Title :
High-Gain Fully Printed Organic Complementary Circuits on Flexible Plastic Foils
Author :
Guerin, M. ; Daami, Anis ; Jacob, Shebin ; Bergeret, E. ; Benevent, E. ; Pannier, P. ; Coppard, R.
Author_Institution :
Aix-Marseille Univ., Marseille, France
Abstract :
We present several fully printed organic complementary circuits using n- and p-type organic thin-film transistors. n-Type and p-type devices are developed on a flexible polyethylene-naphthalate substrate. All organic layers are deposited using a low-cost screen-printing technique. The inverters show a high gain and a switching point at exactly VDD/2. A seven-stage voltage-controlled oscillator (VCO) is designed with an organic output buffer, using the n- and p-type organic transistors. This VCO oscillates at a frequency of 186 Hz. Finally, two complementary differential amplifiers with high gain and large bandwidth are presented. The amplifiers only draw a 1-μA current from a 40-V power supply.
Keywords :
differential amplifiers; invertors; organic compounds; plastics; polymer films; thin film transistors; voltage-controlled oscillators; complementary differential amplifier; current 1 muA; flexible plastic foil; flexible poly- ethylene-naphthalate substrate; frequency 186 Hz; high-gain fully printed organic complementary circuit; inverter; low-cost screen-printing technique; n-type organic thin-film transistor; organic layer; organic output buffer; p-type organic thin-film transistor; seven-stage VCO; seven-stage voltage-controlled oscillator; voltage 40 V; Gain; Inverters; Noise; Plastics; Transistors; Voltage measurement; Voltage-controlled oscillators; Amplifier; foil; inverter; organic; thin film;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2162071
