Publication detail

Function Generator Based on NEDCF

BALÍK, M.

Original Title

Function Generator Based on NEDCF

English Title

Function Generator Based on NEDCF

Type

conference paper

Language

en

Original Abstract

This paper presents a new method of designing a periodic function generator with time-varying output amplitude. The function generator as such is designed as a time-invariant linear discrete system. This discrete system produces impulse response with time varying envelope, which is used for convolution with one period of the desired output periodic function. The discrete system is designed as a system with non-exponentially decaying impulse response. In this paper the NEDCF (Non-Exponentially Decaying Comb Filter) is presented.

English abstract

This paper presents a new method of designing a periodic function generator with time-varying output amplitude. The function generator as such is designed as a time-invariant linear discrete system. This discrete system produces impulse response with time varying envelope, which is used for convolution with one period of the desired output periodic function. The discrete system is designed as a system with non-exponentially decaying impulse response. In this paper the NEDCF (Non-Exponentially Decaying Comb Filter) is presented.

Keywords

periodic function generator, time-varying envelope, non-exponentially decaying impulse response.

RIV year

2003

Released

17.09.2003

Publisher

Publisher STU

Location

Bratislava

ISBN

80-227-1934-X

Book

Proceedings of

Pages from

84

Pages to

87

Pages count

4

Documents

BibTex


@inproceedings{BUT9120,
  author="Miroslav {Balík}",
  title="Function Generator Based on NEDCF",
  annote="This paper presents a new method of designing a periodic function generator with time-varying output amplitude. The function generator as such is designed as a time-invariant linear discrete system. This discrete system produces impulse response with time varying envelope, which is used for convolution with one period of the desired output periodic function. The discrete system is designed as a system with non-exponentially decaying impulse response. In this paper the NEDCF (Non-Exponentially Decaying Comb Filter) is presented.",
  address="Publisher STU",
  booktitle="Proceedings of",
  chapter="9120",
  institution="Publisher STU",
  year="2003",
  month="september",
  pages="84",
  publisher="Publisher STU",
  type="conference paper"
}