Detail publikace

Grounded capacitor current mode single resistance-controlled oscillator using single modified current differencing transconductance amplifier

Originální název

Grounded capacitor current mode single resistance-controlled oscillator using single modified current differencing transconductance amplifier

Anglický název

Grounded capacitor current mode single resistance-controlled oscillator using single modified current differencing transconductance amplifier

Jazyk

en

Originální abstrakt

This paper proposes a current mode canonic single resistance controlled oscillator (SRCO) circuit based on a single modified current differencing transconductance amplifier. The circuit employs grounded capacitors and provides a current output with high output impedance. The proposed circuit also enables orthogonal control of frequency and oscillation condition. The performance of the proposed SRCO is verified by means of SPICE simulations, on-chip experiments, and measurements.

Anglický abstrakt

This paper proposes a current mode canonic single resistance controlled oscillator (SRCO) circuit based on a single modified current differencing transconductance amplifier. The circuit employs grounded capacitors and provides a current output with high output impedance. The proposed circuit also enables orthogonal control of frequency and oscillation condition. The performance of the proposed SRCO is verified by means of SPICE simulations, on-chip experiments, and measurements.

BibTex


@article{BUT50869,
  author="Dalibor {Biolek} and Ali Umit {Keskin} and Viera {Biolková}",
  title="Grounded capacitor current mode single resistance-controlled oscillator using single modified current differencing transconductance amplifier",
  annote="This paper proposes a current mode canonic single resistance controlled oscillator (SRCO) circuit based on a single modified current differencing transconductance amplifier. The circuit employs grounded capacitors and provides a current output with high output impedance. The proposed circuit also enables orthogonal control of frequency and oscillation condition. The performance of the proposed SRCO is verified by means of SPICE simulations, on-chip experiments, and measurements.",
  address="IET",
  chapter="50869",
  institution="IET",
  journal="IET Circuits, Devices and Systems",
  number="6",
  volume="4",
  year="2010",
  month="november",
  pages="496--502",
  publisher="IET",
  type="journal article in Web of Science"
}