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Exhibition
University Exhibition
University Exhibition 21-29

University Exhibition

01-10
11-20
21-29

Booth No. U-21

University Exhibition 21

Shonan Inst. of Tech., Kaho Lab. and So Lab.

Contact of Lab.

1-1-25 Nishikaigan, Tsujido, Fujisawa, Kanagawa 251-8511, JAPAN
TEL : +81(466)30-0181　 FAX : +81(466)35-8897　 E-mail : kaho@elec.shonan-it.ac.jp
[ Electrical and Electronic Engineering, Kaho Lab. & So Lab. ]

Laboratory Introduction

Kaho Laboratory measures wideband power amplifiers for 4G / 5G mobile phone base stations and designs phased arrays.
So Laboratory interests wireless signal processing, wireless access control protocol, antenna design, flight control for UAV and interference cancelation.

Title: * Measurement and Evaluation of Wideband Amplifiers for 4G / 5G Base Stations
* Small Phased Array Antenna with Butler Matrix and Stepped Array Antenna
* Spectrum Sensing Technique to Realize Dynamic Spectrum Sharing System

Highlight: We are researching the construction of a measurement and evaluation system for wideband power amplifiers for 4G / 5G mobile phone base stations, and small and low-cost phased array antenna devices. We research the wireless observation technique that measures the usage of radio resource which the other system uses.

Booth No. U-22

University Exhibition 22

Ryukoku Univ., Ishizaki & Matsumuro Lab.

Contact of Lab.

1-5 Yokotani, Seta Oe-cho, Otsu, Shiga 520-2194, JAPAN
TEL : +81(77)543-7798　 E-mail : ishizaki@rins.ryukoku.ac.jp
[ Faculty of Advanced Science and Tech., Dept. of Electronics, Information and Communication Engineering Course, Ishizaki & Matsumuro Lab. ]

Laboratory Introduction

In our course, graduation research is conducted from the third year of the undergraduate program. When both laboratories are combined, total 35 students, including master course students, are enrolled in the laboratory, and each one is conducting research on one theme of their own. Students acquire a wide range of knowledge and improve their practical skills through weekly seminars.

Title: * Microwave Filter Technology, High-Efficiency GaN Power Amplifier Technology, Wireless Power Transfer Technology, Millimeter-Wave Device and Circuit Technology, Metamaterial and Artificial Dielectric Technology

Highlight: We are comprehensively researching passive to active microwave devices used in mobile phone terminals and base stations. Also, we are researching wireless power transfer systems. Our goal is to provide total solutions that make future life convenient and have a great impact on society.

Booth No. U-23

University Exhibition 23

Okayama Prefectural Univ., Integrated Circuits Lab.

Contact of Lab.

111 Kuboki, Soja, Okayama, 719-1197, JAPAN
TEL : +81(866)94-2108　 FAX : +81(866)94-2108　 E-mail : nobby@c.oka-pu.ac.jp
[ Computer Science and System Engineering, Information and Communication Engineering, Integrated Circuits Lab. ]

Laboratory Introduction

Our laboratory consists of the digital circuit group and the analog circuit group. This time, the analog circuit group will be exhibit at the MWE University exhibition. The analog circuit group focuses on the high-frequency telecommunication circuit, so, this time we exhibit the recent progress of the study of LNAs and VCOs in our group.

Title: * Study on Low-Power Consumption Low-Noise Amplifier Operating in Moderate Inversion Region
* Study on High-Efficiency Low-Phase-Noise Quasi-Millimeter Wave Oscillator
* Study on Concurrent Multi-Band Receive Low-Noise Amplifier

Highlight: To develop future low-power and high data rate telecommunication LSI, the building blocks of RF circuits designed using the CMOS process will be exhibited, one is the low power consumption LNA, the other is low-phase-noise, and high-efficiency quasi-millimeter wave VCO, and the other is concurrent multi-band LNA.

Booth No. U-24

University Exhibition 24

Waseda Univ., Yoshimasu Lab.

Contact of Lab.

2-7 Hibikino Wakamatsu-ku Kitakyushu-city Fukuoka 808-0135, JAPAN
TEL : +81(93)692-5358　 FAX : +81(93)692-5358　 E-mail : yoshimasu@waseda.jp
[ Faculty of Science and Engineering, Graduate School of Information, Production and Systems, Yoshimasu Lab. ]

Laboratory Introduction

Title: * 28GHz band highly linear high efficiency power amplifier IC in 45 nm CMOS SOI
* Microwave wideband VCO IC in 45 nm CMOS SOI

Highlight: A 28 GHz band highly linear high efficiency power amplifier IC and a microwave voltage-controlled oscillator IC.are shown. The power amplifier IC has an output power of 20 dBm and a power addition efficiency of 38%. The voltage-controlled oscillator IC includes a novel resonant circuit and achieves a broadband oscillation characteristics between 3.2 GHz and 6.49 GHz.

Booth No. U-25

University Exhibition 25

Kanagawa Univ. Microwave and Light-wave Electronics Lab.

Contact of Lab.

