A 0.20 μm CMOS technology with copper-filled contact and local interconnect

被引：14

作者：

Islam, R ^{[1
]}

Venkatesan, S ^{[1
]}

Woo, M ^{[1
]}

Nagabushnam, R ^{[1
]}

Denning, D ^{[1
]}

Yu, K ^{[1
]}

Adetutu, O ^{[1
]}

Farkas, J ^{[1
]}

Stephens, T ^{[1
]}

Sparks, T ^{[1
]}

机构：

[1] Motorola Inc, Adv Prod Res & Dev Lab, Proc Technol Dev, Network Comp Syst Grp, Austin, TX 78721 USA

来源：

2000 SYMPOSIUM ON VLSI TECHNOLOGY, DIGEST OF TECHNICAL PAPERS | 2000年

关键词：

D O I：

10.1109/VLSIT.2000.852753

中图分类号：

TP3 [计算技术、计算机技术];

学科分类号：

0812 ;

摘要：

In this work a 0.20 mu m CMOS technology has been developed using copper-filled local interconnect and contact along with copper metallization. This technology is suitable for logic and SRAM applications. The presence of copper in close proximity to the gate oxide and source/drain regions does not induce any degradation to the transistor parameters. This study shows that copper, along with a robust diffusion barrier, can be used to fill local interconnect and contact holes without deteriorating device performance. In this technology, the minimum transistor is (0.27 mu m X 0.15 mu m) with a gate pitch of 0.54 mu m and minimum metal pitch of 0.63 mu m.

引用

页码：22 / 23

页数：2

共 41 条

[1] Integration of copper interconnects to 0.20 μm CMOS technology
Islam, R
Smith, B
Venkatesan, S
Filipiak, S
Lucas, K
Farkas, J
Crabtree, P
Stephens, T
MULTILEVEL INTERCONNECT TECHNOLOGY III, 1999, 3883 : 182 - 182
[2] Copper-filled Vias made by Thick Printed Copper Technology
Hlina, Jiri
Reboun, Jan
Michal, David
Hamacek, Ales
2020 43RD INTERNATIONAL SPRING SEMINAR ON ELECTRONICS TECHNOLOGY (ISSE), 2020,
[3] A high performance 1.8V, 0.20μm CMOS technology with copper metallization
Venkatesan, S
Gelatos, AV
Misra, V
Smith, B
Islam, R
Cope, J
Wilson, B
Tuttle, D
Cardwell, R
Anderson, S
Angyal, M
Bajaj, R
Capasso, C
Crabtree, P
Das, S
Farkas, J
Filipiak, S
Fiordalice, B
Freeman, M
Gilbert, PV
Herrick, M
Jain, A
Kawasaki, H
King, C
Klein, J
Lii, T
Reid, K
Saaranen, T
Simpson, C
Sparks, T
Tsui, P
Venkatraman, R
Watts, D
Weitzman, EJ
Woodruff, R
Yang, I
Bhat, N
Hamilton, G
Yu, Y
INTERNATIONAL ELECTRON DEVICES MEETING - 1997, TECHNICAL DIGEST, 1997, : 769 - 772
[4] Copper-filled macroporous Si and cavity underneath for microchannel heat sink technology
Zacharatos, F.
Nassiopoulou, A. G.
PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 2008, 205 (11): : 2513 - 2517
[5] CONVENTIONAL CONTACT INTERCONNECT TECHNOLOGY AS AN ALTERNATIVE TO CONTACT PLUG (W) TECHNOLOGY FOR 0.85 MU-M CMOS EPROM IC DEVICES
FARAHANI, MM
BULLER, JF
MOORE, BT
GARG, S
IEEE TRANSACTIONS ON SEMICONDUCTOR MANUFACTURING, 1994, 7 (01) : 79 - 86
[6] Induced thermo-mechanical reliability of copper-filled TSV interposer by transient selective annealing technology
Lee, Chang-Chun
Huang, Chien-Chao
MICROELECTRONICS RELIABILITY, 2015, 55 (11) : 2213 - 2219
[7] Sensing Mobility Mismatch due to Local Interconnect Mechanical Stress in CMOS Technology
Blayac, Sylvain
Rivero, Christian
Fornara, Pascal
Lopez, Laurent
Demange, Nicolas
2011 IEEE INTERNATIONAL CONFERENCE ON MICROELECTRONIC TEST STRUCTURES (ICMTS), 2011,
[8] Interconnect capacitance, crosstalk, and signal delay for 0.35 mu m CMOS technology
Cho, DH
Eo, YS
Seung, MH
Kim, NH
Wee, JK
Kwon, OK
Park, HS
IEDM - INTERNATIONAL ELECTRON DEVICES MEETING, TECHNICAL DIGEST 1996, 1996, : 619 - 622
[9] Local clustering 3-D stacked CMOS technology for interconnect loading reduction
Lin, Xinnan
Zhang, Shengdong
Wu, Xusheng
Chan, Mansun
IEEE TRANSACTIONS ON ELECTRON DEVICES, 2006, 53 (06) : 1405 - 1410
[10] USE OF THE POLYSILICON GATE LAYER FOR LOCAL INTERCONNECT IN A CMOS TECHNOLOGY INCORPORATING LDD STRUCTURES
ELDIWANY, MH
BRASSINGTON, MP
TUNTASOOD, P
RAZOUK, RR
POULTER, MW
IEEE TRANSACTIONS ON ELECTRON DEVICES, 1988, 35 (09) : 1556 - 1558

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