Fully Depleted Silicon On Insulator (FD-SOI) Devices

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Fully Depleted Silicon On Insulator (FD-SOI) Devices

Author : Sorin CRISTOLOVEANU

Publication date: November 10, 2018, Review date: January 18, 2021 | Lire en français

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Overview

ABSTRACT

Fully Depleted SOI (FD-SOI) is a natural evolution of SOI technology, oriented to the fabrication of high-density, high-frequency, low-power integrated circuits. FD-SOI transistors feature nanometer thickness and length, which lends them very specific operation mechanisms and characteristics. This article describes the state of the art and the unique qualities of FD-SOI components. Their special physical effects and dedicated characterization techniques are underlined. Selected examples of innovative devices made possible by the unrivaled flexibility of FD-SOI technology are discussed.

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AUTHOR

  • Sorin CRISTOLOVEANU : CNRS Research Director - IMEP-LAHC, Grenoble INP & CNRS, Minatec, - Grenoble Cedex, France

 INTRODUCTION

SOI technology, the subject of the article "Silicon-on-insulator (SOI) technology". [E 2 380] has given rise to FD-SOI, a cutting-edge CMOS process in which fully depleted (FD) components are only 6 to 7 nm thick. This article discusses, in some detail, the specific features of FD-SOI compared with conventional, thicker SOI structures.

The emphasis is on the incomparable flexibility of FD-SOI compared with its competitor, FinFET. The ability to bias the silicon substrate is the undisputed strength of FD-SOI, enabling the emulation of dual-gate transistors. This allows us to modulate transistor properties in terms of threshold voltage, carrier mobility and leakage current.

First, the generic advantages and characteristics of FD-SOI components are described. We then explain the specific physical mechanisms governing the operation of MOSFET transistors. Emphasis is placed on dimensional effects in terms of channel thickness and length. The characterization of multi-interface structures of nanometric size represents a considerable challenge. Recommended techniques are then discussed. The extreme flexibility of the technology offers the opportunity to design innovative devices, essentially based on the exploitation of electrostatic doping. Selected examples are discussed: band-modulated devices, virtual diodes, DRAM memories without storage capacity, etc.

For a complete and synthetic view, it's best to browse this article after reading the [E 2 380] article.

At the end of the article, readers will find a table of symbols and a table of acronyms used.

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KEYWORDS

MOSFET   |   silicon technology   |   SOI   |   FD-SOI   |   CMOS

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