Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
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 |
2016-03-03 10:15 |
Hiroshima |
Hiroshima University |
CMOS Biosensor IC Focusing on Dielectric Relaxations of Biological Water with 120GHz and 60GHz Oscillator Arrays Takeshi Mitsunaka, Nobuyuki Ashida, Akira Saito, Kunihiko Iizuka (SHARP), Tetsuhito Suzuki, Yuichi Ogawa (Kyoto Univ.), Minoru Fujishima (Hiroshima Univ.) MW2015-189 ICD2015-112 |
We realized CMOS biosensor IC focusing on dielectric relaxations of biological water with 120GHz and 60GHz oscillator ar... [more] |
MW2015-189 ICD2015-112 pp.91-96 |
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 |
ED |
2015-12-21 13:05 |
Miyagi |
RIEC, Tohoku Univ |
[Invited Talk]
Compact 141-GHz Differential Amplifier with 20-dB Peak Gain and 22-GHz 3-dB Bandwidth Shinsuke Hara (NICT), Kousuke Katayama, Kyoya Takano (Hiroshima Univ.), Issei Watanabe, Norihiko Sekine, Akifumi Kasamatsu (NICT), Takeshi Yoshida, Shuhei Amakawa, Minoru Fujishima (Hiroshima Univ.) ED2015-91 |
This paper presents a wideband differential amplifier operating at 138 GHz in 40-nm CMOS. It is composed of five differe... [more] |
ED2015-91 pp.1-6 |
MW, ICD |
2015-03-05 09:30 |
Fukui |
University of Fukui |
Modeling of Nonlinear Capacitance on MOSFET at Millimeter-Wave Frequencies Ryo Nahara, Kosuke Katayama, Kyoya Takano, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2014-202 ICD2014-115 |
For precise estimation of power consumption and circuit characteristics, MOSFET models used in circuit simulation should... [more] |
MW2014-202 ICD2014-115 pp.1-5 |
MW, ICD |
2015-03-05 10:00 |
Fukui |
University of Fukui |
Design of CMOS Multi-Stage Low-Noise Amplifier with Wide Bandwidth and High Gain Kenkichi Maeda, Shinichi Mizukusa, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ) MW2014-203 ICD2014-116 |
It is highly required to realize high gain with wide bandwidth and low noise on amplifiers. In millimeter wave, gain on ... [more] |
MW2014-203 ICD2014-116 pp.7-11 |
MW |
2014-12-19 09:25 |
Tokyo |
Aoyama Gakuin Univ. Aoyama Campus |
Study of multi-stage CMOS small signal amplifier with wideband width and high gain Shinichi Mizukusa, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2014-167 |
In the high frequency, such as millimeter-wave frequencies, the gain of a MOSFET is small, therefore the gain of an ampl... [more] |
MW2014-167 pp.103-108 |
MW |
2014-12-19 09:50 |
Tokyo |
Aoyama Gakuin Univ. Aoyama Campus |
Study of matched ring oscillators Shunsuke Tanimori, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2014-168 |
This paper discusses a design technique to find theoretically optimized topology taking advantage of full capacity of CM... [more] |
MW2014-168 pp.109-114 |
ICD, CPSY |
2014-12-01 15:15 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Poster Presentation]
Injection-Locked-Oscillator-Based Phase Shifter with High Phase Resolution Keigo Yonemoto, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) ICD2014-98 CPSY2014-110 |
[more] |
ICD2014-98 CPSY2014-110 pp.87-91 |
ICD, CPSY |
2014-12-01 15:15 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
[Poster Presentation]
Study of 300 GHz CMOS wireless transceiver system Hiroshi Adachi, Kosuke Katayama, Kyoya Takano, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) ICD2014-99 CPSY2014-111 |
[more] |
ICD2014-99 CPSY2014-111 p.93 |
MW |
2014-03-04 13:45 |
Ehime |
Ehime University |
Characterization of low-characteristic-impedance decoupling transmission line Hirofumi Naratsuma, Shuhei Amakawa, Kosuke Katayama, Kyoya Takano, Mizuki Motoyoshi, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2013-202 |
In millimeter wave CMOS circuits, a low-characteristic-impedance transmission line can be used as a decoupling device, w... [more] |
MW2013-202 pp.29-34 |
MW |
2014-03-04 14:10 |
Ehime |
Ehime University |
On-wafer de-embedding pattern design for reduced uncertainty under an area constraint Masafumi Suizu, Akihiko Orii, Kyoya Takano, Mizuki Motoyoshi, Kosuke Katayama, Takeshi Yoshida, Shuhei Amakawa, Minoru Fujishima (Hiroshima Univ.) MW2013-203 |
To obtain the characteristics of the individual devices in the high-frequency measurement, de-embedding is required to r... [more] |
MW2013-203 pp.35-40 |
MW |
2014-03-04 14:35 |
Ehime |
Ehime University |
Matching circuit for CMOS millimeter-wave frequency doubler Hiroshi Adachi, Kosuke Katayama, Kyoya Takano, Mizuki Motoyoshi, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2013-204 |
Frequency multiplier is required to generate a signal higher than maximum oscillation frequency of the MOSFET. In the CM... [more] |
MW2013-204 pp.41-46 |
MW |
2014-03-04 15:00 |
Ehime |
Ehime University |
Consideration about Extremely High Frequency CMOS Amplification Circuit which is Wideband Syuhei Yokoyama, Mizuki Motoyoshi, Kyoya Takano, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) MW2013-205 |
In late years, with the spread of electric apparatuses, the further performance enhancement of a used circuit is demande... [more] |
MW2013-205 pp.47-51 |
ICD |
2014-01-28 15:00 |
Kyoto |
Kyoto Univ. Tokeidai Kinenkan |
[Poster Presentation]
Diode Modeling with Lossy Nonlinear Capacitance Model Ryo Nahara, Kosuke Katayama, Kyoya Takano, Mizuki Motoyoshi, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) ICD2013-127 |
For precise estimation of power consumption and circuit characteristics, MOSFET models used in circuit simulation should... [more] |
ICD2013-127 p.63 |
ICD |
2014-01-28 15:00 |
Kyoto |
Kyoto Univ. Tokeidai Kinenkan |
[Poster Presentation]
Design of CMOS Transmission Line-to-Waveguide Transitions from Milimeter Wave Hitoshi Kunitake, Kyoya Takano, Mizuki Motoyoshi, Kosuke Katayama, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) ICD2013-130 |
Recently, a millimeter wave circuit with CMOS process has been realized. Since waveguide interface is preferable to appl... [more] |
ICD2013-130 p.73 |
ICD |
2014-01-28 15:00 |
Kyoto |
Kyoto Univ. Tokeidai Kinenkan |
[Poster Presentation]
Drain Matching CMOS Millimeter-wave Frequency Doubler Hiroshi Adachi, Kosuke Katayama, Kyoya Takano, Mizuki Motoyoshi, Shuhei Amakawa, Takeshi Yoshida, Minoru Fujishima (Hiroshima Univ.) ICD2013-131 |
Frequency multiplier is required to generate a signal higher than maximum oscillation frequency of the MOSFET. In the CM... [more] |
ICD2013-131 p.75 |
ED, MW |
2014-01-16 15:55 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
209mW 11Gbps 130GHz CMOS Transceiver for Indoor Wireless Communication Kosuke Katayama, Mizuki Motoyoshi, Kyoya Takano, Chenyan Li, Minoru Fujishima (Hiroshima Univ.) ED2013-122 MW2013-187 |
[more] |
ED2013-122 MW2013-187 pp.67-71 |