مرکز منطقه ای اطلاع رساني علوم و فناوري - Technology and design aspects of ultra-thin silicon chips for bendable electronics

DocumentCode :

2563416

Title :

Technology and design aspects of ultra-thin silicon chips for bendable electronics

Author :

Richter, Harald ; Rempp, Horst D. ; Hassan, Mahadi-Ul ; Harendt, Christine ; Wacker, Nicoleta ; Zimmermann, Martin ; Burghartz, Joachim N.

Author_Institution :

Inst. for Microelectron., Stuttgart, Germany

fYear :

2009

fDate :

18-20 May 2009

Firstpage :

149

Lastpage :

154

Abstract :

Plastic electronics, thin-film-transistors on foil and ultra-thin chips on foil are technologies currently pursued to support the strongly emerging market for flexible electronics. Ultra-thin CMOS chips in such systems will provide solutions whenever high circuit performance and/or complexity are required. Ultra-thin Si chips (6 to 20 mum) are fabricated by using a recently introduced technology based on the pre/post-process modules Chipfilm^TM and PickCrack&Place^TM combined with a standard CMOS process. Prior to CMOS processing 200 nm cavities are formed beneath the chip surface. The silicon quality is very comparable to that of bulk control wafers leading to similar process parameters and parameter variations. Fully operational digital and mixed-signal circuits having 30 k and 38 k/2.7k digital/analog CMOS transistors, respectively, are built on ultra-thin silicon chips by using an in-house CMOS gate array technology. The issue of piezoresistive effects in MOS transistors is studied on test transistors and small test circuits, where mechanical stress was introduced by bending a system of chip mounted on 50-mum Kapton foil. The results are compared to bulk silicon measurements. In addition, effects to circuit design, particularly on parametric yield, are deduced. The Chipfilm^TM technology not only offers ultra-thin CMOS chips for electronic foil systems but can also be exploited for 3D circuit integration.

Keywords :

CMOS integrated circuits; elemental semiconductors; mixed analogue-digital integrated circuits; piezoelectricity; silicon; 3D circuit integration; Kapton foil; MOS transistor; Si; bendable electronic; bulk control wafer; chip surface; digital-analog transistor; electronic foil system; in-house gate array technology; mixed-signal circuit; piezoresistive effect; plastic electronic; size 200 nm; thin-film-transistor; ultra-thin CMOS chip; ultra-thin silicon chip; CMOS analog integrated circuits; CMOS digital integrated circuits; CMOS process; CMOS technology; Circuit testing; Consumer electronics; MOSFETs; Plastics; Silicon; System testing; CMOS integrated circuits; electrochemical processes; flexible structures; piezoresistivity; stress;

fLanguage :

English

Publisher :

ieee

Conference_Titel :

IC Design and Technology, 2009. ICICDT '09. IEEE International Conference on

Conference_Location :

Austin, TX

Print_ISBN :

978-1-4244-2933-2

Electronic_ISBN :

978-1-4244-2934-9

Type :

conf

DOI :

10.1109/ICICDT.2009.5166284

Filename :

5166284

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=2563416