Fundamental limitations in precision analog circuits

Author

Krutchisky, Sergei G.

Author_Institution

Taganrog State Univ. of Radio Eng., Russia

fYear

2002

fDate

2002

Firstpage

16

Lastpage

19

Abstract

The following principle of self compensation is formulated on the basis of an analysis of a general structure. The main technological inaccuracy of active elements´ production influence the network characteristics. A sufficient condition of self compensation was found for ARC networks and its uniqueness was proved. In this case additional compensating circuit loops of feedback, put in networks, do not influence the set of device transfer functions and do not change the upper level of its dynamic range. For an amplifier, the second topological method is shown. It influences the realized transfer functions. With the help of the results we can formulate a new method of high-accuracy analog device building in an alternative submicron (less then micron) technology.

Keywords

analogue integrated circuits; circuit feedback; compensation; graph theory; network topology; sensitivity analysis; transfer functions; amplifier; compensating feedback loops; dynamic range; high-accuracy analog devices; precision analog circuits; self compensation principle; submicron technology; topological method; transfer functions; Analog circuits; Circuit synthesis; Control systems; Dynamic range; Feedback circuits; Feedback loop; Production; Radio control; Sensor phenomena and characterization; Transfer functions;

fLanguage

English

Publisher

ieee

Conference_Titel

Circuits and Systems for Communications, 2002. Proceedings. ICCSC '02. 1st IEEE International Conference on

Print_ISBN

5-7422-0260-1

Type

conf

DOI

10.1109/OCCSC.2002.1029033

Filename

1029033