This website is being translated through machine translation by a third-party service. Basler does not warrant the accuracy, reliability or timeliness of any information translated by this system and will not accept liability for loss or damage incurred as a result. Content that has not yet been translated appears in English. Switch to English version
ChangeIpConfiguration(bool EnablePersistentIp, bool EnableDhcp) Enables/disables use of persistent IP address and DHCP usage of the attached Pylon Device.
AcquisitionStatusSelector Sets the signal whose status you want to check - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
ExposureAuto Sets the operation mode of the Exposure Auto auto function - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
ExposureTimeBaseAbs Timebase (in microseconds) that the camera uses when the exposure time is specified using the Exposure Time (Raw) parameter - Applies to: CamEmu, CameraLink and GigE.
TriggerActivation Sets the type of signal transition that will activate the selected trigger - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
AcquisitionBurstFrameCount Number of frames to acquire for each Frame Burst Start trigger - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
AcquisitionFrameRate Acquisition frame rate of the camera in frames per second - Applies to: CamEmu, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
BslEffectiveExposureTime Current exposure time of the camera in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart USB and racer 2 CXP.
BslFlashWindowDelay Indicates the delay between the start of exposure and the start of the flash window in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress and dart USB.
BslFlashWindowDuration Indicates the width of the flash window in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress and dart USB.
BslResultingAcquisitionFrameRate Maximum number of frames that can be acquired per second with current camera settings - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslResultingFrameBurstRate Maximum number of bursts per second with current camera settings - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB and dart USB.
BslResultingTransferFrameRate Maximum number of frames that can be transferred per second with current camera settings - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslSensorBitDepth Sets the bit depth of the image sensor's data output - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslSensorState Returns the current power state of the sensor - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
ExposureOverlapTimeMax Maximum overlap of the sensor exposure with sensor readout in Trigger Width exposure mode (in microseconds) - Applies to: ace USB.
ExposureTime Exposure time of the camera in microseconds - Applies to: CamEmu, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
ExposureTimeSelector Sets which component the Exposure Time parameter value applies to - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart USB and racer 2 CXP.
SensorShutterMode Sets the shutter mode of the camera - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
ExposureOverlapTimeMaxAbs Maximum overlap of the sensor exposure with sensor readout in Trigger Width exposure mode (in microseconds) - Applies to: CameraLink and GigE.
ExposureOverlapTimeMaxRaw Maximum overlap of the sensor exposure with sensor readout in Trigger Width exposure mode (raw value) - Applies to: CameraLink and GigE.
TriggerPartialClosingFrame Determines whether a partial or a complete frame is transmitted when the Frame Start trigger signal transitions prematurely - Applies to: CameraLink and GigE.
AutoTargetBrightness Target brightness for the Gain Auto and the Exposure Auto auto functions - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
AutoExposureTimeAbsLowerLimit Lower limit of the Exposure Time parameter when the Exposure Auto auto function is active - Applies to: CameraLink and GigE.
AutoExposureTimeAbsUpperLimit Upper limit of the Exposure Time parameter when the Exposure Auto auto function is active - Applies to: CameraLink and GigE.
AutoExposureTimeLowerLimitRaw Lower limit of the Exposure Time parameter when the Exposure Auto auto function is active (raw value) - Applies to: GigE.
AutoExposureTimeUpperLimitRaw Upper limit of the Exposure Time parameter when the Exposure Auto auto function is active (raw value) - Applies to: GigE.
AutoExposureTimeLowerLimit Lower limit of the Exposure Time parameter when the Exposure Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoExposureTimeUpperLimit Upper limit of the Exposure Time parameter when the Exposure Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
AutoFunctionAOIUsageIntensity Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function AOI - Applies to: CameraLink and GigE.
AutoFunctionAOIUsageRedLightCorrection Assigns the Red Light Correction auto function to the currently selected auto function AOI - Applies to: CameraLink and GigE.
AutoFunctionAOIUsageWhiteBalance Assigns the Balance White Auto auto function to the currently selected auto function AOI - Applies to: CameraLink and GigE.
