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IEEE Catalog Number: ISBN:
CFP12APM-PRT 978-1-4577-1330-9
2012 Asia Pacific Microwave Conference Proceedings (APMC 2012)
Kaohsiung, Taiwan 4-7 December 2012
Pages 1-681
1/2
Paper Title
Authors and Contact Affiliation
Page No.
2A1-01 A 27-34 GHz CMOS Medium Power Amplifier with a Flat Power Performance
C. Tsay, J. Kao, K. Kao, K. Lin, National Taiwan Univ., Taiwan
pp.1-3
2A1-02 An Optimized 0.1 μm T-Gate AlGaAs/InGaAs/ GaAs PHEMT Power Amplifier MMIC for Ka-Band Applications
S. Cho, C. Wang, R. Maharjan, N. Kim, Kwangwoon Univ., Rep. of Korea
pp.4-6
2A1-03 Highly Efficient 24-GHz CMOS Linear Power Amplifier with an Adaptive Bias Circuit
H. Koo, B. Koo, S. Hong, KAIST, Rep. of Korea
pp.7-9
2A1-04 A 60GHz Power Amplifier Using High Common-Mode Rejection Technique
R. Minami, K. Bunsen, K. Okada, A. Matsuzawa, Tokyo Institute of Technology, Japan
pp.10-12
2A1-05 A 1V 18 dBm 60GHz Power Amplifier with 24dB Gain in 65nm LP CMOS
L. Chen, L. Li, T. Cui, Southeast Univ., China pp.13-15
2A2-01 A Novel Substrate-Embedded Defected Ground Structure for Differential-Mode Filter Applications
H. Tsai1, N. Chen2, S. Jeng1, 1National Taiwan Univ., Taiwan, 2Yuan Ze Univ., Taiwan
pp.16-18
2A2-02 Metamaterial-Based Wilkinson Balun Using Asymmetrical T-Structure Power Divider for Improving Phase Response Flatness
C. Lin, C. Tseng, National Taiwan Univ. of Science & Technology, Taiwan
pp.19-21
2A2-03 Parameter Extraction of c- and π- modes for Broadband Balun Using an Asymmetric Coupled Line
A. Saitou, R. Ishikawa, K. Honjo, The Univ. of Electro-Communications, Japan
pp.22-24
2A2-04 Balanced BPF Design Using the Substrate Integrated Waveguide
M. Chen, W. Hong, M. Ho, National Changhua Univ. of Education, Taiwan
pp.25-27
2A2-05 Differential Microstrip Bandpass Filter with Dual-Band Responses Using Parallel-Coupled Line Structure
L. Yang, P. Cheong, W. Choi, K. Tam, Univ. of Macau, Macao SAR, China
pp.28-30
2A3-01 Study on Temperature Distribution in Carbonised Moxa-Needle Treatment
S. Nakamura1, M. Nakamura2, E. Maeda3, Y. Nikawa1, 1Kokushikan Univ., Japan, 2Tokyo Terapeutic Institute, Japan, 3Okinawa Collageof Integrative Medicine, Japan
pp.31-33
2A3-02 The Effects of Human Body and Bending on Dipole Textile Antenna Performance and SAR
N. Elias, N. Samsuri, M. Rahim, N. Othman, Universiti Teknologi Malaysia, Malaysia
pp.34-36
2A3-03 A Screening Method Based on Amplitude Probability Distribution Analysis for Detecting the Disordered Breathing Using Microwave Radar Respiration Signals
G. Sun1, M. Kubota1, M. Kagawa1, N. Vinh1, A. Kurita2, T. Matsui1, 1Tokyo Metropolitan Univ., Japan, 2Fukuinkai, A Social Welfare Corporation, Japan
pp.37-39
2A3-04 Transmission Line with 2 kV HBM Broadband ESD Protection Using BIMOS and SCR in Advanced CMOS Technologies
T. Lim1,2, J. Jimenez1, B. Heitz1, P. Benech2, J. Fournier2, P. Galy1, 1STMicroelectronics, France, 2IMEP-LAHC, France
pp.40-42
2A3-05 A Wearable Telemetric Neural/EMG/ECoG Activity Acquisition Platform for Small Freely Moving Animals
C. Zuo1,2, X. Yang1, Y. Wang1, A. Li2, Y. Peng2, J. Chiao2, 1Huazhong Univ. of Sci. & Tech., China, 2The Univ. of Texas at Arlington, United States
pp.43-45
Table of Contents
Paper Title Authors and Contact Affiliation Page No.
2A4-01 Dual-Band Circularly Polarized Annular Ring Slot Antenna
L. Chen, J. Tsai, M. Hou, J. Row, National Changhua Univ. of Education, Taiwan
pp.46-48
2A4-02 Novel Omnidirectional Polarized Tag Antenna for UHF RFID Applications
W. Chen, H. Chen, Y. Lin, S. Yeh, National Kaohsiung Univ. of Applied Sciences, Taiwan
pp.49-51
2A4-03 Lens-Coupled Dual Polarization Sinuous Antenna for Quasi-Optical Terahertz Balanced Mixers
Z. Jiang, S. Rahman, P. Fay, S. Ruggiero, L. Liu, Univ. of Notre Dame, United States
pp.52-54
2A4-04 A DNA Inspired Function Reconfigurable Double-Helix Antenna
L. Wang, J. Li, S. Yang, S. Yang, H. Liu, C. Lei, Univ. of Electronic Science and Technology. of China, China
pp.55-57
2A5-01 A Low-profile, Compact, Mode-decomposition based Antenna Array for use in Beam-forming Application
M. Chik, K. Cheng, The Chinese Univ. of Hong Kong, Hong Kong SAR, China
pp.58-60
2A5-02 A Wideband Dual-polarized Antenna with Very Low Back Radiation
M. Li, K. Luk, City Univ. of Hong Kong, Hong Kong SAR, China
pp.61-63
2A5-03 A Single-Layer Broad-Band Reflectarray Design Using Dual-Frequency Phase Synthesis Method
Y. Mao1, C. Wang2, F. Yang2,1, A. Elsherbeni1,1The Univ. of Mississippi, United States, 2Tsinghua Univ., China
pp.64-66
2A5-04 Beam Steering Microstrip Array Antenna with Orthogonal Excitation
T. Kondo, Y. Ushijima, E. Nishiyama, M. Aikawa, I. Toyoda, Saga Univ., Japan
pp.67-69
2A5-05 A Convenient Calibration Method of Instantaneous Polarization Radar System
N. Yang, G. Zhao, Z. Zhang, H. Sun, X. Lv, Beijing Institute of Technology, China
pp.70-72
2A6-01 Tunable Magnet-less Non-Reciprocal Meta- material (MNM) and its Application to an Isolator
T. Kodera1, D. Sounas2, C. Caloz2, 1Yamaguchi Univ., Japan, 2Ecole Polytechnique of Montreal, Canada
pp.73-75
2A6-02 Size Reduced Dual-Band Isolation Circuits Using Hybrid Right-Handed Transmission Lines for Triplexers
H. Lee, T. Itoh, Univ. of California, United States
pp.76-78
2A6-03 Design of an EBG-Backed CPW-Fed Slot Antenna
Y. Lu, P. Hsu, National Taiwan Univ., Taiwan pp.79-81
2A6-04 Dual-Band Omnidirectional Circularly Polarized Antenna Utilizing Epsilon Negative Transmission Line
B. Park, J. Lee, Hongik Univ., Rep. of Korea pp.82-84
2A6-05 Parametric Study of the Position of Textile Dipole Antenna with Textile Artificial Magnetic Conductor
M. Abdullah, M. Rahim, M. Jalil, N. Seman, Universiti Teknologi Malaysia, Malaysia
pp.85-87
2C1-01 K-Band CMOS Phase Shifter with Low Insertion-Loss Variation
J. Lyu, S. Huang, H. Chuang, National Cheng Kung Univ., Taiwan
pp.88-90
Paper Title Authors and Contact Affiliation Page No.
2C1-02 A V-/W-Band 0.18-μm CMOS Phase Shifter MMIC with 180°-300° Phase Tuning Range
Y. Su, M. Tsai, J. Wu, T. Chin, C. Chang, National Chung Cheng Univ., Taiwan
pp.91-93
2C1-03 A 2-6.5 GHz CMOS Variable Gain Amplifier for Vector-Sum Phase Shifters
Z. Hu, K. Mouthaan, National Univ. of Singapore, Singapore
pp.94-96
2C1-04 S-Band Full 360° High Precision Phase Detector
C. Tang, Q. Xue, City Univ. of Hong Kong, Hong Kong SAR, China
pp.97-99
2C1-05 L-Band 360° Vector-Sum Phase Shifter Using COTS Components
W. Lim, X. Tang, K. Mouthaan, National Univ. of Singapore, Singapore
pp.100-102
2C1-06 Short-Millimeter-Wave CMOS Design for Ultrahigh-Speed Wireless Communication
M. Fujishima, Hiroshima Univ., Japan pp.103-105
2C2-01 Using Spur Lines to Develop the Microstrip Bandpass Filter with a Wide Stopband
C. Teng1, J. Sun1, C. Tang1, Y. Lin2, 1National Chung Cheng Univ., Taiwan, 2Metal Industries Research & Development Centre, Taiwan
pp.106-108
2C2-02 Novel Dual-Mode Resonator Bandpass Filter With High Rejection in Extended Wide Stopband
D. Chen1, J. Kuo2, 1National Chiao Tung Univ., Taiwan, 2Chang Gung Univ., Taiwan
pp.109-111
2C2-03 Theoretical/Synthesis Design of Compact UWB Bandpass Filters with Very Sharp Roll-off Characteristics
C. Chen1, J. Oda1, Y. Kamiji1, T. Anada1, Z. Ma2, 1Kanagawa Univ., Japan, 2Saitama Univ., Japan
pp.112-114
2C2-04 Design of A Four-Pole Wide Stopband Bandpass Filter Using Combined Quarter-wavelength Resonators and Stub-Loaded SIR
M. Bao1, X. Wang1, Y. Cho1, S. Yun1, D. Park2, 1Sogang Univ., Rep. of Korea, 2Chungnam National Univ., Rep. of Korea
pp.115-117
2C2-05 Miniaturised UWB Filter with Improved Lower Stopband Performance
R. Hammed, D. Mirshekar-Syahkal, Univ. of Essex, United Kingdom
pp.118-120
2C2-06 Compact Dual-Band Quasi-Elliptic Bandpass Filter with Improved Upper-Stopband Performance
C. Chio1, S. Ting1, X. Zhao2, K. Tam1, 1Univ. of Macau, Macao SAR, China, 2Xidian Univ., China
pp.121-123
2C3-01 Microwave Research & Development Activities in Japan
K. Araki, Tokyo Institute of Technology, Tokyo, Japan
pp.124-126
2C3-02 RFIC Activities in Korea and POSTECH related to Mobile Communications
B. Kim, Pohang Univ. of Science and Technology, Rep. of Korea
pp.127-128
2C3-03 Microwave Research Activities in Singapore
A. Alphones1, S. Ting2, L. Ong3, S. Arulkumaran4, S. Yeo5, G. Ing1, 1Nanyang Technological Univ., Singapore, 2Temasek Labs at NUS, Singapore, 3Institute for Infocomm Research, Singapore, 4Temasek Labs@NTU, Singapore, 5National Univ. of Singapore, Singapore
pp.129-131
2C3-04 Microwaves at CityU K. Luk, Q. Xue, C. Chan, City Univ. of Hong Kong, Hong Kong SAR, China
pp.132-132
Paper Title Authors and Contact Affiliation Page No.
2C3-05 CMOS ICs for the Proposed Chinese Millimeter Wave Communication Standard Q-LINKPAN/ IEEE802.11aj (45GHz)
W. Hong, J. Chen, P. Yan, W. Liang, Z. Chen,H. Tang, H. Wang, N. Zhang, P. Chen, Southeast Univ., China
pp.133-135
2C4-01 A High Gain Active Antenna Array using Dual-Fed Distributed Amplifier-Based CRLH- Leaky Wave Antennas
C. Wu, T. Itoh, UCLA, United States pp.136-138
2C4-02 A 3-D Radiation Pattern Measurement Method for a 60-GHz-Band WPAN Phased Array Antenna
T. Ta, S. Yoshida, Y. Suzuki, S. Tanifuji, S. Kameda, N. Suematsu, T. Takagi, K. Tsubouchi, Tohoku Univ., Japan
pp.139-141
2C4-03 20-Gbit/s Unidirectional Wireless System Using Polarization Multiplexing for 12-ch HDTV Signal Transmission
J. Takeuchi, A. Hirata, H. Takahashi, N. Kukutsu, NTT Corporation, Japan
pp.142-144
2C4-04 GaAs Microstrip-to-Waveguide Transition Operating in the WR-1.5 Waveguide Band (500 – 750 GHz)
V. Hurm, A. Tessmann, H. Massler, A. Leuther, M. Riessle, M. Zink, M. Schlechtweg,O. Ambacher, Fraunhofer Institute for Applied Solid State Physics, Germany
pp.145-147
2C4-05 Polarization-Agile Millimeter-Wave Antenna Arrays
A. Guntupalli, K. Wu, Ecole Polytechnique (Univ. of Montreal), Canada
pp.148-150
2C4-06 A 60-GHz Wideband L-Probe Patch Antenna Array with Gain Enhanced Structure Based on LTCC Technology
L. Wang1,2, Y. Guo2, W. Sheng1, 1Nanjing Univ. of Science and Technology, China, 2National Univ. of Singapore, Singapore
pp.151-153
2C5-01 A Novel Tunable K-band Frequency Doubler in 0.18-μm CMOS Technology
J. Chen, C. Kuo, Y. Hsu, H. Wang, National Taiwan Univ., Taiwan
pp.154-156
2C5-02 Improving Linearity of a 5.2GHz Low Power Mixer in 0.18μm CMOS Process by Using Derivative Superposition Method
T. Masumoto, D. Kanemoto, H. Kanaya, R. Pokharel, K. Yoshida, Kyushu Univ., Japan
pp.157-159
2C5-03 A Dual-band Simultaneous Receiving Mixer with Independent and Linear Gain Control
T. Kaho, Y. Yamaguchi, H. Shiba, K. Akabane, K. Uehara, NTT Corporation, Japan
pp.160-162
2C5-04 A CMOS Low Loss / High Linearity Passive Mixer for 2.45 GHz Low PowerApplications
M. Camus1, B. Butaye2, C. Viallon3,4, L. Garcia2, T. Parra3,4, 1STMicroelectronics, France, 2ST-Ericsson, France, 3CNRS; LAAS,France, 4University of Toulouse, France
pp.163-165
2C5-05 A CMOS W-band ×4 Frequency Multiplier with Cascading Push-Pull Frequency Doublers
L. Ye, H. Liao, R. Huang, Peking Univ., China pp.166-168
2C6-01 Dual-band Hybrid Patch Coupler with Embedded Spiral Open Stubs
Y. Li1, S. Sun2, F. Yang1, 1Univ. of Electronic Science and Technology of China, China, 2The Univ. of Hong Kong, Hong Kong SAR, China
pp.169-171
2C6-02 Broadband Microstrip-to-Parallel Strip Transition Balun with Reduced Size
S. Hamzah, M. Esa, N. Malik, M. Ismail, Universiti Teknologi Malaysia, Malaysia
pp.172-174
2C6-03 Branch Line Coupler with Sharp Roll-off Slope and Good Out-of-Band Rejection
W. Arriola, I. Kim, Kyung Hee Univ., Rep. of Korea
pp.175-177
Paper Title Authors and Contact Affiliation Page No.
