Publication detail

Lossy/Lossless Floating/Grounded Inductance Simulation Using One DDCC

IBRAHIM, M. MINAEI, S. YUCE, E. HERENCSÁR, N. KOTON, J.

Original Title

Lossy/Lossless Floating/Grounded Inductance Simulation Using One DDCC

English Title

Lossy/Lossless Floating/Grounded Inductance Simulation Using One DDCC

Type

journal article in Web of Science

Language

en

Original Abstract

In this work, we present new topologies for realizing one lossless grounded inductor and two floating, one lossless and one lossy, inductors employing a single differential difference current conveyor (DDCC) and a minimum number of passive components, two resistors, and one grounded capacitor. The floating inductors are based on ordinary dual-output differential difference current conveyor (DO-DDCC) while the grounded lossless inductor is based one a modified dual-output differential difference current conveyor (MDO-DDCC). The proposed lossless floating inductor is obtained from the lossy one by employing a negative impedance converter (NIC). The non-ideality effects of the active element on the simulated inductors are investigated. To demonstrate the performance of the proposed grounded inductance simulator as an example, it is used to construct a parallel resonant circuit. SPICE simulation results are given to confirm the theoretical analysis.

English abstract

In this work, we present new topologies for realizing one lossless grounded inductor and two floating, one lossless and one lossy, inductors employing a single differential difference current conveyor (DDCC) and a minimum number of passive components, two resistors, and one grounded capacitor. The floating inductors are based on ordinary dual-output differential difference current conveyor (DO-DDCC) while the grounded lossless inductor is based one a modified dual-output differential difference current conveyor (MDO-DDCC). The proposed lossless floating inductor is obtained from the lossy one by employing a negative impedance converter (NIC). The non-ideality effects of the active element on the simulated inductors are investigated. To demonstrate the performance of the proposed grounded inductance simulator as an example, it is used to construct a parallel resonant circuit. SPICE simulation results are given to confirm the theoretical analysis.

Keywords

DDCC, MDO-DDCC, inductance simulator, resonant circuit

RIV year

2012

Released

02.04.2012

ISBN

1210-2512

Periodical

Radioengineering

Year of study

21

Number

1

State

CZ

Pages from

3

Pages to

10

Pages count

8

Documents

BibTex


@article{BUT91543,
  author="Muhammed A. {Ibrahim} and Shahram {Minaei} and Erkan {Yuce} and Norbert {Herencsár} and Jaroslav {Koton}",
  title="Lossy/Lossless Floating/Grounded Inductance Simulation Using One DDCC",
  annote="In this work, we present new topologies for realizing one lossless grounded inductor and two floating, one lossless and one lossy, inductors employing a single differential difference current conveyor (DDCC) and a minimum number of passive components, two resistors, and one grounded capacitor. The floating inductors are based on ordinary dual-output differential difference current conveyor (DO-DDCC) while the grounded lossless inductor is based one a modified dual-output differential difference current conveyor (MDO-DDCC). The proposed lossless floating inductor is obtained from the lossy one by employing a negative impedance converter (NIC). The non-ideality effects of the active element on the simulated inductors are investigated. To demonstrate the performance of the proposed grounded inductance simulator as an example, it is used to construct a parallel resonant circuit. SPICE simulation results are given to confirm the theoretical analysis.",
  chapter="91543",
  number="1",
  volume="21",
  year="2012",
  month="april",
  pages="3--10",
  type="journal article in Web of Science"
}