Returns the current boot status.
Note on USB3 Vision cameras: if DeviceBootStatus returns a boot status different to "OK", DeviceBootStatusAdditionaInformation1 and DeviceBootStatusAdditionaInformation2 may provide further information to identify the problem.
Name |
DeviceBootStatus |
Category |
|
Interface |
Enumeration |
Access |
Read |
Unit |
- |
Visibility |
Expert |
Values |
OK CriticalCoreErrorReboot CritcalErrorReboot CriticalErrorWhileConfiguration CriticalErrorWhileStarting CriticalUSBErrorReboot WatchdogReboot |
Standard |
IDS |
Availability uEye+ |
|
Availability uEye |
- |
Values description
•OK: Booting the camera was successful.
•CriticalCoreErrorReboot: A critical error occurred during CPU access or memory access. Check if the error can be corrected by a firmware update.
•CritcalErrorReboot: A critical error has occurred in the sensor communication. Check if the error can be corrected by a firmware update.
•CriticalErrorWhileConfiguration: A critical error occurred while configuring the device. Firmware or FPGA is defective. Try to repair firmware via firmware update.
•CriticalErrorWhileStarting: A critical error occurred while booting the device. Firmware or FPGA is defective. Try to repair firmware via firmware update.
•CriticalUSBErrorReboot: Non-recoverable error in USB connection. Try to use a different USB cable.
•WatchdogReboot: Camera reboot after watchdog error. This error occurs if a feature has not reacted within the watchdog timeout (approx. 30 s).
|
For all critical errors, contact IDS Imaging Development Systems GmbH if the described troubleshooting fails. |
Code example
C++
// Determine the current entry of DeviceBootStatus
std::string value = nodeMapRemoteDevice->FindNode<peak::core::nodes::EnumerationNode>("DeviceBootStatus")->CurrentEntry()->SymbolicValue();
// Get a list of all available entries of DeviceBootStatus
auto allEntries = nodeMapRemoteDevice->FindNode<peak::core::nodes::EnumerationNode>("DeviceBootStatus")->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);
}
}
C#
// Determine the current entry of DeviceBootStatus
string value = nodeMapRemoteDevice.FindNode<peak.core.nodes.EnumerationNode>("DeviceBootStatus").CurrentEntry().SymbolicValue();
// Get a list of all available entries of DeviceBootStatus
allEntries = nodeMapRemoteDevice.FindNode<peak.core.nodes.EnumerationNode>("DeviceBootStatus").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());
}
}
Python
# Determine the current entry of DeviceBootStatus (str)
value = nodeMapRemoteDevice.FindNode("DeviceBootStatus").CurrentEntry().SymbolicValue()
# Get a list of all available entries of DeviceBootStatus
allEntries = nodeMapRemoteDevice.FindNode("DeviceBootStatus").Entries()
availableEntries = []
for entry in allEntries:
if (entry.AccessStatus() != ids_peak.NodeAccessStatus_NotAvailable
and entry.AccessStatus() != ids_peak.NodeAccessStatus_NotImplemented):
availableEntries.append(entry.SymbolicValue())
