Technical Program - Technical Sessions
- 11/07 (Fri) 08:30-10:10
- 11/07 (Fri) 10:30-12:10
- 11/07 (Fri) 13:30-15:30
- 11/07 (Fri) 18:30-20:30
FR1A : Special Session (Invited) Future Mobile and Wireless Communication Systems
Room
Room A (Tachibana)
Date and Time
11/07 (Fri) 08:30-10:10
Chairs
Jun-ichi Takada, Tokyo Inst. of Tech., JAPAN
Takana Kaho, NTT Corp., JAPAN
Abstract
Mobile and Wireless communication systems have been developing rapidly. The evolusion affect research and development of microwave technologies with special severity. This session foucuses remarkable systems; the fifth generation (5G) cellular systems, advances wireless LAN systems, and white space communication systems.
Sessions
| 01 | 08:30 | 5G Mobile Radio Access System Using SHF/EHF Bands |
|---|---|---|
| Y. Okumura, NTT DOCOMO, Inc., JAPAN | ||
| 02 | 09:00 | Advanced Progress in IEEE 802.11 Wireless LAN Standardization |
| Y. Asai, NTT Corp., JAPAN | ||
| 03 | 09:30 | White Space Communication Systems Toward 5th Generation Mobile Communication Systems |
| H. Harada12, K. Ishizu2, H. Murakami2, 1Kyoto Univ., JAPAN, 2NICT, JAPAN |
FR1B : Special Session (Invited) GaN Focus Session II : Power GaN Status and Future
Room
Room B (Hagi)
Date and Time
11/07 (Fri) 08:30-10:10
Chairs
Kazuya Yamamoto, Mitsubishi Electric Corp., JAPAN
Wohlmuth Walter, WIN Semiconductors Corp., TAIWAN
Abstract
This GaN focus invited session part 2 concentrates on the GaN power device development for power conversion. This session opens with a presentation from FBH, which focuses on both power and RF GaN device development in Europe. Next, Bristol University reviews the GaN thermal management, which focuses on several substrates such as a GaN substrate and Diamond. Finally, Toyota reveals the automotive applications using GaN power devices.
Sessions
| 01 | 08:30 | European GaN Device Technologies for Microwave and Power Switching Applications |
|---|---|---|
| J. Würfl, FBH, GERMANY | ||
| 02 | 09:00 | Novel Thermal Management and Its Analysis in GaN Electronics |
| M. Kuball, J.A. Calvo, R.B. Simon, J.W. Pomeroy, Univ. of Bristol, U.K. | ||
| 03 | 09:30 | GaN Power Device for Automotive Applications |
| T. Kachi, Toyota Central R&D Labs., Inc., JAPAN |
FR1C Recent Advances in Bandpass Filters
Room
Room C (Shirakashi 1)
Date and Time
11/07 (Fri) 08:30-10:10
Chairs
Tamio Kawaguchi, Toshiba Corp., JAPAN
Hiromichi Yoshikawa, Kyocera Corp., JAPAN
Abstract
This session features a range of novel filter techniques and technologies. Innovations include a substrate integrated waveguide (SIW) and substrate mounted waveguide (SMW) filters, digitally tunable bandpass filter, a very thin waveguide filter loading frequency selective surface (FSS), a reconfigurable coupled-line bandpass filter with electrically actuated liquid-metal tuning, an ultra-compact 60-GHz millimeter-wave CMOS on-chip bandpass filter with two controllable transmission zeros.
Sessions
| 01 | 08:30 | A Very Thin Waveguide Filter with Attenuation Poles Constructed by Impedance-Step Slot-Loaded Patches |
|---|---|---|
| T. Akashi, H. Deguchi, M. Tsuji, Doshisha Univ., JAPAN | ||
| 02 | 08:50 | Comparison of Surface Mounted High Quality Filters for Combination of Substrate Integrated and Waveguide Technology |
| J. Schorer¹, J. Bornemann¹, U. Rosenberg², ¹Univ. of Victoria, CANADA, ²Mician Global Engineering GbR, GERMANY | ||
| 03 | 09:10 | Reconfigurable Coupled-Line Bandpass Filter with Electrically Actuated Liquid-Metal Tuning |
| R.C. Gough, J.H. Dang, A.M. Morishita, A.T. Ohta, W.A. Shiroma, Univ. of Hawaii, U.S.A. | ||
| 04 | 09:30 | Design of Ultra-Compact 60-GHz Millimeter-Wave CMOS On-Chip Bandpass Filter with Two Controllable Transmission Zeros |
| Y.-C. Chen, L.-K. Yeh, H.-R. Chuang, National Cheng Kung Univ., TAIWAN | ||
| 05 | 09:50 | Design of Digitally Tunable Bandpass Filter for Spectrum Sensing Application in the TVWS |
| H.-K. Kim, J.-H. Lee, S.W. Yun, Sogang Univ., REPUBLIC of KOREA |
FR1D : Special Session (Invited) Doppler Radar for Smart Buildings and Mobile Health
Room
Room D (Shirakashi 2)
Date and Time
11/07 (Fri) 08:30-10:10
Chairs
Victor Lubecke, Univ. of Hawaii, U.S.A.
