Chau
Ching CHIONG 章朝盛
For
Cryogenic Low Noise Amplifier survey, please visit here.
研究興趣
Research
interest:
Astronomical
Instrumentation:
Large-array and focal-plane
array receiver front-end system
Radio astronomical
receiver components using microwave and millimeter IC (MMIC) up to 300 GHz:
Wide tuning range
voltage-controlled oscillator (VCO)
Wideband phase-locked
loop (PLL) system
Broadband frequency
multipliers with low harmonics
Wideband power
amplifier (PA)
Cryogenic low-noise
Amplifier (LNA)
Extremely low
power LNA
Wideband mixers
Passive
components:
Wideband orthomode
transducer
Broadband transmission
line transition
Astronomical
research: Investigating star
formation and magnetic fields via Zeeman observation.
學經歷
l
2010- 中央研究所天文與天文物理研究所特殊性約聘技術人員
2012- ALMA 第一頻段接收機系統工程師
l
2001至2010: 中央研究所天文與天文物理研究所博士後研究
2005-2006: NRAO (NTC) 訪問學者
l
2003至2004: 德國波昂馬克思‧普朗克電波天文研究所博士後研究。
l
2000至2003: 德國波昂馬克思‧普朗克電波天文研究所(MPIfR Bonn),毫米波與次毫米波天文組。博士論文:“Zeeman
Measurements using SO(10-01) Transition and Heterodyne
Observations towards the W51 Region”,指導教授:Prof. Dr. K. M. Menten
(MPIfR)與Prof. Dr. U. Klein (
l
1999至2000: 中央研究院原子與分子研究所,星際化學實驗室研究助理,實驗室主持人:Dr.
l
1997至1999: 台灣大學電信所電波組。碩士論文:應用有限元素法求解任意截面之波導不連續問題,指導教授:吳瑞北教授。
l
1993至1997: 台灣大學電機系
Education:
l 2000 to 2003: Millimeter and Submillimeter
Astronomy Group of the Max-Planck-Institut für Radioastronomie (MPIfR) in Bonn,
Germany.
Ph. D. degree in Astronomy (Nov. 2003, Univ. Bonn)
Title: “Zeeman Measurements using SO(10-01)
Transition and Heterodyne Observations towards the W51 Region”
Advisor: Dr. Rolf Güsten, Dr. Dirk Muders
l 1997 to 1999: Electromagnetic Wave Group at
Graduated Institute of Communication Engineering, National Taiwan University, Taiwan.
M.
S. degree in Communication Engineering (Jun. 1999)
Advisor:
Prof. Ruey-Beei Wu
l 1993 to 1997: Department of Electrical
Engineering, National Taiwan University,
Taiwan. B.Sc. degree in Electrical Engineering (Jun. 1997)
Working Experience:
l
2010- : Specialist
at ASIAA
l
2012- :
System engineer in ALMA Band 1 project
l 2004 to 2010 : Postdoctoral Researcher at ASIAA
l
2005-2006: Visiting scholar at NRAO Technical Center (NTC)
l
2003 to 2004 : Postdoctoral
Researcher at MPIfR (Group leader: Prof. Karl Menten)
l
1999 to 2000 : Research
assistant in the Interstellar Chemistry Laboratory (Group leaders: Dr. Ralf
Kaiser and Dr. Yuan-Tseh Lee) at the Institute of Atomic and Molecular Sciences
(IAMS), Academia Sinica, Taiwan
Award:
l
Best
Paper Award, Global Symposium on Millimeter Waves (GSMM)
2019.
Title: “An 18-28 GHz Power Amplifier with Drain-Distorted
Linearizer in 90 nm CMOS Process”
l
Best
Paper Award, Radio-Frequency Integration Technology
(RFIT) Conference 2015.
Title: “A High Gain Broadband LNA in GaAs 0.15-μm pHEMT Process using
Inductive Feedback Gain Compensation for Radio Astronomy Applications”
l
Best
Paper Award, Asia-Pacific Microwave Conference (APMC)
2013.
