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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| EE, IEE-SPC | 2023-07-20 13:00 |
Hyogo | (Primary: On-site, Secondary: Online) |
[Invited Talk]
Latest Trends in Automotive Power Electronics and Application of Magnetic Components Jun Imaoka (NU)  EE2023-9 |
Recently, achieving carbon neutrality which means balancing CO2 emissions and absorption is a global concern. Especially... [more] | EE2023-9 pp.1-50 |
| MW | 2023-05-18 14:45 |
Kyoto | Ritsumeikan University (Primary: On-site, Secondary: Online) |
A Basic Study of a Heat dissipation 8-way Waveguide Power Combiner Akimichi Hirota, Takeshi Oshima, Jun Nishihara, Hiroyuki Nonomura, Toru Fukasawa, Yoshio Inasawa (Mitsubishi Electric Corp.) MW2023-9 |
A coaxial to waveguide transition is used when signals are transmitted with low loss. When a large power is input to the... [more] | MW2023-9 pp.1-5 |
| CCS | 2023-03-27 09:00 |
Hokkaido | RUSUTSU RESORT | Medical Image Segmentation with Inverse Heat Dissipation Model Yu Kashihara, Takashi Matsubara (Osaka Univ.) CCS2022-82 |
The diffusion model is a generative model based on stochastic transitions and has been successfully used to generate an... [more] |
CCS2022-82 pp.107-112 |
| MW | 2022-05-20 10:00 |
Kyoto | Kyoto Univ. (Primary: On-site, Secondary: Online) |
A Basic Study of a Heat dissipation Coaxial to Waveguide Transition Akimichi Hirota, Takeshi Oshima, Jun Nishihara, Hiroyuki Nonomura, Toru Fukasawa, Yoshio Inasawa (Mitsubishi Electric) MW2022-16 |
A coaxial to waveguide transition is used when signals are transmitted with low loss. When a large power is input to the... [more] | MW2022-16 pp.8-12 |
| MW | 2022-03-03 09:35 |
Online | Online | Chip Resistors for Heat Dissipation on RF circuits Yuta Sugiyama, Hidenori Ishibashi, Takeshi Oshima, Hidenori Yukawa, Toru Fukasawa, Toru Takahashi, Yoshio Inasawa (Mitsubishi Electric) MW2021-112 |
In this paper we present that the technology of heat dissipation for RF circuit using chip resistors. The quarter wavele... [more] | MW2021-112 pp.7-11 |
| NLP, MSS (Joint) |
2021-03-15 09:15 |
Online | Online | On descriptions of state variables in the vicinity of bifurcation points via Langevin system Yasuhiro Nariyuki (Univ. Toyama) NLP2020-55 |
One-dimensional Langevin systems are discussed as a reduced (truncation) model of a stochastic mechanical system with ne... [more] | NLP2020-55 pp.1-4 |
| WPT | 2020-12-08 14:20 |
Online | Online | Development of Power Transmitter for the 24GHz-Band WiCoPT System and the Power Transmission Experiment Kota Kinugawa, Toshio Ishizaki, Takayuki Matsumuro (Ryukoku Univ.) WPT2020-29 |
A 24GHz band WiCoPT (Wireless Communication and Power Transmission) demo system has been developed for battery-less sens... [more] | WPT2020-29 pp.17-20 |
| MSS, CAS, SIP, VLD | 2020-06-18 14:25 |
Online | Online | Thermal transient analysis of the heat generation and design of temperature control circuit in three-dimensional stacked chip Tomoaki Oikawa, Kimiyoshi Usami (Shibaura Inst. of Tech.) CAS2020-9 VLD2020-9 SIP2020-25 MSS2020-9 |
As a technology for improving the degree of integration of LSI, there is a three-dimensional stacking technology of LSI ... [more] | CAS2020-9 VLD2020-9 SIP2020-25 MSS2020-9 pp.47-52 |
| SCE | 2019-10-10 10:50 |
Miyagi | Study of method to evaluate energy dissipation of arbitrary adiabatic quantum-flux-parametron logic gates Taiki Yamae, Naoki Takeuchi, Nobuyuki Yoshikawa (Yokohama Natl. Univ.) SCE2019-28 |
Adiabatic quantum-flux-parametron (AQFP) logic is an energy-efficient superconductor logic. It operates with zero static... [more] | SCE2019-28 pp.31-36 |
|
| US | 2019-04-15 14:20 |
Tokyo | Theoretical Study on an Effect of Liquid Viscosity and Thermal Conductivity on Weakly Nonlinear Waves in Bubbly Liquids Takafumi Kamei, Tetsuya Kanagawa (Univ. Tsukuba) US2019-3 |
The present study theoretically clarifies an effect of the liquid viscosity and the thermal conductivity on the pressure... [more] | US2019-3 pp.11-13 |
|
| HWS, VLD | 2019-02-28 10:00 |
