The AC quasi-square-wave input source models the line voltage typically generated by inverters.
The AC Quasi-Square-Wave source (QSW) is not used in any test objectives. You can set a AC Source to a QSW type source using the testplan syntax below.
In this topic:
Model Name | AC Quasi-Square-Wave Input Source | |
Simulator | This device is compatible with both the SIMetrix and SIMPLIS simulators. | |
Parts Selector Menu Location |
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Symbol Library | None - the symbol is automatically generated when placed or edited. | |
Model File | SIMPLIS_DVM_ADVANCED.lb | |
Subcircuit Name | SIMPLIS_DVM_ADVANCED_SOURCE_AC_QSW | |
Symbols | ||
Schematic |
The following table explains the relevant parameters.
Parameter Name | Default | Data Type | Range | Units | Parameter Description |
AC_VOLTAGE1 | 115 | Real | min: 0 | V | The pulse voltage for the input source. |
FREQUENCY | 50 | Real | min: >0 | Hz | The frequency of the source |
F_CORNER | 1Meg | Real | min: >0 | Hz | The corner frequency for the internal low pass filter. The number of poles is set by the N_ORDER parameter. |
LINE_PHASEANGLE | 0 | Real | 0- 360 | ° | Sets the source phase angle at time=0. Most often used in three phase systems to set the phase angle of each phase. |
N_ORDER | 0 | Real | 0 - 3 | The number of poles in the filter. Set to 0 to remove the filter from the design. | |
PULSE_WIDTH | 200u | Real | min:0 | s | The duration of the pulse in seconds. |
RISE_TIME | 10u | Real | min:>0 | s | The rise and fall time of the internal square wave source. See the waveforms section for details. |
SLEW_RATE | 10Meg | Real | max: 1E11 | V/s | The maximum slew rate of the voltage source |
SOURCE_INDUCTANCE | 795.8u | Real | min: 0 | H | Sets the inductance of the line source |
SOURCE_NAME | SRC | String | n/a | n/a | Name of the DVM source. This name cannot contain spaces. |
SOURCE_RESISTANCE | 0.4 | Real | min:0 | Ω | Sets the source resistance of the source. |
To set a managed DVM source to use the AC Quasi-Square-Wave subcircuit, the source symbol must be set to support AC line sources. Then, to set the source definition to a AC QSW source, place a AcQsw() testplan entry in a Source column.
The AcQsw() testplan entry has the following syntax with the arguments taken from the list of AC Quasi-Square-Wave Input Source Parameters above.
AcQsw(REF, LINE_RANGE, AC_VOLTAGE1, FREQUENCY, PULSE_WIDTH, RISE_TIME) AcQsw(REF, LINE_RANGE, AC_VOLTAGE1, FREQUENCY, PULSE_WIDTH, RISE_TIME, OPTIONAL_PARAMETER_STRING)
Argument | Range | Description |
REF | n/a | The actual reference designator of the DVM Source or the generic syntax of INPUT:n where n is an integer indicating a position in the list of DVM sources. |
LINE_RANGE | LL or HL | The line range to select the correct symbolic voltage value. This can only be the two strings LL or HL. |
AC_VOLTAGE1 | min:0 | The pulse voltage for the input source. The voltage can be a numeric value or a symbolic value, such as a percentage of nominal input voltage. Symbolic values use the LINE_RANGE parameter to find the correct symbolic value. |
FREQUENCY | min: > 0 | The AC line frequency of the input source. This is used to both set the frequency of the input source and to set the simulation timing. The frequency can be a numeric or a symbolic value, such as F_High or F_Low. |
PULSE_WIDTH | min:>0 | The pulse duration of the source |
RISE_TIME | min:>0 | The rise and fall times of the source |
OPTIONAL_PARAMETER_STRING | n/a | Parameter string with any of the other parameters from the parameter table above* |
parameter_name1=parameter_value1 parameter_name2=parameter_value2The order of the parameter key-value pairs does not matter.
This example uses the optional parameter LINE_PHASEANGLE set to 90°. The pulse width is set to 30% of the period and the rise time to 5% of the period.