Orga Boric-Lubecke, Univ. of Hawaii, U.S.A.
Abstract
Advances in wireless and computational integrated circuits have made possible a growing range of research into the use of
scattered radio waves to ascertain biomedical information from subjects to enable automated benefits in resource management
and healthcare beyond the doctorfs office.
This session will present an overview of recent trends and achievements in the use of Doppler radar for measurements,
classification, and diagnostics of biomedical phenomena to provide benefits from energy savings and assisted living to
health diagnostics.
Sessions
| 01 | 08:30 | Doppler Radar Noncontact Imaging of Human Cardiac Motion |
|---|---|---|
| C. Li¹, A. Zhu², S. Qiao³, Y. Sun4, L. Ran², ¹Texas Tech Univ., U.S.A., ²Zhejiang Univ., CHINA, ³Zhejiang Univ. City College, CHINA, 4Nanjing Inst. of Electronic Equipment, CHINA | ||
| 02 | 08:50 | Wearable Doppler Radar Health Monitor with Gesture Control |
| Y.-C. Chiu, F.-K. Wang, Y.-R. Chou, T.-S. Horng, National Sun Yat-Sen Univ., TAIWAN | ||
| 03 | 09:10 | Analysis of a Fall Detection Radar Placed on the Ceiling and Wall |
| M. Mercuri¹, P.J. Soh¹², X. Zheng¹, P. Karsmakers¹, G.A.E. Vandenbosch¹, P. Leroux¹, D. Schreurs¹, ¹KU Leuven, BELGIUM, ²Universiti Malaysia Perlis, MALAYSIA | ||
| 04 | 09:30 | Smart Occupancy Sensors |
| C. Song, E. Yazavi, V. Lubecke, O. Boric-Lubecke, Univ. of Hawaii, U.S.A. | ||
| 05 | 09:50 | Doppler Radar for Sleep Medicine |
| M. Baboli, B. Soll, O. Boric-Lubecke, V. Lubecke, Univ. of Hawaii, U.S.A. |
FR1E Design of Novel CMOS and Millimeter-Wave VCOs
Room
Room E (Meeting Room 1)
Date and Time
11/07 (Fri) 08:30-10:10
Chairs
Timothy Lee, Boeing, U.S.A.
Jim Weiler, Northrop Grumman Space and Technology, U.S.A.
Abstract
The papers in this session addresses novel design techniques for various CMOS and millimeter-wave frequency Voltage-Controlled Oscillators (VCOs). Approaches to achieve wide-band performance and improved linearity / phase noise are described.
Sessions
| 01 | 08:30 | Design of 24GHz CMOS VCO Using Armstrong Topology with Asymmetric Transformer |
|---|---|---|
| P.-Y. Wang¹, Y.-C. Shen¹, M.-C. Chou¹, K.-H. Chuang¹, Y.-C. Chang¹², D.-C. Chang², S.S.H. Hsu¹, ¹National Tsing Hua Univ., TAIWAN, ²NARL, TAIWAN | ||
| 02 | 08:50 | Millimeter-Wave VCO Using Striped Inductor |
| H. Tsuji¹, Y. Itano¹², K. Komoku¹, T. Morishita¹, S. Yoshitomi², N. Itoh¹, ¹Okayama Prefectural Univ., JAPAN, ²Toshiba Corp., JAPAN | ||
| 03 | 09:10 | Design of Linear CMOS VCO Based on Cross-Coupled Pair Topology with Double Tuning Technique |
| M.-T. Hsu, Y.-Y. Lee, R.-W. Jhong, National Yunlin Univ. of Science and Tech., TAIWAN | ||
| 04 | 09:30 | An Ultra-Wideband and Gain Linearized CMOS VCO with Minor Phase Noise Variation |
| M. Aqeeli, A. Alburaikan, C. Muvianto, X. Huang, Z. Hu, The Univ. of Manchester, U.K. | ||
| 05 | 09:50 | Implementation of 5GHz Current-Reused VCO With Linearity |
| M.-T. Hsu, A.-C. Ou, R.-W. Jhong, National Yunlin Univ. of Science and Tech., TAIWAN |
FR1F Antenna theory and CAD
Room
Room F (Meeting Room 2)
Date and Time
11/07 (Fri) 08:30-10:10
Chairs
Manabu Yamamoto, Hokkaido Univ., JAPAN
Takuji Arima, Tokyo Univ. of A&T, JAPAN
Abstract
In recent years, novel EM phenomena have been reported. Furthermore, new EM application also have been reported. Therefore, analysis methods will become an important more. In this session, novel antenna and EM fields analysis methods and numerical simulation of novel EM phenomena will be presented. The discussed simulation methods in this session are analytic method, MoM, FDTD and so forth.
