CAN FD Unpack
Unpack individual signals from CAN FD messages
Libraries:
Vehicle Network Toolbox /
CAN FD Communication
C2000 Microcontroller Blockset /
Target Communication
Simulink Real-Time /
CAN /
CAN-FD MSG blocks
Description
The CAN FD Unpack block unpacks a CAN FD message into signal data by using the specified output parameters at every time step. Data is output as individual signals.
To use this block, you also need a license for Simulink® software.
The CAN FD Unpack block supports:
Simulink accelerator mode. You can speed up the execution of Simulink models. For more information, see Acceleration.
Tip
To process every message coming through a channel, it is recommended that you use the CAN FD Unpack block in a function trigger subsystem. See Using Triggered Subsystems.
To work with J1939 messages, use the blocks in the J1939 Communication block library instead of this block.
Ports
Input
Msg — CAN FD message input
CAN_FD_MESSAGE_BUS
This block has one input port, Msg. The CAN FD Unpack block takes the specified input CAN messages and unpacks their signal data to separate outputs.
The block supports the following input signal data types: single, double, int8, int16, int32, int64, uint8, uint16, uint32, uint64, and boolean. The block does not support fixed-point data types.
Output
Data — CAN message output
single | double | int8 | int16 | int32 | int64 | uint8 | uint16 | uint32 | uint64 | boolean
The CAN FD Unpack block has one output port by default. The number of data output ports is dynamic and depends on the number of signals you specify for the block to output. For example, if your block has four signals, it has four output ports, labeled by signal name.
For manually or CANdb specified signals, the default output signal data type is double. To specify other types, use a Signal Specification block. This allows the block to support the following output signal data types: single, double, int8, int16, int32, int64, uint8, uint16, uint32, uint64, and boolean. The block does not support fixed-point types.
Additional output ports can be added by the options in the parameters Output ports pane.
Parameters
Data to output as — Select your data signal
raw data
(default) | manually specify signals
| CANdb specified signals
raw data
: Output data as a uint8 vector array. If you select this option, you specify only the message fields. The other signal parameter fields are unavailable. This option opens only one output port on your block.The conversion formula is:
wherephysical_value = raw_value * Factor + Offset
raw_value
is the unpacked signal value andphysical_value
is the scaled signal value.manually specified signals
: You can specify data signals. If you select this option, use theSignals
table to create your signals message manually. The number of output ports on your block depends on the number of signals that you specify. For example, if you specify four signals, your block has four output ports.CANdb specified signals
: You can specify a CAN database file that contains data signals. If you select this option, select a CANdb file. The number of output ports on your block depends on the number of signals specified in the CANdb file. For example, if the selected message in the CANdb file has four signals, your block has four output ports.
Programmatic Use
Block Parameter:
DataFormat
|
Type:
string | character vector
|
Values:
'raw data' | 'manually specified signals' |
'CANdb specified signals'
|
Default:
'raw data'
|
CANdb file — CAN database file
character vector
This option is available if you specify that your data is input via a CANdb file in the Data to be output as list. Click Browse to find the CANdb file on your system. The messages and signal definitions specified in the CANdb file populate the Message section of the dialog box. The signals specified in the CANdb file populate the Signals table. File names that contain non-alphanumeric characters such as equal signs, ampersands, and so forth, are not valid CAN database file names. You can use periods in your database name. Rename CAN database files with non-alphanumeric characters before you use them.
Programmatic Use
Block Parameter:
CANdbFile
|
Type:
string | character vector
|
Message list — Message list
array of character vectors
This option is available if you specify in the Data to be output as list that your data is to be output as a CANdb file and you select a CANdb file in the CANdb file field. You can select the message that you want to view. The Signals table then displays the details of the selected message.
Programmatic Use
Block Parameter:
MsgList
|
Type:
string | character vector
|
Name — Message name
CAN Msg
(default) | character vector
Specify a name for your message. The default is Msg
. This option
is available if you choose to output raw data or manually specify signals.
Programmatic Use
Block Parameter:
MsgName
|
Type:
string | character vector
|
Identifier type — Identifier type
Standard (11-bit identifier)
(default) | Extended (29-bit identifier)
Specify whether your message identifier is a Standard
or an
Extended
type. The default is Standard
. A
standard identifier is an 11-bit identifier and an extended identifier is a 29-bit
identifier. This option is available if you choose to output raw data or manually
specify signals. For CANdb-specified signals, the Identifier type
inherits the type from the database.
