Complete Program Book [PDF]

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10:10
10:20 10:30
10:40 10:50
11:00 11:10
11:20 11:30
11:40
WEDnESDAY TECHnICAl SESSIonS 10:10-11:50
WE2A: Theory and Applications of
Metamaterials
Jan Machac, Czech Technical University
David R. Jackson, University of Houston
Room: A311
WE2A-01: Revising the Equivalent Circuit
Models of Resonant-Type Metamaterial
Transmission Lines
F. Aznar, M. Gil, J. Bonache, F. Martín,
Universitat Autònoma de Barcelona,
Bellaterra, Spain
WE2A-02: Coupling of Split Ring
Resonators in a Mu-negative volumetric
Metamaterial
J. Machac, J. Zehentner, M. Blaha
Czech Technical University in Prague, Prague
6, Czech Republic
WE2A-03: Dispersion Engineered
Metamaterial-Based Transmission Line
for Conformal Surface Application
M. R. Hashemi, T. Itoh
University of California at Los Angeles, Los
Angeles, United States
WE2A-04: 2.5-D Stacked Composite Right/
Left-Handed Metamaterial Structures
Using Dielectric Resonators and Parallel
Mesh Plates
T. Ueda 1 , N. Michishita 2 , A. Lai 3 , M. Akiyama 1 ,
T. Itoh 3
1 Kyoto Institute of Technology, Kyoto, Japan,
2 National Defense Academy of Japan,
Yokosuka-shi, Japan, 3 University of California
at Los Angeles, Los Angeles, United States
WE2A-05: A 3D Isotropic Left-Handed
Metamaterial Composed of Wired
Metallic Spheres
A. Sanada
Yamaguchi University, Ube, Japan
WE2A-06: A Correlator Sensor Chip Based
on the Integration of Meta-Materials and
Photonic Crystals
C. Lin, I. Mirza, S. Shi, D. W. Prather
University of Delaware, Newark, United States
WE2B Advances in High Frequency
Signal Sources
H. J. Kuno, QuinStar Technology
Prasad Shastry, Bradley University
Room: A312
WE2B-01: A Novel Ring-Based Triple-Push
0.2-to-34 GHz vCO in 0.13-Μμm CMOS
Technology
C. C. Li, C. C. Chen, B. J. Huang, P. C. Huang,
K. Y. Lin, H. Wang
National Taiwan University, Taipei, Taiwan
WE2B-02: A 77-GHz FMCW Radar using a
Digital Phase-Locked Synthesizer
C. Wagner1 , R. Feger1 , A. Haderer1 , A.
Fischer2 , A. Stelzer1 , H. Jäger2 1Johannes Kepler University at Linz,
Linz, Austria, 2Danube Integrated Circuit
Engineering, Linz, Austria
WE2B-03: A Single SiGe Chip Fractional-N
275 MHz…20 GHz PLL with Integrated
20 GHz vCO
R. Follmann1 , D. Köther1 , T. Kohl1 , M. Engels1 ,
T. Podrebersek1 , V. Heyer2 , K. Schmalz3 ,
F. Herzel3 , W. Winkler3 , S. Osmany3 , U.
Jagdhold3 1IMST GmbH, Kamp-Lintfort, Germany,
2Kayser-Threde GmbH, München, Germany,
3IHP, Frankfurt/Oder, Germany
WE2B-04: vertically Integrated voltage-
Controlled Oscillator in LTCC at K-Band
T. Baras, A. F. Jacob
TU Hamburg-Harburg, Hamburg, Germany
WE2B-05: A K-Band quadrature
vCO based on Asymmetric Coupled
Transmission Lines
C. Kim1 , J. Yang1 , D. W. Kim2 , S. Hong1 1Korea Advanced Institute of Science and
Technology (KAIST), Daejeon, Republic of
Korea, 2Chungnam National University,
Daejeon, Republic of Korea
WE2B-06: 27-GHz Low Phase-Noise CMOS
Standing-Wave Oscillator for Millimeter
Wave Applications
T. Huang, P. You
National Cheng Kung University, Tainan,
Taiwan
WE2C: Linear Network Measurement
Andrea Ferrero, Politecnico di Torino
Leonard Hayden, Cascade Microtech Inc.
Room: A313
WE2C-01: On-Wafer Single Contact
quadrature Accuracy Measurement
Using Receiver Mode in Four-Port vector
Network Analyzer
Y. Chang1 , Y. Hsu1 , 2 , S. Lin1 , Y. Juang1 , H.
Chiou2 1National Applied Research Laboratories,
Hsinchu, Taiwan, 2National Central University,
Jhongli, Taiwan
WE2C-02: Low-cost High-resolution
Handheld vNA Using RF Interferometry
K. Will, T. Meyer, A. Omar
Otto-von-Guericke-University of Magdeburg,
Magdeburg, Germany
WE2C-03: Ultra Wide-Band Four-Port
Reflectometer Using Only Two quadratic
Detectors
K. Haddadi, M. Wang, D. Glay, T. Lasri
IEMN, Villeneuve d’Ascq, France
WE2C-04: A Simple Through-Only
De-Embedding Method for On-Wafer S-
Parameter Measurements up to 110 GHz
H. Ito 1 , K. Masu 2
1 Precision and Intelligence Laboratory,
Yokohama, Japan, 2 Integrated Research
Institute, Yokohama, Japan
WE2C-05: A Low Cost Method for Testing
Integrated RF Substrates
A. Goyal, M. Swaminathan
Georgia Institute of Technology, Atlanta,
United States