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On Chip Nonlinear Digital Compensation for RF Receiver Karen M. G. V. Gettings, Andrew K. Bolstad, Show-Yah Stuart Chen, Benjamin A. Miller and Michael.

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Presentation on theme: "On Chip Nonlinear Digital Compensation for RF Receiver Karen M. G. V. Gettings, Andrew K. Bolstad, Show-Yah Stuart Chen, Benjamin A. Miller and Michael."— Presentation transcript:

1 On Chip Nonlinear Digital Compensation for RF Receiver Karen M. G. V. Gettings, Andrew K. Bolstad, Show-Yah Stuart Chen, Benjamin A. Miller and Michael Vai HPEC 2011 This work is sponsored by the Department of the Air Force under Air Force contract FA8721-05-C-0002. Opinions, interpretations, conclusions and recommendations are those of the author and are not necessarily endorsed by the United States Government.

2 System On Chip Equalization We designed a nonlinear digital compensation circuitry that is part of a System On Chip (SOC) design SOC implementations are an attractive solution for SWaP restricted applications, partly because of targeted design needs co-designingWe exploit the benefits of SOC implementations by co-designing the analog hardware and digital processing ADC IP core Frequency Synthesizer I Q Nonlinear Digital Equalizer System-on-chip Homodyne receiver with anti-alias filter Previous Work: NLEQ Processor +20~25 dB SFDR/IFDR @500MHz BW >1 Teraops < 2 Watts In-Band Intermodulation Distortions Before Equalization Power (dB) Frequency (bin) After Equalization Frequency (bin) Power (dB) Dynamic range improvement Song et al., “Nonlinear Equalization Processor IC for Wideband Receivers and Sensors,” HPEC 2009

3 Established a low-power standard-cell synthesis design flow –IBM 65 nm CMOS process Created an overall compensation architecture customized for our current front end system –Design is optimized to minimize power consumption Nonlinear Digital Equalizer Design  Final Accumulator shifter PE1 PE2 PE3 PE4 PE5 Analog Input shifter Delay Offset Binary to Two’s Complement Conversion x(n) x 2 (n) x 3 (n) x 4 (n)

4 Projected Design Performance The digital compensation architecture has been synthesized, placed, routed and taped-out –Core size: 200  m by 200  m –Simulation results show: Approximately 10 mW of power at 200 MHz Compensation of front end filter: 15 dB improvement for median dynamic range 15 dB 200  m

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