论文信息 - Multi-beam 4 GHz microwave apertures using current-mode DFT approximation on 65 nm CMOS

Multi-beam 4 GHz microwave apertures using current-mode DFT approximation on 65 nm CMOS

A current-mode CMOS design is proposed for realizing receive mode multi-beams in the analog domain using a novel DFT approximation. High-bandwidth CMOS RF transistors are employed in low-voltage current mirrors to achieve bandwidths exceeding 4 GHz with good beam fidelity. Current mirrors realize the coefficients of the considered DFT approximation, which take simple values in {0,±1,±2} only. This allows high bandwidths realizations using simple circuitry without needing phase-shifters or delays. The proposed design is used as a method to efficiently achieve spatial discrete Fourier transform operation across a ULA to obtain multiple simultaneous RF beams. An example using 1.2 V current-mode approximate DFT on 65 nm CMOS, with BSIM4 models from the RF kit, show potential operation up to 4 GHz with eight independent aperture beams.

[1] Jeffrey O. Coleman,et al. A Generalized FFT for Many Simultaneous Receive Beams , 2007 .

[2] Behzad Razavi,et al. Design of Analog CMOS Integrated Circuits , 1999 .

[3] Arjuna Madanayake,et al. Multi-Beam RF Aperture Using Multiplierless FFT Approximation , 2015, ArXiv.

[4] Ramesh Harjani,et al. Multi-Beam Spatio-Spectral Beamforming Receiver for Wideband Phased Arrays , 2013, IEEE Transactions on Circuits and Systems I: Regular Papers.

[5] Richard E. Blahut,et al. Fast Algorithms for Signal Processing: Acknowledgments , 2010 .

[6] Steven W. Ellingson,et al. Efficient multibeam synthesis with interference nulling for large arrays , 2003 .

[7] Eric A. M. Klumperink,et al. Beamforming techniques and RF transceiver design , 2012, 2012 IEEE International Solid-State Circuits Conference.

[8] Ramesh Harjani,et al. An 8GHz multi-beam spatio-spectral beamforming receiver using an all-passive discrete time analog baseband in 65nm CMOS , 2012, Proceedings of the IEEE 2012 Custom Integrated Circuits Conference.

[9] Franklin T. Luk,et al. Fast Algorithms for Signal Processing , 1990 .