Title :
Trapped-Charge-Effect-Based Above-Threshold Current Expressions for Amorphous Silicon TFTs Consistent With Pao–Sah Model
Author :
Hongyu He ; Jin He ; Wanling Deng ; Hao Wang ; Yuan Liu ; Xueren Zheng
Author_Institution :
Sch. of Electron. & Comput. Eng., Peking Univ., Shenzhen, China
Abstract :
Based on the charge analysis in the Pao-Sah model assuming the exponential deep and tail density of trap states (DOS), the above-threshold current expressions are presented. The trapped charge in the deep DOS is included in the threshold voltage. In particular, a trapped charge effect parameter β, which is determined mainly by the tail DOS, is introduced into the current expressions. The parameter clarifies the relationship between the free electrons and the trapped electrons concentration, and shows the relationship between the band mobility μb and the constant effective mobility μcon. The expressions are consistent with the Pao-Sah model and verified by the experimental data. The different effects of the deep and tail DOS are clarified.
Keywords :
amorphous semiconductors; electron mobility; electron traps; thin film transistors; Pao-Sah model; amorphous silicon TFT; band mobility; charge analysis; constant effective mobility; deep DOS; free electrons; tail DOS; tail density; trap states; trapped charge effect parameter; trapped electrons concentration; trapped-charge effect-based above-threshold current expressions; Approximation methods; Educational institutions; Electron traps; Iron; Mathematical model; Thin film transistors; Threshold voltage; Amorphous silicon (a-Si); thin-film transistor (TFT); threshold voltage; trap states;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2358619
