Detail publikace

Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC

Originální název

Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC

Anglický název

Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC

Jazyk

en

Originální abstrakt

Relaxation oscillator with multiple-output current-controlled differential voltage current conveyor (MO-CCDVCC), one resistor and one capacitor (both grounded) is introduced in the paper. The circuit provides square and triangular waveforms whose frequency can be set by conveyor external bias current. A high performance MOS structure of MO-CCDVCC is presented which can be used also in other applications where control of the intrinsic resistance of X terminal and high output impedance of Z terminals are required. Description of the generator principle is given including recommendations for computation of element parameters. SPICE simulations proved functionality and tunability of the circuit designed.

Anglický abstrakt

Relaxation oscillator with multiple-output current-controlled differential voltage current conveyor (MO-CCDVCC), one resistor and one capacitor (both grounded) is introduced in the paper. The circuit provides square and triangular waveforms whose frequency can be set by conveyor external bias current. A high performance MOS structure of MO-CCDVCC is presented which can be used also in other applications where control of the intrinsic resistance of X terminal and high output impedance of Z terminals are required. Description of the generator principle is given including recommendations for computation of element parameters. SPICE simulations proved functionality and tunability of the circuit designed.

BibTex


@inproceedings{BUT100750,
  author="David {Kubánek} and Fabian {Khateb} and Kamil {Vrba}",
  title="Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC",
  annote="Relaxation oscillator with multiple-output current-controlled differential voltage current conveyor (MO-CCDVCC), one resistor and one capacitor (both grounded) is introduced in the paper. The circuit provides square and triangular waveforms whose frequency can be set by conveyor external bias current. A high performance MOS structure of MO-CCDVCC is presented which can be used also in other applications where control of the intrinsic resistance of X terminal and high output impedance of Z terminals are required. Description of the generator principle is given including recommendations for computation of element parameters. SPICE simulations proved functionality and tunability of the circuit designed.",
  address="Asszisztencia Szervezo Kft.",
  booktitle="36th International Conference on Telecommunications and Signal Processing",
  chapter="100750",
  howpublished="electronic, physical medium",
  institution="Asszisztencia Szervezo Kft.",
  year="2013",
  month="july",
  pages="444--448",
  publisher="Asszisztencia Szervezo Kft.",
  type="conference paper"
}