2C6-04 A Novel Planar Type Broadband CMOS On-chip Balun with Relative Bandwidth of 158%
T. Takagi, E. Nakayama, T. Ta, S. Kameda, N. Suematsu, K. Tsubouchi, Tohoku Univ., Japan
pp.178-180
2C6-05 Novel Dual-Band Power Divider with Three Transmission Zeros Using 180-Degree Line Sections
G. Zhou, C. Wu, T. Ma, National Taiwan Univ.of Science and Technology, Taiwan
pp.181-183
2C6-06 Wideband and Miniaturized Branch Line
M. Sheu, C. Shie, Z. Tsai, National Chung Cheng Univ., Taiwan
pp.184-186
2D1-01 A 92–96 GHz W-band Power Amplifier
D. Zhong, J. Xu, M. Wang, G. Li, X. Zhang, Univ. of Electronic Science and Technology ofChina, China
pp.187-189
2D1-02 A 60 GHz Wide Tuning Range CMOS Self-Oscillating Mixer Using a Push-Push VCO Technique
P. Ke, H. Chiu, Chang Gung Univ., Taiwan pp.190-192
2D1-03 24GHZ Dual Core PLL Design for 60 GHz Transceiver and Efficient Validation Methodology
S. Hsiao, N. Tzou, D. Bhatta, A. Chatterjee, Georgia Institute of Technology, United States
pp.193-195
2D1-04 Low-Voltage High-Speed Antimonide-Based Compound Semiconductor (ABCS) 2-μm InAs/AlSb HEMT MMIC Process and Its Broadband Switch Application
C. Yu, C. Shen, H. Ho, H. Chang, J. Fu, H. Lin, National Central Univ., Taiwan
pp.196-198
2D1-05 A V-band CMOS Frequency Quadrupler with 3-dBm Output Power
J. Syu, K. Kao, K. Lin, National Taiwan Univ., Taiwan
pp.199-201
2D1-06 High-Q MOS-Varactor Modeling for mm-Wave VCOs
Y. Itano1,2, N. Itoh1, S. Yoshitomi2, H. Hoshino2, 1Okayama Prefectural Univ., Japan, 2Toshiba Corporation, Japan
pp.202-204
2D1-07 A 20 GHz Push-Push Voltage-Controlled Oscillator for a 60 GHz Frequency Synthesizer
T. Siriburanon, T. Sato, A. Musa, W. Deng, K. Okada, A. Matsuzawa, Tokyo Institute of Technology, Japan
pp.205-207
2D1-08 Broadband Sub-harmonic Mixer with Compact Band Pass Filter
S. Hung, K. Cheng, Y. Wang, National Cheng-Kung Univ., Taiwan
pp.208-210
2D1-09 A Monolithic DC-31 GHz Distributed Amplifier Using Cascode HBT-NMOS Gain Cell in 0.18 μm SiGe Technology
S. Chen1, Y. Liu1, S. Weng1, H. Chang1, K. Chen2, S. Wu2, 1National Central Univ., Taiwan, 2Industrial Technology Research Institute, Taiwan
pp.211-213
2D2-01 Design of Compact Dual-Band Quasi-Elliptic Filter with High Selectivity and Wide Stopband Rejection
W. Jiang1, W. Shen2, L. Zhou1, A. Gao1, W. Yin1, J. Mao1, 1Shanghai Jiao Tong Univ., China, 2Shanghai Aerospace Technology Research Institute, China
pp.214-216
2D2-02 Compact Bandstop Filter Using Triangular Metamaterial Mushroom Resonators
S. Awasthi, A. Biswas, M. J. Akhtar, Indian Institute of Technology Kanpur, India
pp.217-219
2D2-03 Some Notes on Group Delay in Bandpass Filter Synthesis
F. Xiao, Univ. of Electronic Science and Technology of China, China
pp.220-222
Paper Title Authors and Contact Affiliation Page No.
2D2-04 Various Compact Bandstop Filters Using Short-Circuited Broadside Coupled Line
W. Lim1, H. Lee2, C. Kim2, 1Korea Aerospace Research Institute, Rep. of Korea, 2Chungnam National Univ., Rep. of Korea
pp.223-225
2D2-05 Microstrip Cascaded Trisection Filter With Multiple Pairs of Transmisson Zeros
C. Hsu, Tahwa Univ. of Science and Technology, Taiwan
pp.226-228
2D2-06 Optimization of Coaxial Dielectric Resonator Filter with Aggressive Space Mapping
J. Xu, X. Luo, L. Cao, R. Chen, Nanjing Univ. of Science & Technology, China
pp.229-231
2D2-07 High Rejection Filters for 5GHz Concurrent Dual Radio WiFi
J. Robert, D. Tong, A. Louzir, Technicolor R&D France, France
pp.232-234
2D2-08 A Narrowband CMOS Active Dual-Mode Ring Resonator Bandstop Filter
Y. Huang, S. Yang, C. Tzuang, National Taiwan Univ., Taiwan
pp.235-237
2D2-09 Miniaturized Dual-Band Bandpass Filter Using Quarter-wavelength Stepped-impedance resonators
L. Gao1,2, X. Zhang1, K. Wang1,2, B. Hu1, 1South China Univ. of Technology, China, 2City Univ. of Hong Kong Shenzhen ResearchInstitute, China
pp.238-240
2D2-10 Design of Second-Order Capacitive-Coupled Resonator-Based Bandpass Filter With Controllable Multiple Transmission Zeros
H. Huang, S. Su, T. Horng, National Sun Yat-Sen Univ., Taiwan
pp.241-243
2D2-11 Balanced Dual-Band BPF with PartiallyCoupled Bi-Section λ/2 and λ/4 SIRs
H. Hsu1, C. Lee1, C. Hsu2, P. Wen1, 1National Changhua Univ. of Education, Taiwan, 2National Yunlin Univ. of Science and Technology, Taiwan
pp.244-246
2D2-12 Compact Duplexer for the UWB System Using novel CRLH Bandpass Filters
B. Lee1, G. Jang2, S. Kahng1, D. Eom1, I. Yang1, K. Kahng1, H. Kim3, 1Univ. of Incheon, Rep. of Korea, 2RF System Research Group, KMW, Rep. of Korea, 3Chung-ang Univ., Rep.of Korea
pp.247-249
2D2-13 Miniaturized Hybrid Ring Bandpass Filter with a Notched Band and an Improved Upper Stopband Using Double-Sided Parallel-Strip Lines
J. Li1, C. Chi2, C. Chang1, 1National Chiao Tung Univ., Taiwan, 2ITRI, Taiwan
pp.250-252
2D2-14 Wideband and UWB Filters with Complementary Couplings
M. Zukocinski, A. Abramowicz, Warsaw Univ. of Technology, Poland
pp.253-255
2D2-15 Synthesis of Asymmetrical Quadruple-band Bandpass Filters
A. Mohan1, S. Singh2, A. Biswas3, 1Indian Institute of Technology Rajasthan, India, 2Indian Space Research Organisation, India, 3Indian Institute of Technology Kanpur, India
pp.256-258
2D2-16 Compact Microstrip Broadband Bandpass Filter with Harmonic Suppression Based on Embedded Resonators
K. Hsu, J. Lin, W. Tu, National Central Univ., Taiwan
pp.259-261
2D2-17 A 24-GHz Single-to-Balanced Multicoupled Line Bandpass Filter in CMOS Technology
C. You, Y. Lin, National Central Univ., Taiwan pp.262-264
2D3-01 A Chip-Size Structure for Continuous Microwave Irradiation by Post-Wall Waveguide
M. Kishihara1, M. Yamashima1, Y. Utsumi2, 1Okayama Prefectural Univ., Japan, 2Univ. of Hyogo, Japan
pp.265-267
Paper Title Authors and Contact Affiliation Page No.
2D3-02 A Complete Single-Chip Multi-Standard Dual-Mode CMOS RFID Reader with Low Power Consumption
S. Lee1, H. Kwon2, C. Ryu2, S. Kim2, K. Kang2, S. Chun2, P. Lee2, C. Nguyen1, 1TexasA&M Univ., United States, 23alogics, Rep. of Korea
pp.268-270
2D3-03 Experiment of Breast Cancer Detectionfor Low Contrast Permittivity Tumor in Synthetic Breast Phantom
D. Zhang1,2, A. Mase2, 1Univ. of Electronic Science and Technology of China, China 2Kyushu Univ., Japan
pp.271-273
2D3-04 Time Domain Analysis of Crosstalk between Microstrip Lines Placed along Slot with Various Widths and Lengths
Y. Kitsunai, T. Tobana, T. Sasamori, Y. Isota, Akita Prefectual Univ., Japan
pp.274-276
2D3-05 Effects of 3D Via and Die Attach on Power Integrity of a Packaged IC
Y. Lin, Y. Lin, T. Horng, L. Hwang, National Sun Yat-sen Univ., Taiwan
pp.277-279
2D3-06 Impact of Trace Spacing on Noise Coupling for Guard Trace in Stripline Structure
G. Shiue, Z. Zhang, Y. Tsai, Y. Kao, C. Yeh, Chung Yuan Christian Univ., Taiwan
pp.280-282
2D3-07 Design and Characterization of a Low-Viscous Muscle Tissue Mimicking Media at the ISM-band (2.4-2.48 GHz) for Easy Antenna Displacement in In Vitro Measurements
S. Jonasson, V. Zhurbenko, T. Johansen, Technical Univ. of Denmark, Denmark
pp.283-285
2D3-08 A Multistatic Feeding Concept for Beam Steering Based on a Dielectric Ellipsoidal Antenna
C. Schulz, C. Baer, N. Pohl, T. Musch, I. Rolfes, Ruhr-University of Bochum, Germany
pp.286-288
2D3-09 Evaluation of Microwave Shielding Characteristics of Quasi-Isotropic Carbon Fiber Reinforced Plastic Laminates Based on Unidirectional Materials
S. Futatsumori, A. Kohmura, N. Yonemoto, Electronic Navigation Research Institute, Japan
pp.289-291
2D3-10 A Broadband and High Tuning Sensitivity VCO Detector for On-package IR-drop and Signal-integrity Measurement
G. Wang, Y. Wu, S. NG, L. Huang, S. Wu, National Univ. of Kaohsiung, Taiwan
pp.292-294
2D3-11 A Novel Signal Transformation Measurement and Modeling by Non-contacting Coupling Technology
W. Chien, R. Hsu, W. Chen, S. Wu, National Univ. of Kaohsiung, Taiwan
pp.295-297
2D3-12 Basic Characteristics of Selective Wireless Power Transfer System Based on Coupled Magnetic Resonances
H. Kohara, I. Toyoda, Saga Univ., Japan pp.298-300
2D4-01 60 GHz On-Chip Dipole Antenna with Differential Feed
T. Hirano, T. Yamaguchi, N. Li, K. Okada, J. Hirokawa, M. Ando, Tokyo Institute of Technology, Japan
pp.304-306
2D4-02 Three Types of Array Antennas for 60-GHz Radios
Z. Tu, Y. Zhang, Nanyang Technological Univ., Singapore
pp.307-309
2D4-03 Wideband Internal Antenna for Tablet/Laptop Applications
Y. Tseng, Y. Tseng, W. Tu, National Central Univ., Taiwan
pp.310-312
Paper Title Authors and Contact Affiliation Page No.
2D4-04 A Compact Printed Dual-Band WLAN Antenna with a Shorted Coupling Strip for Mobile Terminals
J. Ahn1,2, S. Kim1, M. Lee2, Y. Kim2, 1Samsung Electronics Co., Rep. of Korea, 2Korea Univ., Rep. of Korea
pp.313-315
2D4-05 Broadband Cross-Slot Antennas with CPW Feeding Structure
L. Chen, C. Lin, C. Wang, National Univ. of Tainan, Taiwan
pp.316-318
2D4-06 High-Isolation WLAN MIMO Laptop Computer Antenna Array
H. Jiang, Y. Kao, K. Wong, National Sun Yat-Sen Univ., Taiwan
pp.319-321
2D4-07 2.4/5.2/5.8 GHz WLAN Antenna for theUltrabook Computer with Metal Housing
L. Chen, K. Wong, National Sun Yat-Sen Univ., Taiwan
pp.322-324
2D4-08 A High Isolation Dual Strip Monopole Antenna
L. Chang1,2, C. Tsai1,2, M. Chen1,2, P. Hsu2,1, 1Industrial Technology Research Institute, Taiwan, 2National Taiwan Univ., Taiwan
pp.325-327
2D4-09 A Wideband 60GHz Chip Antenna
M. Nakajima, K. Sudo, H. Fujii, E. Kobayashi, T. Hiratsuka, Murata Manufacturing Company Ltd., Japan
pp.328-330
2D4-10 Electromagnetic Interactions of On-Chip Antennas and Inductors
T. Deng1,2, Z. Chen3, Y. Zhang2, 1National Univ. of Singapore, Singapore, 2Nanyang Technological Univ., Singapore, 3Fujitsu Semiconductor Asia, Singapore
pp.331-333
2D4-11 A Small Planar 4G Antenna with A Coupled-fed Monopole and A Directed-fed Monopole for Mobile Handset Application
W. Chen1, J. Wang1, B. Lee2, H. Lin1, 1Southern Taiwan Univ. of Science and Technology, Taiwan, 2Tung Fang Design Univ., Taiwan
pp.334-336
2D4-12 On the Millimeter-Wave Half-Loop-fed Fabry-Perot Resonator Antenna
K. Lu, K. Leung, City Univ. of Hong Kong, Hong Kong SAR, China
pp.337-339
2D4-13 Marching-on-in-Degree Solver of Time Domain Finite Element-Boundary Integral Method
H. Zhang, Y. Shi, Z. Fan, R. Chen, Nanjing Univ. of Science and Technology, China
pp.340-342
2D4-14 An Equivalent Dipole-Moment Method Combined with Multilevel Adaptive Cross Approximation for PEC Targets
R. Chen, Z. Fan, D. Ding, R. Chen, Nanjing Univ. of Science and Technology, China
pp.343-345
2D4-15 Wave Propagation Simulations for Considering the Installation of the Maritime Mobile Satellite Communication antennas
T. Aoyagi1, K. Suzaki2, Y. Suzuki2, T. Hirose2, T. Sugiyama2, 1Tokyo Institute of Technology, Japan, 2NTT Corporation, Japan
pp.346-348
2D4-16 A Circular Polarized Antenna with Dual-Feed by GIPD Process
C. Tsai, C. Yang, National Cheng Kung Univ., Taiwan
pp.349-351
2D4-17 Broadband Reflectarray with Single Layer Sub-wavelength Patch Elements Fed by SIW taperd Slot Antenna
Z. Liu1,2, Y. Guo2, 1Southeast Univ., China, 2National Univ. of Singapore, Singapore
pp.352-354
3A1-01 High Efficiency Dual-Band Class-E Power Amplifier Design
Y. Lin, C. Chen, T. Horng, National Sun Yat-sen Univ., Taiwan
pp.355-357
Paper Title Authors and Contact Affiliation Page No.
