Low-Power and Low-Voltage Analog Circuit Technique towards the 1 V Operation of Baseband and RF LSIs(Special Issue on High-Performance Analog Integrated Circuits)
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概要
- 論文の詳細を見る
This paper describes low-power and low-voltage analog circuit techniques applicable to deep sub-micron LSIs in baseband and RF signal processing. The trends indicate that reductions in the supply voltage are inevitable, that power dissipation will not become sufficiently low, and that performance will improve continuously. Some circuit techniques currently being used to achieve these goals are reviewed. Next, three trial approaches are introduced. The first of these is a 1 V operational video-speed CMOS sample-and-hold IC. The second is a 1 V operational high-frequency CMOS VCO circuit. Finally, a step-down DC-DC converter IC with a 1 V output and a greater than 80% power efficiency is introduced. These approaches prove that the low-power and low-voltage operation of analog circuits can be realized without sacrificing performance.
- 社団法人電子情報通信学会の論文
- 2002-08-01
著者
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Sugimoto Yasuhiro
Chuo University
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Sugimoto Yasuhiro
Chuo Univ. Tokyo Jpn
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Sugimoto Y
Chuo Univ. Tokyo Jpn
関連論文
- Special Section on Analog Circuit Techniques for System-on-Chip Integration
- FOREWORD (Special Section on Analog Technologies in Submicron Era)
- A Study to Realize a CMOS Pipelined Current-Mode A-to-D Converter for Video Applications(Analog Circuit and Device Technologies)
- Study of a Low Voltage, Low Power and High Frequency CMOS VCO Circuit (Special Section of Letters Selected from the 1995 Society Conference of IEICE)
- Low-Power and Low-Voltage Analog Circuit Technique towards the 1 V Operation of Baseband and RF LSIs(Special Issue on High-Performance Analog Integrated Circuits)
- Design of a Sub-1.5 V, 20 MHz, 0.1% MOS Current-Mode Sample-and-Hold Circuit (Srecial Section on Analong Circuit Tectningues in the Digital-oriented Era)
- Design of a Low-Voltage, Low-Power, High-Frequency CMOS Current-Mode VCO Circuit by Using 0.6μm MOS Devices (Special Section on Analog Circuit Techniques for System-on-Chip Integration)
- FOREWORD (Special Section of Letters Selected from the 1995 Society Conference of IEICE)
- A 500-MHz and 60-dBΩ CMOS Transimpedance Amplifier Using the New Feedforward Stabilization Technique(Optical, Analog Circuit and Device Technologies)
- A Study to Realize a 1-V Operational Passive Σ-Δ Modulator by Using a 90nm CMOS Process(Analog Circuits and Related SoC Integration Technologies)