Detail publikace

Fully-differential current amplifier and its application to universal and adjustable filter

Originální název

Fully-differential current amplifier and its application to universal and adjustable filter

Anglický název

Fully-differential current amplifier and its application to universal and adjustable filter

Jazyk

en

Originální abstrakt

A novel fully-differential (F-D) digitally adjustable current amplifier referred to as Digitally Adjustable Current Amplifier (DACA) and its application to the design of F-D filter working in the current mode are presented in this contribution. The basic features of DACA are shown. The filter was designed by the transformation of the single-ended (S-E) structure and is universal. The parameters of the filter can be easily tuned thanks to properly placed DACA elements. Simulation results are included in the contribution.

Anglický abstrakt

A novel fully-differential (F-D) digitally adjustable current amplifier referred to as Digitally Adjustable Current Amplifier (DACA) and its application to the design of F-D filter working in the current mode are presented in this contribution. The basic features of DACA are shown. The filter was designed by the transformation of the single-ended (S-E) structure and is universal. The parameters of the filter can be easily tuned thanks to properly placed DACA elements. Simulation results are included in the contribution.

BibTex


@inproceedings{BUT34794,
  author="Jan {Jeřábek} and Roman {Šotner} and Kamil {Vrba}",
  title="Fully-differential current amplifier and its application to universal and adjustable filter",
  annote="A novel fully-differential (F-D) digitally adjustable current amplifier referred to as Digitally Adjustable Current Amplifier (DACA) and its application to the design of F-D filter working in the current mode are presented in this contribution. The basic features of DACA are shown. The filter was designed by the transformation of the single-ended (S-E) structure and is universal. The parameters of the filter can be easily tuned thanks to properly placed DACA elements. Simulation results are included in the contribution.",
  address="University of West Bohemia",
  booktitle="2010 International Conference on Applied Electronics",
  chapter="34794",
  howpublished="print",
  institution="University of West Bohemia",
  year="2010",
  month="september",
  pages="141--144",
  publisher="University of West Bohemia",
  type="conference paper"
}