The Cosine Waveform Source subcircuit models a time-varying source with a cosinusoidal voltage. At time=0, the source begins at the FINAL_VOLTAGE value and has a cosine function. In DVM, the Cosine Waveform Source is not used in any test objectives, but you can change any source to a cosine source with a Cos() function call in a Source column.
Other similar sources include:
In this topic:
DVM Information | Power Supply (Non-DVM) Information | |
Model Name | Cosine Waveform Source | |
Simulator | This device is compatible with both the SIMetrix and SIMPLIS simulators. | |
Parts
Selector Menu Location |
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Symbol Library | SIMPLIS_DVM_ADVANCED.sxslb | power_supply_source_and_loads.sxslb |
Model File | SIMPLIS_DVM_ADVANCED.lb | power_supply_source_and_loads.lb |
Subcircuit Name | SIMPLIS_DVM_ADVANCED_SOURCE_COS | POWER_SUPPLY_SOURCE_COS |
Symbols | ||
Schematic |
Note: Power Supply probes will not have the "DVM" prefix.
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The following table explains the relevant parameters.
Parameter Name | Default | Data Type | Range | Units | Parameter Description |
COEFFICIENT | 0 | Real | The damping coefficient for the cosinusoidal source voltage. If non-zero, the cosinusoidal source voltage amplitude will decay with a time constant equal to ???MATH???\frac{1}{\text{COEFFICIENT}}???MATH???. | ||
FINAL_VOLTAGE | 750m | Real | V | The peak to peak voltage for the source. This can be a numeric value or a symbolic value, such as a percentage of nominal input voltage. | |
FREQUENCY | 10k | Real | min: > 0 | Hz | The frequency of the cosine waveform source |
IDLE_IN_POP | 0 | Real | 0 or 1 | If set to 0, the source voltage during the POP analysis is set to the peak value of the source which is ???MATH???\frac{1}{2}\times\(text{FINAL_VOLTAGE}+\text{START_VOLTAGE}???MATH???; otherwise, the source will be active during the POP analysis. | |
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 |
OFF_UNTIL_DELAY | 0 | Real | 0 or 1 | If set to 1, the source voltage will be START_VOLTAGE until the time specified by TIME_DELAY. If set to 0, the value of TIME_DELAY is interpreted as a phase delay. | |
PHASE_ANGLE | 90 | Real | ° | The phase angle of the cosinusoidal waveform, used only if the USE_PHASE parameter is 1. | |
START_VOLTAGE | 0 | Real | V | The minimum or starting voltage for the cosine waveform source. This can be a numeric value or a symbolic value, such as a percentage of nominal input voltage. | |
TIME_DELAY | 10u | Real | min: 0 | s | The delay before the cosinusoid starts. The source behavior before the TIME_DELAY is determined by the OFF_UNTIL_DELAY parameter. |
USE_PHASE | 0 | Real | 0 or 1 | If set to 1, the source is configured to use the phase angle supplied by the PHASE_ANGLE parameter. |
To set any managed DVM source to a Cosine Waveform Source subcircuit, place a Cos() testplan entry in a Source column.
The Cos() testplan entry has the following syntax with the arguments taken from the list of parameters above.
Cos(REF, START_VOLTAGE, FINAL_VOLTAGE, FREQUENCY) Cos(REF, START_VOLTAGE, FINAL_VOLTAGE, FREQUENCY, OPTIONAL_PARAMETER_STRING)
Argument | Range | Description |
REF | n/a | The actual reference designator of the DVM source or the more generic syntax of INPUT:n where n is an integer indicating a position in the list of DVM sources. |
START_VOLTAGE | n/a | The minimum or starting voltage for the cosine waveform source. This can be a numeric value or a symbolic value, such as a percentage of nominal input voltage. |
FINAL_VOLTAGE | n/a | The peak or maximum voltage for the cosine wave source. This can be a numeric value or a symbolic value, such as a percentage of nominal input voltage. |
FREQUENCY | min: > 0 | The frequency of the cosine waveform source. |
OPTIONAL_PARAMETER_STRING | n/a | Parameter string with any of the other parameters from the parameter table above* |
* If multiple parameters are specified, join the parameter key-value pairs with a space, as shown in the examples below. The order of the parameter names does not matter.
The following examples set the first DVM managed source to a Cosine Waveform Source with a starting voltage of 2V and a peak-to-peak voltage of 4V. The timing parameters and the optional parameter strings are different for each example.
Since the TIME_DELAY parameter is set to zero, the waveform begins with the START_VOLTAGE + FINAL_VOLTAGE divided by 2 at t=0.
*?@ Source |
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Cos(INPUT:1 , 2 , 4 , 10k , TIME_DELAY=0u) |
The results of this testplan entry are shown below:
In this example, the TIME_DELAY parameter is set to 60μs. Since the OFF_UNTIL_DELAY parameter is not specified, the TIME_DELAY is interpreted as a phase delay, meaning that the waveform is active from time=0.
*?@ Source |
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Sin(INPUT:1 , 2 , 4 , 10k , TIME_DELAY=60u) |
The results of this testplan entry are shown below:
In this example the TIME_DELAY parameter is set to 60us, and the OFF_UNTIL_DELAY is set to 1; therefore, for simulation times less than the TIME_DELAY parameter, the source voltage is 2V, which is the value of the START_VOLTAGE argument.
*?@ Source |
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Cos(INPUT:1 , 2 , 4 , 10k , OFF_UNTIL_DELAY=1 TIME_DELAY=60u) |
The results of this testplan entry are shown below:
In this example, the USE_PHASE parameter is set to 1, and the PHASE_ANGLE parameter is set to 60. Setting USE_PHASE to 1 configures the source to use the PHASE_ANGLE parameter to determine the effective time delay. The time delay is calculated by:
\[ \text{TIME_DELAY} = \frac{\text{PHASE_ANGLE}}{\text{360*FREQUENCY}} \]
*?@ Source |
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Cos(INPUT:1 , 2 , 4 , 10k , USE_PHASE=1 PHASE_ANGLE=60) |
The results of this testplan entry are shown below:
In this example the PHASE_ANGLE parameter is set to 60, and the OFF_UNTIL_DELAY is set to 1; therefore, for simulation times less than the time delay defined by the PHASE_ANGLE parameter, the source voltage is 2V, which is the value of the START_VOLTAGE argument.
*?@ Source |
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Cos(INPUT:1 , 2 , 4 , 10k , OFF_UNTIL_DELAY=1 USE_PHASE=1 PHASE_ANGLE=60) |
The results of this testplan entry are shown below:
To change a Power Supply source to a DVM source, right click the symbol to bring up the context menu, and select the menu option: Upgrade to DVM Source/Load
To change a DVM source to a Power Supply source, right click the symbol to bring up the context menu, and select the menu option: Downgrade to SIMetrix/SIMPLIS Source/Load