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 Results 1 - 19 of 19  /   
Committee Date Time Place Paper Title / Authors Abstract Paper #
AP 2021-12-16
Tokyo Kikai-Shinko-Kaikan Bldg.
(Primary: On-site, Secondary: Online)
Stacked Patch Antenna Consisting of Exciting Element on Thin Layer and Parasitic Element on Substrate
Takashi Maruyama, Hiroyuki Aoyama, Toru Takahashi, Masataka Otsuka (Mitsubishi Electric) AP2021-132
In high frequency bands like millimeter wave, antennas might be formed on wiring layers of ICs. We assume to use patch a... [more] AP2021-132
EST 2019-05-17
Aichi Nagoya Inst. Tech. Dielectric Constant Change of Silicon Substrate after H/He Ion Irradiation for Loss Reduction
Takuichi Hirano (Tokyo City Univ.), Maya Mizuno (NICT), Ning Li (Sophia Univ.), Takeshi Inoue, Masatsugu Sogabe (SHI-ATEX), Kenichi Okada (Tokyo Tech.) EST2019-5
The hydrogen (H) or helium (He) ion irradiation on a silicon (Si) substrate had been proposed to reduce loss in high fre... [more] EST2019-5
EST, MW, EMCJ, IEE-EMC [detail] 2018-10-19
Aomori Hachinohe Chamber of Commerce and Industry(Hachinohe city, Aomori) A Study of Loss Reduction in 60 GHz Band Silicon CMOS On-Chip Dipole Antenna using TSV
Takuichi Hirano (Tokyo City Univ.) EMCJ2018-51 MW2018-87 EST2018-73
60 GHz CMOS on-chip antenna is low radiation efficiency due to large loss of silicon (Si) substrate. It is reported that... [more] EMCJ2018-51 MW2018-87 EST2018-73
Aichi Nagoya Institute of Technology Feasibility of a 60GHz-band Semi-rigid Cable Monopole Antenna for Inserting into an Oscillator Chip
Yuta Saito, Takashi Tomura, Jiro Hirokawa, Kenichi Okada (Tokyo Inst. of Tech.) AP2017-48
This paper proposes the structure inserted a semi-rigid cable monopole antenna into a 60GHz band oscillator chip. We dis... [more] AP2017-48
EMCJ, IEE-EMC, MW, EST [detail] 2016-10-20
Miyagi Tohoku Univ. 4-Channel Transmit/Receive RF Core-Chip for High SHF Wide-band Massive MIMO in 5G
Wataru Yamamoto, Koji Tsutsumi, Takaya Maruyama, Takanobu Fujiwara, Ichiro Somada, Tatsuya Hagiwara, Eiji Taniguchi, Mitsuhiro Shimozawa (Mitsubishi Electric Corp.) EMCJ2016-63 MW2016-95 EST2016-59
In 5th generation mobile communication system (5G), the active phased array antenna (APAA) have attracted attention to r... [more] EMCJ2016-63 MW2016-95 EST2016-59
- 2016-06-11
Overseas KMUTNB, Bangkok, Thailand Gain Enhancement of 140 GHz CMOS On-chip Antenna with Optimal Ion-Irradiated-Silicon
Junji Sato, Tomohiro Murata (Panasonic)
This paper presents the gain enhancement techniques for a 140 GHz CMOS on-chip antenna. The proposed CMOS on-chip folded... [more]
EMCJ, IEE-EMC, MW, EST [detail] 2015-10-23
Miyagi Sakura Hall, Katahira Campus, Tohoku Univ. Design of Low Loss 60 GHz CMOS On-Chip Dipole Antenna By Helium-3 Ion Irradiation
Takuichi Hirano, Ning Li, Kenichi Okada, Akira Matsuzawa, Jiro Hirokawa, Makoto Ando (Tokyo Tech.), Tsuyoshi Inoue, Hitoshi Sakane (SHIEI) EMCJ2015-79 MW2015-118 EST2015-89
60 GHz CMOS on-chip antenna is low radiation efficiency due to large loss of silicon (Si) substrate. In this paper, a 60... [more] EMCJ2015-79 MW2015-118 EST2015-89
MW 2014-05-23
Kyoto Doshisha Univ. Coaxial-line Connection of a Circularly-polarized Patch Array Antenna on the Thick Resin and 60GHz-band Quadrature Oscillator Circuit
Naoya Oikawa, Jiro Hirokawa (Tokyo Tech.), Hiroshi Nakano, Yasutake Hirachi (AMMSYS), Kenichi Okada, Makoto Ando (Tokyo Tech.) MW2014-36
We have proposed to place a RF circuit and an antenna on each side of a silicon chip in the 60GHz band, respectively, an... [more] MW2014-36
- 2013-12-04
Overseas King Mongkut's University of Technology North Bangkok, Thailand 60 GHz Antenna-on-Chip (AoC) using Asymmetric Artificial Magnetic Conductor (AMC) on 0.18 um CMOS technology
Adel Barakat, Ahmed Allam (EJUST), Hala Elsadek (ERI), Mohamed El-Sayed (EJUST), H. Jia, Ramesh K. Pokharel (Kyushu University)
