Title :
Organic Digital Logic and Analog Circuits Fabricated in a Roll-to-Roll Compatible Vacuum-Evaporation Process
Author :
Taylor, Dawn M. ; Patchett, Eifion R. ; Williams, Albert ; Neto, Nikola Joncew ; Ding, Zhenyang ; Assender, Hazel E. ; Morrison, John J. ; Yeates, Stephen G.
Author_Institution :
Sch. of Electron. Eng., Bangor Univ., Bangor, UK
Abstract :
We report the fabrication of a range of organic circuits produced by a high-yielding, vacuum-based process compatible with roll-to-roll production. The circuits include inverters, NAND and NOR logic gates, a simple memory element (set-reset latch), and a modified Wilson current mirror circuit. The measured circuit responses are presented together with simulated responses based on a previously reported transistor model of organic transistors produced using our fabrication process. Circuit simulations replicated all the key features of the experimentally observed circuit performance. The logic gates were capable of operating at frequencies in excess of 1 kHz while the current mirror circuit produced currents up to 18 μA.
Keywords :
analogue circuits; flip-flops; logic circuits; logic gates; thin film transistors; transistor circuits; vacuum deposition; NAND; NOR logic gates; analog circuits; circuit simulations; fabrication process; inverters; memory element; modified Wilson current mirror circuit; organic digital logic circuits; organic transistor model; roll-to-roll compatible vacuum-evaporation process; set-reset latch; thin film transistors; Fabrication; Integrated circuit modeling; Inverters; Latches; Logic gates; Thin film transistors; Analog circuits; circuit simulation; digital circuits; logic circuits; organic electronics; thin film transistors (TFTs); thin film transistors (TFTs).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2014.2329329