AutoFunctionAOIUseBrightness Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function AOI - Applies to: ace USB.
AutoFunctionProfile Sets how gain and exposure time will be balanced when the camera is making automatic adjustments - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
AutoFunctionROIHeight Height of the auto function ROI (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoFunctionROIHighlight Highlights the current auto function ROI in the image window - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB and dart USB.
AutoFunctionROIOffsetX Horizontal offset of the auto function ROI from the left side of the sensor (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoFunctionROIOffsetY Vertical offset from the top of the sensor to the auto function ROI (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoFunctionROISelector Sets which auto function ROI can be configured - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoFunctionROIUseBrightness Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function ROI - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoFunctionROIUseWhiteBalance Assigns the Balance White Auto auto function to the currently selected auto function ROI - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoFunctionROIWidth Width of the auto function ROI (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoGainLowerLimit Lower limit of the Gain parameter when the Gain Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
AutoGainUpperLimit Upper limit of the Gain parameter when the Gain Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
AutoTonalRangeThresholdBright Threshold value from which the Tonal Range Source Bright parameter value is calculated during automatic tonal range adjustments - Applies to: GigE and ace USB.
AutoTonalRangeThresholdBrightRaw Threshold value from which the Tonal Range Source Bright parameter value is calculated during automatic tonal range adjustments (raw value) - Applies to: GigE.
AutoTonalRangeThresholdDark Threshold value from which the Tonal Range Source Dark parameter value is calculated during automatic tonal range adjustments - Applies to: GigE and ace USB.
AutoTonalRangeThresholdDarkRaw Threshold value from which the Tonal Range Source Dark parameter value is calculated during automatic tonal range adjustments (raw value) - Applies to: GigE.
BalanceRatio Balance Ratio value to be applied to the currently selected channel - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
ColorAdjustmentSaturation Saturation adjustment value to be applied to the currently selected color channel - Applies to: CameraLink, GigE and ace USB.
ColorAdjustmentSaturationRaw Saturation adjustment value to be applied to the currently selected color channel (raw value) - Applies to: CameraLink and GigE.
ColorTransformationValueRaw Transformation value for the selected element in the color transformation matrix (raw value) - Applies to: CameraLink and GigE.
BalanceRatioSelector Sets which color channel can be adjusted when performing manual white balance - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
BalanceWhiteAuto Sets the operation mode of the Balance White Auto auto function - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
GevCurrentIPConfigurationDHCP Controls whether the DHCP IP configuration scheme is activated on the given logical link - Applies to: Stereo ace and blaze.
GevCurrentIPConfigurationLLA Controls whether the Link Local Address IP configuration scheme is activated on the given logical link - Applies to: Stereo ace and blaze.
GevCurrentIPConfigurationPersistentIP Controls whether the PersistentIP configuration scheme is activated on the given logical link - Applies to: Stereo ace and blaze.
OffsetX Horizontal offset of the region of interest (area of interest) from the left side of the sensor (in pixels) - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
OffsetY Vertical offset of the region of interest (area of interest) from the top of the sensor (in pixels) - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
BlackLevel Black level value to be applied to the currently selected sensor tap - Applies to: CamEmu, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Gain Value of the currently selected gain in dB - Applies to: CamEmu, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
BlackLevelSelector Sets the type of black level adjustment to be configured - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart USB, pulse USB and racer 2 CXP.
GainAuto Sets the operation mode of the Gain Auto auto function - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
GainSelector Sets the gain type to be adjusted - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart USB, pulse USB and racer 2 CXP.
BslLightSourcePresetFeatureSelector Sets which features the camera adjusts when you select a light source preset - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB and dart USB.
BslChunkAutoBrightnessStatus Indicates the status of the target brightness adjustments performed by the Exposure Auto and Gain Auto auto functions - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
BslChunkTimestampSelector Sets which information should be included in the Chunk Timestamp Value chunk - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
ChunkLineStatusAll Bit field that indicates the status of all of the camera's input and output lines when the image was acquired - Applies to: GigE, Stereo ace, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB and dart USB.
