年単位の研究成果
Fingerprint Tadashi Maedaが取り組む研究トピックをご確認ください。これらのトピックラベルは、この人物の研究に基づいています。これらを共に使用することで、固有の認識が可能になります。
Field effect transistors
Engineering & Materials Science
Electric power utilization
Engineering & Materials Science
Electric potential
Engineering & Materials Science
Heterojunctions
Engineering & Materials Science
Networks (circuits)
Engineering & Materials Science
Flip flop circuits
Engineering & Materials Science
Dry etching
Engineering & Materials Science
Capacitance
Engineering & Materials Science
ネットワーク
最近の共同研究。丸をクリックして詳細を確認しましょう。
研究成果 1983 2019
Simple, Analytical Expressions of an Effect of Local Signal Imperfections on Four-Phase Passive-Mixer-Based Bandpass Filter
Kishida, K. & Maeda, T., 2019 1 1, : : IEEE Transactions on Circuits and Systems I: Regular Papers. 66, 1, p. 147-160 14 p., 8440114.研究成果: Article
Mixer circuits
Bandpass filters
Capacitance
Defects
Low noise amplifiers
7
引用
(Scopus)
A face-to-face chip stacking 7kV RMS digital isolator for automotive and industrial motor drive applications
Uchida, S., Kaeriyama, S., Nagase, H., Takeda, K., Nakashiba, Y., Maeda, T. & Ishihara, K., 2014, Proceedings of the International Symposium on Power Semiconductor Devices and ICs. Institute of Electrical and Electronics Engineers Inc., p. 442-445 4 p. 6856071研究成果: Conference contribution
Electric breakdown
Insulation
Electric potential
Magnetic couplings
Extrapolation
13
引用
(Scopus)
Low-power widely tunable Gm-C filter employing an adaptive DC-blocking, triode-biased MOSFET transconductor
Hori, S., Matsuno, N., Maeda, T. & Hida, H., 2014 1, : : IEEE Transactions on Circuits and Systems I: Regular Papers. 61, 1, p. 37-47 11 p., 6547713.研究成果: Article
Triodes
Transconductance
Electric power utilization
Tuning
Bias currents
34
引用
(Scopus)
A 2.5 kV isolation 35 kV/us CMR 250 Mbps digital isolator in standard CMOS with a small transformer driving technique
Kaeriyama, S., Uchida, S., Furumiya, M., Okada, M., Maeda, T. & Mizuno, M., 2012 2, : : IEEE Journal of Solid-State Circuits. 47, 2, p. 435-443 9 p., 6075274.研究成果: Article
Power control
Control systems
Microcontrollers
Transistors
Display devices
67
引用
(Scopus)
A 280nW, 100kHz, 1-cycle start-up time, on-chip CMOS relaxation oscillator employing a feedforward period control scheme
Tokairin, T., Nose, K., Takeda, K., Noguchi, K., Maeda, T., Kawai, K. & Mizuno, M., 2012, IEEE Symposium on VLSI Circuits, Digest of Technical Papers. p. 16-17 2 p. 6243767研究成果: Conference contribution
Relaxation oscillators
Feedforward control
Clocks
Electric power utilization