CMOS Ternary Logic With a Biristor Threshold Switch for Low Static Power Consumption

Joon Kyu Han; Ji Man Yu; Seo Yeon Nam; Yang Kyu Choi

doi:10.1109/LED.2022.3172067

CMOS Ternary Logic With a Biristor Threshold Switch for Low Static Power Consumption

Joon Kyu Han
, Ji Man Yu
, Seo Yeon Nam
, Yang Kyu Choi

School of Electronics Engineering

Korea Advanced Institute of Science and Technology

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

18 Scopus citations

Abstract

A CMOS ternary logic is demonstrated using a biristor threshold switch (BTS). A biristor, which can operate as a threshold switch, encloses a two-terminal n-p-n structure with a floating p-base region akin to a base-open BJT. The switching mechanism is a single-transistor latch (STL). When a BTS and a MOSFET are serially connected, three stable states are sustained for a ternary logic system. Compared to other ternary devices, static power can be greatly reduced due to low leakage current of the BTS. In addition, the BTS and the MOSFET were co-integrated due to their homeomorphy for fabrication simplicity, i.e., because the BTS has a structure identical to that of a MOSFET, unlike other threshold switches.

Original language	English
Pages (from-to)	1005-1008
Number of pages	4
Journal	IEEE Electron Device Letters
Volume	43
Issue number	7
DOIs	https://doi.org/10.1109/LED.2022.3172067
State	Published - 1 Jul 2022

Keywords

Biristor
biristor threshold switch (BTS)
multi-valued logic (MVL)
single transistor latch (STL)
ternary logic

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10.1109/LED.2022.3172067

Cite this

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title = "CMOS Ternary Logic With a Biristor Threshold Switch for Low Static Power Consumption",

abstract = "A CMOS ternary logic is demonstrated using a biristor threshold switch (BTS). A biristor, which can operate as a threshold switch, encloses a two-terminal n-p-n structure with a floating p-base region akin to a base-open BJT. The switching mechanism is a single-transistor latch (STL). When a BTS and a MOSFET are serially connected, three stable states are sustained for a ternary logic system. Compared to other ternary devices, static power can be greatly reduced due to low leakage current of the BTS. In addition, the BTS and the MOSFET were co-integrated due to their homeomorphy for fabrication simplicity, i.e., because the BTS has a structure identical to that of a MOSFET, unlike other threshold switches.",

keywords = "Biristor, biristor threshold switch (BTS), multi-valued logic (MVL), single transistor latch (STL), ternary logic",

author = "Han, \{Joon Kyu\} and Yu, \{Ji Man\} and Nam, \{Seo Yeon\} and Choi, \{Yang Kyu\}",

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doi = "10.1109/LED.2022.3172067",

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T1 - CMOS Ternary Logic With a Biristor Threshold Switch for Low Static Power Consumption

AU - Han, Joon Kyu

AU - Yu, Ji Man

AU - Nam, Seo Yeon

AU - Choi, Yang Kyu

PY - 2022/7/1

Y1 - 2022/7/1

N2 - A CMOS ternary logic is demonstrated using a biristor threshold switch (BTS). A biristor, which can operate as a threshold switch, encloses a two-terminal n-p-n structure with a floating p-base region akin to a base-open BJT. The switching mechanism is a single-transistor latch (STL). When a BTS and a MOSFET are serially connected, three stable states are sustained for a ternary logic system. Compared to other ternary devices, static power can be greatly reduced due to low leakage current of the BTS. In addition, the BTS and the MOSFET were co-integrated due to their homeomorphy for fabrication simplicity, i.e., because the BTS has a structure identical to that of a MOSFET, unlike other threshold switches.

AB - A CMOS ternary logic is demonstrated using a biristor threshold switch (BTS). A biristor, which can operate as a threshold switch, encloses a two-terminal n-p-n structure with a floating p-base region akin to a base-open BJT. The switching mechanism is a single-transistor latch (STL). When a BTS and a MOSFET are serially connected, three stable states are sustained for a ternary logic system. Compared to other ternary devices, static power can be greatly reduced due to low leakage current of the BTS. In addition, the BTS and the MOSFET were co-integrated due to their homeomorphy for fabrication simplicity, i.e., because the BTS has a structure identical to that of a MOSFET, unlike other threshold switches.

KW - Biristor

KW - biristor threshold switch (BTS)

KW - multi-valued logic (MVL)

KW - single transistor latch (STL)

KW - ternary logic

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CMOS Ternary Logic With a Biristor Threshold Switch for Low Static Power Consumption

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Keywords

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