ChunkStride Number of bytes of data between the beginning of one line in the acquired image and the beginning of the next line in the acquired image - Applies to: GigE and ace 2 GigE.
BslColorAdjustmentHue Hue adjustment value to be applied to the currently selected color channel - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslColorAdjustmentSaturation Saturation adjustment value to be applied to the currently selected color channel - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslColorSpace Sets the color space for image acquisitions - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart MIPI and dart USB.
BslDeviceLinkCurrentThroughput Actual bandwidth the camera will use - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslTemperatureMax Indicates the maximum temperature the camera reached during operation - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslTemperatureStatus Indicates the temperature state - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslTemperatureStatusErrorCount Indicates how often the temperature state changed to Error - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
DeviceCharacterSet Indicates the character set used by the strings of the device's bootstrap registers - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceFamilyName Identifier of the product family of the device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
DeviceIndicatorMode Sets the behavior of the camera's status LED - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
DeviceLinkThroughputLimit Bandwidth limit for data transmission (in bytes per second) - Applies to: CamEmu, Stereo ace, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB, dart USB and pulse USB.
DeviceManifestPrimaryURL First URL to the GenICam XML device description file of the selected manifest entry - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, boost CoaXPress and racer 2 CXP.
DeviceManifestSchemaMajorVersion Major version number of the schema file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceManifestSchemaMinorVersion Minor version number of the schema file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceManifestXMLMajorVersion Major version number of the GenICam XML file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceManifestXMLMinorVersion Minor version number of the GenICam XML file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceManifestXMLSubMinorVersion Subminor version number of the GenICam XML file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceRegistersEndianness Endianness of the registers of the device - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceSFNCVersionMajor Major version number of the SFNC specification that the camera is compatible with - Applies to: GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
DeviceSFNCVersionMinor Minor version number of the SFNC specification that the camera is compatible with - Applies to: GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
DeviceSFNCVersionSubMinor Subminor version number of the SFNC specification that the camera is compatible with - Applies to: GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
DeviceSerialNumber Serial number of the camera - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
DeviceTLType Indicates the type of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceTLVersionMajor Major version number of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceTLVersionMinor Minor version number of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceTLVersionSubMinor Subminor version number of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
DeviceTemperature Temperature at the selected location in the camera (in degrees centigrade) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
DeviceTemperatureSelector Sets the location in the camera where the temperature will be measured - Applies to: CamEmu, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimestampLatch Latches the current timestamp counter and stores its value in TimestampLatchValue - Applies to: Stereo ace, ace 2 GigE, ace 2 USB, ace USB, blaze, dart 2 USB and dart USB.
BslInputFilterTime Time period in which the camera evaluates all changes and durations of logical states of the input signal - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslInputHoldOffTime Time period in which the camera doesn't accept any further trigger signals or signal changes after receiving an input trigger signal - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslLineConnection Sets the connection signal for the currently selected line - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB and dart USB.
BslLineOverloadStatus Indicates whether a GPIO line is overloaded, i e , not powered correctly - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslErrorReportNext Retrieves the next error code from the device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslErrorReportValue Error code indicating the cause of the internal error - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
BslFlatFieldCorrectionCoeffDSNU Dark Signal Non-Uniformity (DSNU) coefficient of the column specified by the Flat-Field Correction Coeff X parameter - Applies to: boost V CoaXPress.
BslFlatFieldCorrectionCoeffPRNU Photo Response Non-Uniformity (PRNU) coefficient of the column specified by the Flat-Field Correction Coeff X parameter - Applies to: boost V CoaXPress.
Scan3dPrincipalPointU Returns the value of the horizontal position of the principal point, relative to the region origin, i e - Applies to: Stereo ace and blaze.
Scan3dPrincipalPointV Returns the value of the vertical position of the principal point, relative to the region origin, i e - Applies to: Stereo ace and blaze.
BslImageCompressionLastRatio Ratio between the compressed payload size and the uncompressed payload size of the last acquired image - Applies to: ace 2 GigE and ace 2 USB.
