Analysis and design of a 5 GS/s analog charge-domain FFT for an SDR front-end in 65 nm CMOS

Bodhisatwa Sadhu; Martin Sturm; Brian M. Sadler; Ramesh Harjani

doi:10.1109/JSSC.2013.2250457

Analysis and design of a 5 GS/s analog charge-domain FFT for an SDR front-end in 65 nm CMOS

Bodhisatwa Sadhu, Martin Sturm, Brian M. Sadler, Ramesh Harjani

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

40 Scopus citations

Abstract

This work describes the design of a 16 point analog domain FFT using a Charge Re-use Analog Fourier Transform (CRAFT) engine. The circuit relies on charge re-use to achieve 47 dB average output SNDR on an instantaneous input bandwidth of 5 GHz, and consumes only 3.8 mW (12.2 pJ/conv.). The CRAFT engine is used as a wide-band, low power RF front-end channelizer for software defined radio (SDR) applications. The paper also discusses the handling of circuit non-idealities for the CRAFT design: their significance, modeling, and circuit techniques for their mitigation. These techniques enable this implementation to achieve a large dynamic range even at high speeds.

Original language	English (US)
Pages (from-to)	1199-1211
Number of pages	13
Journal	IEEE Journal of Solid-State Circuits
Volume	48
Issue number	5
DOIs	https://doi.org/10.1109/JSSC.2013.2250457
State	Published - May 2013

Keywords

Analog integrated circuits
Analytical models
Channel bank filters
Cognitive radio
Demodulation
Discrete Fourier transforms
Discrete cosine transforms
FET integrated circuits
FIR filters
Fast Fourier transforms
Filtering
Integrated circuit modeling
Integrated circuit noise
Linear circuits
MOS integrated circuits
Mixed analog digital integrated circuits
Modulation
Multiple signal classification
Multiplying circuits
OFDM
Passive circuits
Passive filters
Phase shifters
RF signals
Radio spectrum management
Radio-frequency integrated circuits
Sampled data circuits
Signal analysis
Signal detection
Signal sampling
Signal to noise ratio
Software defined radio
Software radio
Spectral analysis
Summing circuits
Switched capacitor
Switched circuits
Transforms
Very high speed integrated circuits

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title = "Analysis and design of a 5 GS/s analog charge-domain FFT for an SDR front-end in 65 nm CMOS",

abstract = "This work describes the design of a 16 point analog domain FFT using a Charge Re-use Analog Fourier Transform (CRAFT) engine. The circuit relies on charge re-use to achieve 47 dB average output SNDR on an instantaneous input bandwidth of 5 GHz, and consumes only 3.8 mW (12.2 pJ/conv.). The CRAFT engine is used as a wide-band, low power RF front-end channelizer for software defined radio (SDR) applications. The paper also discusses the handling of circuit non-idealities for the CRAFT design: their significance, modeling, and circuit techniques for their mitigation. These techniques enable this implementation to achieve a large dynamic range even at high speeds.",

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AB - This work describes the design of a 16 point analog domain FFT using a Charge Re-use Analog Fourier Transform (CRAFT) engine. The circuit relies on charge re-use to achieve 47 dB average output SNDR on an instantaneous input bandwidth of 5 GHz, and consumes only 3.8 mW (12.2 pJ/conv.). The CRAFT engine is used as a wide-band, low power RF front-end channelizer for software defined radio (SDR) applications. The paper also discusses the handling of circuit non-idealities for the CRAFT design: their significance, modeling, and circuit techniques for their mitigation. These techniques enable this implementation to achieve a large dynamic range even at high speeds.

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KW - Cognitive radio

KW - Demodulation

KW - Discrete Fourier transforms

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KW - FET integrated circuits

KW - FIR filters

KW - Fast Fourier transforms

KW - Filtering

KW - Integrated circuit modeling

KW - Integrated circuit noise

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KW - MOS integrated circuits

KW - Mixed analog digital integrated circuits

KW - Modulation

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KW - Passive filters

KW - Phase shifters

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KW - Radio-frequency integrated circuits

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KW - Transforms

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Analysis and design of a 5 GS/s analog charge-domain FFT for an SDR front-end in 65 nm CMOS

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