A 5GHz, 108Mb/s 2×2 MIMO CMOS Transceiver

MIMO wireless transceivers employ multiple antennas and advanced digital signal processing to achieve higher data rates and superior link reliability compared to their single-antenna counterparts. This paper presents a 2times2 MlMO 5 GHz WLAN transceiver implemented in 90 nm CMOS. Crosstalk between...

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Bibliographic Details
Main Authors: Palaskas, Y., Ravi, A., Pellerano, S., Carlton, B.R., Elmala, M.A., Bishop, R., Banerjee, G., Nicholls, R.B., Ling, S., Seddighrad, P., Suh, S.-Y., Taylor, S.S., Soumyanath, K.
Format: Conference Proceeding
Language:English
Subjects:
Circuits
Crosstalk
Digital signal processing
Frequency
MIMO
Polarization
Receiving antennas
Transceivers
Transmitters
Transmitting antennas
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Summary:MIMO wireless transceivers employ multiple antennas and advanced digital signal processing to achieve higher data rates and superior link reliability compared to their single-antenna counterparts. This paper presents a 2times2 MlMO 5 GHz WLAN transceiver implemented in 90 nm CMOS. Crosstalk between the different MIMO channels is shown to have a detrimental effect on MIMO performance. Such crosstalk can occur at the radio channel, between the antennas, and at the radio IC. Several architectural and circuit techniques are described that minimize crosstalk between the multiple radio chains co-existing on the same silicon die. Measurements results demonstrate the increased data rate of the fabricated system compared with a conventional single-antenna system
ISSN:2164-2958
2164-2974
DOI:10.1109/RWS.2007.351812