BslLightControlEnumerateDevices Searches for light devices connected to your camera - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
BslLightControlErrorSummary Indicates whether any of the light devices are currently experiencing problems - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightControlOvertriggerCount Number of trigger signals that were received while any of the connected light devices wasn't ready for it - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightControlOvertriggerCountReset Resets the counter for trigger signals that were received while any of the connected light devices wasn't ready for it - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightControlTriggerActivation Sets the type of signal transition that will trigger connected light devices - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightControlTriggerSource Sets which signal is used to trigger connected light devices - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightDeviceBrightness Brightness of the light in percent of total brightness available - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
BslLightDeviceCurrent Nominal current that the light device uses in continuous operation - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightDeviceErrorCode Error code indicating the cause of an error in a light device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightDeviceErrorStatus Error status indicating whether the current light device is experiencing problems - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightDeviceErrorStatusReadAndClear Reads the error code from the current light device and resets the error status to No Error - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightDeviceFirmwareVersion Version of the light device's firmware - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
BslLightDeviceOperationMode Sets the operation mode of the light device - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
BslLightDeviceOverdriveLimit Maximum current to be used when operating the light device in overdrive - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslLightDeviceStrobeDuration Duration of the individual strobe pulses - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
BslMultipleROIColumnsEnable Enables or disables the ability to define multiple regions in horizontal direction - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslMultipleROIRowsEnable Enables or disables the ability to define multiple regions in vertical direction - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslPtpServoLockedThreshold Threshold value below which the device will set the Ptp Servo Status parameter to Locked, indicating that the device is sufficiently synchronized - Applies to: ace 2 GigE.
BslSerialNumberOfDataBits Sets the number of data bits used in serial communication - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslSerialNumberOfStopBits Sets the number of stop bits used in serial communication - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslSerialRxStopBitError Indicates the stop bit error status of the receiving FIFO - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslSerialTransferBuffer Buffer that holds Rx or Tx transfer data in the controller domain - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslSerialTransferLength Effective number of serial frames in a Rx or Tx data transfer - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslSerialTransmit Initiates a transmitting transaction to the serial output buffer - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslSerialTxBreak Signals a break to a receiver connected to the camera, or terminates the break - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
BslShadingCorrectionMaximumMeasuredValue Maximum brightness value detected by the camera during the creation of a PRNU shading correction set - Applies to: racer 2 CXP.
BslStaticDefectPixelCorrectionFileStatus Returns the file status of the defect pixel correction file - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
BslStaticDefectPixelCorrectionMaxDefects Maximum number of defect pixels that the factory or user correction file can contain - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
SIPayloadFinalTransfer1Size For information only May be required when contacting Basler support - Applies to: ace 2 USB, ace USB, dart 2 USB and dart USB.
SIPayloadFinalTransfer2Size For information only May be required when contacting Basler support - Applies to: ace 2 USB, ace USB, dart 2 USB and dart USB.
ChunkEnable Includes the currently selected chunk in the payload data - Applies to: GigE, Stereo ace, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB and dart USB.
GevSCBWA Base bandwidth in bytes per second that will be used by the camera to transmit image and chunk feature data and to handle resends and control data transmissions - Applies to: GigE.
GevSupportedIPConfigurationPersistentIP Indicates whether the selected network interface supports fixed IP addressing (also known as persistent IP addressing) - Applies to: GigE.