Title: “Cryogenic 8-18 GHz MMIC LNA using GaAs PHEMT”
著作
Publications
Peer
Review Journals
l
Y. Chen, C.-N. Chen, C.-C. Chiong, and H.
Wang, “A Compact 40-GHz Doherty Power Amplifier with 21% PAE at 6-dB Power Back
Off in 0.1-μm GaAs pHEMT,” IEEE Microwave and Wireless Components Letters
(MWCL), vol. 29 no. 8, Aug. 2019, pp. 545-547.
l J.-H. Hu, C.-C. Chiong, Y.-J. Hwang, and
Z.-M. Tsai, “E-Band Mixer with IP1dB Design Consideration for Radio
Astronomical Instrumentation,” to be published in IEEE Microwave and Wireless Components Letters (MWCL), 2018.
l
Y. C. Wu, C.-C. Chiong, J.-H. Tsai, H.
Wang, “A Novel 30–90-GHz Singly Balanced Mixer with Broadband LO/IF,” IEEE Transactions on Microwave Theory and
Techniques (MTT), vol. 64, no. 12, Dec. 2016, pp. 4611-4623.
l
H.-C. Yeh, C.-C. Chiong, M.-T. Chen, and H.
Wang, “Advances in Silicon Based Millimeter-Wave Monolithic Integrated
Circuits,” Micromachines, vol. 5,
no.4, 2014, pp. 1373-1415.
l H.-C. Yeh,
C.-C. Chiong, M.-T. Chen, and H. Wang, “Review of Millimeter-wave MMIC
Mixers,” IEEE Design & Test, vol.
31, no. 6, Dec. 2014, pp. 38-45.
l J.-C.
Kao, K.-Y. Lin, C.-C. Chiong, C. Y. Peng and H. Wang, “A W-band High
LO-to-RF Isolation Triple Cascode Mixer with Wide IF Bandwidth,” IEEE Transactions on
Microwave Theory and Techniques (MTT), vol. 62, no. 7, Jul.
2014, pp. 1506-1514.
l H.-C.
Yeh, S. Aloui, C.-C. Chiong and H. Wang, “A Wide Gain Control Range
V-band CMOS Variable-Gain Amplifier with Build-in Linearizer,” IEEE Transactions on Microwave
Theory and Techniques (MTT), vol. 61, no. 2, Feb. 2013,
pp. 902-913.
l H.-C.
Yeh, C.-C. Chiong, S. Aloui and H. Wang, “Analyses and Design
Millimeter-Wave Low Voltage CMOS Cascode LNA with Magnetic Coupled technique,” IEEE Transactions on Microwave
Theory and Techniques (MTT), vol. 60, No. 12, Dec. 2012,
pp. 4066-4079.
l S.-H. Weng, H.-Y. Chang and C.-C. Chiong, “Gain-Bandwidth
Analysis of Broadband Darlington Amplifiers in HBT-HEMT Process,” IEEE Transactions on Microwave Theory and
Techniques, Vol. 60, No. 11, Nov. 2012, pp. 3458-3473.
l B.-J.
Huang, K.-Y. Lin, C.-C. Chiong and H. Wang, “Novel High Robustness RF
ESD Protection Circuits Applied to 5.8-GHz GaAs-Based HBT Amplifiers,” IEEE Transactions on Microwave Theory and
Techniques, Vol. 59, No. 3, Mar. 2011, pp. 687-698.
l S.-H.
Weng, H.-Y. Chang, and C.-C. Chiong, “A DC-21 GHz Low Imbalance Active Balun using
Darlington Cell Technique for High Speed Data Communications”, IEEE Microwave and Wireless Components
Letters, Nov. 2009, pp. 728-730.
l J.-J.
Kuo, Z.-M. Tsai, P.-C. Huang, C.-C. Chiong, K.-Y. Lin, and H. Wang, “A
Wide Tuning Range Voltage Controlled Oscillator using Common-Base Configuration
and Inductive Feedback,” IEEE Microwave
and Wireless Components Letters, Oct. 2009, pp. 653-655.
l Y.-S.
Lin, Y.-S. Hsieh, C.-C. Chiong, and Y.-J. Hwang, “Q-Band GaAs Bandpass
Filter Designs for ALMA Band-1,” IEEE
Microwave and Wireless Components Letters, June 2009, pp.353-355.
l H.-Y.
Chang, S.-H. Weng and C.-C. Chiong, “A 30-50 GHz Wide Modulation
Bandwidth Bidirectional BPSK Demodulator/Modulator with Low LO Power,” IEEE Microwave and Wireless Components
Letters, May 2009, pp. 332-334.
l J. Lee,
R.-B. Lai, C.-C. Chen, C.-S. Lin, K.-Y. Lin, C.-C. Chiong, and H. Wang,
“Low Insertion-Loss Single-Pole–Double-Throw Reduced-Size Quarter-Wavelength
HEMT Bandpass Filter Integrated Switches,” IEEE
Transactions on Microwave Theory and Techniques, Vol. 56, No. 12, Dec.
