VCO_f

Scicos Block
fr - eng

Discrete Voltage Controlled Oscillator block (old block)

$\epsfig{file=VCO_f.eps,height=90pt}$

Discrete Voltage Controlled Oscillator block (old block)

Palette

Old - Old blocks palette

Description

This an old block. Please use VCO_c.

Basic blocks equivalent model

$\epsfig{file=VCO_f_sbeq.eps,width=400.00pt}$

Dialog box

$\begin{figure}\begin{center} \epsfig{file=VCO_f_gui.eps,width=380pt} \end{center}\end{figure}$

Pulsation [rad/s]
Type 'vec' of size -1. The free running pulsation.
Sensitivity [rad/V]
Type 'vec' of size -1. The linear sensitivity (if any).
Integration step [s]
Type 'vec' of size 1. The integration time step.
Angular position of crossing [rad]
Type 'vec' of size 1. The angular position to detect for event generation.
Dynamical Value(0:No/1:Yes)
Type 'vec' of size 1. Enable second regular input which correspond to the dynamical divider value.
Use input nonlinearity (0:No/1:Yes)
Type 'vec' of size 1. Enable static nonlinear frequency/voltage characteristic.
If set 1
$\begin{figure}\begin{center} \epsfig{file=VCO_f_6_1_gui.eps,width=280pt} \end{center} \end{figure}$
- Gain
  Gain of nonlinear function
  Properties : Type vec of size 1.
- Coefficient
  Coefficient of nonlinear function
  Properties : Type vec of size 1.
- Plot non linearity (0=No) ?
  Plot nonlinearity function in scilab window
  Properties : Type vec of size 1.
Type of Noise (0:Nothing/1:uniform)
Type 'vec' of size 1. Enable white gaussian noise source on the input voltage.
If set 1
$\begin{figure}\begin{center} \epsfig{file=VCO_f_7_2_gui.eps,width=250pt} \end{center} \end{figure}$
- Mean [rad/v]
  Mean of white noise source
  Properties : Type vec of size 1.
- Variance [rad/v]
  Variance of white noise source
  Properties : Type vec of size 1.
Use second integer frequency divider(0:No/Integer Value)
Type 'vec' of size 1. Enable a second output event port which correspond to a second frequency divider.