PWM Interface
Libraries:
SoC Blockset /
Peripherals
C2000 Microcontroller Blockset /
Test Bench Blocks
Embedded Coder Support Package for Infineon AURIX TC3x Microcontrollers /
Test Bench Blocks
Embedded Coder Support Package for Infineon AURIX TC4x Microcontrollers /
Test Bench Blocks
Description
The PWM Interface block simulates the PWM output of a hardware board. This blocks gets duty cycle data messages from a connected PWM Write block that can either generate a switching pulse-width-modulated waveform or pass the duty cycle value to the output.
Ports
Input
msg — SoC message data
numeric vector
This port receives the duty cycle data from the msg port of a connected PWM Write block.
Data Types: SoCData
Output
PWM — Pulse-width-modulated signal
scalar
This port outputs the pulse-width-modulated rectangular wave defined by the dCycle input port.
Dependencies
To enable this port, set the Output mode parameter to
Switching
.
Data Types: double
~PWM — Complimentary pulse-width-modulated signal
scalar
This port outputs the complimentary PWM signal.
Dependencies
To enable this port, set the Output mode parameter to
Switching
.
Data Types: double
dCycle — Analog approximation of pulse-width-modulated signal
scalar
This port emits the averaged value of the PWM waveform, which is a pass-through of the duty cycle input value. This image shows the average output signal equivalent to the PWM output.
Dependencies
To enable this port, set the Output mode parameter to
Average
.
Data Types: double
event — Event emitted on each PWM cycle
scalar
This port sends a message during each PWM output event that can connect to the start port of the ADC Interface block to synchronize ADC and PWM events in closed-loop systems.
Dependencies
To enable this port, the Type parameter must be set to
ADC start
or ADC start and PWM
interrupt
.
Data Types: rteEvent
eventn
— Replicate event emitted on each PWM cycle
scalar
This port creates a replica port of the event output port to coordinate multiple ADC modules with the PWM module.
Dependencies
To enable this port, set the Type parameter to
ADC start
or ADC start and PWM
interrupt
and the Number of replicas parameter
to a value greater than or equal to 2.
Data Types: rteEvent
interrupt — Interrupt event emitted on each PWM cycle
scalar
This port sends a message during each PWM output event that can connect to the Task Manager block to trigger other tasks in response to the PWM output update.
Dependencies
To enable this parameter, set the Type parameter to
PWM interrupt
or ADC start and PWM
interrupt
.
Data Types: rteEvent
Parameters
Main
PWM waveform period (s) — Period of PWM waveform
50e-6
(default) | positive scalar
Specify the period of the PWM waveform in seconds.
Note
For PWM waveform period (s)
of 10ns, the duty cycle must be
greater than 1%.
Output mode — Output mode
Switching
(default) | Average
Simulate the output signal as either a true PWM waveform by specifying
Switching
or as the average of the duty cycle by specifying
Average
.
Example: Switching
Counter mode — Counter waveform
Up-Down
(default) | Up
| Down
The counter mode specifies the shape of the underlying sawtooth waveform that
drives the PWM output signal inside the PWM module. In Up
mode, the
sawtooth counter increments to the maximum and then resets to zero on each period. In
Down
mode, the sawtooth counter decrements to zero then resets to
the maximum. In Up-Down
mode, the sawtooth counter oscillates from
zero to the maximum value.
Example: Up
Sampling mode — Sampling mode
End of PWM period
(default) | Mid or End of PWM period
| Immediate (at compare matches)
Specify the time at which the input duty cycle is sampled.
Example: Mid or End of PWM period
Dead time (s) — Dead band switching delay
1e-6
(default) | positive scalar
A time delay is introduced between turning off one of the transistors of a leg of an inverter and turning on the other transistor to ensure that a dead short circuit does not occur. This diagram shows the expected duty cycle and the delay introduced by the transistor switching the dead band.
Example: 450e-9
PWM Output
At position
of period — Signal change at position in period
High
| Low
| Change
| NoChange
Specify the state of the PWM waveform signal at the
position
in the waveform relative to the total period.
When set to High
or Low
, the
waveform output changes to 1
or 0
, respectively.
When set to Change
, the waveform inverts the current value.
When set to NoChange
, the waveform does not change. The
position
can either be the start
or
mid
point of the PWM waveform. This table gives the default
settings for these parameters.
Parameter | Default |
---|---|
At start of period | High |
At mid of period | NoChange |
Dependencies
At mid of period
is only available when the Counter
mode parameter is set to Up-Down.
At compare n
— Signal change at comparator n trigger
High
| Low
| Change
| NoChange
Specify the state of the PWM waveform signal when the internal PWM counter
triggers comparator n
. When set to
High
or Low
, the waveform
output changes to 1
or 0
, respectively. When set
to Change
, the waveform inverts the current value. When set
to NoChange
, the waveform does not change. Two comparators,
1
and 2
, are available to modify the PWM
signal. This table gives the default settings for these parameters.
