Difference between revisions of "Common xPC Blocks"

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__NOTOC__
<h3>Common Blocks</h3>


The xPC blocks are found by opening up simulink and expanding the "xPC Target" menu to the left. It looks like this:
<ul>
[[image:xpcblocks00.jpg|center|400px]]
<li><div class="cmd">xPC Target \ Misc. \ Scope (xPC)</div>
Below you will find a list of commonly used blocks and those used specifically with the Sensoray 526 data aquisition board. The pictures will show how they could be used in common applications.
<p>The target scopes are used to display data on the xPC screen. This requires the target PC to be connected to a monitor. These scopes can either plot data over time or display numerical values. Signals can be muxed to display on the same scope or multiple scopes can be used. The scope shown below will show two sin waves (one inverted).


<ul><li><h3>xPC Target \ Misc. \ Scope (xPC)</h3>
<center>
The target scopes are used to display data on the xPC screen. This requires the target PC to be connected to a monitor. These scopes can either plot data over time or display numerical values. Signals can be muxed to display on the same scope or multiple scopes can be used. The scope shown below will show two sin waves (one inverted).
<table><tr>
<center><table><tr>
<td><a href="pics/xpcblocks01.JPG"><img src="pics/xpcblocks01.JPG" border="0"></a></td>
<td>[[image:xpcblocks01.jpg|center|400px]]</td>
<td><a href="pics/xpcblocks01b.JPG"><img src="pics/xpcblocks01b.JPG" border="0"></a></td>
<td>[[image:xpcblocks01b.jpg|center|400px]]</td>
</tr></table>
</center>
</tr></table></center>
</li>


<li><h3>xPC Target \ D/A \ Sensoray \ Sensoray526 DA</h3>
<p>
This block is used to output analog signals on the Analog Out pins. You cannot mux signals to this block. You must specify which pins you are using in the Block Parameters and connect the individual signals, as shown below.
<li><div class="cmd">xPC Target \ D/A \ Sensoray \ Sensoray526 DA</div>
<center><table><tr>
<p>This block is used to output analog signals on the Analog Out pins. You cannot mux signals to this block. You must specify which pins you are using in the Block Parameters and connect the individual signals, as shown below.
<td>[[image:xpcblocks02.jpg|center|400px]]</td>
<center>
<td>[[image:xpcblocks03.jpg|center|400px]]</td>
<table><tr>
</tr></table></center>
<td><a href="pics/xpcblocks02.JPG"><img src="pics/xpcblocks02.JPG" border="0"></a></td>
</li>
<td><a href="pics/xpcblocks03.JPG"><img src="pics/xpcblocks03.JPG" border="0"></a></td>
</tr></table>
</center>


<li><h3>xPC Target \ A/D \ Sensoray \ Sensoray526 AD 1</h3>
<p>
This block is used to read values from the Analog-IN pins on the Sensoray board. The pins have to be individually specified, as shown below.
<li><div class="cmd">xPC Target \ A/D \ Sensoray \ Sensoray526 AD 1</div>
<center><table><tr>
<p>This block is used to read values from the Analog-IN pins on the Sensoray board. The pins have to be individually specified, as shown below.
<td>[[image:xpcblocks04.jpg|center|400px]]</td>
<center>
<td>[[image:xpcblocks05.jpg|center|400px]]</td>
<table><tr>
</tr></table></center>
<td><a href="pics/xpcblocks04.JPG"><img src="pics/xpcblocks04.JPG" border="0"></a></td>
</li>
<td><a href="pics/xpcblocks05.JPG"><img src="pics/xpcblocks05.JPG" border="0"></a></td>
</tr></table>
</center>


<li><h3>xPC Target \ Digital Input \ Sensoray \ Sensoray526 DI</h3>
<p>
This block returns High (1) or Low (0) depending on the status of the defined pins. The block below shows how port one enabling the display of pin 2 on a Target Scope.
<li><div class="cmd">xPC Target \ Digital Input \ Sensoray \ Sensoray526 DI</div>
<center><table><tr>
<p>This block returns High (1) or Low (0) depending on the status of the defined pins. The block below shows how port one enabling the display of pin 2 on a Target Scope.
<td>[[image:xpcblocks06.jpg|center|400px]]</td>
<center>
<td>[[image:xpcblocks07.jpg|center|400px]]</td>
</tr></table></center>
</li>