Sessions
| 01 | 08:30 | Analytical Characteristic Expression for Dualband Antennas Embedded with Elements inside the Antenna |
|---|---|---|
| A. Saitou, S. Onodera, R. Ishikawa, K. Honjo, The Univ. of Electro-Communications, JAPAN | ||
| 02 | 08:50 | Study on Radar Cross Section for the Plasma Antenna in UHF Band |
| K. Takahagi¹, S. Kitagawa¹, T. Naito², H. Ogino², ¹Ministry of Defense, JAPAN, ²Mitsubishi Electric Corp., JAPAN | ||
| 03 | 09:10 | Time Domain Analysis of a Plasmonic Metamaterial for Terahertz Spoof Localized Surface Plasmons |
| K. Fujita, Fujitsu Ltd., JAPAN | ||
| 04 | 09:30 | Improvement of Frequency Sweeping by MoM Matrix Interpolation Combined with Stoer-Bulirsch Algorithm for Multilayered Structures |
| Z. Song, W.-D. Li, Y. Zhang, Southeast Univ., CHINA | ||
| 05 | 09:50 | Frequency Beam-Scanning Circularly Polarized Leaky-Wave Antenna Based on Lateral Sparse Substrate Integrated Waveguide |
| C. Jin, N. Wang, X. Xu, H. Sun, Beijing Inst. of Tech., CHINA |
FR2A : Special Session (Invited) Historical Review of Microwave Devices in JAPAN
Room
Room A (Tachibana)
Date and Time
11/07 (Fri) 10:30-12:10
Chairs
Kunio Sawaya, Tohoku Univ., JAPAN
Yoshihiko Konishi, Hiroshima Inst. of Tech., JAPAN
Abstract
Research on microwave devises such antennas and microwave-tubes in Japan has a long history, especially in Tohoku University, Sendai. In this session, historical review of the research and development of linear antennas such as the Yagi-Uda antenna and microwave-tubes such as the split anode magnetron in Tohoku University is presented. Research and development of the phased array antennas for sevral applications in Japan is also introduced.
Sessions
| 01 | 10:30 | Historical Review of Research and Development on Linear Antennas in Tohoku University |
|---|---|---|
| K. Sawaya, Tohoku Univ., JAPAN | ||
| 02 | 11:10 | History of the Microwave-Tube Art at Tohoku University |
| K. Yokoo, K. Mizuno, Tohoku Univ., JAPAN | ||
| 03 | 11:40 | Research and Development on Phased Array Antennas in Japan |
| Y. Konishi, Hiroshima Inst. of Tech., JAPAN |
FR2B High Efficiency GaN HEMT Power Amplifiers for Wireless Communication
Room
Room B (Hagi)
Date and Time
11/07 (Fri) 10:30-12:10
Chairs
Martin Kuball, Univ. of Bristol, U.K.
Kazuya Yamamoto, Mitsubishi Electric Corp., JAPAN
Abstract
This session focuses on efficiency boosted microwave amplifiers and communication systems by utilizing GaN HEMT devices. The first invited paper overviews the amplifier development for 4G/5G mobile communication systems. The second paper presents a broadband high efficiency Class-J approach, which has been investigated as a function of the supply drain voltage. The third paper presents the design and implementation of a new variant of Class-EF power amplifier featuring with 85% drain efficiency. The last student paper reveals the design procedure of the shunt-connected Doherty amplifier, without a quarter-wave inverting network.