3A1-02 Internally Matched GaN FET at C-band with 220W Output Power and 56% Power Added Efficiency
H. Maehara, H. Uchida, N. Kosaka, E. Kuwata, K. Yamanaka, J. Nishihara, K. Kawashima, M. Nakayama, Mitsubishi Electric Corporation, Japan
pp.358-360
3A1-03 A Broadband Doherty Power Amplifier Without a Quarter-Wave Impedance Inverting Network
S. Watanabe, Y. Takayama, R. Ishikawa, K. Honjo, The Univ. of Electro-Communications, Japan
pp.361-363
3A1-04 Novel Design of a Concurrent Tri-band GaN- HEMT Doherty Power Amplifier
X. Nghiem, R. Negra, RWTH Aachen Univ., Germany
pp.364-366
3A1-05 Highly Efficient Dual-band Power Amplifier Based on Cascaded CMRCs
S. Chen, Q. Xue, City Univ. of Hong Kong, Hong Kong SAR, China
pp.367-369
3A1-06 A Novel Broadband Doherty Power Amplifier with Post-Matching Structure
X. Chen, W. Chen, Tsinghua Univ., China pp.370-372
3A2-01 A Planar Orthomode Transducer for Broadband Applications at 25 GHz Using a Stepped Waveguide Technique
C. Baer, C. Schulz, B. Will, I. Rolfes, T. Musch, Ruhr-Universitaet Bochum, Germany
pp.373-375
3A2-02 Novel Cavity-Type Multi-Mode Filter Using TEM-mode and TE-mode
S. Yakuno, T. Ishizaki, Ryukoku Univ., Japan pp.376-378
3A2-03 Corrugated Substrate Integrated Waveguide Distributed Amplifier
K. W. Eccleston, Univ. of Canterbury, New Zealand,
pp.379-381
3A2-04 Waveguide Dual-mode Filter in Extended Box Topology for General Asymmetric Transfer Characteristics
H. Hu, H. Meng, K. Wu, The Chinese Univ. of Hong Kong, Hong Kong SAR, China
pp.382-384
3A2-05 Compact Quasi-Elliptic Bandpass Filter Based on Folded Ridge Substrate Integrated Waveguide (FRSIW)
L. Wu, J. Mao, W. Yin, Shanghai Jiao Tong Univ., China
pp.385-387
3A2-06 Recent Progress in Non-planar Microwave Filters - From Theory and Practices
K. Wu, The Chinese Univ. of Hong Kong, Hong Kong SAR, China
pp.388-390
3A3-01 GaN HEMT Based Rectifier for Spacecraft Health Monitoring System Using Microwave Wireless Power Transfer
Y. Kobayashi1, S. Tashiro2, T. Noji3, G. Fukuda2, S. Yoshida1, Y. Maru1, Y. Naruo1, Z. Yamamoto1, S. Kawasaki1, 1Japan AerospaceExploration Agency, Japan, 2Tokyo Univ. of Science, Japan, 3Tokyo Metropolitan Univ., Japan
pp.391-393
3A3-02 A Linear Supply Modulator with High Dynamic Range for Polar Transmitters in LTE Application
J. Guan, R. Negra, RWTH Aachen Univ., Germany
pp.394-396
3A3-03 Comparison between Inductance Topologies for Resonant Wireless Power Transmission Applications
A. Robichaud, M. Boudreault, D. Deslandes, Universite du Quebec a Montreal, Montreal, Canada
pp.397-399
3A3-04 Using Pulse Width and Waveform Modulation to Enhance Power Conversion Efficiency under Constraintof Low Input Power
Y. Yang, C. Tsai, C. Yang, C. Yang, National Cheng Kung Univ., Taiwan
pp.400-402
Paper Title Authors and Contact Affiliation Page No.
3A3-05 Investigation of Wireless Power Transfer in Through-wall Applications
Y. Seo1, Z. Hughes1, M. Hoang1, D. Isom1, M. Nguyen1, S. Rao2, J. Chiao1, 1Univ. of Texas at Arlington, United States, 2Med-Worx, United States
pp.403-405
3A3-06 Broadband 8 to 18 GHz Phased Array System for Communications
D. Jung, C. Kim, K. Chang, Texas A&M Univ.,United States
pp.406-408
3A4-01 Spiral-like Implanted Antenna for Biotelemetry
Y. Yang1, H. Su2, K. Lin1, H. Lin3, C. Wu3, 1National Sun Yat-Sen Univ., Taiwan, 2National Pingtung Institute of Commerce, Taiwan, 3ITRI, Taiwan
pp.409-411
3A4-02 A Dielectric Lens Antenna Feeding with Microstrip Patch Antennas for 77GHz Long Range Radar Application
H. Wang, Y. Huang, S. Chung, National Chiao Tung Univ., Taiwan
pp.412-414
3A4-03 Estimation and Measurement of Cylindrical Wave Propagation in Parallel Plate with Honeycomb Spacer for the Use in mm-Wave RLSA
R. Jayawardene1, T. Nguyen1, Y. Takano1, K. Sakurai1, T. Hirano2, J. Hirokawa1, M. Ando1, O. Amano2, S. Koreeda2, T. Matsuzaki2, 1Tokyo Institute of Technology, Japan, 2NEC Toshiba Space Systems, Japan
pp.415-417
3A4-04 Wireless Powering of Microchip Implants by a Cross-Slot Antenna
Y. Tanabe, J. Ho, H. Wong, A. Poon, StanfordUniv., United States
pp.418-420
3A4-05 A Simple Folded Dipole Antenna for Medical Implant Communications at 900 MHz Band
B. Basari, D. Sirait, F. Zulkifli, E. Rahardjo, Universitas Indonesia, Indonesia
pp.421-423
3A4-06 Novel Small Antennas for Body-CentricWireless Communications
K. Ito, H. Lin, C. Lin, Chiba Univ., Japan pp.424-426
3A5-01 A 220 GHz Low Noise Superconducting Receiver with Wide Instantaneous Operating Bandwidth
C. Han1, M. Wang1, T. Chen1, W. Lu1, C. Tong2, 1Academic Sinica Institute of Astronomy and Astrophysics, Taiwan, 2Harvard-Smithsonian Center for Astrophysics, USA
pp.427-429
3A5-02 W-band 90nm CMOS LNA Design
C. Liao1, C. Hsieh1, R. Hu1, D. Niu2, Y. Shiao3,1National Chiao Tung Univ., Taiwan, 2Chun Shan Institute of Science and Technology, Taiwan, 3NDL, Taiwan
pp.430-432
3A5-03 70 kHz-145 GHz Broadband S-parameter Measurements: Calibration and Verification Possibilities
J. Martens, T. Roberts, K. Noujeim, S. Reyes, Anritsu Company, United States
pp.433-435
3A5-04 High-Dynamic-Range Measurement of Millimeter-wave Amplifier using 140-GHz Fundamental Mixer
M. Fuse, H. Sekiya, A. Otani, Anritsu Corporation, Japan
pp.436-438
3A5-05 A 113 GHz 176 mW Transmitter and Receiver Chipset Using 65 nm CMOS Technology
N. Ono1,3, M. Motoyoshi2, K. Takano2, K. Katayama2, R. Fujimoto1, M. Fujishima2, 1Toshiba Corp., Japan, 2Hiroshima Univ., Japan, 3Semiconductor Technology Academic Research Center, Japan
pp.439-441
3A5-06 A 130 to 160 GHz Broadband Power Amplifier with Binary Power Splitting Topology
S. Diebold1, P. Pahl1, B. Goettel1, H. Massler2, A. Tessmann2, A. Leuther2, T. Zwick1, I. Kallfass1,2, 1Karlsruhe Institute of Technology (KIT), Germany, 2Fraunhofer Institute for Applied Solid-State Physics (IAF), Germany
pp.442-444
3A6-01 Switchable Eletromagnetic Metamaterial Reflector/Absorber
M. Yoo, S. Lim, Chung-Ang Univ., Rep. of Korea
pp.445-447
Paper Title Authors and Contact Affiliation Page No.
3A6-02 Three-Dimensional Band-Pass Frequency-Selective Structure with Multiple Transmission Zeros
B. Li, Z. Shen, Nanyang Technological Univ., Singapore
pp.448-450
3A6-03 Switchable Graded Index Microwave Metamaterial Lens Design Using Pneumatic Actuation
I. Khodasevych1, I. Shadrivov2, D. Powell2, W.Rowe1, A. Mitchell1, 1RMIT Univ., Australia, 2Australian National Univ., Australia
pp.451-453
3A6-04 3D Frequency Selective Surfaces With Close Band Spacing
S. Azemi, K. Ghorbani, W. Rowe, RMIT Univ.,Australia
pp.454-456
3A6-05 Metamaterial Cavity and RF Rectifier for Wireless Powering System
C. Liou1, C. Kuo1, M. Lee1, S. Mao2, 1National Taipei Univ. of Technology, Taiwan, 2National Taiwan Univ., Taiwan
pp.457-459
3A6-06 Novel Compact Partial-H Plane Filter Based on the Composite Right/Left-Handed Transmission line in Folded Substrate-Integrated Waveguide
P. Chi1, T. Yang2, 1National Chiao Tung Univ.,Taiwan, 2Univ. of Electronic Science and Technology of China, China
pp.460-462
3B1-01 A Systematic Method to Design High Efficiency Harmonic Tuned Power Amplifier with PAE over 80%
S. Xie, S. He, Z. Hu, X. Ding, F. You, Univ. of Electronic Science and Technology of China, China
pp.463-465
3B1-02 Design of X-band 40 W Pulse-Driven GaN HEMT Power Amplifier
H. Jeong, H. Oh, A. Ahmed, K. Yeom, Chungnam National Univ., Rep. of Korea
pp.466-468
3B1-03 A 63W 14MHz Class-E Amplifier for Wireless Power Transmission
G. Lee1, C. Thompson2, T. Hwang2, R. Chinga2, J. Lin2, 1Research Institute of Industrial Science & Technology, Rep. of Korea, 2Univ. of Florida, United States
pp.469-471
3B1-04 A High Efficiency and Low Rx-Noise Three Power Mode Power Amplifier for W-CDMA Handsets
K. Kato, N. Matsunaga, K. Horiguchi, M. Hieda, K. Mori, Mitsubishi Electric Corporation, Japan
pp.472-474
3B1-06 Experimental Design Method for GHz-Band High-Efficiency Power Amplifiers Based on MHz-Band Active Harmonics Load-Pull Technique
R. Ishikawa, Y. Takayama, K. Honjo, The Univ. of Electro- Communications, Japan
pp.478-480
3B1-07 Automated Power Amplifier Design Assisted with Particle Swarm Optimization
P. Chen, S. He, F. You, Univ. of Electronic Science and Technology of China, China
pp.481-483
3B1-08 A Novel Manufacturing Process of AlGaN/GaN HEMT for X-Band High-Power Application on Si (111) Substrate
C. Wang, R. Maharjan, S. Cho, N. Kim, Kwangwoon Univ., Rep. of Korea
pp.484-486
3B1-09 Linearity Improvement of High Efficiency Envelope Tracking Amplifier using Dynamic Gate Voltage
T. Okada, Y. Isota, T. Sasamori, T. Tobana, Akita Prefectural Univ., Japan
pp.487-489
3B1-10 A 2.4 GHz CMOS Power Amplifier Using Asymmetric MOSFETs
S. Liu1, Y. Huang1, Y. Chen1, T. Chang2, A. Chin1, 1National Chiao Tung Univ., Taiwan, 2Chung-Shan Institute of Science & Technology, Taiwan
pp.490-492
Paper Title Authors and Contact Affiliation Page No.
