Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
AP, RCS (Joint) |
2023-11-16 10:35 |
Kumamoto |
Kumamoto Prefectural Workers' Welfare Hall (Primary: On-site, Secondary: Online) |
[Invited Lecture]
A 2D Beam-Steerable 252-285-GHz 25.8-Gbit/s CMOS Receiver Module Takeshi Yoshida (Hiroshima Univ.), Shinsuke Hara, Tatsuo Hagino, Mohamed Mubarak, Akifumi Kasamatsu (NICT), Kyoya Takano (Tokyo Univ. of Science), Yoshiki Sugimoto, Kunio Sakakibara (Nagoya Inst. of Tech.), Shuhei Amakawa, Minoru Fujishima (Hiroshima Univ.) AP2023-142 RCS2023-165 |
Recently, there have been many reports on sub-THz transmitters (TX) and receivers (RX) for high-speed wireless communica... [more] |
AP2023-142 RCS2023-165 p.66(AP), p.70(RCS) |
MW |
2019-12-19 15:55 |
Gifu |
Gifu Unif. Satellite Campus |
[Special Talk]
300-GHz Wireless Data Transmission System with Low-SNR CMOS RF Front End Sangyeop Lee, Ruibing Dong (Hiroshima Univ.), Shinsuke Hara (NICT), Kyoya Takano, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2019-126 |
A CMOS based 300 GHz wireless system typically has low signal to noise ratio character istics owing to a low transmitter... [more] |
MW2019-126 pp.41-46 |
ICD, CPSY, CAS |
2018-12-23 09:30 |
Okinawa |
|
[Poster Presentation]
Matching network optimization for wideband millimeter wave CMOS amplifier Shota Kohara, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) CAS2018-95 ICD2018-79 CPSY2018-61 |
[more] |
CAS2018-95 ICD2018-79 CPSY2018-61 pp.73-76 |
ICD, CPSY, CAS |
2018-12-23 09:30 |
Okinawa |
|
[Poster Presentation]
Transmission line design to shorten the line length Tomohiro Kobayashi, Syuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ) CAS2018-102 ICD2018-86 CPSY2018-68 |
In the millimeter wave CMOS circuit, the slow wave transmission line has a short transmission line length per unit phase... [more] |
CAS2018-102 ICD2018-86 CPSY2018-68 pp.97-100 |
ICD, CPSY, CAS |
2018-12-23 15:50 |
Okinawa |
|
Design Method of Near-fmax Amplifier Using Transmission Line Feedback Shingo Yasuda, Shuhei Amakawa (Hiroshima Univ.) CAS2018-114 ICD2018-98 CPSY2018-80 |
[more] |
CAS2018-114 ICD2018-98 CPSY2018-80 pp.147-152 |
MW |
2018-12-13 16:35 |
Kanagawa |
Kanagawa Univ. |
On low-frequency anomalies of S-parameters of coaxial lines Ken Shobe, Shuhei Amakawa (Hiroshima Univ.) MW2018-126 |
Transmission coefficients of reciprocal and passive devices such astranssmission lines always show phasedelays. However,... [more] |
MW2018-126 pp.73-78 |
VLD, DC, CPSY, RECONF, CPM, ICD, IE, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2018-12-06 14:55 |
Hiroshima |
Satellite Campus Hiroshima |
Design guideline of ground structure in slow wave transmission line Tomohiro Kobayashi, Syuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ) CPM2018-88 ICD2018-49 IE2018-67 |
In the millimeter wave CMOS circuit, the slow wave transmission line is used for a device that couples and decouples sig... [more] |
CPM2018-88 ICD2018-49 IE2018-67 pp.3-7 |
VLD, DC, CPSY, RECONF, CPM, ICD, IE, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2018-12-06 15:20 |
Hiroshima |
Satellite Campus Hiroshima |
Millimeter wave band CMOS low noise amplifier design Kyoya Takegawa, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) CPM2018-89 ICD2018-50 IE2018-68 |
[more] |
CPM2018-89 ICD2018-50 IE2018-68 pp.9-12 |
VLD, DC, CPSY, RECONF, CPM, ICD, IE, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2018-12-06 15:45 |
Hiroshima |
Satellite Campus Hiroshima |
Design method of millimeter wave CMOS amplifier circuit with flat frequency characteristics Shota Kohara, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) CPM2018-90 ICD2018-51 IE2018-69 |
High-speed wireless communication using a wideband in the millimeter wave is expected. In order to realize this, millime... [more] |
CPM2018-90 ICD2018-51 IE2018-69 pp.13-16 |
VLD, DC, CPSY, RECONF, CPM, ICD, IE, IPSJ-SLDM, IPSJ-EMB, IPSJ-ARC (Joint) [detail] |
2018-12-07 09:25 |
Hiroshima |
Satellite Campus Hiroshima |
Design method of millimeter wave CMOS oscillator with high efficiency Tomoya Takiwaki, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) CPM2018-91 ICD2018-52 IE2018-70 |