<li><h3>xPC Target \ Digital Output \ Sensoray \ Sensoray526 DO</h3>
<table><tr>
This block outputs High (1) or Low (0) to the defined Digital Out pins. You must specify the initial values and reset values of these pins. <b>NOTE: If you are using the BoB, you will need to set the initial and reset values to 1's because the pins are inverted (refer to the hardware documentation)</b>
<td><a href="pics/xpcblocks06.JPG"><img src="pics/xpcblocks06.JPG" border="0"></a></td>
<center><table><tr>
<td><a href="pics/xpcblocks07.JPG"><img src="pics/xpcblocks07.JPG" border="0"></a></td>
<td>[[image:xpcblocks08.jpg|center|400px]]</td>
</tr></table>
<td>[[image:xpcblocks09.jpg|center|400px]]</td>
</center>
</tr></table></center>
</li>


<li><h3>xPC Target \ Incremental Encoder \ Sensoray \ Sensoray526 ENC</h3>
<p>
This block outputs the counts from an incremental encoder. The encoder starts counting from a specified value (usually zero). You have to use a separate block for each encoder, specifying the channel for each.
<li><div class="cmd">xPC Target \ Digital Output \ Sensoray \ Sensoray526 DO</div>
<center><table><tr>
<p>This block outputs High (1) or Low (0) to the defined Digital Out pins. You must specify the initial values and reset values of these pins. <b>NOTE: If you are using the BoB, you will need to set the initial and reset values to 1's because the pins are inverted (refer to the hardware documentation)</b>
<td>[[image:xpcblocks10.jpg|center|400px]]</td>
<center>
<td>[[image:xpcblocks11.jpg|center|400px]]</td>
<table><tr>
</tr></table></center>
<td><a href="pics/xpcblocks08.JPG"><img src="pics/xpcblocks08.JPG" border="0"></a></td>
</li>
<td><a href="pics/xpcblocks09.JPG"><img src="pics/xpcblocks09.JPG" border="0"></a></td>
</tr></table>


<li><h3>Simulink \ Signal Routing \ Data Store (Memory, Read, Write)</h3>
</center>
These blocks are used to store values in local memory during execution. This is especially useful for storing states over each timestep, such as position or heading. You must use the Data Store Memory block to define a variable name and reserve a place for it in the memory. You can then change the value using the Data Store Write block and read the value back using the Data Store Read block. For the Read/Write blocks, you must edit the Parameters to specify the name of the variable. The model below will create a variable called "A" and will add 1 to it (starts from zero) each timestep.

<center><table><tr>
<p>
<td>[[image:xpcblocks12.jpg|center|400px]]</td>
<li><div class="cmd">xPC Target \ Incremental Encoder \ Sensoray \ Sensoray526 ENC</div>
<td>[[image:xpcblocks13.jpg|center|400px]]</td>
<p>This block outputs the counts from an incremental encoder. The encoder starts counting from a specified value (usually zero). You have to use a separate block for each encoder, specifying the channel for each.
<center>
<table><tr>
<td><a href="pics/xpcblocks10.JPG"><img src="pics/xpcblocks10.JPG" border="0"></a></td>
<td><a href="pics/xpcblocks11.JPG"><img src="pics/xpcblocks11.JPG" border="0"></a></td>
</tr></table>
</center>

<p>
<li><div class="cmd">Simulink \ Signal Routing \ Data Store (Memory, Read, Write)</div>
<p>These blocks are used to store values in local memory during execution. This is especially useful for storing states over each timestep, such as position or heading. You must use the Data Store Memory block to define a variable name and reserve a place for it in the memory. You can then change the value using the Data Store Write block and read the value back using the Data Store Read block. For the Read/Write blocks, you must edit the Parameters to specify the name of the variable. The model below will create a variable called "A" and will add 1 to it (starts from zero) each timestep.