2008, pp. 3028-3038.
l R. I.
Kaiser, C.-C. Chiong, O. Asvany, Y. T. Lee, F. Stahl, P. v. R. Schleyer,
and H. F. Schaefer, “Chemical dynamics of d1-methyldiacetylene (CH3CCCD;
X1A1’) and d1-ethynylallene (H2CCCH(C2D);
X1A') formation from reaction of C2D(X2S+) with
methylacetylene, CH3CCH(X1A1’),” J. Chem. Phys. 114, 2001, pp. 3488-3496.
Conference
l
K.-C. Chang, B.-Z. Lu, Y. Wang, C.-C. Chiong,
and H. Wang, “A Broadband, Low Power Low Noise Amplifier with 83% Fractional
Bandwidth for Radio Astronomical Receivers in 65-nm CMOS,” accepted by
Asia-Pacific Microwave Conference (APMC), Dec. 2020, Hong-Kong.
l Y.-C.
Wu, Y.-J. Hwang, C.-C. Chiong, B.-Z. Lu, and H. Wang, “A 40-nm
CMOS Mixer with 36-GHz IF Bandwidth and 60–148 GHz
RF Passband,” in the proceeding of Asia-Pacific Microwave
Conference (APMC), Dec. 2019, Singapore
l B.-Z.
Lu, Y.-C. Wu, C.-C. Chiong and H. Wang, “A 78-93 GHz Power Amplifier
with 19.6-dBm Psat and 12.8% PAEpeak in 0.1-μm GaAs
pHEMT,” in the proceeding of Radio-Frequency Integration Technology (RFIT),
Aug. 2019, Nanjing, China.
l C.-C. Huang,
H.-Y. Chang, and C.-C. Chiong, “Stability Evaluation of a Broadband
Multi-Stage Low Noise Amplifier using Nonlinear Analysis,” in the proceeding of
Radio-Frequency Integration Technology (RFIT), Aug. 2019, Nanjing, China.
l Y.-C.
Wu, J.-K. Nai, Y.-J. Hwang, B.-Z. Lu, C.-C. Chiong, C.-W. Wu, C.-F.
Chou, and H. Wang, “An 18-28 GHz Power Amplifier with Drain-Distorted
Linearizer in 90nm CMOS Process”, in the proceeding of Global Symposium on Millimeter Waves (GSMM), May 2019, Sendai,
Japan.
l Z.-Y.
Jiang, Y. Chang, Y. Wang, C.-C. Chiong, and H. Wang, “High Gain
Fully-Integrated Broadband Differential LNAs in 0.15-μm GaAs pHEMT process
Using R-L-C Feedback Gain Compensation for Radio Astronomical Receiver,” in the
processing of International Microwave
Symposium (IMS), Jun. 2019, Boston.
l C.-C.
Chiong, C. Chien, C.-C. Chang, Y.-D. Huang, Y.-J. Hwang, “Cryogenic 29–50 GHz
Orthomode Transducer for Radio Astronomical Receiver,” in the proceeding of Asia-Pacific Microwave Conference (APMC),
Nov. 2018, Kyoto, Japan.
l H.-W.
Lei, Y. Wang, C.-C. Chiong, H. Wang, “A 2.5-31-GHz High Gain LNA in
0.15-μm GaAs pHEMT for Radio Astronomical Application,” in the proceeding of Asia-Pacific Microwave Conference (APMC),
Nov. 2018, Kyoto, Japan.
l W.-C.
Huang, C.-C. Chiong and H. Wang, “A Fully-Integrated S-Band Differential
LNA in 0.15-μm GaAs pHEMT for Radio Astronomical Receiver,” in the proceeding
of Radio-Frequency Integration Technology
(RFIT), Aug. 2018, Melbourne, Australia.
l Y.
Chen, Y.-H. Lin, C.-C. Chiong, and H. Wang, “A 0.38-V, Sub-mW 5-GHz Low
Noise Amplifier with 43.6% Bandwidth for Next Generation Radio Astronomical
Receivers in 90-nm CMOS,” in the proceeding of International Microwave Symposium (IMS), June 2018, Philadelphia,
PA.
l C.-N.