3-27-1 Rokkakubashi, Kanagawa-ku, Yokohama, Kanagawa 221-8686, JAPAN
TEL : +81(45)481-5661　 FAX : +81(45)491-7915　 E-mail : chen@kanagawa-u.ac.jp
[ Faculty of Engineering, Dept. of Electrical, Electronics and Information Engineering, Microwave and Light-wave Electronics Lab. ]

Laboratory Introduction

Our laboratory is devoted to studying microwave/light-wave and EM circuits related technologies for wireless and optical communication. Our studies span from the design and fabrication of hardware circuits to the development of EM simulation software. We are researching UWB and ultra-high-speed passive circuits, including synthesis theory for narrowband and UWB filters, chip-to-chip interconnection technology, photonic devices, and leakage radiation related EMC/EMI. Our goal is to establish a GPU-accelerated parallel-processing computer-based large-scale virtual factory for the automatic design of EM and optical circuits through the integration of light-wave, millimeter-wave, and microwave simulation software into a common platform.

Title: * Theoretical Design of Passive Functional-Devices for Next-Generation (Beyond 5G / 6G) Wireless Communication System & Nondestructive Measurement of EM-Parameters of Wave-Absorbers

Highlight: In this exhibition, we will introduce some novel passive functional-devices theoretically-designed for next-generation (Beyond 5G/6G) wireless communication system as well as a nondestructive measurement system for the characterization of EM-parameters of absorbers.
(1) Novel mmW/sub-mmW/THz passive devices for next-generation (Beyond 5G / 6G) wireless communication - control of THz wave and new functional devices using photonic crystal structure -
(2) The destructive measurement of complex permittivity and permeability of absorbs with an open-ended coaxial probe
(3) Synthesis of novel UWB filters for next-generation (Beyond 5G / 6G) wireless communication system

Booth No. U-26

University Exhibition 26

Osaka Univ., Sanada Lab.

Contact of Lab.

1-3 Machikaneyama, Toyonaka, Osaka 560-8531, JAPAN
TEL : +81(6)6850-6305　 E-mail : sanada.atsushi.es@osaka-u.ac.jp
[ Graduate School of Engineering Science, Dept. of Systems Innovation, Division of Advanced Electronics and Optical Science, Sanada Lab. ]

Title: * Transformation Electromagnetics
* Metamaterials
* Metasurfaces
* Millimeter-Wave and Terahertz Electronics

Highlight: Recent progress on metamaterial and metasurface technologies are presented including invisibility and illusion cloaks based on transformation optics, Terahertz perfect anomalous reflection metasurfaces.

Booth No. U-27

University Exhibition 27

Okayama Prefectural Univ., Microwave Device Lab.

Contact of Lab.

111 Kuboki, Soja, Okayama 719-1197, JAPAN
TEL : +81(866)94-2121　 FAX : +81(866)94-2199　 E-mail : okubo@c.oka-pu.ac.jp
[ Faculty of Computer Science and System Engineering, Dept. of Information and Communication Engineering, Microwave Device Lab. ]

Laboratory Introduction

We are studying metamaterials containing anisotropic media or nonreciprocal elements in order to develop new microwave functional elements that support the ever-increasing speed, and acoustic metamaterials for soundproofing technology.

Title: * CRLH-TL using Nonreciprocal Circuit Element
* Acoustic Metamaterials combining Slit Array Structure and Helmholtz Resonator

Highlight: Nonreciprocal CRLH-TL composed of periodic structures containing nonreciprocal element, that always has a point where a wave of infinite wavelength propagates; and acoustic metamaterials that blocks sound waves of a specific frequency combining slit array structure and Helmholtz resonator are introduced.

Booth No. U-28

University Exhibition 28

Kyoto Inst. of Tech., Advanced Electromagnetic Wave Engineering Lab.

Contact of Lab.

1 Hashigami-cho, Matsugasaki, Sakyo-ku, Kyoto 606-8585, JAPAN
TEL : +81(75)724-7454　 E-mail : ueda@kit.ac.jp
[ Electrical Engineering and Electronics, Advanced Electromagnetic Wave Engineering Lab. ]

Laboratory Introduction

We are working on electromagnetic metamaterials, which is composed of subwavelength-scale unit cells, creation of new functionalities, and their implementation in wireless communication systems.

Title: * Nonreciprocal Metamaterials with Positive and Negative Refractive Index Depending on Wave propagation Directions
* Chiral / Dielectric Metamaterials

Highlight: Various kinds of metamaterials, such as nonreciprocal metamaterials with positive and negative refractive index depending on wave propagation directions, chiral/ dielectric metamaterials will be shown.

Booth No. U-29

University Exhibition 29

Univ. of Hyogo, Photonic and Microwave Engineering Lab.

Contact of Lab.

2167 Shosha, Himeji, Hyogo 671-2280, JAPAN
TEL : +81(79)267-4873　 FAX : +81(79)267-4873　 E-mail : kawai@eng.u-hyogo.ac.jp
[ Graduate School of Engineering, Photonic and Microwave Engineering Lab. ]

Laboratory Introduction

Light and radio waves are used not only in communications but also in various fields such as industry, medical care, and energy applications, and their progress is remarkable. In our laboratory, we are working on the development of most advanced technologies using light and radio waves, centering on optical and microwave devices.

Title: * Compact Divider / Coupler
* High-Speed Optical Modulation Technology
* Microwave Heating Application

Highlight: 1．Lumped-/quasi-lumped-element power divider at UHF/SHF bands and compact coupler at X/Ku bands
2．Design and evaluation of high-speed electro-optical modulation elements for optical fiber wireless communication systems
3．Fryer system using microwave heating

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