Publication detail

General floating element simulator employing VDCCs and grounded components

KARTCI, A.

Original Title

General floating element simulator employing VDCCs and grounded components

Czech Title

General floating element simulator employing VDCCs and grounded components

English Title

General floating element simulator employing VDCCs and grounded components

Type

conference paper

Language

en

Original Abstract

In this study, a new general floating element simulator circuit employing two voltage differencing current conveyors (VDCCs) and three passive components is proposed. Depending on the passive component selection the presented circuit can realize floating frequency dependent negative resistor (FDNR), floating inductor, floating capacitor, and floating resistor simulator circuits. The circuit does not require any component matching conditions. Moreover, the proposed FDNR, inductance, capacitor and resistor simulator can be tuned electronically by changing the biasing current of the VDCC or can be controlled through the grounded resistor(s) if voltage controlled resistor is considered. The proposed floating inductor or capacitor simulators are verified in voltage-mode 3rd-order elliptic low-pass filter circuit simulated via SPICE using 90 nm, level 7 PTM CMOS technology parameters.

Czech abstract

In this study, a new general floating element simulator circuit employing two voltage differencing current conveyors (VDCCs) and three passive components is proposed. Depending on the passive component selection the presented circuit can realize floating frequency dependent negative resistor (FDNR), floating inductor, floating capacitor, and floating resistor simulator circuits. The circuit does not require any component matching conditions. Moreover, the proposed FDNR, inductance, capacitor and resistor simulator can be tuned electronically by changing the biasing current of the VDCC or can be controlled through the grounded resistor(s) if voltage controlled resistor is considered. The proposed floating inductor or capacitor simulators are verified in voltage-mode 3rd-order elliptic low-pass filter circuit simulated via SPICE using 90 nm, level 7 PTM CMOS technology parameters.

English abstract

In this study, a new general floating element simulator circuit employing two voltage differencing current conveyors (VDCCs) and three passive components is proposed. Depending on the passive component selection the presented circuit can realize floating frequency dependent negative resistor (FDNR), floating inductor, floating capacitor, and floating resistor simulator circuits. The circuit does not require any component matching conditions. Moreover, the proposed FDNR, inductance, capacitor and resistor simulator can be tuned electronically by changing the biasing current of the VDCC or can be controlled through the grounded resistor(s) if voltage controlled resistor is considered. The proposed floating inductor or capacitor simulators are verified in voltage-mode 3rd-order elliptic low-pass filter circuit simulated via SPICE using 90 nm, level 7 PTM CMOS technology parameters.

Keywords

Floating element simulator circuit, voltage differencing current conveyor, VDCC

RIV year

2015

Released

23.04.2015

Publisher

Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních technologií

Location

Brno

ISBN

978-80-214-5148-3

Book

Proceedings of the 21st Conference STUDENT EEICT 2015

Pages from

329

Pages to

331

Pages count

3

BibTex


@inproceedings{BUT117522,
  author="Aslihan {Kartci}",
  title="General floating element simulator employing VDCCs and grounded components",
  annote="In this study, a new general floating element simulator circuit employing two voltage differencing current conveyors (VDCCs) and three passive components is proposed. Depending on the passive component selection the presented circuit can realize floating frequency dependent negative resistor (FDNR), floating inductor, floating capacitor, and floating resistor simulator circuits. The circuit does not require any component matching conditions. Moreover, the proposed FDNR, inductance, capacitor and resistor simulator can be tuned electronically by changing the biasing current of the VDCC or can be controlled through the grounded resistor(s) if voltage controlled resistor is considered. The proposed floating inductor or capacitor simulators are verified in voltage-mode 3rd-order elliptic low-pass filter circuit simulated via SPICE using 90 nm, level 7 PTM CMOS technology parameters.",
  address="Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních technologií",
  booktitle="Proceedings of the 21st Conference STUDENT EEICT 2015",
  chapter="117522",
  howpublished="electronic, physical medium",
  institution="Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních technologií",
  year="2015",
  month="april",
  pages="329--331",
  publisher="Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních technologií",
  type="conference paper"
}