Chen, Y.-H. Lin, Y.-C. Chen, C.-C. Chiong, and H. Wang, “A High LO-to-RF
Isolation 34-53 GHz Cascode Mixer for ALMA Observatory Applications,” in the
proceeding of International Microwave
Symposium (IMS), June 2018, Philadelphia, PA.
l S.-H.
Chang, C.-C. Chiong, H. Wang, “A Q-band Amplifier with Low Noise Figure
and Medium Output Power Capability for ALMA Band-1 Receiver,” in the proceeding
of Asia-Pacific Microwave Conference
(APMC), Nov. 2017, Kuala Lumpur, Malaysia.
l Y.-C.
Chen, Y. Wang, C.-C. Chiong, H. Wang, “An Ultra-broadband Low Noise
Amplifier in GaAs 0.1-μm pHEMT Process for Radio Astronomy Application,” in the
proceeding of Radio-Frequency Integration
Technology (RFIT), Aug. 2017, Seoul, Korea.
l Y.-J.
Hwang, C.-C. Chiong, Y.-D. Huang et al., “Performance of the First Three
Preproduction 35 – 50 GHz Receiver Front-ends for Atacama Large Millimeter /
submillimeter Array,” in the proceeding of European
Microwave Week (EUMW), Oct. 2017, Nuremberg, Germany
l C.-C.
Chiong, H.-M. Chen, J.-C. Kao, H. Wang, and M.-T. Chen, “180-220 GHz MMIC
Amplifier using 70-nm GaAs MHEMT Technology,” in the proceeding of Radio-Frequency Integration Technology
(RFIT), Aug. 2016, Taipei, Taiwan.
l Y.-T.
Chou, C.-C. Chiong, and H. Wang, “A Q-band LNA with 55.7% Bandwidth for
Radio Astronomy Applications in 0.15-μm GaAs pHEMT Process,” in the proceeding
of Radio-Frequency Integration Technology
(RFIT), Aug. 2016, Taipei, Taiwan.
l S.-H.
Weng, C.-C. Chiong, C.-C. Chang, H.-L. Wu, H.-Y. Chang, and M.-J. Wang,
“A 35-50 GHz Triple Cascode Mixer Module with Intermediate Frequency of 4-12
GHz based on Low Noise GaAs PHEMT Process,” in the proceeding of Radio-Frequency Integration Technology
(RFIT), Aug. 2016, Taipei, Taiwan.
l C.-C.
Chiong, “MMIC for Next Generation Radio Astronomical Heterodyne Receiver
Front-end,” invited talk at URSI AP-RASC
2016, Seoul, Aug. 2016.
l C.-M.
Yang, Y.-S. Lin, C.-C. Chiong, and C.-C. Chang, “Q-band Waveguide
Orthomode Transducer for Radio Astronomical Application,” URSI AP-RASC 2016, Seoul, Aug. 2016.
l C.-C.
Chiong, P.-H. Chiang, Y.-J. Hwang, and Y.-D. Huang, “Strategies on Solar
Observation of Atacama Large Millimeter/submillimeter Array (ALMA) Band-1
Receiver,” in the proceeding of SPIE
Astronomical Telescopes and Instrumentation Conference, Edinburgh, UK, June
2016, doi: 10.1117/12.2232254..
l Y.-J.
Hwang, C.-C. Chiong et al, “Band-1 Receiver Front-end Cartridges for
Atacama Large Millimeter/submillimeter Array (ALMA): Design and Development
toward Production,” in the proceeding of SPIE
Astronomical Telescopes and Instrumentation Conference, Edinburgh, UK, June
2016, doi: 10.1117/12.2231547.
l Y.-D.
Huang … C.-C. Chiong et al., “The Atacama Large Millimeter/submillimeter
Array (ALMA) Band-1 Receiver,” in the proceeding of SPIE Astronomical Telescopes and Instrumentation Conference,
Edinburgh, UK, June 2016.
l Y.-C.
Wu, C.-C. Chiong, H. Wang, “A Novel 30-90 GHz Single Balanced Mixer with
Broadband LO/IF,” in the proceeding of International
Microwave Symposium (IMS), San Francisco, CA, May 2016.
l Y.-F.