3B1-11 Time-Efficient Adjacent Channel Power Ratio Simulation utilizing Overlap-add Signal Decomposition for UMTS Power Amplifiers
A. Zohny1, S. Leuschner2, M. Kastner2, J. Rascher1, T. Ussmueller1, J. Mueller2, G. Fischer1, R. Weigel1, 1Friedrich-Alexander-Univ., Germany, 2Intel Mobile Communications, Germany
pp.493-495
3B1-12 High Gain and High PAE Power Amplifier by Employing Adaptive Bias Control Circuit for Resonant WPT
H. Hwang, S. Yang, C. Seo, Soongsil Univ., Rep. of Korea
pp.496-498
3B1-13 Fully integrated CMOS Power Amplifier utilizing modified LC matching for transformation between balance and unbalance terminals
C. Chen1, S. Wang1, G. Lin1, M. Lee1, C. Jou2,1Industrial Technology Research Institute, Taiwan, 2Taiwan Semiconductor Manufacturing Company, Taiwan
pp.499-501
3B2-01 A Novel Compact LTCC UWB Bandpass Filter Using Semi-Lumped Highpass Filter
Y. Dai, Q. Han, Q. Xie, F. Guo, L. Wang, C. Wei, Nanjing Univ. of Science and Technology, China
pp.502-504
3B2-02 Compact Dual-wideband Bandstop Filter Based on Transversal Signal-interference Concept
W. Feng, W. Che, S. Shi, J. Zhou, Nanjing Univ. of Science and Technology, China
pp.505-507
3B2-03 Interdigital-Inductors Based Bandpass Filter for Wireless Local Area Network Applications
R. Maharjan, C. Wang, S. Cho, N. Kim, Kwangwoon Univ., Rep. of Korea
pp.508-510
3B2-04 Wide Tuning Range Dielectric Resonator by Optimizing the Tuning Stub Characteristic Impedance
A. Effendy1, W. Ismail2, 1Agilent Technologies, Malaysia, 2Universiti Sains Malaysia, Malaysia
pp.511-513
3B2-05 A Compact Low-Loss Tunable Filter with Mixed Electric and Magnetic Coupling
C. Ge, X. Zhu, Southeast Univ., China pp.514-516
3B2-06 A Compact Mobius Ring Bandpass Filter Embedded in Low-Temperature Co-Fired Ceramics (LTCC) Substrate
T. Kaneko, S. Takagi, R. Matsubara, Y. Horii, Kansai Univ., Japan
pp.517-519
3B2-07 Improved Bulk Acoustic Wave Resonator Using Edge Method for High Performance
M. Lee, I. Song, J. Shin, H. Park, S. Son, C. Kim, D. Kim, J. Cui, Y. Ai, Samsung Advanced Institute of Technology, Rep. of Korea
pp.520-522
3B2-08 A Dual-band Dual-mode Filter Constructed by Using Floating-plate Overlay Structures
Y. Chiang, C. Yang, Y. Pan, J. Chen, Chang Gung Univ., Taiwan
pp.523-525
3B2-09 Design of a Planar Diplexer Based on Complementary Compact Microstrip Resonant Cell
W. Qin, Q. Xue, City Univ. of Hong Kong, Hong Kong SAR, China
pp.526-528
3B2-10 Compact Ultra-Wideband Planar Filter with RF-MEMS-Based Tunable Notched Band
L. Pelliccia1, F. Cacciamani1, F. Gentili1, P. Farinelli2, R. Sorrentino1,2, 1Univ. of Perugia, Italy, 2RF Microtech Srl, Italy
pp.529-531
3B2-11 Triple-Mode Bandpass Filters on Stub-Loaded Resonator with Novel I/O Coupling Scheme
S. Zhang, L. Zhu, Nanyang Technological Univ., Singapore
pp.532-534
3B2-12 Compact Quasi-Elliptic Bandpass Filter with a Very Wide Stopband UsingQuarter- Wavelength Stepped-Impedance Resonators
C. Chio1, S. Ting1, X. Zhao2, K. Tam1, 1Univ. of Macau, Macau SAR, China, 2Xidian Univ., China
pp.535-537
Paper Title Authors and Contact Affiliation Page No.
3B2-13 Compact Dual-band Filter Using Quadruple-Mode Resonator for WLANs
K. Lee, H. Su, M. K. Haldar, Swinburne Univ. of Technology (Sarawak Campus), Malaysia
pp.538-540
3B2-14 Wide-band Power Divider Miniaturized by Combining CRLH ZOR Bandpass Filters
D. Eom1, S. Kahng1, B. Lee1, C. Woo2, H. Lee2, 1Univ. of Incheon, Rep. of Korea, 2LIGNEX1, Rep. of Korea
pp.541-543
3B2-15 3D Structure Band-pass Filter Implementation by Vias and Power/Ground Plane Effect on Testing Load Board
Y. Wu, Y. Kuo, P. Yu, S. Wu, National Univ. ofKaohsiung, Taiwan
pp.544-546
3B2-16 High Performance TD-SCDMA Band-Pass Filter Based on Film Bulk Acoustic Resonator Technology
M. Qi, D. Zhang, W. Pang, H. Zhang, Tianjin Univ., China
pp.547-549
3B3-01 Miniaturized Bandpass Filter with Wide Stop-band Using Complementary Spiral Resonator
A. Horestani1,2, Z. Sahterian1, S. Al-Sarawi1, D. Abbott1, C. Fumeaux1, 1The Univ. of Adelaide, Australia, 2Aerospace Research Institute, Iran
pp.550-552
3B3-02 Directivity Enhancement Based on Anisotropic Zero Refraction Index Metamaterials
Q. Cheng, B. Zhou, H. Ma, W. Jiang, Southeast Univ., China
pp.553-555
3B3-03 Effect of Defect Location and Corrugation Phase on Transmission in a Defected Coaxial Bragg Structure with Two Corrugated Surfaces
Y. Lai1, S. Zhang2, X. Wei1, Y. Tan1, 1Dongguan Univ. of Technology, China, 2Southwest Jiaotong Univ., China
pp.556-558
3B3-04 A Single-Layer Thin Partially ReflectingSurface for Tri-Band Directivity Enhancement
B. Zeb1, Y. Ge2, K. Esselle1, 1Macquarie Univ., Australia, 2Huaqiao Univ., China
pp.559-561
3B3-05 Experimental Verification of Ultra-Wideband Multi-Layered CRLH Transmission Lines with Bandwidth Enhanced Unit Cells
T. Kaneko, R. Matsubara, S. Takagi, Y. Horii, Kansai Univ., Japan
pp.562-564
3B3-06 Theoretical Investigation on Wideband Folded Dipole Microwave Absorber Using Filtering Concept
Y. Chang1, W. Che1, Y. Chow2, 1Nanjing Univ.of Science and Technology, China, 2Univ. of Waterloo, United States
pp.565-567
3B3-07 Design of Absorber Based on Metamaterial Structure to Improve the Isolation of WCDMA Indoor Repeater
N. Yoon, H. Kim, C. Seo, Soongsil Univ., Rep.of Korea
pp.568-570
3B3-08 Expansion of a Continuous Stop Band of a Corrugated Waveguide by Attenuation Pole Control
O. Ishida, H. Md. Maruf, Okinawa National College of Technology, Japan
pp.571-573
3B3-09 Characteristic Equation of Infinite Planar Corrugated Surfaces Derived by Asymptotic Corrugations Boundary Conditions
T. Yen, M. Ng, National Chiao Tung Univ., Taiwan
pp.574-576
3B3-10 Design and Analysis of Metamaterial Antenna Using Triangular Resonator
B. Bala, M. Rahim, N. Murad, M. Ismail, H. Majid, Universiti Teknologi Malaysia, Malaysia
pp.577-579
3B3-11 Left-Handed Mode Propagating in the Structure Composed of Metal Strips Put Alternately
T. Yoshida, H. Kubo, A. Sanada, T. Yamamoto, Yamaguchi Univ., Japan
pp.580-582
Paper Title Authors and Contact Affiliation Page No.
3B3-12 A Novel Photonic Crystal Bandpass Filter Using Degenerate Modes of Point-Defect Microcavity for Terahertz Communication System
Y. Kamiji1, N. Nagaoka2, C. Chen1, T. Anada1,J. Hsu1, 1Kanagawa Univ., Japan, 2Nitto Denko Corporation, Japan
pp.583-585
3B3-13 Improved Characterization of High-Impedance Surfaces for Better Designs of Low Profile Antennas
C. Huang, M. Ng, National Chiao Tung Univ., Taiwan
pp.586-588
3B3-14 Modal Analysis of a Periodic Array of Metallic Pins Embedded within a Grounded Dielectric Substrate – An Asymptotic Solution for Vanishing Unit-Cell Size
Y. Chiou, M. Ng, National Chiao Tung Univ., Taiwan
pp.589-591
3B3-15 Study on Reduction of Specific Absorption Rate of 2.4 GHz Dipole Antenna by using Novel Artificial Magnetic Conductor’s Reflector
S. Lee, N. Kim, Y. Shin, J. Jang, Chungbuk National Univ., Rep. of Korea
pp.592-594
3B4-01 An Equivalent Two-Layer Model for a Fast Design of a High Gain Multi-Layer Radial Line Slot Antenna using MoM
T. Nguyen1, R. Jayawardene1, Y. Takano1, K. Sakurai1, T. Hirano1, J. Hirokawa1, M. Ando1, O. Amano2, S. Koreeda2, T. Matsuzaki2, 1Tokyo Institute of Technology, Japan, 2NEC-Toshiba, Japan
pp.595-597
3B4-02 Compact Multi-Broadband Monopole Antenna for Integrated Mobile Broadband Wireless Radio Access System Application
C. Chuang, Y. Jhang, T. Ku, Lunghwa Univ. of Science and Technology, Taiwan
pp.598-600
3B4-03 Printed Quasi-self-complementary Antenna for UWB Applications
C. Lin1, C. Huang2, C. Hong2, 1Chinese Air Force Academy, Taiwan, 2National Kaohsiung Normal Univ., Taiwan
pp.601-603
3B4-04 Low Cost Printed Circularly Polarized Wire Antenna
K. Mak, H. Lai, K. Luk, City Univ. of Hong Kong, Hong Kong SAR, China
pp.604-606
3B4-05 Internal Octa-band Antenna for WWAN/LTE Operation in a Tablet Computer
Y. Wang, J. Lu, National Kaohsiung Marine Univ., Taiwan
pp.607-609
3B4-06 Effects of Conductive Superstrate On USB Dongle Antennas
S. Lin1, Y. Lin2, J. Wang1, W. Chen1, 1Cheng Shiu Univ., Taiwan, 2Metal Industries Research & Development Centre, Taiwan
pp.610-612
3B4-07 Frequency Agile Microstrip Patch to Slot Antenna
H. Majid, M. Rahim, M. Hamid, M. Ismail, Universiti Teknologi Malaysia, Malaysia
pp.613-615
3B4-08 A Polarization Reconfigurable Microstrip Patch Antenna Using PIN Diodes
T. Song, Y. Lee, D. Ga, J. Choi, Hanyang Univ., Rep. of Korea
pp.616-618
3B4-09 Polarization Reconfigurable Microstrip Patch Antenna with Complementary Split Ring Resonator (CSRR)
M. Lee1, Y. Sung2, S. Kim1, Y. Kim1, 1Korea Univ., Rep. of Korea, 2Kyonggi Univ., Rep. of Korea
pp.619-621
3B4-10 A Novel Arc-Microstrip Design For Reconfiguring Polarization
Y. Lee1, H. Teng2, S. Cherng3, S. Wang1, 1I-Shou Univ., Taiwan, 2ROC Military Academy, Taiwan, 3Chengshiu Univ., Taiwan
pp.622-624
3B4-11 Microwave Reflectometric Measurement of Heart-Rate Variability and Stress Evaluation
A. Mase1, N. Ito2, Y. Komada1, A. Kobayashi1,T. Maruyama3, H. Shimazu2, E. Sakata2, F. Sakai3, 1Kyushu Univ., Japan, 2Hitachi Maxell,Ltd., Japan, 3Sakura Tech Corp., Japan
pp.625-627
Paper Title Authors and Contact Affiliation Page No.
3B4-12 Analysis of Wi-Fi Coverage in Light Rail Train Using Parallel Higher Order Method of Moments
C. Chio1, S. Ting1, X. Zhao2, T. Sarkar3, Y. Zhang2, K. Tam1, 1Univ. of Macau, Macau SAR, China, 2Xidian Univ., China, 3Syracuse Univ., United States
pp.628-630
3B4-14 Multilateral Monopole Antenna with a Band-Notched Operation for UWB Application
C. Hsu, C. Chang, National United Univ., Taiwan
pp.634-636
3B4-16 Directive Wideband Antenna for Microwave Imaging System for Brain Stroke Detection
B. Mohammed 1,2, A. Abbosh 1, D. Ireland1, 1The Univ. of Queensland, Australia, 2Mosul Univ., Iraq
pp.640-642
3C1-01 A Low-Power 24 GHz Phase Lock Loop with Gain-Boosted Charge Pump Embedded in 0.18 μm CMOS Technology
M. Huang1, C. Yu1, J. Tsai2,2, T. Huang1, 1National Taiwan Univ., Taiwan, 2National Taiwan Normal Univ., Taiwan
pp.643-645
3C1-02 A 60 GHz PLL Synthesizer with an Injection Locked Frequency Divider using a Fast VCO Frequency Calibration Algorithm
T. Shima, K. Miyanaga, K. Takinami, Panasonic Corp., Japan
pp.646-648
3C1-03 Ultra-Low Phase Noise 76-81 GHz PLL Synthesizer for FMCW Radar in 65 nm CMOS
H. Matsumura1,2, M. Sato1,2, A. Mineyama2, T.Suzuki1,2, N. Hara2, 1Fujitsu Limited, Japan, 2Fujitsu Laboratories Limited, Japan
pp.649-651
3C1-04 Digital Low-Power High-Band UWB Pulse Generator in 130nm CMOS Process
C. Jung, H. Yoo, Y. Eo, Kwang-woon Univ., Rep. of Korea
pp.652-654
3C1-05 Investigation of On-Chip Phase-Noise Reduction Using Self-Injection Technique on Fully Integrated Frequency Dividers
S. Lee1, J. Kim2, C. Nguyen1, 1Texas A&M Univ., United States, 2Qualcomm Inc, United States
pp.655-657
3C1-06 60-GHz Dual-Conversion Down-/Up-Converters Using Schottky Diode in 0.18 μm CMOS Process: An Alternative Approach for Millimeter-Wave Transceiver
C. Meng1, M. Chang2, 1National Chiao Tung Unive., Taiwan, 2Univ. of California, Los Angeles, United States
pp.658-660
3C2-01 Bandwidth and Transmission Zero Control for Compact Dual-Mode Resonator Filter by Extraction of EM Coupling
S. Tang1, J. Kuo2, S. Chung1, 1National Chiao Tung Univ., Taiwan, 2Chang Gung Univ., Taiwan
pp.661-663
3C2-02 Compact Dual-Band Microstrip Bandpass Filters Using Composite Cross and Open/ Short-Circuited E-Shaped Resonators
R. Zhang1, L. Zhu1, S. Luo2, 1Nanyang Technological Univ., Singapore, 2National Univ. of Singapore, Singapore
pp.664-666
3C2-03 General Synthesis Method for Symmetrical Even-Order Chebyshev Bandpass Filter
S. Zhang, L. Zhu, Nanyang Technological Univ., Singapore
pp.667-669
3C2-04 Investigation of the Methods of Improving Group Delay Characteristic using Complex Transmission Zeros for Coupled Resonators Filter
K. Murasawa, T. Sekine, Y. Takahashi, Gifu Univ., Japan
pp.670-672
Paper Title Authors and Contact Affiliation Page No.
