Title :
Evolution of high-speed operational amplifier architectures
Author :
Smith, Doug ; Koen, Mike ; Witulski, Arthur F.
Author_Institution :
Burr-Brown Corp., Tucson, AZ, USA
fDate :
10/1/1994 12:00:00 AM
Abstract :
Strengths and weaknesses of modern wide-bandwidth bipolar transistor operational amplifiers are investigated and compared with respect to bandwidth, slew rate, noise, distortion, and power. This paper traces the evolution of operational amplifier designs since vacuum tube days to give a perspective of the large number of circuit variations used over time. Of particular value is the ability to use many of these circuit design options as the basis of new amplifiers. In addition, an array of operational amplifier components fabricated on the AT&T CBIC V2 process is described. This design incorporates many of the architectural techniques that have evolved over the years to produce four separate operational amplifier on a single base wafer. The process design methodology requires identifying the common elements in each architecture and the minimum number of additional components required to implement four unique architectures on the array
Keywords :
bipolar integrated circuits; differential amplifiers; electric distortion; feedback; linear integrated circuits; noise; operational amplifiers; reviews; wideband amplifiers; AT&T CBIC V2 process; array configuration; bipolar transistor opamps; distortion; high-speed op amp architectures; noise; operational amplifier; power; slew rate; wide-bandwidth type; Bandwidth; Bipolar transistors; Broadband amplifiers; Circuit noise; Circuit synthesis; Electron tubes; Operational amplifiers; Power amplifiers; Process design; Rate distortion theory;
Journal_Title :
Solid-State Circuits, IEEE Journal of
