A Low-Voltage 4.6 GHz Injection Locked Frequency Divider in Standard 1.8 V 0.18 μm Complementary-Metal–Oxide–Silicon Technology
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概要
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A fully integrated 1.5 V, 4.6 GHz injection-locked frequency divider is designed and implemented for low-voltage 5 GHz wireless local area network front-end circuit applications. An LC tank load is used in the oscillator design to decrease power consumption. The measurement results show a resonant frequency range from 4.4 to 4.6 GHz for the control voltage $V_{\text{c}}$ varying from 0 to 1.5 V. The chip has an additional capacitor to provide steady power and to decrease the power noise injected into the output resonant signal. This injection locked frequency divider is implemented using the TSMC 0.18 μm single-poly-six-metal 1.8 V silicide process. The entire chip area is $2.1\times 1.2$ mm2.
- 2005-01-15
著者
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Tsai Chun-an
Department Of Electrical Engineering National Taiwan Ocean University
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Yeh Mei-ling
Department Of Electrical Engineering National Taiwan Ocean University
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Liou Wan-rone
Department Of Electrical Engineering The National Taiwan Ocean University
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Liou Wan-Rone
Department of Electrical Engineering, National Taiwan Ocean University, 2 Pei-Ning Road, Keelung 202, Taiwan, Republic of China
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Chen Chung-Hsing
Department of Electronic Engineering, St. John's & St. Mary's Institute of Technology, Taiwan 251, Republic of China
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Tsai Chun-An
Department of Electrical Engineering, National Taiwan Ocean University, 2 Pei-Ning Road, Keelung 202, Taiwan, Republic of China
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Yeh Mei-Ling
Department of Electronic Engineering, St. John's & St. Mary's Institute of Technology, Taiwan 251, Republic of China
関連論文
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- A Low-Voltage 4.6 GHz Injection Locked Frequency Divider in Standard 1.8 V 0.18 μm Complementary-Metal–Oxide–Silicon Technology
- A Low-Voltage Complementary-Metal–Oxide–Silicon 4.4-GHz Voltage Control Oscillator Design
- A Novel Current Control Pad for Electromagnetic Interference Solution
- Second Harmonic Generation in Barium Titanate Thin Films on Silica Glass by Corona Poling
- The Study of Temperature Dependence of Second Harmonic Generation in Lead Lanthanum Titanate Thin Film by Corona Poling