First demonstration of correlation in a niobium superconductive programmable binary-analog matched filter

A complete prototype superconductive programmable binary-analog matched filter for a 2-Gchip/s spread-spectrum modem has been operated for the first time and has performed correlation. We had previously demonstrated functionality of each individual element of the filter. The analog samplers had capt...

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Published in	IEEE transactions on applied superconductivity Vol. 9; no. 2; pp. 4367 - 4372
Main Authors	Sage, J.P., Feld, D.A.
Format	Journal Article Conference Proceeding
Language	English
Published	New York, NY IEEE 01.06.1999 Institute of Electrical and Electronics Engineers
Subjects	Analog circuits Applied sciences Bandwidth Circuit properties Correlation Electric, optical and optoelectronic circuits Electronic circuits Electronics Exact sciences and technology Frequency filters Matched filters Modems Niobium Prototypes Quantum mechanics Sampling Shift registers Sidelobes Spread spectrum communication Stores Superconducting filters Superconductivity Superconductors Shift register Matched filter Prototype Superconductor circuit Integrated circuit High speed Programmable circuit Spread spectrum Modem Binary-analog filter Niobium
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Abstract	A complete prototype superconductive programmable binary-analog matched filter for a 2-Gchip/s spread-spectrum modem has been operated for the first time and has performed correlation. We had previously demonstrated functionality of each individual element of the filter. The analog samplers had captured signals with bandwidths in the order of 10 GHz; the binary weighted taps, which utilize the unique quantum mechanical properties of superconductive circuits, had exhibited nondestructive readout as required; and the two digital shift registers, one that stores the binary code pattern and one that controls sampling of the input analog signal in the bank of track-hold cells, had functioned at 2 GHz. Now all of these elements have been operated together in low-frequency tests. A 7-bit (or "chip" in spread-spectrum terminology) pseudo-noise (pn) code sequence was loaded into the reference shift register in each of the seven possible positions while an analog version of the pn code with its amplitude varied over the full bipolar dynamic range of the filter was used as the incoming signal. The filter response peaked as expected when the analog signal and the binary reference were aligned. The peak and sidelobe responses agreed quantitatively with those predicted from calibration measurements made with uniform signals instead of pn codes.
AbstractList	A complete prototype superconductive programmable binary-analog matched filter for a 2-Gchip/s spread-spectrum modem has been operated for the first time and has performed correlation. We had previously demonstrated functionality of each individual element of the filter. The analog samplers had captured signals with bandwidths in the order of 10 GHz; the binary weighted taps, which utilize the unique quantum mechanical properties of superconductive circuits, had exhibited nondestructive readout as required; and the two digital shift registers, one that stores the binary code pattern and one that controls sampling of the input analog signal in the bank of track-hold cells, had functioned at 2 GHz. Now all of these elements have been operated together in low-frequency tests. A 7-bit (or "chip" in spread-spectrum terminology) pseudo-noise (pn) code sequence was loaded into the reference shift register in each of the seven possible positions while an analog version of the pn code with its amplitude varied over the full bipolar dynamic range of the filter was used as the incoming signal. The filter response peaked as expected when the analog signal and the binary reference were aligned. The peak and sidelobe responses agreed quantitatively with those predicted from calibration measurements made with uniform signals instead of pn codes. A complete prototype superconductive programmable binary-analog matched filter for a 2-Gchip/s spread-spectrum modem has been operated for the first time and has performed correlation. We had previously demonstrated functionality of each individual element of the filter. The analog samplers had captured signals with bandwidths in the order of 10 GHz; the binary weighted taps, which utilize the unique quantum mechanical properties of superconductive circuits, had exhibited nondestructive readout as required; and the two digital shift registers, one that stores the binary code pattern and one that controls sampling of the input analog signal in the bank of track-hold cells, had functioned at 2 GHz. Now all of these elements have been operated together in low-frequency tests. A 7-bit (or "chip" in spread-spectrum terminology) pseudo-noise (pn) code sequence was loaded into the reference shift register in each of the seven possible positions while an analog version of the pn code with its amplitude varied over the full bipolar dynamic range of the filter was used as the incoming signal. The filter response peaked as expected when the analog signal and the binary reference were aligned. The peak and sidelobe responses agreed quantitatively with those predicted from calibration measurements made with uniform signals instead of pn codes
Author	Sage, J.P. Feld, D.A.
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SubjectTerms	Analog circuits Applied sciences Bandwidth Circuit properties Correlation Electric, optical and optoelectronic circuits Electronic circuits Electronics Exact sciences and technology Frequency filters Matched filters Modems Niobium Prototypes Quantum mechanics Sampling Shift registers Sidelobes Spread spectrum communication Stores Superconducting filters Superconductivity Superconductors
Title	First demonstration of correlation in a niobium superconductive programmable binary-analog matched filter
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