Parameter | Default |
---|---|
At compare 1 | Low |
At compare 2 | NoChange |
Dependencies
At compare 1 and At compare 2
parameters are only available when the Counter mode parameter
is set to Up
or Down
.
At compare n
direction
count — Signal change at comparator n trigger
High
| Low
| Change
| NoChange
Specify the state of the PWM waveform signal when the internal PWM counter crosses
the comparator n
value in the specified
direction
. When set to High
or
Low
, the waveform output changes to 1
or 0
, respectively. When set to Change
,
the waveform inverts the current value. When set to
NoChange
, the waveform does not change. Two comparators,
1
and 2
, are available to modify the PWM
signal. This table gives the default settings for these parameters.
Parameter | Default |
---|---|
At compare 1 up count | Low |
At compare 1 down count | High |
At compare 2 up count | NoChange |
At compare 2 down count | NoChange |
Dependencies
These arguments are only available when the Counter mode
parameter is set to Up-Down
.
Phase
Phase offset in degree (0-360) — PWM waveform offset
scalar from 0
to 360
Specify the phase of the PWM waveform relative period of waveform. The phase is
represented as a scalar between 0
to 360
degrees.
Event
Type — Type of events to generate
ADC start
(default) | PWM interrupt
| ADC start and PWM interrupt
Specify the types of events on which to generate events. When the Typevalue is set to:
ADC start
— Generate an event to trigger the start ADC conversion.PWM interrupt
— Generate an interrupt event to trigger the start of a task.ADC start and PWM interrupt
— Generate events for both ADCs and tasks.
Example: ADC start and PWM interrupt
ADC start condition — Trigger mode relative to PWM waveform
End of PWM period
(default) | Mid of PWM period
| Mid or End of PWM period
| Compare 1 up count
| Compare 1 down count
| Compare 2 up count
| Compare 2 down count
Specify when this block triggers an event relative to the PWM waveform.
Example: Mid or End of PWM period
Dependencies
To enable this parameter, the Type parameter must be set to
ADC start
or ADC start and PWM
interrupt
.
Generate on — Generate event on multiple of PWM update
1st event
(default) | n
th event
| 16th event
n
th eventSpecify to generate and output an ADC trigger event on the specified multiple of
the PWM vent. For example, if Generate on is set to the
6th event
, the PWM Interface block
receives 6 messages updates the output 6 times before generating an ADC event
message.
Example: 4th event
Dependencies
To enable this parameter, the Type parameter must be set to
ADC start
or ADC start and PWM
interrupt
.
Number of replicas — Generate replica event ports
1
(default) | integer from 1
to 16
Generate replica ADC event ports and events on the block. Use this coordinate the triggering of multiple ADCs modules from a single PWM Interface block.
Example: 4
Dependencies
To enable this parameter, the Type parameter must be set to
ADC start
or ADC start and PWM
interrupt
.
PWM interrupt condition — Trigger mode relative to PWM waveform
End of PWM period
(default) | Mid of PWM period
| Mid or End of PWM period
| Compare 1 up count
| Compare 1 down count
| Compare 2 up count
| Compare 2 down count
Specify when this block triggers an interrupt event relative to the PWM waveform.
Example: Mid or End of PWM period
Dependencies
To enable this parameter, the Type parameter must be set to
PWM interrupt
or ADC start and PWM
interrupt
.
Interrupt latency (s) — Interrupt generation latency
0
(default) | positive number
Specify the time required by the PWM hardware module from the completion of the output update to the generation of the interrupt in software.
Example: 0.00001
Dependencies
To enable this parameter, the Type parameter must be set to
PWM interrupt
or ADC start and PWM
interrupt
.
Generate on — Generate event on multiple of PWM update
1st event
(default) | n
th event
| 16th event
n
th eventSpecify to generate and output a PWM interrupt trigger event on the specified
multiple of the PWM vent. For example, if Generate on is set to
the 6th event
, the PWM Interface block
receives 6 messages updates the output 6 times before generating an PWM interrupt
event message.
Example: 4th event
Dependencies
To enable this parameter, the Type parameter must be set to
PWM interrupt
or ADC start and PWM
interrupt
.
Extended Capabilities
C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.
To automatically generate C code for your design, and execute on an SoC device, use the SoC Builder (SoC Blockset) tool. To generate and execute C code for your SoC models, Embedded Coder® features are required. For more information on generating code for SoC designs, see Generate Code and Deploy Using SoC Builder for Infineon® AURIX™ TC3x and Generate Code and Deploy Using SoC Builder for Infineon AURIX TC4x microcontrollers.
Version History
Introduced in R2020b
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