Sessions
| 01 | 10:30 |
GaN HEMT High Efficiency Power Amplifiers for 4G/5G Mobile Communication Base Stations (Invited) |
|---|---|---|
| T. Kaneko, K. Shiikuma, K. Kunihiro, NEC Corp., JAPAN | ||
| 02 | 11:10 | Analysis and Performance of Drain Bias "In-Dependent" Class-J Power Amplifier |
| V. Carrubba, E. Ture, R. Quay, F.V. Raay, M. Musser, O. Ambacher, IAF, GERMANY | ||
| 03 | 11:30 | A 1.5GHz GaN HEMT Fifth-Harmonic-Peaking Class-EF Power Amplifier with 85% Drain Efficiency and 42dBm Output Power |
| M. Thian, A. Barakat, V. Fusco, The Queen's Univ. of Belfast, U.K. | ||
| 04 | 11:50 | Two Signal Power Level Design for Shunt-Connected Type GaN HEMT Doherty Power Amplifier Without a Quarter-Wave Inverter |
| Y. Iguchi, Y. Takayama, R. Ishikawa, K. Honjo, The Univ. of Electro-Communications, JAPAN |
FR2C Wireless Power Transfer Technologies I
Room
Room C (Shirakashi 1)
Date and Time
11/07 (Fri) 10:30-12:10
Chairs
Kei Sakaguchi, Osaka Univ., JAPAN
Nuno Borges Carvalho, Universidade de Aveiro, PORTUGAL
Abstract
This session is devoted for discussion about wireless power transmission schemes and designs of rectenna circuits for receiving wireless energy.
Sessions
| 01 | 10:30 | U-Shaped Harmonic Rejection Filtenna for Compact Rectenna Application |
|---|---|---|
| M.I. Sabran¹, S.K.A. Rahim¹, T.A. Rahman¹, A.A. Eteng¹, Y. Yamada², ¹UTM, MALAYSIA, ²National Defense Academy, JAPAN | ||
| 02 | 10:50 | Design of a Broadband Microwave Rectifier from 40MHz to 4740MHz Using High Impedance Inductor |
| D. Wang, M.-D. Wei, R. Negra, RWTH Aachen Univ., GERMANY | ||
| 03 | 11:10 | Triple-Band Single-Diode Microwave Rectifier Using CRLH Transmission Line |
| T. Oka, T. Ogata, K. Saito, S. Tanaka, Shibaura Inst. of Tech., JAPAN | ||
| 04 | 11:30 | Investigation on Threshold Distance for Efficiency Enhanced Wireless Power Transfer Using Bulk Metamaterial |
| A.L.A.K. Ranaweera, T.P. Duong, J.-W. Lee, Kyung Hee Univ., REPUBLIC of KOREA | ||
| 05 | 11:50 | Introduction to Synthesized Magnetic Field Focusing Technology |
| J.P. Cheon, B.H. Choi, J.H. Kim, C.T. Rim, KAIST, REPUBLIC of KOREA |
FR2D Radar, Remote Sensing and Imaging Systems I
Room
Room D (Shirakashi 2)
Date and Time
11/07 (Fri) 10:30-12:10
Chairs
Monai Krairiksh, KMITL, THAILAND
Hirokazu Kobayashi, Osaka Inst. of Tech., JAPAN
Abstract
Imaging technologies are presented and discussed including ground-based SAR, ground penetrating SAR, nonuniform SFCW, millimter-wave adaptive methods and millimter-wave microscopy.
Sessions
| 01 | 10:30 | Displacement Measurement and Monitoring with Ground-Based SAR; Case Study at Aratozawa |
|---|---|---|
| L. Zou, K. Takahashi, M. Sato, Tohoku Univ., JAPAN | ||
| 02 | 10:50 | Polarimetric UWB SAR for Subsurface Imaging of Building Structures |
| C.N. Koyama, K. Takahashi, Y. Iitsuka, M. Sato, Tohoku Univ., JAPAN | ||
| 03 | 11:10 | Multistatic Short Range Imaging with a Nonuniform SFCW Concept |
| F. Gumbmann, A. Schiessl, Rohde & Schwarz GmbH & Co. KG, GERMANY | ||
| 04 | 11:30 | Millimeter-Wave Active Imaging Using Multiple Frequencies with Complex-Valued Self-Organizing Map Image Processing |
| Y. Arima, A. Hirose, The Univ. of Tokyo, JAPAN | ||
| 05 | 11:50 | Near-Field Thermal Imaging by Passive Millimeter-Wave Microscopy |
| M. Ishino, S. Nakamura, T. Nozokido, Univ. of Toyama, JAPAN |
FR2E Mixers and Frequency Converters Technology for RF-Frontends
Room
Room E (Meeting Room 1)
Date and Time
11/07 (Fri) 10:30-12:10
Chairs
Reynold Kagiwada, Northrop Grumman Space and Technology, U.S.A.
Mike Golio, IEEE, U.S.A.