Okinawa | Okinawa Ken Seinen Kaikan | Thermal transient analysis and evaluation of the heat generation and dissipation in three-dimensional stacked LSI Ryota Horigome, Kimiyoshi Usami (Shibaura Inst. of Tech.) VLD2018-107 HWS2018-70 |
As a technology for improving the degree of integration of LSI, there is a three-dimensional stacking technology of LSI ... [more] | VLD2018-107 HWS2018-70 pp.85-90 |
| QIT (2nd) |
2017-11-17 10:00 |
Saitama | Saitama University | Limit on Quantum State Generation under Dissipation Kohei Kobayashi, Naoki Yamamoto (Keio Univ.) |
To realize quantum information technology, control for generating a target quantum state is highly necessary. However, i... [more] | |
| MW | 2017-11-10 10:40 |
Okinawa | Miyakojima Marin Terminal Bldg. | Topology maps for power dissipation minimization in LC matching circuits Naoki Sakai, Kyohei Yamada, Takashi Ohira (Toyohashi Univ. of Tech.) MW2017-131 |
Power dissipation in LC matching circuits is one problem for wireless high-power transfer system. This paper presents ... [more] |
MW2017-131 pp.105-110 |
| AP, WPT (Joint) |
2017-01-19 09:40 |
Hiroshima | Hiroshima Institute of Technology | Revisiting kQ-product Theory for Wireless Power Transfer
-- Derivation from ratio of dissipation to incident power -- Ikuo Awai (Ryutech) WPT2016-44 |
The maximum condition of power transfer efficiency for a linear reciprocal 4-terminal circuit is obtained directly from ... [more] | WPT2016-44 pp.11-16 |
| ICD, CPSY | 2016-12-15 15:30 |
Tokyo | Tokyo Institute of Technology | [Poster Presentation]
Low-current, high-speed switched-capacitor amplifier with adaptive biasing technique Kazuki Takegawa, Tetsuya Hirose, Toshihiro Ozaki, Hiroki Asano, Nobutaka Kuroki, Masahiro Numa (Kobe Univ.) ICD2016-87 CPSY2016-93 |
This paper proposes a switched-capacitor amplifier with adaptive biasing technique. The proposed amplifier employs adapt... [more] | ICD2016-87 CPSY2016-93 p.107 |
| QIT (2nd) |
2016-11-24 13:00 |
Ibaraki | KEK Kobayashi-hall | [Poster Presentation]
Limit on Quantum State Generation under Dissipation Kohei Kobayashi, Naoki Yamamoto (Keio Univ.) |
To realize quantum information technology, control for generating a target quantum state is highly necessary. However, i... [more] | |
| VLD, DC, IPSJ-SLDM, CPSY, RECONF, ICD, CPM (Joint) [detail] |
2014-11-28 10:05 |
Oita | B-ConPlaza | A Test Point Insertion Method to Reduce Capture Power Dissipation Yoshiyasu Takahashi, Hiroshi Yamazaki, Toshinori Hosokawa (Nihon Univ.), Masayoshi Yoshimura (Kyoto Sangyo Univ.) VLD2014-99 DC2014-53 |
In at-speed scan testing of deep sub-micron era, high power dissipation can occur by high launch-induced switching activ... [more] | VLD2014-99 DC2014-53 pp.185-190 |
| ICD, SDM | 2014-08-05 10:25 |
Hokkaido | Hokkaido Univ., Multimedia Education Bldg. | Development of a Low Standby Power, Six-Transistor CMOS SRAM Employing a Single Power Supply Ryusuke Ito (Chuo Univ.), Nobuaki Kobayashi (NUT), Tadayoshi Enomoto (Chuo Univ.) SDM2014-73 ICD2014-42 |
We developed and applied a new circuit, called the “Self-controllable Voltage Level (SVL)” circuit, not only to expand b... [more] | SDM2014-73 ICD2014-42 pp.59-64 |
| DC | 2014-02-10 16:00 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | A Low Power Consumption Oriented Test Generation Method for Transition Faults Using Multi Cycle Capture Test Generation Hiroshi Yamazaki, Yuto Kawatsure, Jun Nishimaki, Atsushi Hirai, Toshinori Hosokawa (Nihon Univ), Masayoshi Yoshimura (Kyushu Univ), Koji Yamazaki (Meiji Univ) DC2013-89 |
High power dissipation can occur when the response to a test pattern is captured by flip-flops in at-speed scan testing,... [more] | DC2013-89 pp.61-66 |
| VLD, DC, IPSJ-SLDM, CPSY, RECONF, ICD, CPM (Joint) [detail] |
2013-11-27 11:10 |
Kagoshima | A Quantizer Adaptively Predicting both Optimum Clock Frequency and Optimum Supply Voltage for Dynamic Voltage and Frequency Scaling Controlled Multimedia Processor Nobuaki Kobayashi, Tadayoshi Enomoto (Chuo Univ.) CPM2013-113 ICD2013-90 |
To make full use of the advantages of dynamic voltage and frequency scaling (DVFS) technique, a quantization decoder (Q... [more] | CPM2013-113 ICD2013-90 pp.31-36 |
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