3C2-05 Filter Design for Modern Communication Systems
R. Snyder, RS Microwave, United States pp.673-675
3C3-01 A Co-design of Dielectric Lens and Folded Reflectarray Antenna with the Application to 77 GHz Long-range Mode Forward-looking Vehicle Collision Warning Radar System
C. Tsai1, L. Kan1, H. Chen2,2, S. Chung1, 1National Chiao Tung Univ., Taiwan, 2National Kaohsiung First Univ. of Science and Technology, Taiwan
pp.676-678
3C3-02 High-Resolution Millimeter-wave Near-field Imaging with Reconstruction Algorithm Based on Antenna-radiation-pattern Deconvolution Processing
T. Kojima1, S. Mochizuki2, H. Togo1, N. Kukutsu1, 1NTT, Atsugi, Japan, 2NTT, Tsukuba, Japan
pp.679-681
3C3-03 Advanced Code Sequences Design for Pedestrian Detection in Millimeter-Wave Pulse-Compression Radar System
K. Kobayashi, T. Morita, H. Mukai, T. Kishigami, Y. Nakagawa, Panasonic Corporation, Japan
pp.682-684
3C3-04 Space-Domain Microwave Reflectometry Using Electrooptic Imaging
M. Tsuchiya1, T. Shiozawa2, 1National Institute of Information and Communications Technology, Japan, 2Kagawa National College of Technology, Japan
pp.685-687
3C3-05 A 65 nm CMOS Base Band Filter for 77 GHz Automotive Radar Compensating Path Loss Difference
Y. Kim, S. Lee, Y. Eo, Kwangwoon Univ., Rep. of Korea
pp.688-690
3C3-06 Analog Signal Processing (ASP) for High-Speed Microwave and Millimeter-Wave Systems
C. Caloz1, S. Gupta2, B. Nikfal1, Q. Zhang1, 1Ecole Polytechnique de Montreal, Canada, 2Univ. of Colorado, United States
pp.691-692
3C4-01 Broadband Dual-Polarized Slot Loop Antennas with High Isolation Orthogonal Modes Operation
K. Hung, S. Fang, MediaTek Inc., Taiwan pp.693-695
3C4-02 4-Port Quadri-Polarization Diversity Antenna with a Novel Feeding Network
Y. Chi, F. Chen, National Chiao Tung Univ., Taiwan
pp.696-698
3C4-03 Concurrent Dual-band Six Antenna System for MIMO Access Points
S. Wang1, F. Chang2, S. Su3, Y. Chen2, 1National Sun Yat-Sen Univ., Taiwan, 2Cheng Shiu Univ., Taiwan, 3ASUSTek Computer Inc, Taiwan
pp.699-701
3C4-04 Decoupling Network Comprising Transmission Lines and Bridge Resistance for Two-element Array Antenna
S. Li, N. Honma, N. Yamaki, Iwate Univ., Japan
pp.702-704
3C4-05 Design of MIMO Antenna with Decoupling Network for LTE Mobile Application
D. Ga, Y. Lee, T. Song, J. Choi, Hanyang Univ., Rep. of Korea
pp.705-707
3C4-06 Design and Exposure of Wireless Communication and Power Charging Systems: Design Rules, Levels of Exposure, Challenges in Exposure Assessment and Compliance Testing
N. Kuster, IT’IS, Switzerland, Swiss Federal Institute of Technology, Switzerland
pp.708-710
3C5-01 A Triple-Band Circularly-Polarized Antenna with Tuning Fork Shape Strips
Y. Dai, Y. Lin, J. Huang, C. Jou, National Chiao Tung Univ., Taiwan
pp.711-713
3C5-02 Applications of Optimization Techniques to Designs of Ultra-Wideband Planar Monopole Antennas
Y. Chen, W. Chou, S. Chen, National Taiwan Univ., Taiwan
pp.714-716
Paper Title Authors and Contact Affiliation Page No.
3C5-03 Design Quad-band Monopole Antenna Using Coupling Effect of Rectangular Ring-shaped Patches and Slots on the Ground plane
Y. Shin1, S. Lee1, N. Kim1, D. Choi2, 1Chungbuk National Univ., Rep. of Korea, 2National Radio Research Agency of Korea Communication, Rep. of Korea
pp.717-719
3C5-04 CPW Antenna for Miniaturization of SAR System Front-end
H. Jamil, J. Scott, K. Ghorbani, RMIT Univ., Australia
pp.720-722
3C5-05 Compact Super Wideband Monopole Antenna with Switchable Dual Band-Notched Characteristics
M. Almalkawi, M. Westrick, V. Devabhaktuni, The Univ. of Toledo, United States
pp.723-725
3C5-06 A Highly Miniaturized Planar Antenna With Dual Band-Notched Using Two Slot Types for UWB Wireless Communications
E. Tammam1, K. Yoshitomi2, A. Allam1, M. El-Sayed1, H. Kanaya2, and K. Yoshida2, 1Egypt-Japan Univ. of Science and Technology, Egypt, 2Kyushu Univ., Japan
pp.726-728
3C6-01 Resonant Frequency and Bandwidth Tunable Ring Resonator Employing MEMS Tunable Capacitors
K. Kawai, H. Okazaki, S. Narahashi, NTT DOCOMO, Inc., Japan
pp.729-731
3C6-02 Three-Bit Reconfigurable Bandpass Filter Using Branch-Line Type Variable Resonator
K. Azuma, R. Kobayashi, Y. Yamao, The Univ. of Electro- Communications, Japan
pp.732-734
3C6-03 RF MEMS Bandwidth-reconfigurable Hairpin Filters
F. Gentili1, L. Pelliccia1, F. Cacciamani1, P. Farinelli2, R. Sorrentino1, 1Univ. of Perugia, Italy, 2RF Microtech, Italy
pp.735-737
3C6-04 A 1-1.5 GHz Broadband Tunable Bandpass Filter
Y. Chen, S. Chang, T. Chao, National Chung Cheng Univ., Taiwan
pp.738-740
3D1-01 A 56-67 GHz Low-Noise Amplifier with 5.1-dB NF and 2.5-kV HBM ESD Protection in 65-nm CMOS
M. Tsai1, H. Hsieh1, C. Lin2, L. Chu2, S. Hsu3, T. Yeh1, C. Jou1, F. Hsueh1, M. Ker2, 1Taiwan Semiconductor Manufacturing Company, Taiwan, 2National Chiao Tung Univ., Taiwan, 3National Tsing Hua Univ., Taiwan
pp.747-749
3D1-02 A Low-Power, Compact Size Millimeter-Wave Two-Stage Current-Reused Low Noise Amplifier in90-nm CMOS Technology
H. Chou, Z. Ke, H. Chiou, National Central Univ., Taiwan
pp.750-752
3D1-03 RF model of a Back-gated Graphene Field Effect Transistor
X. Nghiem, B. Terres, C. Stampfer, R. Negra, RWTH Aachen Univ., Germany
pp.753-755
3D1-04 Temperature Dependent Linear HEMT Model Extracted with Multi-Temperature Optimization
Y. Zhu1, S. Karalkar2, K. Prasad2, C. Wei1, J. Mason1, D. Bartle1, 1Skyworks Solutions Inc., Woburn, United States, 2Univ. of Massachusetts Lowell, United States
pp.756-758
3D1-05 Analysis and Design of a Fully Integrated, Linear Dual Band LNA for WLAN and Wi-MAX Application
R. Bhattacharya, R. Gupta, A. Basu, S. Koul, IIT Delhi, India
pp.759-761
Paper Title Authors and Contact Affiliation Page No.
3D1-06 Recent Development of Microwave Systems and Applications at National Taiwan University
H. Wang, National Taiwan Univ., Taiwan pp.762-763
3D2-01 Design of CMOS Synthetic Transmission- Line-Based X-Band Active Bandstop Filter Using E-ShapedResonator
L. Hou1, S. Yang1, C. Tzuang1,2, 1National Taiwan Univ., Taiwan, 2Tianjin Univ., China
pp.764-766
3D2-02 An Interleaved Dual-Band Bandpass Filter with Independent Bandwidth Design
Y. Chen, S. Chang, National Chung Cheng Univ., Taiwan
pp.767-769
3D2-03 Super Miniaturized LTCC Filter using Novel Composite Resonators
T. Ishizaki, M. Yamada, R. Miyamoto, M. Yoneda, Ryukoku Univ., Japan
pp.770-772
3D2-04 LTCC-Based Multi-Layered UWB Bandpass Filter with Broadside Coupled E-shaped Electrodes for Significant Size Reduction and Improvement of Out-of-band Response
T. Kaneko, Y. Horii, Kansai Univ., Japan pp.773-775
3D2-05 A Multi-Layered Tunable Stepped-Impedance Resonator for Liquid Crystal Characterization
P. Yaghmaee1, A. Horestani1, B. Bates1,2, C. Fumeaux1, 1Univ. of Adelaide, Australia, 2Defence Science and Technology Organisation (DSTO), Australia
pp.776-778
3D2-06 Recent Development of Compact Microwave Filtering Structures based on Multilayer LCP Technology
J. Hong, F. Cervera, Heriot-Watt Univ., UnitedKingdom
pp.779-781
3D3-01 Towards Video Rate Imaging at Submillimetre-waves - Finnish Developments of Passive Multi-band Imaging and Holographic Submm-wave Beam Steering at VTT
A. Luukanen1, J. Ala-Laurinaho2, J. Hakli1, D. Gomes-Martins1, T. Kiuru1, P. Koivisto1, M. Leivo1, A. Rautiainen1, J. Saily1, A. Tamminen2, H. Toivanen1, R. Tuovinen1, A. Raisanen2, 1VTT Technical Research Centre of Finland, Finland, 2Aalto Univ., Finland
pp.782-784
3D3-02 On Multiport Antennas for MIMO-Systems
D. Heberling1, C. Oikonomopoulos-Zachos2, 1RWTH Aachen Univ., Germany, 2IMST GmbH, Germany
pp.785-787
3D3-03 Substrate Integrated Waveguide (SIW): an Emerging Technology for Wireless Systems
M. Bozzi, Univ. of Pavia, Italy pp.788-790
3D4-01 A New Design for CPW-Fed Broadband Circularly Polarized SquareSlot Antenna
S. Pan1,2, J. Sze1, 1Chung Cheng Institute of Technology, National Defense Univ., Taiwan, 2R.O.C. Army Academy, Taiwan
pp.791-793
3D4-02 Uniplanar Coupled-Fed U-Shaped Monopole Antenna for LTE/WWAN Operation in a Tablet Computer
F. Tsai, J. Lu, National Kaohsiung Marine Univ., Taiwan
pp.794-796
3D4-03 Design for Optimal Axial Ratio of SpiralAntenna for NLJD System
J. Jeong, K. Min, J. Kim, C. Park, I. Kim, Korea Maritime Univ., Rep. of Korea
pp.797-799
3D4-04 Reconfigurable Harmonic Suppressed Fractal Dipole Antenna
S. Hamzah, M. Esa, N. Malik, M. Ismail, Universiti Teknologi Malaysia, Malaysia
pp.800-802
3D5-01 Composite Sector-Beam Single-Conductor Leaky-Wave Antenna for Base-Station Applications
C. Wu1, H. Lin1, Y. Lin1, T. Kitazawa2, 1National Chiao Tung Univ., Taiwan, 2Ritsumeikan Univ., Japan
pp.803-805
Paper Title Authors and Contact Affiliation Page No.
3D5-02 An Effective Procedure to Simulate an Extremely Large Array of Antennas and its Validation by Measurement Results
H. Chou1, Y. Chen1, K. Lu2, C. Yu1, 1Yuan Ze Univ., Taiwan, 2National Taiwan Univ., Taiwan
pp.806-808
3D5-03 Orthogonal Linear Polarization Switchable Slot-Ring Array Antenna Using RF-MEMS Switch
Y. Ushijima, E. Nishiyama, M. Aikawa, I. Toyoda, Saga Univ., Japan
pp.809-811
3D5-04 Simple Analog Beamforming Method for Short Range MIMO Transmission
R. Kataoka, K. Nishimori, H. Makino, Niigata Univ., Japan
pp.812-814
3D5-05 Optimization of a Near-Field Array
M. Kozlov, R. Turner, Max Planck Institute for Human Cognitive and Brain Sciences, Germany
pp.815-817
3D6-01 Compact Electromagnetic Bandgap Surfaces with Lumped Elements
P. Tsai, M. Ng, Nationl Chiao Tung Univ., Taiwan
pp.818-820
3D6-02 FDTD Analysis of a Metal Grating Structure at Oblique Incidence Using the TRC Technique
Y. Wakabayashi, J. Yamauchi, H. Nakano, Hosei Univ., Japan
pp.821-823
3D6-03 Design of a Resonator-coupled WPT System with Multiple Loads Based on Measurement with a VNA Instead of anOscilloscope
I. Awai1, K. Yamaguchi1, T. Ishida2, T. Ishizaki2, 1Ryutech Corporation, Japan, 2Ryukoku Univ., Japan
pp.824-826
4A1-01 Novel Substrate Integrated Waveguide (SIW)-Based Power Amplifier Using SIW-Based Filter to Suppress Up to the Fourth Harmonic
Z. Wang, C. Park, Univ. of Quebec in Rimouski, Canada
pp.830-832
4A1-02 Contour Method to Shift the Calibrated Region of Source/Load Pull Tuners in Power Amplifier Characterization
S. Gao, Z. Wang, C. Park, Univ. of Quebec in Rimouski, Canada
pp.833-835
4A1-03 Nonuniform Memory Polynomial Behavioral Model for Wireless Transmitters and Power Amplifiers
O. Hammi1, A. Kedir1, F. Ghannouchi2, 1KFUPM, Saudi Arabia, 2Univ. of Calgary, Canada
pp.836-838
4A1-04 High Speed Device Characterization Enabler: The Envelope Load-Pull System
M. Hashmi1,2, P. Tasker3, F. Ghannouchi2, 1IIIT Delhi, India, 2Univ. of Calgary, Canada, 3Cardiff Univ., United Kingdom,
pp.839-841
4A1-05 MM-wave to THz Vacuum Electron Beam Devices
A. Baig, D. Gamzina, J. Zhao, C. Domier, L. Barnett, N. Luhmann, Univ. of California, Davis, United States
pp.842-844
4A2-01 An Asymmetric Coplanar Waveguide with a Single-Finite Ground Plane
C. Yang, C. Jou, National Chiao-Tung Univ., Taiwan
pp.845-847
4A2-02 Heterogeneous Integration of Flexible Substrate Spiral Antennas and Silicon Chips by Magnetic Coupling
L. Aluigi1,2, T. Thai2, M. Tentzeris2, L. Roselli1, F. Alimenti1, 1Univ. of Perugia, Italy, 2Georgia Institute of Technology, United States
pp.848-850
Paper Title Authors and Contact Affiliation Page No.
