A Study on Suppressing Crosstalk Through a Thick SOI Substrate and Deep Trench Isolation

Author

Hashimoto, Toshikazu ; Satoh, H. ; Fujiwara, H. ; Arai, Manabu

Author_Institution

Micro Device Div., Hitachi, Ltd., Tokyo, Japan

Volume

1

Issue

7

fYear

2013

fDate

Jul-13

Firstpage

155

Lastpage

161

Abstract

Measurement and simulation studies are conducted on transmission crosstalk in thick silicon-on-insulator substrates. This paper focuses on the role of buried oxide layers and deep trench isolation in suppressing crosstalk. With radio frequency coupling paths on substrates depending on noise frequency, a deep trench guides noise signals to substrates and suppresses transmission crosstalk between input and output ports. Good agreement is obtained between electromagnetic field (EM) simulation and measurement results. The EM simulation results suggest different approaches might be used in designing deep trench isolation patterns for a middle resistivity (MR) substrate and a high resistivity (HR) substrate. Deep trench isolation plays a more important role in HR substrates than in MR substrates.

Keywords

crosstalk; electromagnetic fields; electromagnetic interference; integrated circuit design; integrated circuit noise; isolation technology; silicon-on-insulator; EM simulation; MR substrate; buried oxide layers; deep trench guides noise signals; deep trench isolation patterns; electromagnetic field simulation; high resistivity substrate; measurement results; middle resistivity substrate; noise frequency; radio frequency coupling paths; thick SOI substrate; thick silicon-on-insulator substrates; transmission crosstalk suppression; Conductivity; Couplings; Crosstalk; Noise; Periodic structures; Silicon; Substrates; Deep trench isolation; electromagnetic field simulator; silicon-on-insulator technology; transmission crosstalk;

fLanguage

English

Journal_Title

Electron Devices Society, IEEE Journal of the

Publisher

ieee

ISSN

2168-6734

Type

jour

DOI

10.1109/JEDS.2013.2279677

Filename

6595597