A study of parasitic resistance effects in thin-channel polycrystalline silicon TFTs with tungsten-clad source/drain

Author

Zan, Hsiao-Wen ; Chang, Ting-Chang ; Shih, Po-Sheng ; Peng, Du-Zen ; Kuo, Po-Yi ; Huang, Tiao-Yuan ; Chang, Chun-Yen ; Liu, Po-Tsun

Author_Institution

Inst. of Electro-Opt. Eng., Nat. Chiao-Tung Univ., Hsinchu, Taiwan

Volume

24

Issue

8

fYear

2003

Firstpage

509

Lastpage

511

Abstract

With selectively-deposited tungsten film grown on source/drain regions, the parasitic source/drain resistance of thin-channel polycrystalline silicon (poly-Si) thin film transistors can be greatly reduced, leading to the improvement of device driving ability. After extracting the parasitic resistance from characteristics of devices with different channel length, the influences of parasitic resistance on device performances were discussed. A physically-based equation containing the parasitic resistance effects was derived to explain the behavior of linear transconductance under high gate voltage. Good agreements were found between calculated and measured data for both the thin-channel devices with or without tungsten-clad source/drain structure.

Keywords

elemental semiconductors; leakage currents; silicon; thin film transistors; tungsten; Si; channel length; device driving ability; gate voltage; linear transconductance; parasitic resistance effects; physically-based equation; source/drain regions; thin-channel devices; thin-channel polycrystalline silicon TFTs; tungsten-clad source/drain; Chemical vapor deposition; Degradation; Electrical resistance measurement; Equations; Semiconductor films; Silicon on insulator technology; Thin film transistors; Transconductance; Tungsten; Voltage;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2003.815160

Filename

1218657