<center>
<table><tr>
<td><a href="pics/xpcblocks12.JPG"><img src="pics/xpcblocks12.JPG" border="0"></a></td>
<td><a href="pics/xpcblocks13.JPG"><img src="pics/xpcblocks13.JPG" border="0"></a></td>
</tr><tr>
</tr><tr>
<td><a href="pics/xpcblocks14.JPG"><img src="pics/xpcblocks14.JPG" border="0"></a></td>
<td>[[image:xpcblocks14.jpg|center|400px]]</td>
<td><a href="pics/xpcblocks15.JPG"><img src="pics/xpcblocks15.JPG" border="0"></a></td>
<td>[[image:xpcblocks15.jpg|center|400px]]</td>
</tr></table>
</tr></table></center>
</center>
</li>


<li><h3>Simulink \ Sinks \ Out1</h3>
<p>
You can use this block in an xPC model to record data. This data is available after execution has finished by reading tg.OutputLog. You can mux signals into this block and tg.OutputLog will be a matrix instead of an array.
<li><div class="cmd">Simulink \ Sinks \ Out1</div>
<p>You can use this block in an xPC model to record data. This data is available after execution has finished by reading tg.OutputLog. You can mux signals into this block and tg.OutputLog will be a matrix instead of an array.
<center>
<a href="pics/xpcblocks16.JPG"><img src="pics/xpcblocks16.JPG" border="0"></a>
</center>


[[image:xpcblocks16.jpg|center|400px]]
</li>
</ul>
</ul>

[[Category:xPC|Simulink]]

Latest revision as of 12:23, 18 May 2006


The xPC blocks are found by opening up simulink and expanding the "xPC Target" menu to the left. It looks like this:

Xpcblocks00.jpg

Below you will find a list of commonly used blocks and those used specifically with the Sensoray 526 data aquisition board. The pictures will show how they could be used in common applications.

  • xPC Target \ Misc. \ Scope (xPC)

    The target scopes are used to display data on the xPC screen. This requires the target PC to be connected to a monitor. These scopes can either plot data over time or display numerical values. Signals can be muxed to display on the same scope or multiple scopes can be used. The scope shown below will show two sin waves (one inverted).

    Xpcblocks01.jpg
    Xpcblocks01b.jpg
  • xPC Target \ D/A \ Sensoray \ Sensoray526 DA

    This block is used to output analog signals on the Analog Out pins. You cannot mux signals to this block. You must specify which pins you are using in the Block Parameters and connect the individual signals, as shown below.

    Xpcblocks02.jpg
    Xpcblocks03.jpg
  • xPC Target \ A/D \ Sensoray \ Sensoray526 AD 1

    This block is used to read values from the Analog-IN pins on the Sensoray board. The pins have to be individually specified, as shown below.

    Xpcblocks04.jpg
    Xpcblocks05.jpg
  • xPC Target \ Digital Input \ Sensoray \ Sensoray526 DI

    This block returns High (1) or Low (0) depending on the status of the defined pins. The block below shows how port one enabling the display of pin 2 on a Target Scope.

    Xpcblocks06.jpg
    Xpcblocks07.jpg
  • xPC Target \ Digital Output \ Sensoray \ Sensoray526 DO

    This block outputs High (1) or Low (0) to the defined Digital Out pins. You must specify the initial values and reset values of these pins. NOTE: If you are using the BoB, you will need to set the initial and reset values to 1's because the pins are inverted (refer to the hardware documentation)

    Xpcblocks08.jpg
    Xpcblocks09.jpg
  • xPC Target \ Incremental Encoder \ Sensoray \ Sensoray526 ENC

    This block outputs the counts from an incremental encoder. The encoder starts counting from a specified value (usually zero). You have to use a separate block for each encoder, specifying the channel for each.

    Xpcblocks10.jpg
    Xpcblocks11.jpg
  • Simulink \ Signal Routing \ Data Store (Memory, Read, Write)

    These blocks are used to store values in local memory during execution. This is especially useful for storing states over each timestep, such as position or heading. You must use the Data Store Memory block to define a variable name and reserve a place for it in the memory. You can then change the value using the Data Store Write block and read the value back using the Data Store Read block. For the Read/Write blocks, you must edit the Parameters to specify the name of the variable. The model below will create a variable called "A" and will add 1 to it (starts from zero) each timestep.

    Xpcblocks12.jpg
    Xpcblocks13.jpg
    Xpcblocks14.jpg
    Xpcblocks15.jpg
  • Simulink \ Sinks \ Out1

    You can use this block in an xPC model to record data. This data is available after execution has finished by reading tg.OutputLog. You can mux signals into this block and tg.OutputLog will be a matrix instead of an array.

    Xpcblocks16.jpg