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| Session WEOF |
- WEOF-01
- Comparison of CMOS LNAs Implemented with Different Capacitor and Inductor Structures
M. T. A. Gusad and L. P. Alarcon, Univ. of the Philippines, PHILIPPINES
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- WEOF-02
- A 1V, 0.9dB Noise-Figure High Linearity LNA MMIC for Concurrent GPS Handset Application
Y. H. Chow, T. L. Tan, and W.-K. Kim*, Avago Technologies Malaysia, MALAYSIA, *Avago Technologies Korea, KOREA
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- WEOF-03
- 1.5V 5 GHz Low Noise Amplifier With Source Degeneration
M.-T. Hsu, T.-Y. Chih, and G.-R. Li, National Yunlin Univ. of Science and Technology, TAIWAN
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- WEOF-04
- The Design of Full-Band (3.1.10.6GHZ) CMOS UWB Low Noise Amplifier with Thermal Noise Canceling
S.-C. Chen, R.-L. Wang*, H.-C. Kuo, and M.-L. Kung, National Yunlin Univ. of Science & Technology, *National Kaohsiung Marine Univ. of Science & Technology, TAIWAN
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- WEOF-05
- Dual-Band LNA for 2.4/5.2GHz Applications
V. K. Dao, B. G. Choi, Q. D. Bui, and C. S. Park, ICU, KOREA
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- WEOF-06
- A CMOS Ultra-Wideband Differential Low Noise Amplifier
T. B. Merkin, S. Jung, J. Gao, and Y. Joo*, The Univ. of Texas at Arlington, *Arizona State Univ., U.S.A.
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- WEOF-07
- Numerical Analysis of Pulsed I-V Curves and Current Compression in GaN FETs
K. Itagaki, H. Takayanagi, H. Nakano, and K. Horio, Shibaura Institute of Technology, JAPAN
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- WEOF-08
- Closed-Form Expression of IMD Considering Input/Output Frequency Responses in Nonlinear RF Power Amplifiers for Digital Predistortion
H. Ku, Konkuk Univ., KOREA
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- WEOF-09
- Quasi-Invariant Single-Parameter Criterion for Unconditional Stability: Review and Application
E. L. Tan, Nanyang Technological Univ., SINGAPORE
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- WEOF-10
- Numerical Investigation on Thermal Characteristics of GaN HFETs for High Power Applications
J. Xu, W.-Y. Yin, and J. Mao, Shanghai Jiao Tong Univ., CHINA
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- WEOF-11
- Harmonic Orthogonality Condition in RF Class-E Power Amplifiers
M. A. Yarleque Medina, D. Schreurs, and B. Nauwelaers, Katholieke Universiteit Leuven, BELGIUM
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- WEOF-12
- An Accurate Technique for Characterizing Non-Linear Currents in MESFET/HEMT Devices
S. L. Henriquez, A. J. Ogunniyi, C. Karangu, D. Harvey, and C. White, Morgan State Univ., U.S.A.
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- WEOF-13
- Single-Stage, High Efficiency, 26-Watt Power Amplifier Using SiC LE-MESFET
S. Azam*, R. Jonsson**, and Q. Wahab*,**, *Linkoping Univ., **Swedish Defence Research Agency, SWEDEN
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- WEOF-14
- The Suppression of Intermodulation Products in Multichannel Amplifiers Close to Saturation
N. Males.-IlicL and B. MilovanovicL, Univ. of Nis, SERBIA
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- WEOF-15
- Volterra Series Approach to Behavioral Modeling: Application to an FET Amplifier
C. Crespo-Cadenas, J. Reina-Tosina, and M. J. Madero-Ayora, Univ. of Seville, SPAIN
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- WEOF-16
- Investigation into RF Feedback for Improving The Efficiency-Linearity Trade-off in Power Amplifiers
Y. J. Tian and D. G. Haigh, Imperial College London, U.K.
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- WEOF-17
- A High Power Performance 60 GHz Push-Push Oscillator MMIC in Metamorphic HEMT Technology