DeviceManufacturerInfo Additional information from the vendor about the camera - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
DeviceModelName Name of the camera model - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
DeviceScanType Indicates the scan type of the camera's sensor (area or line scan) - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
ColorTransformationSelector Sets which type of color transformation will be performed - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
ColorTransformationValue Transformation value for the selected element in the color transformation matrix - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
ColorTransformationValueSelector Sets which element will be entered in the color transformation matrix - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
CounterDuration Number of times a sequencer set is used before the Counter End event is generated - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CounterResetActivation Sets which type of signal transition will reset the counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CounterEventActivation Sets the type of signal transition that the counter will count - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CounterStatus Returns the current status of the counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CounterTriggerActivation Sets the type of signal transition that will start the counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CounterTriggerSource Sets the signal used to start the selected counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CounterResetSource Sets which source signal will reset the currently selected counter - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
CxpConnectionTestErrorCount Number of test packet connection errors received by the device on the connection selected by the Connection Selector parameter - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
CxpConnectionTestMode Sets the test mode for an individual physical connection of the device - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
CxpConnectionTestPacketCount Number of test packets received by the device on the connection selected by the Cxp Connection Selector parameter - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
CxpLinkConfigurationPreferred Sets the link configuration that allows the device to operate in its default mode - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
CxpSendReceiveSelector Sets whether the send or the receive features can be configured - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
EventNotification Enables event notifications for the currently selected event - Applies to: GigE, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB and dart USB.
EventTemperatureStatusChangedStatus New temperature status that applies after the Temperature Status Changed event was raised - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
SensorDigitizationTaps This feature represents the number of digitized samples outputted simultaneously by the camera A/D conversion stage - Applies to: CameraLink and GigE.
FileAccessLength Number of bytes read from the file into the file access buffer or written to the file from the file access buffer - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
FileAccessOffset Number of bytes after which FileAccessLength bytes are read from the file into the file access buffer or are written to the file from the file access buffer - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
FileOpenMode Sets the access mode in which a file is opened in the camera - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
GevSCPSPacketSize Packet size in bytes on the selected stream channel Excludes data leader and data trailer - Applies to: CamEmu, GigE, Stereo ace, ace 2 GigE and blaze.
HeightMax Maximum height of the region of interest (area of interest) in pixels - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
WidthMax Maximum width of the region of interest (area of interest) in pixels - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
LUTIndex Pixel value to be replaced with the LUT Value pixel value - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress and racer 2 CXP.
LUTValue New pixel value to replace the LUT Index pixel value - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress and racer 2 CXP.
LUTValueAll A single register that lets you access all LUT entries - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress and racer 2 CXP.
SyncUserOutputValueAll Single bit field that sets the state of all user-settable synchronous output signals in one access - Applies to: CameraLink and GigE.
UserOutputValueAllMask Defines a mask that is used when the User Output Value All setting is used to set all of the user settable output signals in one access - Applies to: CameraLink and GigE.
LineFormat Indicates the electrical configuration of the currently selected line - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
LineInverter Enables the signal inverter function for the currently selected input or output line - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
LineSource Sets the source signal for the currently selected line - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
LineStatus Indicates the current logical state of the selected line - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
LineStatusAll Single bit field indicating the current logical state of all available line signals at time of polling - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
UserOutputValueAll Single bit field that sets the state of all user-settable output signals in one access - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
PixelColorFilter Indicates the alignment of the camera's Bayer filter to the pixels in the acquired images - Applies to: CameraLink, GigE, ace USB, dart USB and pulse USB.
PixelDynamicRangeMax Maximum possible pixel value that can be transferred from the camera - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
PixelDynamicRangeMin Minimum possible pixel value that can be transferred from the camera - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
PixelFormat Sets the format of the pixel data transmitted by the camera - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
PixelSize Indicates the depth of the pixel values in the image (in bits per pixel) - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
SequenceAddressBitSource Sets an input line as the control source for the currently selected sequence set address bit - Applies to: CameraLink and GigE.
SequencerMode Sets whether the sequencer can be used for image acquisition - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SequencerSetLoad Loads the parameter values of the currently selected sequencer set for configuration - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SequencerSetNext Next sequencer set that the sequencer will advance to when the configured trigger signal is received - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SequencerSetSave Saves the sequencer parameter values in the currently selected sequencer set - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SequencerSetStart First sequencer set to be used after the Sequencer Mode parameter is set to On - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SequencerTriggerActivation Sets the logical state that makes the sequencer advance to the next set - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SequencerTriggerSource Sets the source signal to be used to advance to the next set - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
SoftwareSignalSelector Sets the software signal to be executed - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimerDelay Delay of the currently selected timer in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimerDuration Duration of the currently selected timer in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimerDelayTimebaseAbs Timebase (in microseconds) that is used when a timer delay is specified using the Timer Delay Raw parameter - Applies to: CameraLink and GigE.