Programmatic Use
Block Parameter:
MsgIDType |
Type:
string | character vector |
Values:
'Standard (11-bit identifier)' | 'Extended (29-bit
identifier)' |
Default:
'Standard (11-bit identifier)'
|
Identifier — Message identifier
0
(default) | 0 .. 536870911
Specify your message ID. This number must be an integer from 0 through 2047 for a
standard identifier and from 0 through 536870911 for an extended identifier. If you
specify –1
, the block unpacks the messages that match the length
specified for the message. You can also specify hexadecimal values using the hex2dec
function. This option is available if you choose to output raw
data or manually specify signals.
Programmatic Use
Block Parameter:
MsgIdentifier |
Type:
string | character vector |
Values:
'0' to '536870911' |
Length (bytes) — CAN message length
8
(default) | 0 .. 8
Specify the length of your message. For CAN messages the value can be 0-8 bytes; for
CAN FD the value can be 0-8, 12, 16, 20, 24, 32, 48, or 64 bytes. If you are using
CANdb specified signals
for your output data, the CANdb file
defines the length of your message. This option is available if you choose to output raw
data or manually specify signals.
Programmatic Use
Block Parameter:
MsgLength
|
Type:
string | character vector |
Values:
'0' to '8' , '12' ,
'16' , '20' , '24' ,
'32' , '48' , '64' |
Default:
'8'
|
Add signal — Add CAN signal
Add a signal to the signal table.
Programmatic Use
None
Delete signal — Remove CAN signal
Remove the selected signal from the signal table.
Programmatic Use
None
Signals — Signals table
table
If you choose to specify signals manually or define signals by using a CANdb file, this table appears.
If you are using a CANdb file, the data in the file populates this table and you cannot edit the fields. To edit signal information, switch to specified signals.
If you have selected to specify signals manually, create your signals manually in this table. Each signal that you create has these values:
- Name
Specify a descriptive name for your signal. The Simulink block in your model displays this name. The default is
Signal [row number]
.- Start bit
Specify the start bit of the data. The start bit is the least significant bit counted from the start of the message data. For CAN the start bit must be an integer from 0 through 63, for CAN FD 0 through 511, within the number of bits in the message. (Note that message length is specified in bytes.)
- Length (bits)
Specify the number of bits the signal occupies in the message. The length must be an integer from 1 through 64. The sum of all the signal lengths in a message is limited to the number of bits in the message length; that is, all signals must cumulatively fit within the length of the message. (Note that message length is specified in bytes and signal length in bits.)
- Byte order
Select either of the following options:
LE
: Where the byte order is in little-endian format (Intel®). In this format you count bits from the least-significant bit to the most-significant bit and proceeding to the next higher byte as you cross a byte boundary. For example, if you pack one byte of data in little-endian format, with the start bit at 20, the data bit table resembles this figure.Little-Endian Byte Order Counted from the Least Significant Bit to the Highest Address
BE
: Where the byte order is in big-endian format (Motorola®). In this format you count bits from the least-significant bit to the most-significant bit and proceeding to the next lower byte as you cross a byte boundary. For example, if you pack one byte of data in big-endian format, with the start bit at 20, the data bit table resembles this figure.Big-Endian Byte Order Counted from the Least Significant Bit to the Lowest Address
- Data type
Specify how the signal interprets the data in the allocated bits. Choose from:
signed
(default)unsigned
single
double
Note: If you have a
double
signal that does not align exactly to the message byte boundaries, to generate code with Embedded Coder® you must check Support long long under Device Details in the Hardware Implementation pane of the Configuration Parameters dialog.
- Multiplex type
Specify how the block unpacks the signals from the message at each time step:
Standard
: The signal is unpacked at each time step.Multiplexor
: TheMultiplexor
signal, or the mode signal is unpacked. You can specify only oneMultiplexor
signal per message.Multiplexed
: The signal is unpacked if the value of theMultiplexor
signal (mode signal) at run time matches the configured Multiplex value of this signal.
For example, a message has four signals with these values.
Signal Name Multiplex Type Multiplex Value Signal-A Standard Not applicable Signal-B Multiplexed 1 Signal-C Multiplexed 0 Signal-D Multiplexor Not applicable In this example:
The block unpacks Signal-A (Standard signal) and Signal-D (Multiplexor signal) in every time step.
