A 65nm low-power CMOS transceiver for 802.11n portable application

A low-power transceiver for 802.11n in 65 nm CMOS technology is presented. It supports 2times2 MIMO to satisfy the requirement of the draft 802.11n standard. In receiver chain it shows 5.3 dB low noise figure. In transmit chain an on-chip PA driver delivers 9 dBm output P 1dB . -20 to 100degC operat...

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Bibliographic Details
Main Authors: Yung-Ming Chiu, Tsung-Ming Chen, Po-Yu Chen, Kuan, R., Yi-Chang Shih, Yi-Jay Lin, Chin-Lung Li, Yuh-Sheng Jean, Kai-Yi Huang, Shih-Min Lin, Chih-Kai Chien, Po-Ching Lin, Wen-Shan Wang, Hong-Ta Hsu, Ming-Chung Huang, Chao-Hua Lu, Han-Jung Shih, Ka-Un Chan, Ying-His Lin
Format: Conference Proceeding
Language:English
Subjects:
Application specific integrated circuits
CMOS technology
Frequency synthesizers
Integrated circuit synthesis
MIMO
Noise figure
portable application
Radio frequency
Radiofrequency integrated circuits
Temperature
transceiver
Transceivers
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Summary:A low-power transceiver for 802.11n in 65 nm CMOS technology is presented. It supports 2times2 MIMO to satisfy the requirement of the draft 802.11n standard. In receiver chain it shows 5.3 dB low noise figure. In transmit chain an on-chip PA driver delivers 9 dBm output P 1dB . -20 to 100degC operation temperature is achieved. A SigmaDelta fractional-N synthesizer is used to support variable reference frequency when using the RF IC in different application. It consumes 35.5 mA for receiver chain and 77 mA for transmitter chain. All circuits in the presence are protected by LDO (low drop-output regulator) which isolate noise from each block and make easy-design in the future integration with digital circuits. The low power consumption, compactness and robustness make this transceiver suitable to integrate with digital base band circuits for variable portable application system.
ISSN:1529-2517
2375-0995
DOI:10.1109/RFIC.2008.4561394