Abstract
The papers in this session address monolithic mixer and frequency converters technology for RF-Frontends and receiver applications. Techniques to achieve high conversion gain, high linearity and bandwidths along with novel oscillator design approaches are described.
Sessions
| 01 | 10:30 | Direct Conversion Receiver with High Conversion Gain and Wide Tuning Range in 0.18um CMOS |
|---|---|---|
| Z. Haiwei¹, L. Yuanchun¹, F.-H. Huang², X. Quan¹, ¹City Univ. of Hong Kong, HONG KONG, ²Chang Gung Univ., TAIWAN | ||
| 02 | 10:50 | Low Voltage High Linearity Ultra-Wideband Folded Mixer for Direct Conversion Receivers |
| Y.-R. Lin, H.-Y. Chang, R.-Y. Huang, R.-M. Weng, National Dong Hwa Univ., TAIWAN | ||
| 03 | 11:10 | A Mutual Phase Synchronization Type Push-Push Oscillator Array Using Simple Coupling Circuit |
| T. Sameshima, T. Tanaka, I. Toyoda, Saga Univ., JAPAN | ||
| 04 | 11:30 | Chua's Chaotic Oscillator as the GaAs Manufacturing Process State Indicator |
| E. Kuxa¹, A.E. Parker¹, S.J. Mahon², A.P. Fattorini², W.-K. Wang³, R. Kuo³, M.C. Heimlich¹, ¹Macquarie Univ., AUSTRALIA, ²Macom Tech. Solutions, AUSTRALIA, ³WIN Semiconductors Corp., TAIWAN | ||
| 05 | 11:50 | RF Front-End Circuit Employing LC-Tank for Carrier Aggregation |
| K. Kawai¹, M. Nakajima², Y. Takagi¹, H. Okazaki¹, S. Narahashi¹, ¹NTT DOCOMO, Inc., JAPAN, ²NTT Corp., JAPAN |
FR2F Radio Wave Propagation Studies in Various Environments
Room
Room F (Meeting Room 2)
Date and Time
11/07 (Fri) 10:30-12:10
Chairs
Yasuyuki Maekawa, Osaka Electro-Communication Univ., JAPAN
Tetsuro Imai, NTT DOCOMO, Inc., JAPAN
Abstract
This session deals with papers discussing radio wave propagation problems which arise in various natural and living environments, such as ground surface, bushes, building penetration, and indoor situations.
Sessions
| 01 | 10:30 | Optimized High-order Finite-Difference Time-Domain (2, 4) Method |
|---|---|---|
| M. Zhu¹, L. Zhao², Q. Cao¹, ¹NUAA, CHINA, ²Nanjing ASSEN Environment Technology Co. Ltd., CHINA | ||
| 02 | 10:50 | Clustering of Multipath Components Utilizing Geometrical Parameters for Indoor Double-Directional Propagation Channel |
| P. Hanpinitsak¹, M. Kim², J. Takada¹, ¹Tokyo Inst. of Tech., JAPAN, ²Niigata Univ., JAPAN | ||
| 03 | 11:10 | Building Penetration Loss Measurements for TVWS Systems |
| H. Sawada¹, T. Kan¹, K. Mizutani¹², K. Ishizu¹, H. Murakami¹, H. Harada¹², ¹NICT, JAPAN, ²Kyoto Univ., JAPAN | ||
| 04 | 11:30 | The Effect of Bushes Shorter than One Meter to Radio Propagation in 920-MHz Band |
| N. Tsutsui, M. Hara, H. Shimasaki, Y. Kado, M. Ichida, Kyoto Inst. of Tech., JAPAN |
FR3A Millimeter-Wave / Terahertz Devices and Systems
Room
Room A (Tachibana)
Date and Time
11/07 (Fri) 13:30-15:30
Chairs
Hiroyuki Toda, Doshisha Univ., JAPAN
Tsuyoshi Nomura, Toyota Central R&D Labs., Inc., JAPAN
Abstract
This session covers ultrabroad-band devices and systems ranging from millimeter-waves to terahertz regions. Transmission lines, antennas, drivers, receivers, transceivers, and measurement techniques are presented.
