A Low-Complexity Self-Calibrating Adaptive Quadrature Receiver

A Low-Complexity Self-Calibrating Adaptive Quadrature Receiver

In this paper digital part of a self-calibrating quadrature-receiver is described, containing a digital calibration-engine. The blind source-separation-based calibration-engine eliminates the RF-impairments in real-time hence improving the receiver's performance without the need for test/pilot...

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Bibliographische Detailangaben
Hauptverfasser: Cetin, E., Demirsoy, S.S., Kale, I., Morling, R.C.S.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Constellation diagram
Degradation
Digital signal processing
Energy consumption
Field programmable gate arrays
Hardware
Radio frequency
Signal processing
Transceivers
Very large scale integration
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Zusammenfassung:In this paper digital part of a self-calibrating quadrature-receiver is described, containing a digital calibration-engine. The blind source-separation-based calibration-engine eliminates the RF-impairments in real-time hence improving the receiver's performance without the need for test/pilot tones, trimming or use of power-hungry discrete components. Furthermore, an efficient time-multiplexed calibration-engine architecture is proposed and implemented on an FPGA utilising a reduced-range multiplier structure. The use of reduced-range multipliers results in substantial reduction of area as well as power consumption without a compromise in performance when compared with an efficiently designed general purpose multiplier. The performance of the calibration-engine does not depend on the modulation format or the constellation size of the received signal; hence it can be easily integrated into the digital signal processing paths of any receiver
DOI:10.1109/AHS.2006.7