4A2-03 Bondwire Array Modelling for the Design of Hybrid High Power Amplifiers above C-band
C. Cilla, S. Jonasson, J. Hanberg, Technical Univ. of Denmark, Denmark
pp.851-853
4A2-04 Solenoidal Transformers for Magnetic Materials Integration
L. Ourak1,2, A. Ghannam1, D. Bourrier1, C. Viallon1,2, T. Parra1,2, 1CNRS;LASS, France, 2University of Toulouse, France
pp.854-856
4A2-05 Wideband Transitions from Substrate-Integrated Waveguide to Coupled Microstrip Lines and Their Applications to Power Dividers
F. Taringou1, J. Bornemann1, T. Weiland2, 1Univ. of Victoria, Canada, 2Technische Universitaet Darmstadt, Germany
pp.857-859
4A2-06 Characterization of Substrate Anisotropy Using Substrate Integrated Waveguide Technology
X. Zhu1, W. Hong1, K. Wu1,2, H. Zhou1, 1Southeast Univ., China, 2Ecole Polytechnique de Montreal, Canada
pp.860-862
4A3-01 Research and Development of RF and Antennas at ITRI
C. Chen, C. Wu, J. Li, S. Wang, Industrial Technology Research Institute, Taiwan
pp.863-865
4A3-02 Introductions of SAR Reduced Solutionand LTE Antenna Design
A. Tang, Auden Techno. Corp., Taiwan pp.866-868
4A3-03 ACON’S R&D in Wireless Communications
F. Hsiao, B. Chen, Advanced Connectek Inc., Taiwan
pp.869-871
4A3-04 MediaTek's R&D in Microwaves
S. Yeh, F. Han, N. Chen, S. Fang, MediaTek Inc., Taiwan
pp.872-874
4A3-05 Electrical Design and Analysis from Die Level to System Level in AdvancedSemiconductor Engineering Group
C. Wang, J. Chen, K. Chen, C. Chiu, Advanced Semiconductor Eng. (ASE) Inc., Taiwan
pp.875-877
4A3-06 The RF/Microwave Research and Development Activities of Taiwan Companies Using Agilent EEsof EDA solutions
C. Chen, T. Lo, Taiwan Agilent Technologies, Taiwan
pp.878-880
4A4-01 An Integrated Filtering Antenna Array with 180 Degree Hybrid for SiP Front End Module
C. Chen1, T. Shen1, T. Huang1, C. Chen2, R. Wu1, 1National Taiwan Univ., Taiwan, 2Tunghai Univ., Taiwan
pp.881-883
4A4-02 Design and Experiments of a Patch Antenna on a Thick Resin Layer through a Hole in a Silicon Chip in the 60GHz Band
J. Asano1, J. Hirokawa1, Y. Hirachi2, M. Ando1, 1Tokyo Institute of Technology, Japan, 2AMMSys Corporation, Japan
pp.884-886
4A4-03 Loss Reduction by Air-Region Insertionto Rectangular Waveguide-fed Oversized Post-wall Waveguide Slot Array Antenna in the Millimeter-Wave Band
R. Fujino, Y. She, M. Zhang, J. Hirokawa, M. Ando, Tokyo Institute of Technology, Japan
pp.887-889
4A4-04 Terahertz Antenna Compatible with CMOS Array Detector for a Real-time T-ray Imaging System
W. Park1, M. Ryu2, K. Kim2, K. Park2, S. Han1,1Korea Electrotechnology Research Institute, Rep. of Korea, 2Ulsan National Institute of Sci.and Technol., Rep. of Korea
pp.890-892
4A4-05 Corrugated SIW L-Folded Antipodal Parabolic Tapered Slot Antenna
A. Doghri, A. Ghiotto, T. Djerafi, K. Wu, Ecole Polytechnique de Montreal, Canada
pp.893-895
Paper Title Authors and Contact Affiliation Page No.
4A4-06 160 GHz Silicon Micromachined Folded Slot Antenna Array
A. Bunea1, D. Neculoiu1, A. Avram1, T. Kiuru2,T. Vaha-Heikkila2, A. Takacs3, P. Calmon3, 1IMT Bucharest, Romania, 2VTT Finland, Finland, 3CNRS, LAAS, Univ. de Toulouse, France
pp.896-898
4A5-01 A Sub-mW CMOS LNA for WSN Applications
J. Wu1, Y. Lin1, Y. Tsai 2, 1National KaohsiungNormal Univ., Taiwan, 2Cheng Shiu Univ., Taiwan,
pp.899-901
4A5-02 Novel LNA-Integrated Bandpass Switchplexer for Highly Integrated RF Transceiver Frontend Design
P. Wang, Y. Chung, Y. Lin, National Central Univ., Taiwan
pp.902-904
4A5-03 Cryogenic GaAs High Gain and Low-Noise Amplifier Module for Radio Astronomy
G. Fukuda1, S. Yoshida2, Y. Kobayashi2, T. Noji3, S. Tashiro1, S. Kawasaki2, 1Tokyo Univ. of Science, Japan, 2Japan Aerospace Exploration Agency, Japan, 3Tokyo Metropolitan Univ., Japan
pp.905-907
4A5-04 A Low Power LNA for Bluetooth Low Energy Application with Consideration of Process and Mismatch
L. Liao, S. Kaehlert, Y. Wang, A. Atac, Y. Zhang, M. Schleyer, R. Wunderlich, S. Heinen, RWTH Aachen Univ., Germany
pp.908-910
4A5-06 Concurrent Multiband Low Noise Amplifier With Multisection Impedance Resonator
G. Wibisono1, T. Firmansyah2, 1Univ. of Indonesia, Indonesia, 2Univ. of Sultan Ageng Tirtayasa, Indonesia
pp.914-916
4A6-01 An Innovative Design of Anechoic Chamber for the EM Radiation Measurement at Low Frequencies
R. Liu1,2, T. Lee3, H. Chou1, 1Yuan Ze Univ., Taiwan, 2EMtrek Technologies Corp., Taiwan,3The Ohio State Univ., United States
pp.917-919
4A6-02 Novel Shielding Structure for LTE and 3G RF Design
H. Chang, J. Chen, V. Chen, S. Leou, UGSI Taipei, Taiwan
pp.920-922
4A6-03 Optimal Tap Interval in Inverter Noise Suppression System
T. Matsuoka, M. Fujimoto, T. Hori, Univ. of Fukui, Japan
pp.923-925
4A6-04 Microstrip-Fed Low Profile and Wideband Wide-Slot Antenna for Breast Imaging
S. Tiang, M. Ain, M. Abdullah, Universiti SainsMalaysia, Malaysia
pp.926-928
4A6-05 Analysis of Crosstalk Between Micorstrip Lines Located Along a Ground Slot on a Printed Circuit Board
T. Tobana, T. Sasamori, Y. Isota, Akita Prefectural Univ., Japan
pp.929-931
4A6-06 Fast Simulation of Nonuniform Substrate Temperature Effects on Global GSI Interconnects
J. Lu, M. Tang, J. Mao, Shanghai Jiao Tong Univ., China
pp.932-934
4B1-01 Simulation and Effects of Phase Signal Leakage in an Improved Kahn based Modulator for a High Efficiency Power Amplifier
S. Lee, C. Yu, J. Jung, K. Lee, Electronics and Telecommunications Research Institute (ETRI), Rep. of Korea
pp.935-937
4B1-02 Impact of Bonding Temperature on the Performance of In0.6Ga0.4As Metamorphic High Electron Mobility Transistor (mHEMT) Device Packaged Using Flip-Chip-on-Board (FCOB) Technology
C. Chiang1, H. Hsu1, C. Kuo2, C. Wang2, W. Lin2, E. Chang2, 1Yuan Ze Univ., Taiwan, 2National Chiao Tung Univ., Taiwan
pp.938-940
Paper Title Authors and Contact Affiliation Page No.
4B1-03 Fabrication of AlGaN/GaN High Electron Mobility Transistors (HEMTs) on Silicon Substrate with Slant Field Plates Using Deep-UV Lithography Featuring 5W/mm Power Density at X-band
C. Chang1, H. Hsu2, L. Huang1, C. Chiang2, E.Chang1, 1National Chiao-Tung Univ., Taiwan, 2Yuan Ze Univ., Taiwan
pp.941-943
4B1-04 A Fully Integrated GPS LNA Module
Y. Hsu1, C. Jou2, G. Lin1, 1Industrial Technology Research Institute, Taiwan, 2National Chiao Tung Univ., Taiwan
pp.944-946
4B1-05 Power Saving by Sleep Modes in Base Station Transceivers for LTE
D. Ferling1, P. Juschke1, X. Yu1, T. Bohn1, A. Ambrosy1, Y. Fernandez2, A. Erdem3, and A. Pascht1, 1Alcatel-Lucent, Germany, 2TTI, Spain, 3NXP Semiconductors, France
pp.947-949
4B1-06 Digital Predistortion using Feedback Signal with Incomplete Spectral Information
X. Yu, Alcatel-Lucent, Germany pp.950-952
4B1-07 A Direct Down Converted Low-Jitter Band Pass Delta Sigma Receiver with Frequency Translating Technique and Sinusoidal RF DAC
S. Kang, D. Kang, H. Song, H. Choi, I. Oh, S. Ryu, C. Park, KAIST, Rep. of Korea
pp.953-955
4B1-08 Design and Implementation of Multi-octave Low-Noise Power Amplifier (LNPA) Using HIFET Configuration
C. Chiang, H. Hsu, Yuan Ze Univ., Taiwan pp.956-958
4B1-09 CMOS Device De-embedding without Impedance Standard Substrate Calibration for On-Wafer Scattering Parameter Measurements
C. Huang, H. Hsu, G. Guu, Yuan Ze Univ., Taiwan
pp.959-961
4B1-10 Low Sampling Rate Digital Predistortion of Power Amplifier Assisted by Bandpass RF Filter
S. Zhang, W. Chen, Z. Feng, Tsinghua Univ., China
pp.962-964
4B2-01 A Compact 24-26 GHz IPD-Based 4x4 Butler Matrix for Beam Forming Antenna Systems
I. Haroun1, T. Lin2, D. Chang2, C. Plett1, 1Carleton Univ., Canada, 2Chip Implementation Center, Taiwan
pp.965-967
4B2-02 An Unequal Dual-band Wilkinson Power Divider with Slow Wave Structure
Q. He, Y. Liu, M. Su, Y. Wu, Beijing Univ. of Posts and Telecommunications, China
pp.968-970
4B2-03 A Miniaturized 3-dB Branch-line Coupler Based on Substrate IntegratedCoaxial Line Technology
F. Zhu1, W. Hong1, J. Chen1, K. Wu2, 1Southeast Univ., China, 2Ecole Polytechnique de Montreal, Canada
pp.971-973
4B2-04 A Q-Band Compact Wilkinson Power Divider Using Asymmetrical Shunt-Stub in 90nm CMOS Technology
W. Liang, W. Hong, J. Chen, Southeast Univ.,China
pp.974-976
4B2-05 Design of Microstrip Ultrabroadband Multisection Quadrature Hybrid
C. Liang, C. Chang, National Chiao Tung Univ., Taiwan
pp.977-979
4B2-06 Dual-Band Wilkinson Power Divider Using Cross-Paired Coupled Lines
G. Tsai, Y. Pang, National Univ. of Kaohsiung, Taiwan
pp.980-982
4B2-07 A Novel Compact 3-dB Forward-Wave Directional Coupler with Periodic Capacitive Enhancement
T. Lin, J. Yen, S. Hsu, T. Wu, National TaiwanUniv., Taiwan
pp.983-985
Paper Title Authors and Contact Affiliation Page No.
4B2-08 A Simplified Peripheral Feeding Network for Conical Line Power Combiners
D. de Villiers, Stellenbosch Univ., South Africa
pp.986-988
4B2-09 Bandwidth-Enhanced Branch-Line Coupler Using the Center-Loaded Vertical Line and Distributed Capacitors
T. Chen, P. Chi, National Chiao Tung Univ., Taiwan
pp.989-991
4B2-10 A Compact Millimeter-wave Broadband Stacked Coupled Balun
H. Yen1, G. Huang2,3, Y. Shiao2, F. Huang1, 1National Tsing Hua Univ., Taiwan, 2National Nano Device Laboratories, Taiwan, 3National Chiao Tung Univ., Taiwan
pp.992-994
4B2-11 A Compact Wilkinson Power Divider/ Combiner with Two-Section Coupled Lines for Harmonics Suppression
D. Kang1, Y. Pang1, H. Chen2, 1National Univ. of Kaohsiung, Taiwan, 2Walsin Tech. Corp. Kaohsiung Branch, Taiwan
pp.995-997
4B2-12 Three-Port E-Plane Bifurcated Waveguide Power Divider at Millimeter-Wave Frequencies
Y. Liu1, D. Niu2, E. Li1, 1National Taipei Univ. of Technology, Taiwan, 2Chung-Shan Institute of Science and Technology, Taiwan
pp.998-1000
4B2-13 Dual-Band Quadrature Hybrids Using 1/8-Wavelength Composite Right/Left-Handed Transmission Lines
J. Cheng, H. Lin, Chang Gung Univ., Taiwan pp.1001-1003
4B2-14 Design of 0-dB Forward Coupler Using Half-Mode Groove Waveguide for Wireless Power Transmission
S. Mori1, M. Kishihara1, K. Okubo1, H. Takimoto1, I. Ohta2, 1Okayama Prefectural Univ., Japan, 2Univ. of Hyogo, Japan
pp.1004-1006
4B2-15 A Miniaturized Rat-Race Coupler with Arbitrary Power Division Using Dual Transmission Lines
C. Lu, P. Tu, C. Tseng, National Taiwan Univ. of Science and Technology, Taiwan
pp.1007-1009
4B3-01 Positional Dependence on Primary Radiator of Metal Plate Lens Antenna
N. Kamiya1, T. Yasuzumi1, R. Suga1, O. Hashimoto1, Y. Matsushita2, Y. Matsuda2, 1Aoyama Gakuin Univ., Japan, 2Nippon Expressway Research Institute Co., Ltd., Japan
pp.1010-1012
4B3-02 Planar Metallic Tag Antenna for UHF RFID System
J. Lu1, G. Zheng2, 1National Kaohsiung Marine Univ., Taiwan, 2Chung Shan Institute of Science and Technology, Taiwan
pp.1013-1015
4B3-03 Millimeter-wave Radar Combining Tx Beamforming and Rx array Processing for Precise Pedestrians Detection
T. Kishigami, T. Morita, H. Mukai, Y. Nakagawa, Panasonic Corporation, Japan
pp.1016-1018
4B3-04 Design and Performance Analysis of a Planar Antenna for Near-Field UHF-RFID Desktop Readers
A. Michel1, A. Buffi1, R. Caso1, P. Nepa1, G. Isola2, H. Chou3, 1Univ. of Pisa, Italy, 2C.A.E.N. RFID S.R.L., Italy, 3Yuan-Ze Univ., Taiwan
pp.1019-1021
4B3-05 A 130nm Low power Software-Defined Radio Receiver
P. Bousseaud, E. Novakov, J. Fournier, Institut de Microelectronique, Electromagnetisme et Photonique (IMEP-LAHC), France
pp.1022-1024
4B3-06 Design of W-Band Passive Millimeter Wave Imaging System
Q. Chen, L. Li, Y. Zhang, Y. Fan, J. Yang, Univ. of Electronic Science and Technology, China
pp.1025-1027
4B3-07 Planar UHF Tag Antenna with Bandwidth Enhancement
J. Lu1, J. Su2,1, 1National Kaohsiung Marine Univ., Taiwan, 2Quanta Computer Inc., Taiwan
pp.1028-1030
Paper Title Authors and Contact Affiliation Page No.
