings of the 2025 National Telecommunications Symposium, Taoyuan, Taiwan, January 2025.
10. Ding-Hong Wu, Jun-Da Chen, “High linearity power amplifier design for 60 GHz CMOS 90-nm,” Proceedings of the 18th Intelligent Living Technology, Taichung, Taiwan, 540–543, Jun. 2024.智慧生活科技研討會最佳論文獎
11. Jia-you Wu, Jun-Da Chen,“A 0.18µm CMOS Transformer-Coupled Low Noise Amplifier for 5th Generation Mobile Communication Systems,” Proceedings of the 17th Intelligent Living Technology, Taichung, Taiwan, Jun. 2023.
12. Guan-You Lai, Jun-Da chen,“Design of CMOS Low Noise Amplifier for 5G Applications,” Proceedings of the 2023 National Telecommunications Symposium, Taoyuan, Taiwan, January 2023. 全國電信最佳論文獎
13. Xi-Yu Jin, Jun-Da chen,“Design of Low Noise Amplifier for Ka-band 21-31GHz,” Proceedings of the 2023 National Telecommunications Symposium, Taoyuan, Taiwan, January 2023.
14. Sheng-Xuan Liang, Jun-Da chen,“ A down-conversion mixer using 90-nm CMOS process for 6.7~12.7GHz applications,” Proceedings of the 2023 National Telecommunications Symposium, Taoyuan, Taiwan, January 2023.
15. Ding-Hong Wu, Jun-Da chen,“ Low-voltage and low-power Utilizing the Body Effect down-conversion mixer for 17.8~19.3GHz,” Proceedings of the 2023 National Telecommunications Symposium, Taoyuan, Taiwan, January 2023.
16. Sheng-Xuan Liang, Jun-Da Chen,“ A CMOS 0.18μm power amplifier for 5~10 GHz,” Proceedings of the 16th Intelligent Living Technology, Taichung, Taiwan, Jun. 2022.
17. Ding-Hong Wu, Jun-Da chen,“ 24 GHz 0.18-µm CMOS High Linearity Power Amplifier,” Proceedings of the 20th Information Technology and Applications in Outlying Islands, Penghu, Taiwan, May 2022.
18. Xi-Yu Jin, Jun-Da chen,“ A 0.18 μm CMOS Linearity Low Noise Amplifer for 14~19 GHz,” Proceedings of the 20th Information Technology and Applications in Outlying Islands, Penghu, Taiwan, May 2022.
19. Guan-You Lai, Jun-Da chen,“A 0.18 μm CMOS Low-Noise Amplifier Low Orbit Satellite Communications System for Ku-Band,” Proceedings of the 20th Information Technology and Applications in Outlying Islands, Penghu, Taiwan, May 2022.
20. Zhao-ping Zeng, Jun-Da Chen, A Receiver front-end circuit for Ku-Band,” Proceedings of the 20th Information Technology and Applications in Outlying Islands, Penghu, Taiwan, May 2022.
21. Zhao-ping Zeng, Jun-Da Chen,“ A 0.18μm CMOS down-conversion mixer for 12~20GHz,” Proceedings of the 2021 Conference on Photonics and Communications, Kaohsiung, Taiwan, Nov. 2021.
22. Zhao-ping Zeng, Jun-Da Chen,“ A 0.18μm CMOS power amplifier for X-band 10.5GHz,” Proceedings of the 15th Intelligent Living Technology, Taichung, Taiwan, Jun. 2021.
23. Jia-you Wu, Jun-Da chen,“ A 0.18 μm BiCMOS down-conversion Folded down-conversion mixer for Fifth Generation Mobile Communication System,” Proceedings of the 19th Information Technology and Applications in Outlying Islands, Kinmen, Taiwan, May 2021.
24. Zhong-wei Zhang, Jun-Da Chen,“ A 0.18 μm CMOS low-voltage quadrature VCO for 4.4-6.1GHz band,” Proceedings of the 19th Information Technology and Applications in Outlying Islands, Kinmen, Taiwan, May 2021.