J.-W. Lee, K. Seol*, and K. Seo*, Kyung Hee Univ., *Seoul National Univ., KOREA
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- WEOF-18
- Accurately Measure Phase-Locked Loop (PLL) Lock Time in Production
L. Zhang, Texas Instruments, Inc., U.S.A.
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- WEOF-19
- Intermodulation Nulling in Anti-Parallel Diode Pair Mixers
V. Gutta, T. Fattorini*, and A. Parker, Macquarie Univ., *Mimix Broadband, AUSTRALIA
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- WEOF-20
- A Simple Oscillator Design with the Frequency Controlled by Patch Size
D. H. Lee, J. I. Lee, J.-S. Rieh, and M. Kim, Korea Univ., KOREA
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- WEOF-21
- Wide BST-Based Tuning of Voltage Controlled Oscillator
M. Al-Ahmad, C. Loyez, N. Rolland, and P.-A. Rolland, IEMN, FRANCE
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- WEOF-22
- Residual and Oscillator Phase Noise in GaAs HEMTs
M. Ferndahl* and H. Zirath*,**, *Chalmers Univ., **Ericsson AB, SWEDEN
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- WEOF-23
- Switchless Bi-Directional Amplifier
C. S. Yu, K. T. Mok, and W. S. Chan, City Univ. of Hong Kong, CHINA
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- WEOF-24
- On the Improvement of the Linear Dynamic Range of Ka-Band Up-Converters
E. Bertran, J. Berenguer, G. Montoro, and A. Cidronali*, Technical Univ. of Catalonia, SPAIN, *Univ. of Firenze, ITALY
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- WEOF-25
- Five-Port Software Defined Radio Receiver Implementation in Ka-Band
R. Mirzavand, A. Mohammadi, and A. Abdipour, Amirkabir Univ., IRAN
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- WEOF-26
- Sub Milli-Watt, 2.4 GHz, Super-Regenerative Transceiver with Ultra Low Duty Cycle
I. McGregor, E. Wasige, and I. Thayne, Glasgow Univ., U.K.
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- WEOF-27
- A High Linear Upconversion Mixer and VCO Design Using Fully Integrated Current Injection Technique
M.-J. Kim and N.-Y. Kim, Kwangwoon Univ., KOREA
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- WEOF-28
- A Novel Approach for Implementation of a Matrix Amplifier
G. Moradi and A. Abdipour, Amirkabir Univ. of Technology, IRAN
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- WEOF-29
- Design of Cartesian Feedback Loop Linearization Chip for UHF Band
M.-S. Kang, Y.-J. Chong, S.-J. You, and T.-J. Chung, ETRI, KOREA
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- WEOF-30
- A Low Power 0.18ƒÊm CMOS Even-Harmonic Mixer
Y.-C. Chen, T.-N. Luo, Y.-H. Yu, Y.-J. E. Chen, and D. Heo*, National Taiwan Univ., TAIWAN, *Washington State Univ., U.S.A.
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- WEOF-31
- Differential Power Combining Technique for General Power Amplifiers Using Lumped Component Network
H.-L. Chang, P.-T. Lin, W.-C. Hua, C.-P. Lin, C.-Y. Lin, C.- W. Liu, T.-Y. Yang*, and G.-K. Ma*, National Taiwan Univ., *Industrial Technology Research Institute, TAIWAN
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- WEOF-32
- 0.25 ƒÊm CMOS Resistive Ring Subthreshold Mixer
X. Wang, M. Chen, and O. Boric-Lubecke, Univ. of Hawaii at Manoa, U.S.A.
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- WEOF-33
- A New Implemenation for RF SiCMOS Transistor Model Using SDD for Quantifying Individual Contribution to Distortion from Transistor's Nonlinear Parameters
A. Abuelmaatti, I. Thayne, I. McGregor, and E. Wasige, Univ. of Glasgow, U.K.
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- WEOF-34
- A Reconfigurable CMOS Power Amplifier with Flexible Matching Network
S.-O. Yun and H.-J. Yoo, ICU, KOREA
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- WEOF-35
- High Susceptibility of Micro-Phonic and Phase-Hit Dual Loop Push-Push Synthesizer Design for High Modulation Microwave Digital Radios
Y. Shen, L. Villeneuve, and N. Hassaine, Harris Corp., U.S.A.
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- WEOF-36
- 13 GHz Cascaded 4:1 CMOS Injection Locked Frerquency Divider
P. Mayr, T. Mronga*, M. Tiebout**, C. Kienmayer**, R. Thueringer***, and U. Langmann, Ruhr-Universitaet Bochum, *Altek GmbH, GERMANY, **Infineon Technologies AG, AUSTRIA, ***Infineon Technologies AG, GERMANY
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- WEOF-37
- Experimental Evaluation of Service Area in Wireless Service Over IP Systems
Y. Fujisawa, T. Higashino, K. Tsukamoto, and S. Komaki, Osaka Univ., JAPAN
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- WEOF-38
- SSR-MAC: A Novel MAC Protocol for Mobile Ad Hoc Network
F. Jun, L. Zhitang, and W. Li, Huazhong Univ of Sci & Tech, CHINA
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- WEOF-39
- The Remote HF-Doppler Detection of the Sunrise Effect
Y. Zhang and Y. Wang, Dalian Maritime Univ., CHINA
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- WEOF-40
- Markov Characterization of Channels and its Applications in Powerline Communications Systems
M. Zhai, North China Electric Power Univ., CHINA
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- WEOF-41
- A Novel Simulation Testbed for Space-Time Signal Processor of Smart Antenna System Based on HILS Technology
W. Liu, Q. Zhang, and Z. Feng, Tsinghua Univ., CHINA
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- WEOF-42
