Publication detail

Simulation models of current conveyors for computer analysis

Jiri Misurec and Vaclav Zeman

Original Title

Simulation models of current conveyors for computer analysis

Type

journal article - other

Language

English

Original Abstract

Computer modelling of circuits is of much significance for the synthesis and analysis of circuits. In the design of circuits, their functions and basic properties are usually first verified by simulation, after which an experimental test on a real specimen is performed. In many cases, when the active element itself is not available, computer simulation is the only possibility how to test and examine the properties of the proposed circuit. The accuracy of simulation results depends on the quality of the simulation algorithms used and on the accuracy of the models applied. The paper concentrates on current conveyors and transimpedance amplifiers. Every circuit manufacturer has in most cases a model of their own conception, designed such that it works properly in the recommended connections. When non-standard circuit structures are used, which is absolutely necessary in the research into new connections, simulated performance exhibits considerable deviations from the measured performance. For elements that are not yet in production the computer model must be prepared on the basis of assumed properties. Fundamental deliberations concerning the design of models of the above elements are presented in the paper.

Keywords

computer simulation

Authors

Jiri Misurec and Vaclav Zeman

RIV year

2006

Released

8. 1. 2006

ISBN

1738-9682

Periodical

International Transactions on Communication and Signal Processing

Year of study

2006

Number

8

State

Republic of Korea

Pages from

37

Pages to

45

Pages count

9

BibTex

@article{BUT43366,
  author="Jiří {Mišurec} and Václav {Zeman}",
  title="Simulation models of current conveyors for computer analysis",
  journal="International Transactions on Communication and Signal Processing",
  year="2006",
  volume="2006",
  number="8",
  pages="9",
  issn="1738-9682"
}