IDS peak 2.10.0 / uEye+ firmware 3.34
IDS Peak comfortSDK, genericSDK, IPL, and AFL developer manuals are external documents. Please contact us if you need them.
Selects the physical line (or pin) of the I/O connector to configure.
Name |
LineSelector |
Category |
|
Interface |
Enumeration |
Access |
Read/Write |
Unit |
- |
Visibility |
Expert |
Values |
Line0 Line1 Line2 Line3 Line4 Line5 Line6 |
Standard |
SFNC |
Availability uEye+ |
|
Availability uEye |
|
Values description
•Line0 … Line6: see overview.
Overview of available lines by camera family
This overview describes all available lines. Depending on the camera model used, not all functions may be supported.
Line |
GigE uEye+ Warp10 |
GigE uEye+ CP Rev. 2/CP Rev. 2.2 GigE uEye+ FA/FA Rev. 1.2 GigE uEye+ SE Rev. 4/SE Rev. 4.2 USB 3 uEye+ CP Rev. 2/CP 2.2 uEye+ SE USB 3.1 Gen 1/SE Rev 1.2 uEye+ LE USB 3.1 Rev. 1.2 (PCB version only) |
uEye+ XCP USB 3 Rev. 1.2 uEye+ XLE USB 3 Rev. 1.2 (PCB version only) uEye+ XLS USB 3 Rev. 1.2 |
uEye+ XLE USB 3 Rev. 1.1 (PCB version only) |
|---|---|---|---|---|
Line0 |
(Trigger) Input 0 with optocoupler |
(Trigger) Input with optocoupler |
(Trigger) Input without optocoupler |
(Trigger) Input without optocoupler |
Line1 |
(Trigger) Input 1 with optocoupler |
(Flash) Output with optocoupler |
(Flash) Output without optocoupler |
(Flash) Output without optocoupler |
Line2 |
(Trigger) Input 2 with optocoupler |
GPIO 1 without optocoupler |
GPIO 1 without optocoupler |
- |
Line3 |
(Flash) Output 0 with optocoupler |
GPIO 2 without optocoupler |
GPIO 2 without optocoupler |
- |
Line4 |
(Flash) Output 1 with optocoupler |
- |
- |
- |
Line5 |
Fast (Flash) Output 2 with optocoupler |
- |
- |
- |
Line6 |
Fast (Flash) Output 3 with optocoupler |
- |
- |
- |
•Input: Physical input line that e.g. serves as trigger input (LineMode = "Input" only).
•Output: Physical output line that e.g. serves as flash output (LineMode = "Output" only).
•GPIO: Input or output line that can be used as input or output. To configure the line as input, change LineMode to "Input". To configure the line as output, change LineMode to "Output".
You will find information about the pin assignment and wiring of your camera either in the hardware descriptions of the respective camera family or in the model-specific data sheet.
|
NOTICE! On some cameras, lines are galvanically isolated using an optocoupler to protect the camera and the PC against surges. •Only DC voltages may be applied to lines or pins that are galvanically isolated by an optocoupler. The General Purpose I/O (GPIO) may not be potential-free and in this case has no protective circuit. •Avoid damage to the electronics due to faulty wiring You will find information about the pin assignment and wiring of your camera in the hardware descriptions of the respective camera family. |
Code example
C++
// Determine the current entry of LineSelector
std::string value = nodeMapRemoteDevice->FindNode<peak::core::nodes::EnumerationNode>("LineSelector")->CurrentEntry()->SymbolicValue();
// Get a list of all available entries of LineSelector
auto allEntries = nodeMapRemoteDevice->FindNode<peak::core::nodes::EnumerationNode>("LineSelector")->Entries();
std::vector<std::shared_ptr<peak::core::nodes::EnumerationEntryNode>> availableEntries;
for(const auto & entry : allEntries)
{
if ((entry->AccessStatus()!=peak::core::nodes::NodeAccessStatus::NotAvailable)
&& (entry->AccessStatus()!=peak::core::nodes::NodeAccessStatus::NotImplemented))
{
availableEntries.emplace_back(entry);
}
}
// Set LineSelector to "Line0"
nodeMapRemoteDevice->FindNode<peak::core::nodes::EnumerationNode>("LineSelector")->SetCurrentEntry("Line0");
C#
// Determine the current entry of LineSelector
string value = nodeMapRemoteDevice.FindNode<peak.core.nodes.EnumerationNode>("LineSelector").CurrentEntry().SymbolicValue();
// Get a list of all available entries of LineSelector
allEntries = nodeMapRemoteDevice.FindNode<peak.core.nodes.EnumerationNode>("LineSelector").Entries();
List<string> availableEntries = new List<string>();
for(int i = 0; i < allEntries.Count(); ++i)
{
if ((allEntries[i].AccessStatus() != peak.core.nodes.NodeAccessStatus.NotAvailable)
&& (allEntries[i].AccessStatus() != peak.core.nodes.NodeAccessStatus.NotImplemented))
{
availableEntries.Add(allEntries[i].SymbolicValue());
}
}
// Set LineSelector to "Line0"
nodeMapRemoteDevice.FindNode<peak.core.nodes.EnumerationNode>("LineSelector").SetCurrentEntry("Line0");
Python
# Determine the current entry of LineSelector (str)
value = nodeMapRemoteDevice.FindNode("LineSelector").CurrentEntry().SymbolicValue()
# Get a list of all available entries of LineSelector
allEntries = nodeMapRemoteDevice.FindNode("LineSelector").Entries()
availableEntries = []
for entry in allEntries:
if (entry.AccessStatus() != ids_peak.NodeAccessStatus_NotAvailable
and entry.AccessStatus() != ids_peak.NodeAccessStatus_NotImplemented):
availableEntries.append(entry.SymbolicValue())
# Set LineSelector to "Line0" (str)
nodeMapRemoteDevice.FindNode("LineSelector").SetCurrentEntry("Line0")
