Title :
Synthesis of programmable multi-input current-mode linear analog circuits
Author :
Ray, Baidya Nath ; Nandi, P.K. ; Chaudhuri, P.P.
Author_Institution :
Electron. & Tele-Commun. Eng. Dept., Bengal Eng. Coll., Howrah, India
Abstract :
This paper reports synthesis methodologies for linear analog circuits. A generalized multi-input operational transconductance amplifier (OTA) network has been synthesized that can be easily programmed to realize different analog functions. The design of the multifunction network has been realized without any switches. The inherent characteristic of OTA as a voltage-to-current (V-I) converter with differential input has been exploited in the synthesis procedure. Efficient analog circuits synthesized with programmable OTA network are reported along with simulation results. The theoretical analysis supported by extensive experimental results confirms low sensitivity, high-frequency response, and efficient programmability of the proposed OTA network to realize different types of filters.
Keywords :
CMOS analogue integrated circuits; analogue circuits; band-pass filters; band-stop filters; current-mode circuits; high-pass filters; linear network synthesis; low-pass filters; operational amplifiers; programmable circuits; analog functions; band-pass filter; band-reject filter; current-mode circuits; differential input; high-pass filter; linear analog circuits; low-pass filter; multifunction network; multiinput OTA network; multiinput circuits; operational transconductance amplifier; programmable OTA network; programmable circuits; voltage-to-current converter; Analog circuits; Band pass filters; Circuit synthesis; Low pass filters; Network synthesis; Operational amplifiers; RLC circuits; Signal processing; Transconductance; Voltage; BPF; BRF; Band-pass filter; HPF; LPF; OTA; band-reject filter; high-pass filter; low-pass filter; operational transconductance amplifier; synthesis;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2004.832713