TimerDurationTimebaseAbs Timebase (in microseconds) that is used when a timer duration is specified using the Timer Duration Raw parameter - Applies to: CameraLink and GigE.
TimerStatus Indicates the status of the currently selected timer - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimerTriggerArmDelay Arm delay of the currently selected timer - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimerTriggerSource Sets the internal camera signal used to trigger the selected timer - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TimerTriggerActivation Sets the type of signal transition that will start the timer - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
TonalRangeTargetBright Target value at the bright end of the tonal range to which pixel values should be mapped during tonal range adjustments - Applies to: GigE and ace USB.
TonalRangeTargetDark Target value at the dark end of the tonal range to which pixel values should be mapped during tonal range adjustments - Applies to: GigE and ace USB.
UserDefinedValueSelector Sets the user-defined value to set or read - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
UserSetDefault Sets the user set or the factory set to be used as the startup set - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
UserSetLoad Loads the selected set into the camera's volatile memory and makes it the active configuration set - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
UserSetSave Saves the current active set as the selected user set - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
UserSetSelector Sets the user set or the factory set to load, save, or configure - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
VInpSamplingPoint Time span between the beginning of the input bit and the time when the high/low status is evaluated - Applies to: CameraLink and GigE.
AcquisitionStartStopExecutionEnable If set, this will automatically execute AcquisitionStart when calling StartGrabbing and AcquisitionStop when calling StopGrabbing This option is enabled by default - Applies to: InstantCamera.
ChunkNodeMapsEnable Enables/disables the use of a chunk node map for each grab result Grab result chunk node maps can be disabled to save resources - Applies to: InstantCamera.
ClearBufferModeEnable If set, all buffers will be cleared (set to 0) before grabbing an image Note that this requires additional processing time per frame - Applies to: InstantCamera.
GrabCameraEvents Enables/disables the grabbing of camera events while images are grabbed Is writable when the camera object is closed - Applies to: InstantCamera.
MaxNumGrabResults The maximum number of grab results available at any time during a grab session This value can be limited to save resources Furthermore, it can be used to check that the grab results are returned correctly - Applies to: InstantCamera.
MigrationModeActive The migration mode is set up according to this setting at defined points e g , when the camera is opened - Applies to: InstantCamera.
MonitorModeActive The camera object is set to monitor mode when enabled, e g when using the GigE multicast feature Is writable when the camera object is closed - Applies to: InstantCamera.
StaticChunkNodeMapPoolSize If larger than 0, a static chunk node map pool is used instead of dynamic chunk node map creation - Applies to: InstantCamera.
GrabLoopThreadPriorityOverride If enabled, the user can set a custom priority for the grab loop thread Otherwise, the priority of the newly created thread is not changed - Applies to: InstantCamera.
GrabLoopThreadTimeout A custom timeout for the grab loop thread's call to RetrieveResult RetrieveResult is configured to throw an exception on timeout, which will stop the grab session - Applies to: InstantCamera.
GrabLoopThreadUseTimeout If enabled, the user can set a custom timeout for the grab loop thread's call to RetrieveResult RetrieveResult is configured to throw an exception on timeout, which will stop the grab session - Applies to: InstantCamera.
InternalGrabEngineThreadPriorityOverride If enabled, the user can set a custom priority for the internal grab engine thread operating the stream grabber Otherwise the priority defaults to 25 - Applies to: InstantCamera.
cleanupProcedure If cleanupProcedure equals Cleanup_Delete, the Pylon device is destroyed when the Instant Camera object is destroyed.
Postcondition:
If the passed pointer to the Pylon device is NULL, the Instant Camera object is in the "no device attached" state.
If the passed pointer to the Pylon device is not NULL, the passed Pylon device is attached.
If the set cleanup procedure equals Cleanup_Delete, the Pylon device is destroyed when the Instant Camera object is destroyed or a new device is attached.
