Voltage-Controlled Oscillator w/ 50% Duty Cycle

The Voltage Controlled Oscillator w/ 50% Duty Cycle models a VCO with a programmable ramp peak and valley voltages and a voltage-to-frequency gain. This block is speed-optimized for SIMPLIS simulations and can be used as a fixed frequency oscillator by connecting a constant DC voltage source to the frequency pin. The oscillator output ramp waveform is a triangle wave with a 50% duty cycle. This oscillator includes an ON/OFF control pin and outputs commonly used signals that include the following:

  • Triangular voltage ramp signal with programmable peak and valley voltages. The duty cycle of the ramp is 50%.
  • Clock signal with 50% duty cycle.

For a VCO with a programmable duty cycle, see the Voltage-Controlled Oscillator w/ Programmable Duty Cycle topic.

In this topic:

Model Name: Voltage-Controlled Oscillator w/ 50% Duty Cycle
Simulator: This device is compatible with the SIMPLIS simulator.
Parts Selector Menu Location: Analog Functions > Timing and Oscillators > Voltage-Controlled Oscillator w/ 50% Duty Cycle
Symbol Library: simplis_analog_functions.sxslb
Model File: simplis_analog_functions.lb
Subcircuit Name: SIMPLIS_VCO_BB
Symbols:
Multiple Selections: Multiple devices can be selected and edited simultaneously.

Previous Version Compatibility

This symbol was introduced with version 8.0; however, the model and supporting files are available in version 7.20 as well. In versions prior to 7.20, the schematic will simulate, but you will not be able to edit the parameters with the dialog pictured in this topic.

For a version of the VCO compatible with versions prior to version 7.20, see the parts selector entry:

Obsolete > Analog Functions > Timing and Oscillators > Voltage-Controlled Oscillator w/ 50% Duty Cycle (Obsolete)

Symbol Migration

Symbols placed on schematics in previous versions of SIMetrix/SIMPLIS can be automatically migrated to use the new symbols. The schematic tools menu Tools > Migrate Schematic Symbols to Version 8.00 will invoke a routine which migrates the existing symbols to the new symbols. As this action makes substantial changes to the schematic, it is recommended that you save a backup copy of the schematic first.

I/O Table

The following table describes the pins on the VCO symbol.

Pin_Name I/O Function Description
VF I Input voltage that controls the clock frequency. \[ f_{CLK} = VF \times Gain \]
where $Gain$ is the clock frequency when VF = 1.0
OFF I On/Off control voltage for the oscillator, positive logic Oscillator runs when OFF voltage signal is less than 2.0V.
  • Once the oscillator is running, it stops when the voltage at the OFF pin exceeds 3.0V.
  • Once the oscillator stops running, it restarts when the voltage at the OFF pin drops below 2.0V.
RTN   The circuit return for the VCO The ground reference for this circuit
RAMP O Saw tooth ramp voltage output This output allows you to probe the internal oscillator ramp voltage.
  • The ramp voltage frequency is the same as the clock frequency.
  • The slope of the ramp is linear for both the rising portion as well as the falling portion.
CLK O Digital logic output

Logic 0 => CLK = 0V
Logic 1 => CLK = 5V

The clock frequency is controlled by the VF input.

Editing the VCO

To configure the VCO, follow these steps:

  1. Double click the symbol on the schematic to open the editing dialog.
  2. Make the appropriate changes to the fields described in the table below the image.
    Label Parameter Description
    Gain The gain of the VCO is described in Hz/V.
    A VCO with a Gain parameter value of 100k will oscillate at 100kHz when the VF pin voltage is 1V. When the VF pin is 5V the same VCO will oscillate at 500kHz.
    Top of ramp voltage The peak of the ramp voltage
    Bottom of ramp voltage The valley of the ramp voltage

Examples

The test circuit used to generate the waveform examples in the next section can be downloaded here: simplis 073 vco 50 duty.sxsch.

Waveforms

The waveforms shown below are for a test circuit with the following characteristics:

  • The VF pin changes between 0.5 and 1V at 20us.
  • The resulting oscillator frequency changes from 500kHz to 1MHz.
  • The OFF pin is asserted with a PWL voltage ramp starting at 80us.
  • The oscillator turns off when the OFF pin voltage crosses the 3V threshold.