Title :
High-gain topologies for transparent electronics
Author :
Bahubalindruni, Pydi ; Grade Tavares, V. ; Barquinha, Pedro ; Martins, Rui P. ; Fortunato, Elvira
Author_Institution :
Fac. of Eng., Univ. of Porto, Porto, Portugal
Abstract :
Transparent TFT technologies, with amorphous semiconductor oxides are lacking a complementary type transistor. This represents a real challenge, when the design of high-gain amplifiers are considered, without resorting to passive resistive elements. However, some solutions do exist to overcome the lack of a p-type transistor. This paper then presents a comparison analysis of two high-gain single-stage amplifier topologies using only n-type enhancement transistors. In these circuits, high gain is achieved using positive feedback for the load impedance. The comparison is carried out in terms of bandwidth, power consumption and complexity under identical bias conditions. Further, the same load impedance is used to develop a novel high-gain multiplier. All the circuits are simulated using a 0.35 μm CMOS technology, as it is easy to test the reliability of the methods, since CMOS transistors have trustworthy models.
Keywords :
CMOS integrated circuits; amplifiers; integrated circuit design; integrated circuit reliability; thin film transistors; CMOS technology; CMOS transistors; amorphous semiconductor oxides; bias conditions; complementary type transistor; high-gain multiplier; high-gain single-stage amplifier topologies; high-gain topologies; load impedance; n-type enhancement transistors; p-type transistor; passive resistive elements; positive feedback; power consumption; size 0.35 mum; transparent TFT technologies; transparent electronics; trustworthy models; Bandwidth; Capacitance; Gain; Logic gates; Power demand; Topology; Transistors; High gain amplifiers; Multipliers; Transparent electronics;
Conference_Titel :
EUROCON, 2013 IEEE
Conference_Location :
Zagreb
Print_ISBN :
978-1-4673-2230-0
DOI :
10.1109/EUROCON.2013.6625261
