"RIV/00216305:26220/13:PU104445" . . . "Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC" . . "Vrba, Kamil" . "Rome" . "978-1-4799-0403-7" . "Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC"@en . . "[54105130C450]" . "Kub\u00E1nek, David" . "Khateb, Fabian" . "P(ED2.1.00/03.0072), P(GA102/09/1681), P(GAP102/11/1379), S" . "2013-07-02+02:00"^^ . . "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." . . "RIV/00216305:26220/13:PU104445!RIV15-MSM-26220___" . . . "36th International Conference on Telecommunications and Signal Processing" . . "3"^^ . . "67562" . . "Current conveyor, Relaxation oscillator, Schmitt trigger, Square wave oscillator, Triangular wave oscillator"@en . . . . . "Asszisztencia Szervezo Kft." . . . "3"^^ . . . "Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC" . "Current-Controlled Square/Triangular Wave Generator with MO-CCDVCC"@en . . "26220" . . "Rome, Italy" . . "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."@en . . "5"^^ .