Detail publikace

Design of Fractional-Order Integrator Controlled by Single Voltage Gain

Originální název

Design of Fractional-Order Integrator Controlled by Single Voltage Gain

Anglický název

Design of Fractional-Order Integrator Controlled by Single Voltage Gain

Jazyk

en

Originální abstrakt

This work presents analyses of interaction of fractional- and integer-order transfer functions when their responses are added together by simple linear operation of sum. The mathematical background is very complex but practical consequences may be very useful for further design of electronically reconfigurable circuits including modification of shape of the resulting magnitude and phase responses. Described approach allows control of constant phase shift in limited operational bandwidth by single parameter that is documented by PSpice simulations with models of common of-the-shelf active elements.

Anglický abstrakt

This work presents analyses of interaction of fractional- and integer-order transfer functions when their responses are added together by simple linear operation of sum. The mathematical background is very complex but practical consequences may be very useful for further design of electronically reconfigurable circuits including modification of shape of the resulting magnitude and phase responses. Described approach allows control of constant phase shift in limited operational bandwidth by single parameter that is documented by PSpice simulations with models of common of-the-shelf active elements.

Plný text v Digitální knihovně

BibTex


@inproceedings{BUT157693,
  author="Roman {Šotner} and Jiří {Petržela} and Jan {Jeřábek} and Norbert {Herencsár} and Darius {Andriukaitis}",
  title="Design of Fractional-Order Integrator Controlled by Single Voltage Gain",
  annote="This work presents analyses of interaction of fractional- and integer-order transfer functions when their responses are added together by simple linear operation of sum. The mathematical background is very complex but practical consequences may be very useful for further design of electronically reconfigurable circuits including modification of shape of the resulting magnitude and phase responses. Described approach allows control of constant phase shift in limited operational bandwidth by single parameter that is documented by PSpice simulations with models of common of-the-shelf active elements.",
  address="IEEE",
  booktitle="Proceedings of the 2019 42nd International Conference on Telecommunications and Signal Processing (TSP), Budapest, Hungary",
  chapter="157693",
  doi="10.1109/TSP.2019.8768814",
  howpublished="online",
  institution="IEEE",
  year="2019",
  month="july",
  pages="360--364",
  publisher="IEEE",
  type="conference paper"
}