If the passed Pylon device is open and the registration of callbacks fails, the Instant Camera object is in the "no device attached" state.
The opened-by-user flag is set, preventing closing of the Pylon device on StopGrabbing() when the attached Pylon device is already open.
Error Safety:
May throw an exception if the passed Pylon device is open. Does not throw C++ exceptions if the passed Pylon device is closed or NULL.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
If a Pylon device is currently attached, it is destroyed (DestroyDevice()) or removed (DetachDevice()) depending on the previously set cleanup procedure value.
If the pDevice parameter is NULL, nothing more is done.
The OnAttach configuration event is fired. Possible C++ exceptions from event calls are caught and ignored. All event handlers are notified.
The new Pylon device is attached.
The instant camera migration mode setting is applied to the Pylon device transport layer node map.
If the passed Pylon device is open, callbacks for camera events are registered at the camera node map. (This may fail)
If the passed Pylon device is open, a device removal call back is registered. (This may fail)
If the passed Pylon device is open, access modifiers (see IPylonDevice::Open()) are carried over as camera parameters.
The OnAttached configuration event is fired. Possible C++ exceptions from event calls are caught and ignored. All event handlers are notified.
The Pylon device is open and a connection to the camera device has been established.
Opened by user flag is set, preventing closing of the Pylon device on StopGrabbing().
Error Safety:
The Instant Camera object is still valid after error. The Pylon device open may throw. Configuration event calls may throw. Callback registrations may throw. The Pylon device is closed with Close() if the OnOpened event call triggers an exception.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Opened by user flag is set, preventing closing of the device on StopGrabbing().
If the Pylon device is already open, nothing more is done.
The OnOpen configuration event is fired. The notification of event handlers stops when an event call triggers an exception.
The Pylon device is opened and a connection to the camera device is established.
The instant camera migration mode setting is applied to the Pylon device transport layer node map.
A device removal call back is registered at the Pylon device.
Callbacks for camera events are registered at the camera node map.
The OnOpened configuration event is fired if the Pylon device has been opened successfully. The notification of event handlers stops when an event call triggers an exception.
If the Pylon device is already closed, nothing is done.
If a grab is in progress, it is stopped by calling StopGrabbing().
The configuration event OnClose is fired. Possible C++ exceptions from event calls are caught and ignored. All event handlers are notified.
The connection to the camera device is closed and the Pylon device is closed.
The configuration event OnClosed is fired if the Pylon device has been closed successfully. Possible C++ exceptions from event calls are caught and ignored. All event handlers are notified.
Retrieves a grab result according to the strategy, waits if it is not yet available.
Parameters:
timeoutMs A timeout value in ms for waiting for a grab result, or the INFINITE value.
grabResult Receives the grab result.
timeoutHandling If timeoutHandling equals TimeoutHandling_ThrowException, a timeout exception is thrown on timeout.
Return: True if the call successfully retrieved a grab result, false otherwise.
Precondition:
There is no other thread waiting for a result. This will be the case when the Instant Camera grab loop thread is used.
Postcondition:
If a grab result has been retrieved, one image is removed from the output queue and is returned in the grabResult parameter.
If no grab result has been retrieved, an empty grab result is returned in the grabResult parameter.
If the maximum number of images has been grabbed, the grabbing is stopped.
If camera event handling is enabled and camera events were received, at least one or more camera event messages have been processed.
Error Safety:
The Instant Camera object is still valid after error. The grabbing is stopped if an exception is thrown.
Thread Safety:
This method is synchronized using the lock provided by GetLock() while not waiting.
The content of the passed grab result is released.
If no Pylon device is attached or the grabbing is not started, the method returns immediately "false".
Wait for a grab result if it is not yet available. The access to the camera is not locked during waiting. Camera events are handled.
Only if camera events are used: Incoming camera events are handled.
One grab result is retrieved per call according to the strategy applied.
Only if chunk mode is used: The chunk data parsing is performed. The grab result data is updated using chunk data.