25. Zi-hao Shen, Jun-Da chen,“ A dual-band CMOS 0.18 voltage controlled oscillator for X and Ku band ,” Proceedings of the 19th Information Technology and Applications in Outlying Islands, Kinmen, Taiwan, May 2021.
26. Jia-you Wu, *Jun-DA Chen, “A Low Noise Amplifier Using 0.18-μm CMOS Technology For 5th Generation Mobile Communication System,” Proceedings of the 2020 Conference on Photonics and Communications, pp 1-4, Kaohsiung, Taiwan, Nov. 2020
27. Zheng Shan-Yi, *Jun-DA Chen, “A 21-25 GHz Power Amplifier Using 0.18-μm CMOS Technology,” Proceedings of the 2019 Conference on Photonics and Communications, pp 1-4, Kaohsiung, Taiwan, Nov. 2019.
28. Liang-Zhong Shen,*Jun-DA Chen, “A 24~28GHz CMOS 0.18μm down-converter mixer,” Proceedings of the 18th Information Technology and Applications in Outlying Islands, pp 218-221, Taichung, Taiwan, May 2019.
29. Zhi-Xiang Chen,*Jun-DA Chen, “A UWB and Ku-Band Up-conversion Mixer,” Proceedings of the 18th Information Technology and Applications in Outlying Islands, pp 222-225, Taichung, Taiwan, May 2019.
30. Liang-Zhong Shen, Jun-DA Chen, “A CMOS Low Noise Amplifier for KU Band Applications,” 16th Conference on Microelectronics Technology and Applications, pp 211-215, Kaohsiung, Taiwan, May 2018.
31. Zhi-Xiang Chen, Jun-DA Chen, “A Low Noise Amplifier for 3.1GHz~10.6GH,” 16th Conference on Microelectronics Technology and Applications, pp 234-239, Kaohsiung, Taiwan, May 2018.
32. Meng-Kai Jian, Jun-DA Chen, “A 2 ~ 18GHz CMOS 0.18μm down-converter mixer for UWB and Ku-Band system,” Proceedings of the 13th Intelligent Living Technology, pp 1-5, Taichung, Taiwan, Jun. 2018.
33. Jia-Bin Qian, Jun-Da Chen, “A Applied to Ku band and UWB communication, 6.6~22.3 GHz down-mixer,” Proceedings of the 13th Intelligent Living Technology, pp 1-5 ,Taichung, Taiwan, Jun. 2018.
34. Meng-Kai Jian, *Jun-DA Chen, “2 ~ 5GHz up-mixer using MGTR technology to enhance the linearity,” Proceedings of the 2017 Conference on Photonics and Communications, pp 247-252, Kaohsiung, Taiwan, Dec. 2017. (MOST 105-2221-E-507-006) (correspond author)
35. Jia-Bin Qian, *Jun-Da Chen, “A 2~10.3 GHz Up-Mixer with Inverter Amplifier Architecture,” Proceedings of the 2017 Conference on Photonics and Communications, pp 361-364, Kaohsiung, Taiwan, Dec. 2017. (MOST 105-2221-E-507-006) (correspond author)
36. Meng-Kai Jian, *Jun-DA Chen, “Study of improving linearity CMOS Low-Noise Amplifier for UWB Applications,” Proceedings of the 12th Intelligent Living Technology, Taichung, Taiwan, Jun. 2017. (MOST 105-2221-E-507-006) (correspond author)
37. Jia-Bin Qian, *Jun-Da Chen, “A 2–7 GHz CMOS Power Amplifier design for UWB applications,” Proceedings of the 12th Intelligent Living Technology, Taichung, Taiwan, Jun. 2017. (MOST 105-2221-E-507-006) (correspond author) (MOST 105-2221-E-507-006) (correspond author)
