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