Detail publikace

Single Active Parameter Tunable Simple Band-Pass Filter: Methods for Tunability Range Extension

Originální název

Single Active Parameter Tunable Simple Band-Pass Filter: Methods for Tunability Range Extension

Anglický název

Single Active Parameter Tunable Simple Band-Pass Filter: Methods for Tunability Range Extension

Jazyk

en

Originální abstrakt

This paper compares three possible methods of adjusting center frequency in a second order band-pass filter using a single active parameter. Limited range of driving voltages serving for tuning of electronically controllable applications is the problem of modern low-voltage systems due to reduced power supply voltage. Therefore, methods how to obtain similar bandwidths of adjustability in comparison to standard linear control applied in systems with DC driving voltage/current range below one decade should be studied. Lossless integrator (its transconductance subpart) implemented in the structure of the filter was solved as three different subcircuits allowing three different methods of its adjusting, i.e. linear, quadratic and exponential dependence of transconductance gm on DC driving voltage VSET. This results to square root, linear and exponential dependence of center frequency of the filter on VSET. The last method allows to reach at least a four-times wider range of tunability of center frequency in comparison to standard implementation of a linearly controllable integrator in the same range of VSET. PSpice simulations confirm intended features of the proposed methods.

Anglický abstrakt

This paper compares three possible methods of adjusting center frequency in a second order band-pass filter using a single active parameter. Limited range of driving voltages serving for tuning of electronically controllable applications is the problem of modern low-voltage systems due to reduced power supply voltage. Therefore, methods how to obtain similar bandwidths of adjustability in comparison to standard linear control applied in systems with DC driving voltage/current range below one decade should be studied. Lossless integrator (its transconductance subpart) implemented in the structure of the filter was solved as three different subcircuits allowing three different methods of its adjusting, i.e. linear, quadratic and exponential dependence of transconductance gm on DC driving voltage VSET. This results to square root, linear and exponential dependence of center frequency of the filter on VSET. The last method allows to reach at least a four-times wider range of tunability of center frequency in comparison to standard implementation of a linearly controllable integrator in the same range of VSET. PSpice simulations confirm intended features of the proposed methods.

BibTex


@inproceedings{BUT137805,
  author="Roman {Šotner} and Jiří {Petržela} and Ondřej {Domanský} and Lukáš {Langhammer} and Tomáš {Dostál}",
  title="Single Active Parameter Tunable Simple Band-Pass Filter: Methods for Tunability Range Extension",
  annote="This paper compares three possible methods of adjusting center frequency in a second order band-pass filter using a single active parameter. Limited range of driving voltages serving for tuning of electronically controllable applications is the problem of modern low-voltage systems due to reduced power supply voltage. Therefore, methods how to obtain similar bandwidths of adjustability in comparison to standard linear control applied in systems with DC driving voltage/current range below one decade should be studied. Lossless integrator (its transconductance subpart) implemented in the structure of the filter was solved as three different subcircuits allowing three different methods of its adjusting, i.e. linear, quadratic and exponential dependence of transconductance gm on DC driving voltage VSET. This results to square root, linear and exponential dependence of center frequency of the filter on VSET. The last method allows to reach at least a four-times wider range of tunability of center frequency in comparison to standard implementation of a linearly controllable integrator in the same range of VSET. PSpice simulations confirm intended features of the proposed methods.",
  address="Dept. of Microelectronics and Computer Science, Lodz University of Technology, Poland",
  booktitle="Proceedings of the 24th International Conference “Mixed Design of Integrated Circuits and Systems”",
  chapter="137805",
  doi="10.23919/MIXDES.2017.8005223",
  howpublished="online",
  institution="Dept. of Microelectronics and Computer Science, Lodz University of Technology, Poland",
  year="2017",
  month="june",
  pages="318--323",
  publisher="Dept. of Microelectronics and Computer Science, Lodz University of Technology, Poland",
  type="conference paper"
}