If the value of Signal-D is 1 at a particular time step, then the block unpacks Signal-B along with Signal-A and Signal-D in that time step.
If the value of Signal-D is 0 at a particular time step, then the block unpacks Signal-C along with Signal-A and Signal-D in that time step.
If the value of Signal-D is not 1 or 0, the block does not unpack either of the Multiplexed signals in that time step.
- Multiplex value
This option is available only if you have selected the Multiplex type to be
Multiplexed
. The value you provide here must match theMultiplexor
signal value at run time for the block to unpack theMultiplexed
signal. The Multiplex value must be a positive integer or zero.- Factor
Specify the Factor value applied to convert the unpacked raw value to the physical value (signal value). For more information, see the Data input as parameter conversion formula.
- Offset
Specify the Offset value applied to convert the physical value (signal value) to the unpacked raw value. For more information, see the Data input as parameter conversion formula.
- Min, Max
Define a range of raw signal values. The default settings are
-Inf
(negative infinity) andInf
, respectively. For CANdb specified signals, these settings are read from the CAN database. For manually specified signals, you can specify the minimum and maximum physical value of the signal. By default, these settings do not clip signal values that exceed them.
Programmatic Use
Block Parameter:
SignalInfo
|
Type:
string | character vector |
Output identifier — Add CAN ID output port
off
(default) | on
Select this option to output a CAN message identifier. The data type of this port is
uint32
.
Programmatic Use
Block Parameter:
IDPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output timestamp — Add Timestamp output port
off
(default) | on
Select this option to output the message timestamp. This value indicates when the
message was received, measured as the number of seconds elapsed since the model
simulation began. This option adds a new output port to the block. The data type of this
port is double
.
Programmatic Use
Block Parameter:
TimestampPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output error — Add Error output port
off
(default) | on
Select this option to output the message error status. This option adds a new output
port to the block. An output value of 1
on this port indicates that
the incoming message is an error frame. If the output value is 0
,
there is no error. The data type of this port is uint8
.
Programmatic Use
Block Parameter:
ErrorPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output remote — Add Remote output port
off
(default) | on
Select this option to output the message remote frame status. This option adds a new
output port to the block. The data type of this port is uint8
.
Programmatic Use
Block Parameter:
RemotePort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output length — Add Length output port
off
(default) | on
Select this option to output the length of the message in bytes. This option adds a
new output port to the block. The data type of this port is
uint8
.
Programmatic Use
Block Parameter:
LengthPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output status — Add Status output port
off
(default) | on
Select this option to output the message received status. The status is
1
if the block receives new message and 0
if it
does not. This option adds a new output port to the block. The data type of this port is
uint8
.
Programmatic Use
Block Parameter:
StatusPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output Bit Rate Switch (BRS) — Add BRS output port
off
(default) | on
(Disabled for CAN protocol.) Select this option to output the message bit rate
switch. This option adds a new output port to the block, which indicates if the CAN FD
message bit rate switch is set. The data type of this port is
boolean
, indicating whether the bit rate for the data phase of the
message is faster (true
) or the same (false
) as
the bit rate of the arbitration phase.
For more information on BRS, see CAN FD - The basic idea.
Programmatic Use
Block Parameter:
BRSPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output Error Status Indicator (ESI) — Add ESI output port
off
(default) | on
(Disabled for CAN protocol.) Select this option to output the message error status.
This option adds a new output port to the block. The data type of this port is
boolean
, indicating if the CAN FD message error state indicator
flag is set.
For more information on ESI, see CAN FD - The basic idea.
Programmatic Use
Block Parameter:
ESIPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Output Data Length Code (DLC) — Add DLC output port
off
(default) | on
(Disabled for CAN protocol.) Select this option to output the message data length.
This option adds a new output port to the block. The data type of this port is
double
.
Programmatic Use
Block Parameter:
DLCPort
|
Type:
string | character vector |
Values:
'off' | 'on' |
Default:
'off'
|
Extended Capabilities
C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.
Version History
Introduced in R2018a
See Also
Blocks
Topics
- Supported Block Features (Vehicle Network Toolbox)
- Design Your Model for Effective Acceleration
- Composite Interfaces
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