Hyogo A | Tokyo Univ. Sci. Noda‐shi Jpn
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概要
関連著者
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Hyogo A
Tokyo Univ. Sci. Noda‐shi Jpn
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Hyogo Akira
Department Of Electrical Engineering Faculty Of Science And Technology Science University Of Tokyo
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Hyogo Akira
The Faculty Of Science And Technology Science University Of Tokyo
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Sekine K
Tokyo Univ. Sci. Noda‐shi Jpn
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Sekine Keitaro
Department Of Electrical Engineering Faculty Of Science And Technology Science University Of Tokyo
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Sekine Keitaro
The Faculty Of Science And Technology Science University Of Tokyo
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Ibaragi Eitake
The Department Of Electrical Engineering Science University Of Tokyo
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HWANG Changku
MIPS Processor Division, PMC-Sierra Inc.
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Ismail M
Ohio State Univ. Usa
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Hwang C
Micrys Inc.:(present Address) Research & Development Division Hitachi America Ltd.
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HWANG Changku
Micrys, Inc.
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ISMAIL Mohammed
Department of Electrical Engineering, Ohio State University
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Ismail Mohammed
Department Of Electrical Engineering The Ohio State University
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HYOGO Akira
Faculty of Science and Technology, Tokyo University of Science
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SEKINE Keitaro
Faculty of Science and Technology, Tokyo University of Science
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Hyogo Akira
Faculty Of Science And Technology Science University Of Tokyo
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Hyogo Akira
Science University Of Tokyo
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Kuroda Yasushi
Electron Device Engineering Department Electron Device Division Toshiba Corporation
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Sekine Keitaro
Science University Of Tokyo
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Sekine Keitaro
Faculty Of Science And Technology Okyo University Of Science
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Kim H‐s
Soongsil Univ. Seoul Kor
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Kim Hong-sun
Solid-state Microelectronics Laboratory Department Of Electrical Engineering The Ohio State Universi
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HYOGO Akira
the Department of Electrical Engineering, Science University of Tokyo
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SEKINE Keitaro
the Department of Electrical Engineering, Science University of Tokyo
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IBARAGI Eitake
Department of Electrical Engineering, Science University of Tokyo
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IBARAGI Eitake
Science University of Tokyo
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KIM Hong-sun
Solid-State Microelectronics Laboratory, Department of Electrical Engineering, The Ohio State Univer
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ISMAIL Mohammed
Solid-State Microelectronics Laboratory, Department of Electrical Engineering, The Ohio State Univer
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KIM Hong-sun
Department of Electrical Engineering, Ohio State University
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ELWAN Hassan
Department of Electrical Engineering, The Ohio State University
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HWANG Changku
Communication Systems Department, Central Research Lab., Hitachi LTD.
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Elwan Hassan
Department Of Electrical Engineering The Ohio State University
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KURODA Yukihiro
the Faculty of Science and Technology, Science University of Tokyo
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KURODA Yukihiro
Faculty of Science and Technology, Science University of Tokyo
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IBARAGI Eitake
the Faculty of Science and Technology, Science University of Tokyo
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IBARAGI Eitake
Faculty of Science and Technology, Science University of Tokyo
著作論文
- Low Voltage High-Speed CMOS Square-Law Composite Transistor Cell (Special Section on Analog Circuit Techniques and Related Topics)
- LV CMOS Analog VLSI Composite Cell Design and its Application to High Speed Multiplier
- Low Voltage Low Power Class AB OTA and V-I Converter
- LV/LP CMOS Square-Law Composite Transistors for Analog VLSI Applications
- A Single-Ended-Input Fully-Balanced-Output CMOS Circuit
- A Current-to-Frequency Converter for Switched-Current Circuits (Srecial Section on Analong Circuit Tectningues in the Digital-oriented Era)
- A Current-to-Frequency Converter Using Switched-Current Circuits
- A Phase Compensation Technique without Capacitors for the CMOS Circuit with a Very Low Impedance Terminal(Special Section on Analog Circuit Techniques and Related Topics)
- A Very High Output Impedance Tail Current Source for Low Voltage Applications(Special Section on Analog Circuit Techniques and Related Topics)
- A Novel CMOS Analog Square Circuit Free from Mobility Reduction and Body Effect
- A CMOS Analog Multiplier Free from Mobility Reduction and Body Effect (Special Section on Analog Circuit Techniques and Related Topics)
- A Design Technique of the CMOS Circuit with a Very Low Impedance Terminal for Stability
- A Low Power Dissipation Technique for a Low Voltage OTA (Srecial Section on Analong Circuit Tectningues in the Digital-oriented Era)
- Low Power Dissipation Technique for OTA
- A Method to Improve CMRR for CMOS Operational Amplifier by Using Feedforward Technique (Special Section on Analog Circuit Techniques for System-on-Chip Integration)