This paper presents a 60 GHz Antenna-on-Chip (AoC) designed using 0.18 um CMOS process. AoC performance is enhanced usin... [more]
Shimane Matsue Terrsa Electromagnetic Simulation of Radiation Efficiency Improvement for an On-chip Antenna by a High Resistivity Substrate Supposing Ion Irradiation
Yuki Yao, Takuichi Hirano, Kenichi Okada, Jiro Hirokawa, Makoto Ando (Titech) AP2013-104
We have analyzed on-chip antennas integrated in CMOS using a partially low loss Si substrate by the electromagnetic fiel... [more] AP2013-104
EST, EMCJ, IEE-EMC [detail] 2012-10-25
Miyagi Tohoku Gakuin University(Tagajo Campus) Electromagnetic Simulation of Radiation Efficiency for On-Chip Dipole/Loop/Patch Antennas on a Si CMOS Substrate
Takuichi Hirano, Kenichi Okada, Jiro Hirokawa, Makoto Ando (TokyoTech) EMCJ2012-73 EST2012-57
Electromagnetic simulation of radiation efficiency for on-chip dipole, loop and patch antennas were performed. It was co... [more] EMCJ2012-73 EST2012-57
AP 2010-05-13
Overseas Southeast Univ. Compact antennas for UWB applications
Hyung kuk Yoon, Yohan Lim, Young Joong Yoon (Yonsei Univ.) AP2010-22
In this paper, researches on the various small UWB antennas are presented. The proposed UWB antenna for mobile handset i... [more] AP2010-22
AP 2009-03-09
Overseas University of Macau Millimeter-Wave Dipole Antenna on a Thick Resin Layer on the Back Side of a Silicon CMOS Chip
Jiro Hirokawa, Kenta Kimishima, Makoto Ando (Tokyo Inst. of Tech.), Yasutake Hirachi (Ammsys Inc.) AP2008-217
This paper proposes a dipole antenna integrated on a thick resin layer on the opposite side of a RF circuit layer though... [more] AP2008-217
MW 2008-12-12
Toyama Toyama-Univ. Gofuku-camp. Chip Antenna Integrated with Tuning Circuit for 1seg D-TV Usage
Kenichi Ishizuka, Hiroshi Nishida, Kazunari Kawahata (Murata Manufacturing Co.,Ltd.) MW2008-151
This paper proposes the miniaturized antenna for the cellular phone with 1-Seg system. Firstly we examined the matching ... [more] MW2008-151
ED, SDM 2007-06-25
Overseas Commodore Hotel Gyeongju Chosun, Gyeongju, Korea Development of an Integrated Inductor for Impedance Matching on the Fully Integrated Silicon Smart Microsensors
Jong-Wan Kim, Hidekuni Takao, Kazuaki Sawada, Makoto Ishida (Toyohashi Univ. of Tech.)
This paper presents the development of impedance matching procedure of the on-chip integrated antenna and integrated tra... [more]
AP 2007-06-21
Tokyo Kikai-Shinko-Kaikan Bldg. A Small Size Dielectric Chip Antenna by Arranging Parasitic Element on the Back Side
Osamu Shibata, Hiromasa Koyama, Takuma Sawaya (Murata Mfg.) AP2007-39
A new type antenna has been developed that characteristics are according to both of Yagi-Uda antenna with high F/B ratio... [more] AP2007-39
AP 2007-03-08
Overseas Taiwan (Yuan Ze Univ.) A Transmission and Receiving System using an One-chip Microcomputer for Short Range Communication
Shuhei Sonoda, Hiroyuki Arai (Yokohama National Univ.) AP2006-147
The short range communication systems often require low-power consumption performance and low cost rather than high spee... [more] AP2006-147
Kanagawa YRP A Study on Array Antenna for Wireless Inter-chip Clock Transmission Using UWB Impulse Radio
Hwain Kang, Tadatomo Sato, Ryuji Kohno (Yokohama National Univ)
The wireless inter-connect for clock distribution using on-chip antenna has been studied to improve
clock performance. ... [more]
AP 2006-10-20
Kyoto Kyoto Univ. (Katsura Campus) A Transmission and Receiving System Using an One-chip Microcomputer for Short Range Communication
Shuhei Sonoda, Hiroyuki Arai (Yokohama National Univ.) AP2006-89
The short range communication systems often require low-power consumption performance and low cost rather than high spee... [more] AP2006-89
 Results 1 - 19 of 19  /   
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