Sessions
| 01 | 13:30 | Ultra-Compact Quad-Channel 28-Gbaud Linear Driver Module for InP Mach-Zehnder Modulator |
|---|---|---|
| H. Wakita, M. Nagatani, S. Yamanaka, H. Tanobe, H. Nosaka, NTT Corp., JAPAN | ||
| 02 | 13:50 | Low-Loss Post-Wall Waveguide and Broadband-Transition to Microstrip Line Realized in 0.6mm-Thick Liquid Crystal Polymer-Substrate for Millimeter-Wave Application |
| Y. Uemichi¹, A. Kojima², Y. Nakatani², R. Hosono¹, N. Guan¹, J. Hirokawa³, M. Ando³, ¹Fujikura Ltd., JAPAN, ²Electronics Business Company Fujikura Ltd., JAPAN, ³Tokyo Inst. of Tech., JAPAN | ||
| 03 | 14:10 | Channel and Antenna Effects on the Performances of a 60GHz UWB Impulse Transceiver |
| C. Hamouda¹, B. Poussot¹, M. Villegas², J-M. Laheurte¹, ¹ESYCOM (Université Paris-Est), FRANCE, ²ESYCOM(ESIEE Paris), FRANCE | ||
| 04 | 14:30 | A Low-Power W-Band Receiver MMIC for Amplitude Modulated Wireless Communication Up to 24Gbit/s |
| F. Thome¹², S. Maroldt¹, M. Schlechtweg¹, O. Ambacher¹², ¹IAF, GERMANY, ²Univ. of Freiburg, GERMANY | ||
| 05 | 14:50 | 16-Gbit/s Wireless Terahertz Transmission at 300-GHz Band Using a Polymeric Thin-Film Antenna Receiver with Base-bandwidth Enhancement Circuits |
| M. Inoue¹, M. Hodono¹, M. Oka², Y. Minamikata², D. Tsuji², M. Fujita², T. Nagatsuma², ¹Nitto Denko Corp., JAPAN, ²Osaka Univ., JAPAN | ||
| 06 | 15:10 | Precise Phase Measurement of Continuous Terahertz-Wave Based on Balanced Self-Heterodyne Technique and Its Application to Phase-Contrast Imaging |
| Y. Koda¹, S. Hisatake¹, J.-Y. Kim², A. Hirata², K. Ajito², T. Nagatsuma¹, ¹Osaka Univ., JAPAN, ²NTT Corp., JAPAN |
FR3B : Special Session (Invited) ET & EER Technologies
Room
Room B (Hagi)
Date and Time
11/07 (Fri) 13:30-15:30
Chairs
Donald Kimball, MaXentric Technologies LLC, U.S.A.
Shintaro Shinjo, Mitsubishi Electric Corp., JAPAN
Abstract
This special session overviews recent distortion compensation techniques suitable for enhancing operating efficiency in PAs. The first paper discusses DSP techniques for linearity and efficiency enhancement of multi-band ET transmitters. The second paper introduces design examples on Si-based ET PAs for broadband wireless applications. The third paper focuses on a multi-band/multi-mode CMOS ET transmitter for WCDMA/LTE applications. The last paper reports on design techniques for an EER PA.
Sessions
| 01 | 13:30 | DSP Techniques for Linearity and Efficiency Enhancement of Multi-Band Envelope Tracking Transmitters |
|---|---|---|
| F.M. Ghannouchi¹, A.K. Kwan¹, M. Younes¹, W. Chen², ¹Univ. of Calgary, Canada, ²Tsinghua Univ., CHINA | ||
| 02 | 14:00 | Design of Highly-Efficient Monolithic Silicon Power Amplifiers Using Envelope-Tracking for Broadband Wireless Applications |
| D.Y.C. Lie, J. Lopez, Y. Li, J. Tsay, Texas Tech Univ., U.S.A. | ||
| 03 | 14:30 | Techniques of Envelope Tracking Transmitter for Base-Station and Mobile Applications |
| H.S. Son, J.H. Kim, W.Y. Kim, J.Y. Jang, I.Y. Oh, C.S. Park, KAIST, REPUBLIC of KOREA | ||
| 04 | 15:00 | A Study on the Frequency Response Compensation for Envelope Amplifiers in EER Power Amplifiers |
| A. Yamaoka, K. Yamaguchi, Toshiba Corp., JAPAN |
FR3C Wireless Power Transfer Technologies II
Room
Room C (Shirakashi 1)
Date and Time
11/07 (Fri) 13:30-15:30
Chairs
Yoshihiko Konishi, Hiroshima Inst. of Tech., JAPAN
Tomohiro Seki, NTT Corp., JAPAN
Abstract
This session focuses on trends, technical and regulatory issue for wireless power transfer (WPT) systems. Furthermore, this session deals with papers discussing a rectenna and electromagnetic field leaked from WPT systems.