[more] |
CPM2018-91 ICD2018-52 IE2018-70 pp.17-20 |
ED, MW |
2018-01-26 11:00 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Special Talk]
Briefing Report on European Microwave Week 2017 Ryo Ishikawa (UEC), Shuhei Amakawa (Hiroshima Univ.), Chen Chun-Pin (Kanagawa Univ.), Tamio Kawaguchi (Toshiba), Hiroshi Okazaki (NTT DOCOMO) ED2017-100 MW2017-169 |
The Microwave Week 2017, comprising the European Microwave Conference (EuMC), European Rader Conference(EuRAD), and Euro... [more] |
ED2017-100 MW2017-169 pp.35-40 |
MW, ICD |
2017-03-02 10:25 |
Okayama |
Okayama Prefectural Univ. |
Performance Indicator for THz TRX module Kyoya Takano, Shuhei Amakawa, Kosuke Katayama, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2016-191 ICD2016-121 |
Ultra-high-speed wireless links are achievable by using terahertz frequencies which have vast frequency band for wireles... [more] |
MW2016-191 ICD2016-121 pp.19-22 |
MW, ICD |
2017-03-02 10:50 |
Okayama |
Okayama Prefectural Univ. |
Systematic circuit model generation for high-frequency devices Kosuke Katayama, Kyoya Takano, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2016-192 ICD2016-122 |
[more] |
MW2016-192 ICD2016-122 pp.23-27 |
MW, ICD |
2017-03-03 09:50 |
Okayama |
Okayama Prefectural Univ. |
Design of CMOS On-Chip Antenna in 300-GHz Band VSRao Sasipalli, Kosuke Katayama, Kyoya Takano, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima, Tuan Anh VU (Hiroshima Univ.) MW2016-205 ICD2016-135 |
[more] |
MW2016-205 ICD2016-135 pp.95-100 |
ED |
2016-12-20 13:15 |
Miyagi |
RIEC, Tohoku Univ |
[Invited Talk]
Input Power Optimization of a Tripler-Base 300-GHz CMOS Up-Conversion Mixer Ruibing Dong (NICT), Kosuke Katayama (Hiroshima Univ.), Shinsuke Hara (NICT), Kyoya Takano (Hiroshima Univ.), Issei Watanabe, Norihiko Sekine, Akifumi Kasamatsu (NICT), Takeshi Yoshida, Shuhei Amakawa, Minoru Fujishima (Hiroshima Univ.) ED2016-93 |
A tripler-based 300-GHz-band up-conversion mixer in 40-nm CMOS is experimentally characterized, whose operating frequenc... [more] |
ED2016-93 pp.71-74 |
SR, SRW (Joint) |
2016-05-17 12:00 |
Overseas |
Hotel Lasaretti, Oulu, Finland |
[Invited Lecture]
A QAM-Capable 300-GHz CMOS Transmitter Shuhei Amakawa, Kosuke Katayama, Kyoya Takano (Hiroshima Univ.), Shinsuke Hara, Akifumi Kasamatsu (NICT), Koichi Mizuno, Kazuaki Takahashi (Panasonic), Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) SR2016-12 |
A 300-GHz transmitter (TX) in 40-nm CMOS is presented. With the MOSFET unity-power-gain frequency $f_{mathrm{max}}$ bein... [more] |
SR2016-12 pp.39-46 |
ICD, MW |
2016-03-04 09:00 |
Hiroshima |
Hiroshima University |
Evaluation of Low Characteristic Impedance Transmission Line for Millimeter - Wave Decoupling Ryuhei Goda, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2015-202 ICD2015-125 |
Wideband decoupling for millimeter-wave is possible with the transmission line with extremely low characteristic impedan... [more] |
MW2015-202 ICD2015-125 pp.163-167 |
ICD, MW |
2016-03-04 09:25 |
Hiroshima |
Hiroshima University |
Design of Differential Type Microstrip Line-to-Waveguide Transitions for 300 GHz Hitoshi Kunitake, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2015-203 ICD2015-126 |
Since the transmission loss in the millimeter wave band is high, the interface of the low loss is demanded.Method to con... [more] |
MW2015-203 ICD2015-126 pp.169-173 |
ICD, MW |
2016-03-04 09:50 |
Hiroshima |
Hiroshima University |
Theoretical analysis of a frequency tripler-based mixer Hiroshi Adachi, Kosuke Katayama, Kyoya Takano, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2015-204 ICD2015-127 |
[more] |
MW2015-204 ICD2015-127 pp.175-179 |
ICD, MW |
2016-03-04 10:15 |
Hiroshima |
Hiroshima University |
Design Method of Gain-Boosted Small-Signal Amplifiers with Lossless Reciprocal Feedback Yuji Ito, Shuhei Amakawa (Hiroshima Univ.) MW2015-205 ICD2015-128 |
The gain and the stability of a composite amplifier consisting of a core 2-port amplifier (transistor) and a lossless re... [more] |
MW2015-205 ICD2015-128 pp.181-186 |