Detail publikace

Simple two operational transconductance amplifiers-based electronically controllable bilinear two port for fractional-order synthesis

Originální název

Simple two operational transconductance amplifiers-based electronically controllable bilinear two port for fractional-order synthesis

Anglický název

Simple two operational transconductance amplifiers-based electronically controllable bilinear two port for fractional-order synthesis

Jazyk

en

Originální abstrakt

This Letter introduces a new circuit topology of the simple electronically controllable voltage-mode bilinear two port (BTP) employing two operational transconductance amplifiers. The proposed two-port circuit is completely resistorless and contains only a grounded capacitor. It has a high-impedance input (a simple cascading of sections is possible) and allows an independent electronic adjusting of zero and pole frequency of the transfer function. The operation of the BTP circuit is demonstrated for two different locations of the pole and zero frequency coordinates. Moreover, a direct application of four BTPs in fractional-order integrators (order −0.11 and −0.33) with phase shifts −10° and −30° is shown. Design specification is verified by experimental measurements.

Anglický abstrakt

This Letter introduces a new circuit topology of the simple electronically controllable voltage-mode bilinear two port (BTP) employing two operational transconductance amplifiers. The proposed two-port circuit is completely resistorless and contains only a grounded capacitor. It has a high-impedance input (a simple cascading of sections is possible) and allows an independent electronic adjusting of zero and pole frequency of the transfer function. The operation of the BTP circuit is demonstrated for two different locations of the pole and zero frequency coordinates. Moreover, a direct application of four BTPs in fractional-order integrators (order −0.11 and −0.33) with phase shifts −10° and −30° is shown. Design specification is verified by experimental measurements.

BibTex


@article{BUT149311,
  author="Roman {Šotner} and Ladislav {Polák} and Jan {Jeřábek} and Jiří {Petržela}",
  title="Simple two operational transconductance amplifiers-based electronically controllable bilinear two port for fractional-order synthesis",
  annote="This Letter introduces a new circuit topology of the simple electronically controllable voltage-mode bilinear two port (BTP)
employing two operational transconductance amplifiers. The proposed two-port circuit is completely resistorless and contains only a grounded capacitor. It has a high-impedance input (a simple cascading of sections is possible) and allows an independent electronic adjusting of zero and pole frequency of the transfer function. The operation of the BTP circuit is demonstrated for two different locations of the pole and zero frequency coordinates. Moreover, a direct application of four BTPs in fractional-order integrators (order −0.11 and −0.33) with phase shifts −10° and −30° is shown. Design specification is verified by experimental measurements.",
  address="IET",
  chapter="149311",
  doi="10.1049/el.2018.5575",
  howpublished="online",
  institution="IET",
  number="20",
  volume="54",
  year="2018",
  month="august",
  pages="1164--1166",
  publisher="IET",
  type="journal article in Web of Science"
}