Sessions
| 01 | 13:30 | Trends, Technical and Regulatory Issue, and Standardization Concerning Commercialization of Wireless Power Transfer Technologies |
|---|---|---|
| H. Shoki, Toshiba Corp., JAPAN | ||
| 02 | 13:50 | A 2.45GHz Efficient 3D Rectenna Designed Using a Novel Yagi-Uda Array |
| Z. Wang¹, Y.-Y. Hu¹, X. Yu¹, L.-W. Guo¹, L. Wang¹, J.L.-W. Li¹², ¹UESTC, CHINA, ²Monash Univ., AUSTRALIA | ||
| 03 | 14:10 | Efficient Supply Power Control by PWM Technique for Microwave Wireless Power Transfer Systems |
| R. Ishikawa, K. Honjo, The Univ. of Electro-Communications, JAPAN | ||
| 04 | 14:30 | A Criterion Proposed for Inductive Coupling and Magnetic Resonance Coupling in Wireless Power Transfer System |
| H. Shim¹, J. Park¹, S. Nam¹, B. Lee², ¹Seoul National Univ., REPUBLIC of KOREA, ²Kyung Hee Univ., REPUBLIC of KOREA | ||
| 05 | 14:50 | Feasibility Study of Simple Model to Emulate Electromagnetic Field Leaked from Wireless Power Transfer Systems by Using Electromagnetic Field Simulation |
| Y. Kanasaki, T. Hirobe, H. Uno, T. Kaneko, Panasonic System Networks R&D Lab. Co., JAPAN | ||
| 06 | 15:10 | Analysis on Electromagnetic Field Leaked from Wireless Power Transfer System for Electric Vehicle Located at Case Study House |
| T. Hirobe, H. Uejima, H. Uno, Y. Tateno, K. Ikeda, Panasonic System Networks R&D Lab. Co., Ltd., JAPAN |
FR3D Radar, Remote Sensing and Imaging Systems II
Room
Room D (Shirakashi 2)
Date and Time
11/07 (Fri) 13:30-15:30
Chairs
Motoyuki Sato, Tohoku Univ., JAPAN
Frank Gumbmann, Rohde & Schwarz GmbH & Co. KG, GERMANY
Abstract
Imaging technologies are presented and discussed including ground-based SAR, ground penetrating SAR, nonuniform SFCW, millimter-wave adaptive methods and millimter-wave microscopy.
Sessions
| 01 | 13:30 |
Remote Sensing of the Physical Qualities of Fruits (Invited) |
|---|---|---|
| P. Leekul¹, T. Limpiti², T. Tantisopharak¹, P. Yoiyod¹, S. Chivapreecha¹, C. Phongcharoenpanich¹, M. Krairiksh¹, ¹Walailak Univ., THAILAND, ²KMITL, THAILAND | ||
| 02 | 14:10 | 79GHz-Band Wide Field-of-View Radar System Performance in Outdoor for Pedestrian Detection |
| T. Morita, T. Kishigami, H. Yomo, M. Yasugi, Y. Nakagawa, Panasonic Corp., JAPAN | ||
| 03 | 14:30 | 61GHz ISM Band FMCW Radar For Applications Requiring High Accuracy |
| S. Scherr, S. Ayhan, H. Gulan, M. Pauli, T. Zwick, KIT, GERMANY | ||
| 04 | 14:50 | Probing Angle Compensation Method for Enhancing Vital Sign Detection with Doppler Radar |
| X. Gao, J. Krook, J.-R. Okuda, O. Boric-Lubecke, Univ. of Hawaii, U.S.A. | ||
| 05 | 15:10 | A Low-Power UWB Radar Transceiver with Fast Switching Wideband LNA for Short-Range Detection |
| Y.-S. Won, S. Yuwono, J.-H. Jung, S.-K. Han, S.-G. Lee, KAIST, REPUBLIC of KOREA |
FR3E : Special Session (Invited) Millimeter-Wave and THz Tranceivers and Building Blocks
Room
Room E (Meeting Room 1)
Date and Time
11/07 (Fri) 13:30-15:30
Chairs
Minoru Fujishima, Hiroshima Univ., JAPAN
Huei Wang, National Taiwan Univ., TAIWAN
Abstract
Millimeter-wave and THz transceivers and building blocks session focuses on future prospects of ultrahigh-frequency integrated circuits for high-speed communication and sensing. The first paper discusses future prospects of CMOS high-speed communication. Next, two papers will discuss 300 GHz band wireless communication with InP HEMT process. Lastly, THz imaging is demonstrated with Si-based integrated circuits.