- The New Approach to Microwave RFID
I. B. Shirokov and Y. B. Gimpilevich, Sevastopol National Technical Univ., UKRAINE
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- WEOF-43
- Detection of Dielectric Contrast of Breast Tissues Using Confocal Microwave Technique
G. Bindu, C. K. Aanandan*, K. T. Mathew*, and S. J. Abraham**, Manipal Institute of Technology, *Cochin Univ. of Science and Technology, **Lourde Hospital, INDIA
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- WEOF-44
- EM Field Coupling to Coplanar Transmission Lines
H. Khodabakhshi, A. Cheldavi, and M. Khalaj-Amirhosseini, Iran Univ. of Science and Technology, IRAN
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- WEOF-45
- Electric and Magnetic Shielding Effectiveness of Metallic Enclosures with Apertures
M. Z. M. Jenu and F. A. Pofad, Kolej Universiti Teknologi Tun Hussein Onn, MALAYSIA
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- WEOF-46
- Analysis of Electromagnetic Noise Suppression in Microstrip Lines with Absorber Sheets
V. B. Bregar*,** and A. Z. nidars.ic.*,**, *Nanotesla Institute, **Iskra Feriti, SLOVENIA
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- WEOF-47
- Microwave Measurement of Biological and Allied Materials
D. Faktorova and K. Grondz.ak, Univ. of Z. ilina, SLOVAK REPUBLIC
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- WEOF-48
- Effect of Metallic Helmet on the Microwave Absorption in a Spherical Phantom of a Dipole Antenna User Head
V. V. Radchenko and A. I. Nosich, NASU, UKRAINE
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- WEOF-49
- Analytic Solutions of Ground Bounces in PCBs Using Perfect Magnetic Wall Approximations
C.-C. Huang, Yuan Ze Univ., TAIWAN
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- WEOF-50
- A Radar for Range-Finding of Multiple Targets Based on a Simplified FMCW Method
T. Uebo and Y. Okubo, Saika Technological Institute Foundation, JAPAN
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- WEOF-51
- Dual-Frequency SAR for the Measurement of Soil Moisture at Depth
X. Zhang, W. Zhang, X. Lu, G. Kang, and G. Fang, Chinese Academy of Sciences, CHINA
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- WEOF-52
- Observations of Cloud Properties Using the Millimeter-Wave FM-CW Radar of Chiba Univ.
T. Takano, J. Yamaguchi, H. Abe, K. Futaba, S. Yokote, H. Kubo, K. Akita, Y. Kawamura, H. Kumagai*1, Y. Ohno*1, T. Takamura, T. Nakajima*2, H. Okamoto*3, Y. Fujiyoshi*4, and N. Sugimoto*5, Chiba Univ., *1NICT, *2The Univ. of Tokyo, *3Tohoku Univ., *4Hokkaido Univ., *5NIES, JAPAN
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- WEOF-53
- Analysis of Coupled Anisotropic Optical Waveguides
M. A. Boroujeni and M. Shahabadi, Univ. of Tehran, IRAN
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- WEOF-54
- FIR Cavity for Terahertz Laser
A. Dubey and H. Dave, Physical Research Laboratory, INDIA
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- WEOF-55
- A Proposal for High-Precision Fiber Optic Displacement Sensor
M. Noshad, H. Hedayati, and A. Rostami, Univ. of Tabriz, IRAN
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- WEOF-56
- Enhanced Linear Dynamic Range of Electrooptic Modulators Based on Birefringent Gires -Tournois Interferometer
J. E. B. Oliveira and B. F. R. Sakamoto, Instituto Tecnologico de Aeronautica ITA - Brazilian Air Force, BRAZIL
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- WEOF-57
- Measurements of Conductivity of Thin Gold Films at Microwave Frequencies Employing Resonant Techniques
T. Zychowicz, J. Krupka, and J. Mazierska*, Warsaw Univ. of Technology, POLAND, *Massey Univ., NEW ZEALAND
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- WEOF-58
- Removing S-Parameters on-Wafer Measurements Parasitic Elements Using Time Domain Gating: Application to Transmission Lines
D. Abessolo-Bidzo*,**, P. Poirier*, P. Descamps*, and O. Hubert**, *LaMIP, **Philips Semiconductors, FRANCE
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- WEOF-59
- Characterization of Dielectric Properties for PZN-PMN-PT Ferroelectric Thin Films at Microwave Frequencies
H. M. Wong, B. Luo*, L. C. Ong*, and K. Yao**, Nanyang Technological Univ., *Institute for Infocomm Research, **Institute of Materials Research and Engineering, SINGAPORE
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- WEOF-60
- A Measurement System for Space-Time Variation of Rainfall Rate and Millimeter-Wave Specific Attenuation in Indonesia
G. Hendrantoro, A. Mauludiyanto, and P. Handayani, Institut Teknologi Sepuluh Nopember, INDONESIA
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- WEOF-61
- Obliquely Cut Open Ended Coaxial Probe for Obtaining Complex Permittivity of Lossy Materials
T. Michiyama, E. Tanabe*, and Y. Nikawa, Kokushikan Univ., *AET, Inc., JAPAN
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- WEOF-62
- New Technique for Analysing Coplanar Lines on Ceramic Up to 110 GHz
C. Min and C. E. Free, Univ. of Surrey, U.K.
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- WEOF-63
- Measurements of Complex Permittivity and Permeability with Changing an Angle of Incidence of Parallel Beam generated by Dielectric Lenses
H. Suzuki, T. Hocchi, and M. Inoue, KEYCOM Corp., JAPAN
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