Single Flux Quantum Multistage Decimation Filters

Haruhiro HASEGAWA; Tatsunori HASHIMOTO; Shuichi NAGASAWA; Satoru HIRANO; Kazunori MIYAHARA; Youichi ENOMOTO

IEICE TRANSACTIONS on Electronics

Single Flux Quantum Multistage Decimation Filters

Haruhiro HASEGAWA, Tatsunori HASHIMOTO, Shuichi NAGASAWA, Satoru HIRANO, Kazunori MIYAHARA, Youichi ENOMOTO

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We investigated single flux quantum sinc filters with multistage decimation structure in order to realize high-speed sinc filter operation. Second- and third-order (k=2, 3) sinc filters with a decimation factor N=2 were designed and confirmed their proper operations. These sinc filters with N=2 are utilized as elementary circuit blocks of our multistage decimation sinc filters with N=2^M, where M indicates the number of the stage of the decimation. As an example of the multistage decimation filter, we designed a k=2, N=4 sinc filter which was formed from a two-stage decimation structure using k=2, N=2 sinc filters, and confirmed its proper operation. The k=2, N=4 sinc filter consisted of 1372 Josephson junctions with the power consumption of 191 µW.

Publication: IEICE TRANSACTIONS on Electronics Vol.E86-C No.1 pp.2-8

Publication Date: 2003/01/01

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Type of Manuscript: Special Section INVITED PAPER (Special Issue on Superconductor Digital/Analog Circuit Technologies)

Category: LTS Digital Applications

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Haruhiro HASEGAWA, Tatsunori HASHIMOTO, Shuichi NAGASAWA, Satoru HIRANO, Kazunori MIYAHARA, Youichi ENOMOTO, "Single Flux Quantum Multistage Decimation Filters" in IEICE TRANSACTIONS on Electronics, vol. E86-C, no. 1, pp. 2-8, January 2003, doi: .
Abstract: We investigated single flux quantum sinc filters with multistage decimation structure in order to realize high-speed sinc filter operation. Second- and third-order (k=2, 3) sinc filters with a decimation factor N=2 were designed and confirmed their proper operations. These sinc filters with N=2 are utilized as elementary circuit blocks of our multistage decimation sinc filters with N=2^M, where M indicates the number of the stage of the decimation. As an example of the multistage decimation filter, we designed a k=2, N=4 sinc filter which was formed from a two-stage decimation structure using k=2, N=2 sinc filters, and confirmed its proper operation. The k=2, N=4 sinc filter consisted of 1372 Josephson junctions with the power consumption of 191 µW.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e86-c_1_2/_p

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@ARTICLE{e86-c_1_2,
author={Haruhiro HASEGAWA, Tatsunori HASHIMOTO, Shuichi NAGASAWA, Satoru HIRANO, Kazunori MIYAHARA, Youichi ENOMOTO, },
journal={IEICE TRANSACTIONS on Electronics},
title={Single Flux Quantum Multistage Decimation Filters},
year={2003},
volume={E86-C},
number={1},
pages={2-8},
abstract={We investigated single flux quantum sinc filters with multistage decimation structure in order to realize high-speed sinc filter operation. Second- and third-order (k=2, 3) sinc filters with a decimation factor N=2 were designed and confirmed their proper operations. These sinc filters with N=2 are utilized as elementary circuit blocks of our multistage decimation sinc filters with N=2^M, where M indicates the number of the stage of the decimation. As an example of the multistage decimation filter, we designed a k=2, N=4 sinc filter which was formed from a two-stage decimation structure using k=2, N=2 sinc filters, and confirmed its proper operation. The k=2, N=4 sinc filter consisted of 1372 Josephson junctions with the power consumption of 191 µW.},
keywords={},
doi={},
ISSN={},
month={January},}

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TY - JOUR
TI - Single Flux Quantum Multistage Decimation Filters
T2 - IEICE TRANSACTIONS on Electronics
SP - 2
EP - 8
AU - Haruhiro HASEGAWA
AU - Tatsunori HASHIMOTO
AU - Shuichi NAGASAWA
AU - Satoru HIRANO
AU - Kazunori MIYAHARA
AU - Youichi ENOMOTO
PY - 2003
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E86-C
IS - 1
JA - IEICE TRANSACTIONS on Electronics
Y1 - January 2003
AB - We investigated single flux quantum sinc filters with multistage decimation structure in order to realize high-speed sinc filter operation. Second- and third-order (k=2, 3) sinc filters with a decimation factor N=2 were designed and confirmed their proper operations. These sinc filters with N=2 are utilized as elementary circuit blocks of our multistage decimation sinc filters with N=2^M, where M indicates the number of the stage of the decimation. As an example of the multistage decimation filter, we designed a k=2, N=4 sinc filter which was formed from a two-stage decimation structure using k=2, N=2 sinc filters, and confirmed its proper operation. The k=2, N=4 sinc filter consisted of 1372 Josephson junctions with the power consumption of 191 µW.
ER -

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