Sessions
| 01 | 13:30 | A Millimeter-Wave CMOS Transceiver Toward More Than 300Gbps |
|---|---|---|
| K. Okada, Tokyo Inst. of Tech., JAPAN | ||
| 02 | 14:00 | InP HEMT Amplifier Design and Packaging Techniques for Multi-10-Gbps Data Reception in Sub-Millimeter-Wave Bands |
| Y. Nakasha¹, M. Sato¹, Y. Kawano¹, T. Suzuki¹, H. Matsumura¹, S. Shiba¹, T. Takahashi¹, K. Makiyama¹, T. Iwai², N. Hara¹, ¹Fujitsu Ltd., JAPAN, ²Fujitsu Laboratories Ltd., JAPAN | ||
| 03 | 14:30 | 250-300GHz Waveguide Module with Ridge-Coupler and InP-HEMT IC |
| T. Kosugi, H. Hamada, H. Takahashi, H.-J. Song, A. Hirata, H. Matsuzaki, H. Nosaka, NTT Corp, JAPAN | ||
| 04 | 15:00 | Si-Based Sub-THz Heterodyne Imaging Circuits |
| D. Yoon, K. Song, J. Kim, J.-S. Rieh, Korea Univ., REPUBLIC of KOREA |
FR3F Novel Design Techniques of Planar Microwave Filters
Room
Room F (Meeting Room 2)
Date and Time
11/07 (Fri) 13:30-15:30
Chairs
Jen-Tsai Kuo, Chang Gung Univ., TAIWAN
Masataka Ohira, Saitama Univ., JAPAN
Abstract
This session features microwave filters designed by a variety of techniques including coupling-matrix based design method, filter miniaturization technique, wide-stopband design, superconducting technology for low-loss design, and generation technique of transmission zeros for a sharp passband skirt.
Sessions
| 01 | 13:30 | A Lossy Triple-mode Microstrip Filter with Flat Passband Based on Nonuniform Q-Factors |
|---|---|---|
| F.-J. Chen, L.-S. Wu, L.-F. Qiu, J.-F. Mao, Shanghai Jiao Tong Univ., CHINA | ||
| 02 | 13:50 | Bandpass-Filter Design Based on the Cul-de-Sac Coupling Matrix by Using Open-Loop Microstrip Resonators |
| T. Ueda, Y. Sugimoto, H. Deguchi, M. Tsuji, Doshisha Univ., JAPAN | ||
| 03 | 14:10 | Ultra-Compact Shorted Ring Resonator Bandpass Filter With Wide Upper Stopband |
| T.-W. Lin¹, J.-T. Kuo², S.-J. Chung¹, ¹National Chiao Tung Univ., TAIWAN, ²Chang Gung Univ., TAIWAN | ||
| 04 | 14:30 | Design of the Wide Stopband Microstrip Bandpass Filter By Cascading Stepped Coupled Lines |
| C.-N. Liu, C.-H. Teng, C.-W. Tang, National Chung Cheng Univ., TAIWAN | ||
| 05 | 14:50 | 3GHz-Band Superconducting Wide-Band Filter for Small Microwave Receiver |
| N. Shiokawa, T. Kawaguchi, K. Nakayama, M. Yamazaki, H. Kayano, Toshiba Corp., JAPAN | ||
| 06 | 15:10 | Microstrip Lowpass Filters with Improved Frequency Responses Using Coupled-Line Hairpin Resonators |
| J. Tsurumi, Z. Ma, M. Ohira, Saitama Univ., JAPAN |
FR4R Recent Progress in Wireless Power Transfer Systems
Room
"Iwanumaya" in Akiu Onsen Resort
Date and Time
11/07 (Fri) 18:30-20:30
Chair
Shoichi Narahashi, NTT DOCOMO Inc., JAPAN
Abstract
This session provides a forum with a relaxed atmosphere to discuss further prospects and challenges of wireless power transfer systems. The session offers three invited speakers in these technological fields. Topics of the session comprise a design criterion for enhancing the maximum available efficiency of wireless power transfer systems, a mobile wireless power transfer system using transmission-line coupling, and wireless power transmission techniques for mobile applications.
Sessions
| 01 | 18:30 | A Lucid Design Criterion for Wireless Power Transfer Systems to Enhance Their Maximum Available Efficiency |
|---|---|---|
| T. Ohira, Toyohashi Univ. of Tech., JAPAN | ||
| 02 | 19:00 | Mobile Power Transfer System Using Transmission-Line Coupling |
| T. Ishizaki, Ryukoku Univ., JAPAN | ||
| 03 | 19:30 | Wireless Power Transmission for Mobile Applications |
| T. Higashino, M. Okada, Nara Inst. of Science and Tech., JAPAN |