Kuo, C.-C. Chiong, and Y-J. Hwang, “Offset Phase-Locked Loop Analysis
for Millimeter-wave Local Oscillator Source,” in the proceeding of Asia-Pacific Microwave Conference (APMC),
Dec. 2015, Nanjing, China.
l Y.
Wang, C.-C. Chiong, J.-K. Nai, H. Wang, “A High Gain Broadband LNA in
GaAs 0.15-μm pHEMT Process using Inductive Feedback Gain Compensation for Radio
Astronomy Applications,” in the proceeding of Radio-Frequency Integration Technology (RFIT), Aug. 2015, Sendai,
Japan, pp. 79-81.
l C.-F.
Chou, Y.-C. Chang, C.-C. Chiong, and H. Wang, “Two High Gain Fully
On-Chip LNAs with Wideband Input Matching in 0.15-μm GaAs pHEMT for Radio
Astronomical Telescope,” in the proceeding of European Microwave Conference (EuMC), Sept. 2015, Paris, France, pp. 235-238.
l B.-Y.
Chen, C.-C. Chiong, and H. Wang, “A High Gain K-band LNA in GaAs 0.1-μm
pHEMT for Radio Astronomy Application,” in the proceeding of Asia-Pacific Microwave Conference (APMC),
Nov. 2014, Sendai, Japan, pp. 226-228.
l J.-C.
Kao, C.-F. Chou, C.-C. Chiong, C.-C. Chuang, and H. Wang, “A High
LO-to-RF Isolation 32-52 GHz Triple Cascode Down-Conversion Mixer with 2-12 GHz
IF Bandwidth for ALMA Band-1,” in the proceeding of Asia-Pacific Microwave Conference (APMC),
Nov. 2014, Sendai, Japan, pp. 1190-1192.
l F. Rossi, C.-C.
Chiong, H. Wang, and M.-T. Chen, “A wideband MMIC low noise amplifier with
series and shunt feedback,” in the proceeding of 16th International Symposium on Antenna
Technology and Applied Electromagnetics (ATNEM), Jul. 2014, Victoria,
Canada, pp. 1-2.
l Y.-J.
Hwang, C.-C. Chiong, Y.-D. Huang, Y.-F. Kuo, C.-C. Lin, C.-T. Ho, H.
Chuang, M. Pospieszalski, D. Henke, S. Claude, N. Reyes, and R. Finger,
“Development of Band-1 Receiver Cartridge for Atacama Large
Millimeter/submillimeter Array (ALMA),” in the proceeding of SPIE Astronomical Telescope and
Instrumentation, June 2014, Montreal, doi: 10.1117/12.2055978.
l Y-.T.
Lee, C.-C. Chiong, D. C. Niu, and H. Wang, “A High Gain E-band MMIC LNA
in GaAs 0.1-µm pHEMT Process for Radio Astronomy Applications,” in the proceeding of European Microwave Conference (EuMC), Oct. 2014, Rome, pp.
1400-1403.
l C.-C. Chiong, D.-J.
Huang, C.-C. Chuang, Y.-J. Hwang, M.-T. Chen and H. Wang, “Cryogenic 8-18 GHz MMIC LNA
using GaAs PHEMT,” in the proceeding of Asia-Pacific Microwave Conference
(APMC), Nov. 2013, Seoul, pp. 261-263.
l P.-H.
Ho, C.-C. Chiong, and H. Wang, “An Ultra Low-power Q-band LNA with 50%
Bandwidth in WIN GaAs 0.1-μm pHEMT Process,” in the proceeding
of Asia-Pacific Microwave
Conference (APMC), Nov. 2013, Seoul, pp. 713-715.
l J.-C.
Kao, Y.-H. Hsiao, K.-S. Yeh, C.-C. Chiong, Y.-H. Lin, K.-Y. Lin, and H.
Wang, “A 25-to-45-GHz 45-degree Power Divider,” in the proceeding of European Microwave Conference (EuMC),
Nuremberg, 2013, pp. 959-962.
l Y.-F.
Kuo, M.-J. Liu, Y.-J. Hwang, and C.-C. Chiong, “A Ka-band Offset
Phase-locked Single-Tuning VCO with an Automatic Loop Bandwidth Calibration,”
in the proceeding of Asia-Pacific Microwave Conference
(APMC), Dec. 2012, Kaohsiung, pp. 1115-1117.
l S.-H. Weng, H.-Y. Chang, C.-C. Chiong, and M.-T. Chen, “A
Cryogenic 30-50 Balanced Low Noise Amplifier using 0.15um MHEMT Process for
Radio Astronomy Applications,” in the proceeding of IEEE International Symposium on Radio-Frequency Integration Technology
(RFIT), Nov. 2012, Singapore, pp. 177-179.
l Y.-J.