4B3-08 Experimental Study on Passive MIMO Transmission
K. Terasaki, N. Honma, Iwate Univ., Japan pp.1031-1033
4B3-09 RFID-Based Smart Shelving Storage Systems
A. D'Alessandro1, A. Buffi1, P. Nepa1, G. Isola2, 1Univ. of Pisa, Italy, 2CAEN RFID S.R.L., Italy
pp.1034-1036
4B3-10 Circularly Polarized RFID Tag for Metal Surface Mount
J. Jheng, H. Chen, S. Kuo, H. Yang, National Kaohsiung Normal Univ., Taiwan
pp.1037-1039
4B3-11 A Low Cost RFID Tag Array Platform for Elderly Balance Rehabilitation
B. Ou, K. Tam, S. Ma, Univ. of Macau, MacauSAR, China
pp.1040-1042
4B3-12 Design of an Analog Frontend for a 5.8 GHz RFID Transponder
J. Meyer, Q. Dao, B. Geck, Leibniz University of Hannover, Germany
pp.1043-1045
4B3-13 Target Detection of Marine Radars Using Matrix Bank Filters
M. Jang, C. Cho, Korea Aerospace Univ., Rep. of Korea
pp.1046-1048
4B3-14 High Efficient Misaligned Wireless Power Transfer Using Magnetic Resonant Coupling and Additional Capacitor
Y. Kim, S. Lim, Chung-Ang Univ., Rep. of Korea
pp.1049-1051
4B3-15 An AC-DC Rectifier for RF Energy Harvesting System
G. Lin, M. Lee, Y. Hsu, ITRI, Taiwan pp.1052-1054
4B3-16 New Microwave Sensor for On-line Blade Tip Timing on Gas and Steam Turbines
M. Violetti1, Q. Xu2, O. Hochreutiner2, A. Skrivervik1, 1EPFL, Switzerland, 2Meggitt Sensing Systems, Switzerland
pp.1055-1057
4B4-01 Wideband Dual Polarized Antenna Fedby L- and M-probe
K. Mak1,2, H. Lai1,2, K. Luk1,2, 1City Univ. of Hong Kong, Hong Kong SAR, China, 2Shenzhen Research Institute, City Univ. of Hong Kong, Shen Zhen, China
pp.1058-1060
4B4-02 Switched-Beam Antenna Employing Phased Array of Switched-Beam Elements
J. Tagapanij1, M. Krairiksh2, 1Mahanakorn Univ. of Technology, Thailand, 2King Mongkut's Institute of Technology Ladkrabang, Thailand
pp.1061-1063
4B4-03 Comprehensive Analysis of Transmit Performance for an 8-element Loop MRI RF Coil at 300 MHz
M. Kozlov1, R. Xue2, R. Turner1, 1Max Planck Institute for Human Cognitive and Brain Sciences, Germany, 2Chinese Academy of Sciences, China
pp.1064-1066
4B4-05 Improvement of MIMO Channel Capacity Using Block-wise Controlled Transmit-Array Antenna
Y. Takahashi, N. Honma, Y. Suzuki, Iwate Univ., Japan
pp.1070-1072
4B4-06 Optimum Substrate Size for Radiation Pattern of an H-plane Coupled Linear Microstrip Patch Antenna Array
Y. Yoon, J. Kim, B. Kim, Soongsil Univ., Rep. of Korea
pp.1073-1075
Paper Title Authors and Contact Affiliation Page No.
4B4-07 Front-to-Back Ratio Enhanced Short Pyramidal Horn with an Integrated Linearly Tapered Slot Antenna
Y. Lee1, J. Choi2, S. Oh1, K. Lee2, Y. Kim2, 1ETRI, Rep. of Korea, 2Korea Univ., Rep. of Korea
pp.1076-1078
4B4-08 A Novel Antenna Beam Switching Technique on Mobile Devices for MIMO applications
J. Chen, T. Pu, C. Wu, H. Lin, Industrial Technology Research Institute, Taiwan
pp.1079-1081
4B4-09 Prediction Model for Radiation from Base-Station Antennas Using Electromagnetic Simulation
C. Chio1, S. Ting1, X. Zhao2, T. Sarkar3, Y. Zhang2, K. Tam1, 1Univ. of Macau, Macau, China, 2Xidian Univ., China, 3Syracuse Univ., United States
pp.1082-1084
4B4-10 An Experimental Platform for MIMO Radar with Colocated Antennas
O. Gomez1, B. Poussot2, F. Nadal1, P. Jardin1, G. Baudoin1, 1Universite Paris-Est, ESYCOM, ESIEE Paris, Noisy-le-Grand, France, 2Universite Paris-Est, ESYCOM, Champs-sur-Marne, France
pp.1085-1087
4B4-11 A Novel Structure for Reconfigurable High Gain Wide-Angle Antenna
B. Yuan, P. Zhu, Y. Gao, Y. Zhang, SJTU, China
pp.1088-1090
4B4-12 High Gain Beam-forming Antenna with Two-layer Super Gain Antennas for 2.4GHz Wireless LAN
Y. Sato, H. Sawada, S. Kato, Tohoku Univ., Japan
pp.1091-1093
4B4-13 Odd Numbered Elements Double Slot Array Antenna with Simplified 90 Degree Step Phase Shifter Implementation
S. Kato, Y. Osumi, Y. Sato, H. Sawada, Tohoku Univ., Japan
pp.1094-1096
4B4-14 Foldable Multifunctional Planar Antenna Array
H. Choe, S. Lim, Chung-Ang Univ., Rep. of Korea
pp.1097-1099
4B4-15 DOA Estimation Using Spatial Smoothing with Overlapped Effective Array Aperture
K. Sekine, N. Kikuma, H. Hirayama, K. Sakakibara, Nagoya Institute of Technology, Japan
pp.1100-1102
4B4-16 A Proposed 2-D Active Van Atta Retrodirective Array Using Dual-Polarized Microstrip Antenna
H. El-Sawaf1, A. El-Tager2, A. Ghuneim1, 1Portsaid Univ., Egypt, 2Military Technical College, Egypt
pp.1103-1105
4C1-01 Design of Low Phase-Noise Microwave Oscillators Using Two-Pole Coupled-Resonator Filters with Electric, Magnetic, and Mixed Couplings
C. Chang, C. Tseng, National Taiwan Univ. of Science and Technology, Taiwan
pp.1106-1108
4C1-02 A 1-4 GHz Frequency-to-Voltage Converter Design
C. Kuan, T. Yan, C. Kuo, National Chiao TungUniv., Taiwan
pp.1109-1111
4C1-03 A Ku Band Oscillator Array Using Positive Feedback Type Push-Push Oscillators
T. Tanaka, K. Takata, M. Aikawa, I. Toyoda, Saga Univ., Japan
pp.1112-1114
4C1-04 A Ka-band Offset Phase-locked Single- Tuning VCO with an Automatic Loop Bandwidth Calibration
Y. Kuo1, M. Liu1,2, Y. Hwang1, C. Chiong1, 1Academia Sinica Institute of Astronomy and Astrophysics, Taiwan, 2Yuan-Ze Univ., Taiwan
pp.1115-1117
4C1-05 5 GHz-Band CMOS Direct Digital RF Modulator Using Current-Mode DAC
O. Wada, T. Ta, S. Tanifuji, S. Kameda, N. Suematsu, T. Takagi, K. Tsubouchi, Tohoku Univ., Japan
pp.1118-1120
Paper Title Authors and Contact Affiliation Page No.
4C1-06 Design of a Low Phase Noise Voltage Tuned DRO based on Improved Dielectric Resonator Coupling Structure
B. Son, H. Jeong, K. Yeom, Chungnam National Univ., Rep. of Korea
pp.1121-1123
4C2-01 Substrate Integrated Waveguide Quasi- Elliptic Bandpass Filter With Meander-Slot Coupling Structures
Z. Guo1,2, K. Chin1, W. Che2, C. Chang1, 1Chang Gung Univ., Taiwan, 2Nanjing Univ. ofScience & Technology, China
pp.1124-1126
4C2-02 Miniaturized Dual-Mode Spiral-Ring Resonator Bandpass Filter
T. Lin1, J. Kuo2, S. Chung1, 1National Chiao Tung Univ., Taiwan, 2Chang Gung Univ., Taiwan
pp.1127-1129
4C2-03 Compact Bandpass Filter with a Sharp Roll-off Response Using Multi-Path Coupling Scheme of H-Shaped Resonator
M. Ohira, Z. Ma, Saitama Univ., Japan pp.1130-1132
4C2-04 A Compact SIW Bandpass Filter Based on Modified CRLH
M. Karim, L. Ong, B. Luo, T. Chiam, Institute for Infocomm Research, Singapore
pp.1133-1135
4C2-06 A Compact Dual-band Bandpass Filter Using Asymmetric T-shaped Resonators
K. Deng, Y. Xu, W. Che, Nanjing Univ. of Science and Technology, China
pp.1139-1141
4C3-01 Circularly Polarized Circular Microstrip RFID Tag Antenna
Y. Tseng1, S. Kuo1, H. Chen1, C. Sim2, 1National Kaohsiung Normal Univ., Taiwan, 2Feng Chia Univ., Taiwan
pp.1142-1144
4C3-02 A Dual-Channel UHF Passive CMOS RFID Tag Design
C. Yao, W. Hsia, Y. Ko, National Taiwan Univ.of Science and Technology, Taiwan
pp.1145-1147
4C3-03 A Novel Design Method of EMC Anechoic Chamber Using Phase and Magnitude Deviation
T. Izumi, H. Arai, Yokohama National Univ., Japan
pp.1148-1150
4C3-04 Performance Evaluation of Correlation Detector for HF Surface Wave Radar
T. Fickenscher, A. Gupta, P. Ludwig, Helmut Schmidt Univ., Germany
pp.1151-1153
4C3-05 Polarimetric Measurements with Integrated Sensors at mm-Wave Frequencies
J. Schrattenecker1, R. Feger1, C. Pfeffer1, A. Haderer1, W. Scheiblhofer1, G. Reinthaler2, A.Stelzer1, 1Johannes Kepler Univ., Austria, 2Fronius International GmbH, Austria
pp.1154-1156
4C3-06 Diode-like Asymmetric Transmission ofLinearly Polarized Waves through Twisted Split-ring Metamaterial Structure
C. Huang, Y. Feng, L. Wu, J. Zhao, T. Jiang, Nanjing Univ., China
pp.1157-1159
4C4-01 Simple Printed Penta-Band WWAN Monopole Slot Antenna for Mobile Phone Application
C. Chang, P. Ma, W. Wei, S. Huang, Acer Incorporated, Taiwan
pp.1160-1162
4C4-02 Multiband 4-Port MIMO Antenna System for LTE700/2300/2500 Operation in the Laptop Computer
W. Li, W. Chen, C. Wu, Industrial Technology Research Institute, Taiwan
pp.1163-1165
Paper Title Authors and Contact Affiliation Page No.
4C4-03 Planar Frequency Reconfigurable Antenna for Mobile Terminals
T. Yamagajo1, Y. Koga1, M. Shimizu2, 1Association of Super-Advanced Electronics Technologies, Japan, 2Fujitsu Laboratories Ltd., Japan
pp.1166-1168
4C4-04 Fundamental Approach of Isolation Loss Control between Two Patch Antennas for LTE-MIMO Mobile Handy Terminal
C. Park, K. Min, J. Kim, I. Kim, Korea Maritime Univ., Rep. of Korea
pp.1169-1171
4C4-05 A Novel Second-order Decoupling Network for Two-element Compact Antenna Arrays
L. Zhao, L. Yeung, K. Wu, The Chinese Univ. of Hong Kong, Hong Kong SAR, China
pp.1172-1174
4C5-01 Monopole Antenna with Circular Polarization for Handheld RFID
S. Lin , Y. Lin, M. Chen, Cheng Shiu Univ., Taiwan
pp.1175-1177
4C5-02 A Compact Dual-Band Filtering Microstrip Antenna with the Same Polarization Planes
Y. Lee1, G. Cao2, S. Chung1, 1National Chaio Tung Univ., Taiwan, 2Bureau of Standards, Metrology & Inspection, Taiwan
pp.1178-1180
4C5-03 Polarization Diversity Antenna with L-shaped Slit for Wireless Sensor Network
S. Ishikawa, T. Ninomiya, Fujitsu LaboratoriesLtd., Japan
pp.1181-1183
4C5-04 Broadband CPW-Fed Slot Antenna with Circular Polarization for On-Body Applications at ISM Band
S. Rezaeieh, A. Abbosh, The Univ. of Queensland, Australia
pp.1184-1186
4C5-05 Miniature Dual-Fed Circularly Polarized Antenna with Slotted Ground Plane
M. Ismail, M. Rahim, M. Hamid, H. Majid, Universiti Teknologi Malaysia, Malaysia
pp.1187-1189
4C6-01 A New Passive Isolation Component Using Slot-Coupled Microstrip Lines forSimultaneously Transmitting and Receiving Applications
C. Mou, C. Tseng, National Taiwan Univ. of Science and Technology, Taiwan
pp.1193-1195
4C6-02 Realization of High-Order S-Plane Bandpass Marchand Balun with No Lumped Elements
Y. Lin, C. Chang, National Chiao Tung Univ., Taiwan
pp.1196-1198
4C6-03 Design of Dual-Band Power Divider Using Shunt Open-Stubs with Enhanced Attenuation Characteristics
J. Lee, I. Jeon, Y. Cho, X. Wang, S. Yun, Sogang Univ., Rep. of Korea
pp.1199-1201
4C6-04 A Reduced-Size, Low-Loss 57-86 GHz IPD-Based Power Divider using Loaded Modified CPW Transmission Lines
I. Haroun1, T. Lin2, D. Chang2, C. Plett1, 1Carleton Univ., Canada, 2Chip Implementation Center, Taiwan
pp.1202-1204
4C6-05 A Wideband Low Loss Planar Microstrip-to- CPS Balun
Q. Jiang, C. Domier, N. Luhmann, Univ. of California Davis, United States
pp.1205-1207
4C6-06 Low Cost Octave Directional Coupler Based on Substrate Integrated Coaxial Line (SICL) Technique
Z. Chen, W. Hong, J. X. Chen, Southeast Univ., China
pp.1208-1210
Paper Title Authors and Contact Affiliation Page No.
