Title :
A Low-Output-Noise Multistage Shift Register Using Tin Dioxide Nanowire Transistors
Author :
Ahn, Seong-Jin ; Kang, Jin-Seong ; In, Hai-Jung ; Ju, Sanghyun ; Kwon, Oh-Kyong
Author_Institution :
Dept. of Inf. Display Eng., Hanyang Univ., Seoul, South Korea
Abstract :
A multistage shift register using the parallel connection technique of n-channel nanowire transistors for low output noise is proposed. The proposed circuit decreases the output noise by eliminating the direct connection of the clock signal to the gate of the pull-down transistor of the output stage. Measured results show that the output noise of the proposed circuit is under 0.16 V when the input voltage is 5.0 V and the operating frequency of the proposed circuit is 900 Hz at the capacitive load of 150 pF. The maximum operating frequency of the proposed circuit at the loading condition of the wide-video-graphic-array resolution can be up to 46 kHz.
Keywords :
circuit noise; nanoelectronics; nanowires; shift registers; titanium compounds; transistors; SnO2; capacitance 150 pF; clock signal; frequency 900 Hz; low-output-noise multistage shift register; n-channel nanowire transistors; parallel connection technique; pull-down transistor; tin dioxide nanowire transistors; voltage 0.16 V; voltage 5.0 V; wide-video-graphic-array resolution; Clocks; Logic gates; Nanoscale devices; Noise; Shift registers; Transistors; Voltage measurement; Flat panel display; low noise; multistage shift register; nanowire transistor; tin dioxide $( hbox{SnO}_{2})$;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2012.2207702
