DocumentCode :
912566
Title :
New split FET technique for measurements of source series resistance applied to amorphous silicon thin film transistors
Author :
Globus, Tatiana ; Shur, Michael ; Byun, Y. ; Hack, M.
Author_Institution :
Dept. of Electr. Eng., Virginia Univ., Charlottesville, VA, USA
Volume :
13
Issue :
2
fYear :
1992
Firstpage :
108
Lastpage :
110
Abstract :
A split field-effect transistor (SFET) is proposed for measuring source and drain series resistances. This device is made by splitting a conventional thin-film transistor (TFT) from the source to the drain in such a way that the gate width of each half is a linear function of the distance from the source. The analysis shows that the intrinsic current-voltage characteristics of such a device should be symmetrical with respect to the polarity of the drain-to-source voltage. Hence, the observed asymmetry of the device characteristic yields direct information about the differences between source and drain series resistances, which are inversely proportional to the contact width. For an a-Si TFT it is shown that the source series resistance is proportional to the inverse square root of the drain current in a wide range of currents. The technique can be applied to a large variety of FETs. For a-Si TFTs, it provides an accurate tool for determining the effects of contact overlap, bias stress, and temperature dependences of series resistances.<>
Keywords :
amorphous semiconductors; electric resistance measurement; elemental semiconductors; insulated gate field effect transistors; semiconductor device testing; silicon; thin film transistors; amorphous Si; bias stress; contact overlap; drain series resistances; field-effect transistor; intrinsic current-voltage characteristics; observed asymmetry; source series resistance; split FET technique; temperature dependences; thin film transistors; Amorphous silicon; Computer hacking; Contacts; Dielectric substrates; Electrical resistance measurement; FETs; Passivation; Silicon compounds; Thin film transistors; Voltage;
fLanguage :
English
Journal_Title :
Electron Device Letters, IEEE
Publisher :
ieee
ISSN :
0741-3106
Type :
jour
DOI :
10.1109/55.144974
Filename :
144974
Link To Document :
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