A 45-ns 256K CMOS Static RAM with a Tri-Level Word Line

Hirofum Shinohara; Kenji Anami; Katsuki Ichinose; Tomohisa Wada; Yoshio Kohno; Yuji Kawai; Yoichi Akasaka; Shinpei Kayano

doi:10.1109/JSSC.1985.1052417

A 45-ns 256K CMOS Static RAM with a Tri-Level Word Line

Hirofum Shinohara, Kenji Anami, Katsuki Ichinose, Tomohisa Wada, Yoshio Kohno, Yuji Kawai, Yoichi Akasaka, Shinpei Kayano

研究成果: Article › 査読

2 被引用数 (Scopus)

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This paper describes a 32K words by 8-bit static RAM fabricated with a CMOS technology. The key feature of the RAM is a tri-level word line, in which an automatic power down by a pulsed word line in the read cycle and a power saving by a middle-level word line in the WRITE cycle are combined. This circuit technique minimizes bit-line swing, shortens the precharging time, and depresses the transient current. An improved address transition detection circuit reduces the chip select access time. The sense amplifier uses internally synchronized signals for improved operation. The RAM has a typical access time of 45 ns with an active power dissipation of 7 mW. The peak transient current is less than 40 mA. A double-level polysilicon technology with a 13- μm design rule enabled layout of the NMOS memory cell in an area of 116.0 μm2 and the die in 49.6 mm2.

本文言語	English
ページ（範囲）	929-934
ページ数	6
ジャーナル	IEEE Journal of Solid-State Circuits
巻	20
号	5
DOI	https://doi.org/10.1109/JSSC.1985.1052417
出版ステータス	Published - 1985 10月
外部発表	はい

ASJC Scopus subject areas

電子工学および電気工学

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10.1109/JSSC.1985.1052417

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引用スタイル

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abstract = "This paper describes a 32K words by 8-bit static RAM fabricated with a CMOS technology. The key feature of the RAM is a tri-level word line, in which an automatic power down by a pulsed word line in the read cycle and a power saving by a middle-level word line in the WRITE cycle are combined. This circuit technique minimizes bit-line swing, shortens the precharging time, and depresses the transient current. An improved address transition detection circuit reduces the chip select access time. The sense amplifier uses internally synchronized signals for improved operation. The RAM has a typical access time of 45 ns with an active power dissipation of 7 mW. The peak transient current is less than 40 mA. A double-level polysilicon technology with a 13- μm design rule enabled layout of the NMOS memory cell in an area of 116.0 μm2 and the die in 49.6 mm2.",

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AU - Kohno, Yoshio

AU - Kawai, Yuji

AU - Akasaka, Yoichi

AU - Kayano, Shinpei

PY - 1985/10

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A 45-ns 256K CMOS Static RAM with a Tri-Level Word Line

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