Hwang, C.-C. Chiong, Y.-F. Kuo, C.-C. Lin, C.-T. Ho, C.-C. Chuang, H.-Y.
Chang, Y.-S. Lin, Z.-M. Tsai, and H. Wang, “Development of receiver and local
oscillator components for Atacama Large Millimeter/submillimeter Array (ALMA)
Band
l H.-C.
Yeh, C.-C. Chiong and H. Wang, “A low voltage Q-band CMOS LNA with
magnetic coupled cascode topology,” in the proceeding of International Microwave Symposium (IMS), Jun. 2012, Montreal, pp.
1-3.
l Y.-F.
Kuo, C.-C. Chiong, and Y.-J. Hwang, “A Broadband
Phase-locked Ka-band Single-Tuning VCO with Reconfigurable Loop Filters”, in the proceeding of the Asia-Pacific
Microwave Conference (APMC), Dec. 2011, Sydney, pp. 773-776.
l Y.-J.
Hwang, C.-C. Chiong, T.-M. Tsai, H.-Y. Chang, and H. Wang, “MMIC-Related
Research for Radio Astronomical Instrumentation in Taiwan,” in the proceeding
of National Symposium of
Telecommunications, Nov.18-19, 2011, pp. 1035-1038.
l S.-H. Weng, H.-Y. Chang, C.-C. Chiong, and
M.-T. Chen, “Cryogenic Evaluation of A 30-50 GHz 0.15-μm MHEMT Low Noise
Amplifiers for Radio Astronomy Applications,” in the proceeding of European Microwave Conference (EuMC),
Manchester, 2011, pp. 934-937.
l Y.-C.
Wu, S.-K. Lin, C.-C. Chiong, Z.-M. Tsai, and H. Wang, “A W-Band Image
Reject Mixer for Astronomical Observation System,” in the proceeding of International Microwave Symposium (IMS),
2011, Baltimore, pp. 1-1.
l C.-C.
Hung, C.-C. Chiong, P. Chen, Y.-C. Tsai, Z.-M. Tsai, and H. Wang “A
72-114 GHz Fully Integrated Frequency Multiplier Chain for Astronomical
Applications in 0.15-um mHEMT Process,” in the proceeding of European Microwave Conference (EuMC),
Paris, 2010, pp. 81-84.
l S.-H.
Weng, H.-Y. Chang, and C.-C. Chiong, “Design of a 0.5-30 GHz Darlington
Amplifier for Microwave Broadband Applications,” in the proceeding of International Microwave Symposium (IMS), Anaheim,
2010, pp. 1-1.
l G.-Y. Chen, Y.-S. Wu, H.-Y. Chang,
Y.-M. Hsin, and C.-C. Chiong, “A 60-110 GHz Low Conversion Loss Tripler
in 0.15-um MHEMT Process,” in the proceeding of Asia-Pacific Microwave Conference (APMC),
Singapore, 2009, pp. 377-380.
l B.-J. Huang, K.-Y. Lin, C.-C.
Chiong, and H. Wang, “A 5.8-GHz GaAs Based HBT Amplifier with Novel RF ESD
Protection,” in the proceeding of European
Microwave Conference (EuMC), Rome, 2009, pp. 1788-1791.
l Y.-F. Kuo, Y. J. Hwang, C. C.
Chiong, R. M. Weng, and M. T. Chen, “Phase-Locked Broadband GaAs HBT VCO
Module for Millimeter-Wave Astronomical Local Oscillators,” in the proceeding
of European Microwave Conference (EuMC), Rome,
2009, pp. 471-474.
l C.-C.
Chiong, W.-J. Tzeng, Y.-J. Hwang, W.-T. Wong, H. Wang, and M.-T. Chen, “Design
and Measurements of Cryogenic MHEMT IF Low Noise Amplifier for Radio
Astronomical Receivers,” in the proceeding of European Microwave Conference (EuMC), Rome, 2009, pp. 1-4.
l B.-J.
