A high output resistance 1.2-V VDD current mirror with deep submicron vertical mosfets

Satoru Tanoi; Tetsuo Endoh

doi:10.1587/transele.E97.C.423

A high output resistance 1.2-V VDD current mirror with deep submicron vertical mosfets

Satoru Tanoi, Tetsuo Endoh

ENG - Electrical Engineering

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

1 Citation (Scopus)

Abstract

A low VDD current mirror with deep sub-micron vertical MOSFETs is presented. The keys are new bias circuits to reduce both the minimum VDD for the operation and the sensitivity of the output current on VDD. In the simulation, our circuits reduce the minimum VDD by about 17% and the VDD sensitivity by one order both from those of the conventional. In the simulation with 90 nm φ vertical MOSFET approximate models, our circuit shows about 4MΩ output resistance at 1.2-V VDD with the small temperature dependence, which is about six times as large as that with planar MOSFETs.

Original language	English
Pages (from-to)	423-430
Number of pages	8
Journal	IEICE Transactions on Electronics
Volume	E97-C
Issue number	5
DOIs	https://doi.org/10.1587/transele.E97.C.423
Publication status	Published - 2014 May

Keywords

Current mirror
Low VDD
Output resistance
Short channel effect
Vertical MOSFET

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10.1587/transele.E97.C.423

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title = "A high output resistance 1.2-V VDD current mirror with deep submicron vertical mosfets",

abstract = "A low VDD current mirror with deep sub-micron vertical MOSFETs is presented. The keys are new bias circuits to reduce both the minimum VDD for the operation and the sensitivity of the output current on VDD. In the simulation, our circuits reduce the minimum VDD by about 17% and the VDD sensitivity by one order both from those of the conventional. In the simulation with 90 nm φ vertical MOSFET approximate models, our circuit shows about 4MΩ output resistance at 1.2-V VDD with the small temperature dependence, which is about six times as large as that with planar MOSFETs.",

keywords = "Current mirror, Low VDD, Output resistance, Short channel effect, Vertical MOSFET",

author = "Satoru Tanoi and Tetsuo Endoh",

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T1 - A high output resistance 1.2-V VDD current mirror with deep submicron vertical mosfets

AU - Tanoi, Satoru

AU - Endoh, Tetsuo

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Y1 - 2014/5

N2 - A low VDD current mirror with deep sub-micron vertical MOSFETs is presented. The keys are new bias circuits to reduce both the minimum VDD for the operation and the sensitivity of the output current on VDD. In the simulation, our circuits reduce the minimum VDD by about 17% and the VDD sensitivity by one order both from those of the conventional. In the simulation with 90 nm φ vertical MOSFET approximate models, our circuit shows about 4MΩ output resistance at 1.2-V VDD with the small temperature dependence, which is about six times as large as that with planar MOSFETs.

AB - A low VDD current mirror with deep sub-micron vertical MOSFETs is presented. The keys are new bias circuits to reduce both the minimum VDD for the operation and the sensitivity of the output current on VDD. In the simulation, our circuits reduce the minimum VDD by about 17% and the VDD sensitivity by one order both from those of the conventional. In the simulation with 90 nm φ vertical MOSFET approximate models, our circuit shows about 4MΩ output resistance at 1.2-V VDD with the small temperature dependence, which is about six times as large as that with planar MOSFETs.

KW - Current mirror

KW - Low VDD

KW - Output resistance

KW - Short channel effect

KW - Vertical MOSFET

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JO - IEICE Transactions on Electronics

JF - IEICE Transactions on Electronics

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ER -

A high output resistance 1.2-V VDD current mirror with deep submicron vertical mosfets

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