38. Meng-Kai Jian, *Jun-DA Chen, “A 3-10 GHz CMOS High Linear Low-Noise Amplifier for Ultra wideband Applications,” Proceedings of the 2016 Conference on Photonics and Communications, Kaohsiung, Taiwan, Dec. 2016, pp 292-296. (MOST 105-2221-E-507-006) (correspond author)
39. Jia-Bin Qian, *Jun-Da Chen, “High Efficiency CMOS Power Amplifier for 3 to 6 GHz Ultra-Wideband (UWB) Application,” Proceedings of the 2016 Conference on Photonics and Communications, Kaohsiung, Taiwan, Dec. 2016, pp 364-369. (MOST 105-2221-E-507-006) (correspond author)
40. *Jun-da Chen, Nan-kai Wang, “A 3-11 GHz Current-Reuse LNA for Ultra wideband Applications,” Proceedings of the 11th Intelligent Living Technology, Taichung, Taiwan, Jun. 2016, pp 309-312. (MOST 105-2221-E-507-006) (correspond author)
41. *Jun-da chen, Hao-cheng Fang, “A Low-power 2.4-8 GHz CMOS Power Amplifier for Ultra wideband Applications,” 2015 Conference on Innovative Electronics Design and Applications, Kaohsiung, Taiwan, Nov. 2015. (MOST 104-2221-E-507-006) (correspond author)
42. Jun Da Chen, “A 3-5GHz VCO Using Source Capacitive Degeneration technology for wideband Applications,” The 10th Intelligent Living Technology Conference, Taichung, Taiwan, Jun. 2015. (MOST 104-2221-E-507-006)
43. Ho Chen Yu and *Jun-Da Chen, “ A 12~18 GHz Low-Noise Amplifier Design for Ku-Band, ” Proceedings of the 2014 Conference on Innovative Electronics Design and Applications, kaohsiung, Taiwan, December 2014. (correspond author)
44. Jie Zhang and *Jun-Da Chen, “ A Low Voltage 0.7 V VCO for Ultra-wideband Applications,” Proceedings of the 7th Electronic Technology Symposium, pp. 269−272, kaohsiung, Taiwan, May 2014. (NSC 100-2221-E-507 -003) (correspond author)
45. Wen-Jun Wang and *Jun-Da Chen, “A 21~26 GHz Low-Noise Amplifier Design for K-Band, ” Proceedings of the 2013 Conference on Innovative Electronics Design and Applications, pp.250−253, Taichung, Taiwan, December 2013. (NSC101-2221-E-507 -006) (correspond author)
46. Shih-Sheng Lu and *Jun-Da Chen, “A CMOS 0.35μm Current compensated bandgap voltage reference circuit, ”Proceedings of the 2013 Conference on Photonics and Communications, pp. 12−17, kaohsiung, Taiwan, November 2013. (NSC101-2221-E-507 -006) (correspond author)
47. Sheng-Yi Huang and *Jun-Da Chen, “A Low-Phase Voltage-controlled oscillator Design for K-Band, ” Proceedings of the 2013 Conference on Photonics and Communications, pp. 291−294, kaohsiung, Taiwan, November 2013. (NSC101-2221-E-507 -006) (correspond author)
48. Yi-Jhe Syu and *Jun-Da Chen, “Ultra-wideband CMOS Current-Reused VCO,” Proceedings of the 7th Intelligent Living Technology, pp. 794−797, Taichung, Taiwan, June 2012. (NSC 100-2221-E-507-003) (correspond author)
49. Guan-Lin Guo and *Jun-Da Chen, “10G Bandwidth Ultra-Wideband Low Noise Amplifier,” Proceedings of the 7th Intelligent Living Technology, pp. 798−801, Taichung, Taiwan, June 2012. (NSC 100-2221-E-507-003) (correspond author)
50. *Jun-Da Chen , Yu-Rong Hu, and Wen-Jun Wang, “1.2 V CMOS 0.18 μm Bandgap Reference Circuit,” Proceedings of the 2012 Consumer Electronics , pp. 68−72, Zhongli, Taiwan, May 2012. (NSC 100-2221-E-507-003) (correspond author)