Huang, Z.-M. Tsai, B.-J. Huang, K.-Y. Lin, H. Wang and C.-C. Chiong, “A
GaAs-based HBT 31-GHz frequency doubler with an on-chip voltage source,” in the
proceeding of Asia-Pacific Microwave
Conference (APMC), Hong-Kong, Dec. 2008, pp. 1-4.
l Y.-S.
Lin, Y.-S. Hsieh, Y.-J. Hwang, and C.-C. Chiong, “Q-band bandpass filter
designs in heterodyne receiver for radio astronomy,” in the proceeding of Asia-Pacific Microwave
Conference (APMC), Hong-Kong, Dec. 2008, pp. 86-89.
l Y.-L.
Ye, H.-Y. Chang, and C.-C. Chiong, “A 29-GHz Low Phase Noise
Differential Voltage Controlled Oscillator using 2-um GaAs HBT Process,” in the
proceeding of Asia-Pacific Microwave
Conference (APMC), Hong-Kong, Dec. 2008, pp. 1-4.
(Circuit design and measurement support)
l C.-C.
Chiong, H.-Y. Chang and M.-T. Chen, “Ka-Band Wide-Bandwidth Voltage-Controlled
Oscillators in InGaP-GaAs HBT Technology,” in the Proceeding of European Microwave Conference (EuMC), Amsterdam, Oct.
2008, pp. 358-361.
l S.-H.
Weng, C.-H. Lin, H.-Y. Chang, and C.-C. Chiong,
“Q-band Low Noise Amplifiers using a 0.15-μm MHEMT Process for Broadband
Communication and Radio Astronomy Applications,” in the proceeding of international Microwave Symposium (IMS), Atlanta,
June 2008, pp.455-458.
l J. Lee,
R.-B. Lai, K.-Y. Lin, C.-C. Chiong, and H. Wang, “A Q-band Low Loss
Reduced-size Filter-Integrated SPDT Switch Using 0.15-μm MHEMT Technology,” in
the proceeding of International Microwave
Symposium (IMS), Atlanta, June 2008, pp. 551-554.
l Y-J.
Hwang, C.-C. Chiong, S.-W. Chang, T. Wei, W.-T. Wong, Y.-S. Lin, M.-T.
Chen, H. Wang, and H.-Y. Chang, “Cryogenic
testing and multi-chip module design of a 31.3-45GHz MHEMT MMIC-based
heterodyne receiver for radio astronomy,” in the Proceedings of the SPIE, Volume 7020, 2008, doi: 10.1117/12.789127.
l C.-C.
Chiong, H. Y. Chang, and M. T. Chen, “Wide-Bandwidth InGaP-GaAs HBT
Voltage-Controlled Oscillators in K- and Ku-Band,” in the Proceeding of the Global Symposium on Millimeter Wave (GSMM),
Nanjing, Apr. 2008, pp. 185-188.
l C.-H.
Lin, S.-H. Weng, K.-H. Liang, H.-Y. Chang, Y.-J. Chan, and C.-C. Chiong,
“A Ku-band Low Phase Noise Wide Tuning Range Voltage Controlled Oscillator
Using 2-um GaAs HBT Process,” in the proceeding of Asia-Pacific Microwave Conference (APMC), Bangkok, Dec. 2007, pp. 1-4.
l H.-Y.
Chang, Y.-L. Yeh, C.-H. Linand, K.-H. Liang, C.-C. Chiong, and E.
Bryerton, “Development of voltage controlled oscillators using 2-μm GaAs HBT
monolithic integrated circuit technology for Atacama large
millimeter/submillimeter array application,” 2007 Progress In Electromagnetics Research Symposium (PIERS), Prague,
Czech Republic, Aug. 2007.
l C.-H. Lin, K.-H. Liang,
H.-Y. Chang, Y.-J. Chan, C.-C. Chiong, and E. Bryerton, “A Q-band Low
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聯絡方式
Contact:
Tel: 886-(0)2-2366-5304
Fax: 886-(0)2-2367-7849
地址Office Address:
Room 1103,
Institute of Astronomy and Astrophysics, Academia Sinica
Astronomy and Mathematics Building, National Taiwan University
No.1, Roosevelt Rd, Sec. 4
Taipei 106, Taiwan.
中央研究院天文所
台北市羅斯福路四段一號
台灣大學天文數學館1103室
郵件地址Mailing Address:
Institute of Astronomy and Astrophysics,
Academia Sinica
P.O. Box 23-141,
中央研究院天文所
台北郵政23-141號 信箱