4D1-01 A 5 GHz CMOS Quadrature VCO with Precise Quadrature Phase
K. Peng, C. Lee, National Kaohsiung First Univ. of Science and Technology, Taiwan
pp.1211-1213
4D1-02 Dual-injection Sub-harmonic Injection-locked Frequency Tripler
C. Chen, J. Wu, T. Chiao, National Chung Cheng Univ., Taiwan
pp.1214-1216
4D1-03 Nonlinear Analysis of MOS FET Passive Mixers as a Function of Local Signal
Y. Morishita1,2, K. Araki2, 1Panasonic Corporation, Japan, 2Tokyo Institute of Technology, Japan
pp.1217-1219
4D1-04 A Differential Complementary Hartley CMOS Voltage Controlled Oscillator
S. Jang1, H. Teng2, W. Lee1, C. Chang1, 1National Taiwan Univ. of Science and Technology, Taiwan, 2Nan Kai Univ. of Technology, Taiwan
pp.1220-1222
4D1-05 Quadrature VCO Using the Composite Right-/Left-Handed Dual-Resonance Resonator
S. Jang1, H. Teng2, C. Chang1, C. Hsieh1, 1National Taiwan Univ. of Science and Technology, Taiwan, 2Nan Kai Univ. of Technology, Taiwan
pp.1223-1225
4D1-06 A X-band Fully Integrated CMOS Frequency Synthesizer
J. Tsai, C. Chao, H. Shih, National Taiwan Normal Univ., Taiwan
pp.1226-1228
4D1-07 Phase Variable PLL Oscillator Using Imperfect Integral Loop Filter
T. Yagi, H. Shiomi, Y. Okamura, Osaka Univ., Japan
pp.1229-1231
4D1-08 A 7-12 GHz Multi-Modulus Frequency Divider
J. Tsai, Y. Chung, H. Shih, J. Chou, National Taiwan Normal Univ., Taiwan
pp.1232-1234
4D1-09 Monolithic 2-μm/0.5-μm GaAs HBT-HEMT (BiHEMT) Process for LowPhase Noise Voltage Controlled Oscillators (VCOs)
C. Lu1, C. Lin1, Y. Liao1, H. Chang1, Y. Wang2,1National Central Univ., Taiwan, 2WIN Semiconductors Corp, Taiwan
pp.1235-1237
4D2-01 CAD Models of Losses for Elliptical and Circular Cylindrical CPS on Multilayered Dielectric Substrates
P. Majumdar1, A. Verma2, 1Kuang-Chi Institute of Advanced Technology, China, 2Univ. of Delhi South Campus, India
pp.1238-1240
4D2-02 A Compact Dual-Frequency Transformer for Frequency-dependent Complex Impedance Load
Q. He, Y. Liu, Y. Wu, M. Su, Beijing Univ. of Posts and Telecommunications, China
pp.1241-1243
4D2-03 Meshed-Conductor Substrate Integrated Waveguide
K. W. Eccleston, Univ. of Canterbury, New Zealand
pp.1244-1246
4D2-04 Study on Equivalent Single Conductor Model of Multi-Walled Carbon Nanotube Interconnects
M. Tang, J. Lu, J. Mao, Shanghai Jiao Tong Univ., China
pp.1247-1249
4D2-05 Impedance Formulas of a Bond Wire Array with Analytical Method of Moments (MoM)
L. Gu1, W. Che1, J. Gan1, Y. Chow2, 1Nanjing Univ. of Science and Technology, China, 2Univ. of Waterloo, Canada
pp.1250-1252
4D2-06 Fast Full-wave Simulation Based on Parallel-Distributed HIE-FDTD method
Y. Inoue, H. Asai, Shizuoka Univ., Japan pp.1253-1255
Paper Title Authors and Contact Affiliation Page No.
4D2-07 Dual-band Wilkinson Power Divider and Its Miniaturization Using Coupled Line Sections
X. Wang1, I. Sakagami1, A. Mase2, M. Tahara1, 1Univ. of Toyama, Japan, 2Kyushu Univ., Japan
pp.1256-1258
4D2-08 A Visual Comparison between Voltage and Power Wave Reflection Coefficients of Microwave Circuits
A. Muller1,2, P. Soto2, A. Moldoveanu3, V. Asavei3, V. Boria2, 1National Institute of R&D in Microtechnologies, Romania, 2Grupo iTEAM, Universitat Politecnica de Valencia, Spain, 3Universitatea Politehnica, Romania
pp.1259-1261
4D2-09 Wideband Compact Model of Inductorsfor RF-SOP Applications
Y. Tsai1, J. Wu2, C. Fan1, C. Chiu3, 1Cheng Shiu Univ., Taiwan, 2National Kaohsiung Normal Univ., Taiwan, 3Advanced Semiconductor Engineering Inc., Taiwan
pp.1262-1264
4D2-10 Development of Wideband Electrically Identical Fan-Out Structure for 60 GHz Frontend Phased Array System in Package Module
T. Huang, R. Wu, National Taiwan Univ., Taiwan
pp.1265-1267
4D2-11 Optimization of Metal Layers and Substrate Loss for the 3D Solenoid Structure Inductors
S. Uchida, K. Hayashi, H. Namba, T. Kuramoto, T. Hashimoto, M. Furumiya, Y. Nakashiba, H. Ohkubo, Renesas Electronics Corporation, Japan
pp.1268-1270
4D2-12 Design of Complex Ratio Measuring Unit (CRMU) for 2 to 6 GHz WiMAX Applications
S. Ghazali, N. Seman, M. Rahim, S. Rahim, R. Yob, Universiti Teknologi Malaysia, Malaysia
pp.1271-1273
4D2-13 An Electrothermal Model of Interconnects Based on a Transmission-line Network
Y. Shao, X. Li, J. Mao, Shanghai Jiao Tong Univ., China
pp.1274-1276
4D2-14 Electromagnetic Analysis of an On-Chip Spiral Inductor in the Millimeter-Wave Band
T. Sumida, T. Hirano, K. Okada, J. Hirokawa, M. Ando, Tokyo Institute of Technology, Japan
pp.1277-1279
4D2-15 Effect of Test Device Thickness on Liquid Crystal Characterisation
P. Deo, M. Yazdanpanahi, D. Mirshekar-Syahkal, Univ. of Essex, United Kingdom
pp.1280-1282
4D2-16 Manufacture of Novel Double-side Direct Thru Kit with Non-exchange Layer structure Base on General PCB Process
T. Chien, W. Ruan, L. Huang, S. Wu, W. Chen, National Univ. of Kaohsiung, Taiwan
pp.1283-1285
4D2-17 Spurious Free and Temperature StableGiga-hertz Acoustic Wave Resonators with Enhanced Quality Factor
C. Zhou, D. Zhang, W. Pang, H. Zhang, Tianjin Univ., China
pp.1286-1288
4D3-01 Modal Analysis of Anisotropic Cylindrical Waveguides
L. Claudepierre1,2, N. Raveu1, N. Capet2, 1University of Toulouse, France, 2CNES, France
pp.1289-1291
4D3-02 Current Source Implementations for Fundamental SS2-FDTD Method
T. Gan, E. Tan, Nanyang Technological Univ.,Singapore
pp.1292-1294
4D3-03 Terahertz Space-Charge Interactions in a Semiconductor Nanoplate
T. Shen1,2, Z. Hu1, T. Wong1, 1Illinois Institute of Technology, United States, 2Kunming Univ.of Science and Technology, China
pp.1295-1297
4D3-04 A New Technique for Analyzing Unknown RF Waves
R. Okuizumi, M. Muraguchi, Tokyo Univ. of Science, Japan
pp.1298-1300
Paper Title Authors and Contact Affiliation Page No.
4D3-05 Equivalence Principle for Three-Dimensional Multi-Physics Anisotropic Medium Model Building
J. Xiao, G. Xiao, Shanghai Jiao Tong Univ., China
pp.1301-1303
4D3-06 An Improved Cylindrical NFFFT for Compact Measurement Facilities
A. Osipov1, H. Kobayashi2, H. Suzuki3, 1German Aerospace Center (DLR), Germany, 2Niigata Univ., Japan, 3KEYCOM Corp., Japan
pp.1304-1306
4D3-07 An Algorithm Based on the Compressed sensing for Near Range Two Dimensional Imaging
B. Ren, S. Li, H. Sun, Beijing Institute of Technology, China
pp.1307-1309
4D3-08 Physically-based Preconditioner for the WCIP
N. Raveu1, J. Vincent2, J. Poirier1, R. Perrussel1, L. Giraud3, 1University of Toulouse, France, 2ONERA, France, 3Inria Bordeaux-Sud Ouest, joint Inria- CERFACS lab., France
pp.1310-1312
4D3-10 Waveguide Measurement Technique for Complex Permittivity of Materials with High or Low Losses
Y. Konishi1, T. Kobata1, K. Momoeda1, K. Wakino1, Y. Lin2, T. Kitazawa1, 1Ritsumeikan Univ., Japan, 2National Chiao Tung Univ., Taiwan
pp.1316-1318
4D3-11 Variational Expressions of Inductances of Coupled Annular Rings
T. Tomofuji1, T. Maeda1, Y. Matsumoto1, C. Kuo2, K. Wakino1, T. Kitazawa1, 1Ritsumeikan Univ., Japan, 2National Sun Yat-sen Univ., Taiwan
pp.1319-1321
4D3-12 Impact of Different Node Distributions on the Meshless Radial Point Interpolation Method in Time-Domain Electromagnetic Simulations
Z. Shaterian, T. Kaufmann, C. Fumeaux, The Univ. of Adelaide, Australia
pp.1322-1324
4D3-13 Solving Radiation Problem with P-FFT Method on Graphics Processing Units
S. Peng, C. Wang, National Univ. of Singapore, Singapore
pp.1325-1327
4D4-01 Compact Multi-band Planar Antenna Design
Y. Yao1, J. Yu1, X. Chen2, 1Beijing Univ. of Posts and Telecommunications, China, 2Queen Mary, Univ. of London, United Kingdom
pp.1328-1330
4D4-03 Novel Broadband Omnidirectional Antennas
X. Quan, R. Li, South China Univ. of Technology, China
pp.1334-1336
4D4-04 Wearable Dual Band Antenna Made of Fabric Cloth for BAN Use
H. Sugiyama, H. Goto, H. Iwasaki, Shibaura Institute of Technology, Japan
pp.1337-1339
4D4-05 Dual-Band Planar Inverted-F Antenna for Application in ISM, HIPERLAN, UNII, and WiMAX
J. Tsai1, Y. Chen2, C. Wu1, 1Auden Techno Corp., Taiwan, 2Lunghwa Univ. of Science and Technology, Taiwan
pp.1340-1342
4D4-06 A Novel Dual-Band Hexagonal Patch Antenna Coupled with Complementary Split Ring Resonator
Y. Sidana, R. Chaudhary, K. Srivastava, Indian Institute of Technology Kanpur, India
pp.1343-1345
Paper Title Authors and Contact Affiliation Page No.
4D4-07 Short Backfire Antenna with Concentric Sleeves for Highly Sensitive Radio Astronomical Receivers
C. Lin1, Y. Hwang1, S. Srikanth2, 1Academia Sinica Institute of Astronomy and Astrophysics, Taiwan, 2National Radio Astronomy Observatory, United States
pp.1346-1348
4D4-08 Compact Quasi-Yagi Antenna with Short Length Microstrip-to-coplanar Stripline Transition
H. Park, J. Ha, J. Choi, Hanyang Univ., Rep. of Korea
pp.1349-1351
4D4-09 Tri-Band Dipole Antenna with Quasi-Lumped Parallel Resonators
B. Su, C. Wu, T. Ma, National Taiwan Univ. ofScience and Technology, Taiwan
pp.1352-1354
4D4-10 Compact and Wideband Antenna Array
Y. Hua, P. Tan, Temasek Laboratories, Singapore
pp.1355-1357
4D4-11 Slotted Bow-Tie Antenna with Embedded Meandered Monopole for Triple-Band Operation
M. Wu, M. Chuang, C. Tsai, National Penghu Univ. of Science and Technology, Taiwan
pp.1358-1360
4D4-12 Printed Log-Periodic Dipole Antenna with an Embedded UWB Balun
K. Lin, Y. Lin, National Taiwan Univ., Taiwan pp.1361-1363
4D4-13 A Novel Multiband Monopole Antenna for WWAN/LTE Operation
Z. Lin, J. Lu, National Kaohsiung Marine Univ., Taiwan
pp.1364-1366
4D4-15 Compact Dual-band Circularly Polarized Microstrip Antenna with Separated Transmitting and Receiving Ports for RFID Reader Applications
T. Huang, H. Hsu, Yuan Ze Univ., Taiwan pp.1370-1372
4D4-16 Investigation the Performance of Koch Fractal Multiband Antenna for On-body Measurement
M. Jalil, M. Rahim, N. Samsuri, O. Ayop, M. Abdullah, M. Ismail, University Technology Malaysia, Malaysia
pp.1373-1375
4D4-17 Wide-band Low-profile Circular Array of H-plane Horn Antennas
L. Yang1, W. Wu1, Z. Shen2, 1Nanjing Univ. of Science and Technology, China, 2Nanyang Technological Univ., Singapore
pp.1376-1378
4D4-18 Realization of Compact and Broadband Performances Using the Microstrip-Line-Fed Slot Antenna
J. Jan 1, C. Pan1, F. Chang1, G. Wu1, C. Huang2, 1National Kaohsiung Univ. of Applied Sciences, Taiwan, 2National Kaohsiung Normal Univ., Taiwan
pp.1379-1381
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