51. Jie Jhang and *Jun-Da Chen, “Ultra-Wideband Voltage -Controlled Oscillator for Low-Power using SiGe BiCMOS Technology,” Proceedings of the 11th Information Technology and Applications in Outlying Islands, pp. 713−716, Penghu, Taiwan, May 2012. (NSC 100-2221-E-507-003) (correspond author)
52. Wen-Jun Wang and *Jun-Da Chen, “Ultra-Wideband up conversion mixer for Low-Voltage Low Power using CMOS 0.18-µm Technology,” Proceedings of the 11th Information Technology and Applications in Outlying Islands, pp. 713−716, Penghu, Taiwan, May 2012. (NSC 100-2221-E-507-003) (correspond author)
53. 吳哲侖、陳建伸、王文俊、*陳俊達, “CMOS 脈波頻寬調變電源管理積體電路”,第五屆智慧型系統工程應用研討會, May 4, 2011。(NSC 99-2221-E-507 -005) (correspond author)
54. 陳俊達, “低電壓低功率高線性雙平衡下轉UWB混波器”, 2011電子通訊與應用學術研討會, pp. 352–356 , May 20, 2011。(NSC 99-2221-E-507 -005)
55. 陳俊達, “低電壓高增益UWB雙平衡吉伯爾下轉混頻器”, 第六屆智慧生活科技研討會, pp. 791–795, June 3, 2011。(NSC 99-2221-E-507 -005)
56. 葉丞凱、*陳俊達, “CMOS溫度補償參考電路設計”, 第六屆智慧生活科技研討會, pp. 786–790, June 3, 2011。(NSC 99-2221-E-507 -005) (correspond author)
57. 李宇超、鄭志豪、洪集輝、*陳俊達, “無線射頻識別技術應用於公文管理系統” , 2011年資訊服務與創新應用學術研討會, pp. 154–161, April 26, 2011。(correspond author)
58. 鄒凱帆、*陳俊達、洪集輝 、鄭志豪, “UHF RFID應用於點名系統” , 2011資訊科技應用學術研討會, pp. 133–136, April 29, 2011。(correspond author)
59. 李明育、謝佳君、鄭志豪、*陳俊達, “RFID 豬隻餵養管理應用模擬”,第五屆智慧型系統工程應用研討會, May 4, 2011。(correspond author)
60. *陳俊達、王松豪、洪集輝, “應用在 IEEE 802.11a 之低功率、低雜訊降頻混波器”, 2010 系統雛型與電路設計創新應用研討會, pp. 192–196, Oct.15, 2010。(correspond author)
61. Jun-Da Chen, “A Low Voltage Mixer With Improved Power Conversion Gain,” Proceedings of the 8th Information Technology and Applications in Outlying Islands, pp. 713−716, May 2009.
62. Jun-Da Chen, “A Low-Power CMOS Low Noise Amplifier for Ultra-Wideband Applications,” Proceedings of the 7th Microelectronics Technology and Applications, pp. 473−478, May 2009.
63. Jun-Da Chen and Zhi-Ming Lin, “A low-power and high-linear double-balanced switching mixer,” Proceedings of the 16th ACM Great Lakes symposium on VLSI, pp. 131−134, April 2006.(EI) (correspond author)
64. Jun-Da Chen and Zhi-Ming Lin, “2.4 GHz high IIP3 and low-noise down-conversion Mixer,” Proceedings of the 2006 IEEE Asia Pacific Conference on Circuits and Systems, Singapore, pp. 37−40, December 2006. (EI) (correspond author)
65. Jun-Da Chen and Zhi-Ming Lin, “A low-power performance of double balanced down-conversion Mixer,” Proceedings of the 4th International Conference on Communications, Circuits and Systems, pp. 2625−2628, June 2006. (EI) (correspond author)
66. Jun-Da Chen and Zhi-Ming Lin, “A low-power and low-noise double-balanced switching down-conversion Mixer,” Proceedings of the International Conference on Computer and Communication Engineering, pp. 1155−1158, May 2006. (correspond author)
榮譽
榮穫2008 CIC晶片製作成果發表會優良晶片 「佳作設計獎」。
專利
陳俊達、林志明 “無線通訊系統之混頻器”;專利證書號碼:I313099;專利申請國家:Republic of China (Taiwan) (中華民國) 98。
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