The image event OnImagesSkipped is fired if grab results have been skipped according to the strategy. The notification of event handlers stops when an event call triggers an exception.
The image event OnImageGrabbed is fired if a grab result becomes available. The notification of event handlers stops when an event call triggers an exception.
Stops the grabbing by calling StopGrabbing() if the maximum number of images has been grabbed.
It needs to be checked whether the grab represented by the grab result has been successful, see CGrabResultData::GrabSucceeded().
Retrieves a grab result according to the strategy, waits if it is not yet available.
Parameters:
timeoutMs A timeout value in ms for waiting for a grab result, or the INFINITE value.
grabResult Receives the grab result.
timeoutHandling If timeoutHandling equals TimeoutHandling_ThrowException, a timeout exception is thrown on timeout.
Return: True if the call successfully retrieved a grab result, false otherwise.
Precondition:
There is no other thread waiting for a result. This will be the case when the Instant Camera grab loop thread is used.
Postcondition:
If a grab result has been retrieved, one image is removed from the output queue and is returned in the grabResult parameter.
If no grab result has been retrieved, an empty grab result is returned in the grabResult parameter.
If the maximum number of images has been grabbed, the grabbing is stopped.
If camera event handling is enabled and camera events were received, at least one or more camera event messages have been processed.
Error Safety:
The Instant Camera object is still valid after error. The grabbing is stopped if an exception is thrown.
Thread Safety:
This method is synchronized using the lock provided by GetLock() while not waiting.
The content of the passed grab result is released.
If no Pylon device is attached or the grabbing is not started, the method returns immediately "false".
Wait for a grab result if it is not yet available. The access to the camera is not locked during waiting. Camera events are handled.
Only if camera events are used: Incoming camera events are handled.
One grab result is retrieved per call according to the strategy applied.
Only if chunk mode is used: The chunk data parsing is performed. The grab result data is updated using chunk data.
The image event OnImagesSkipped is fired if grab results have been skipped according to the strategy. The notification of event handlers stops when an event call triggers an exception.
The image event OnImageGrabbed is fired if a grab result becomes available. The notification of event handlers stops when an event call triggers an exception.
Stops the grabbing by calling StopGrabbing() if the maximum number of images has been grabbed.
It needs to be checked whether the grab represented by the grab result has been successful, see CGrabResultData::GrabSucceeded().
timeoutMs A timeout value in ms for waiting for a grab result, or the INFINITE value.
grabResult Receives the grab result.
timeoutHandling If timeoutHandling equals TimeoutHandling_ThrowException, a timeout exception is thrown on timeout.
Return: Returns true if the call successfully retrieved a grab result and the grab succeeded (CGrabResultData::GrabSucceeded()).
Note
Using GrabOne is more efficient if the Pylon device is already open, otherwise the Pylon device is opened and closed for each call.
Grabbing single images using Software Trigger (CSoftwareTriggerConfiguration) is recommended if you want to maximize frame rate. This is because the overhead per grabbed image is reduced compared to Single Frame Acquisition. The grabbing can be started using StartGrabbing(). Images are grabbed using the WaitForFrameTriggerReady(), ExecuteSoftwareTrigger() and RetrieveResult() methods instead of using GrabOne. The grab can be stopped using StopGrabbing() when done.
Precondition: Must meet the preconditions of start grabbing.
Postcondition: Meets the postconditions of stop grabbing.
The following code shows a simplified version of what is done (happy path):
//grab one imageStartGrabbing(1,GrabStrategy_OneByOne,GrabLoop_ProvidedByUser);//grab is stopped automatically due to maxImages = 1returnRetrieveResult(timeoutMs,grabResult,timeoutHandling)&&grabResult->GrabSucceeded();
GrabOne() can be used to together with the CAcquireSingleFrameConfiguration.
The following code shows a simplified version of what is done (happy path):
//grab one imageStartGrabbing(1,GrabStrategy_OneByOne,GrabLoop_ProvidedByUser);//grab is stopped automatically due to maxImages = 1returnRetrieveResult(timeoutMs,grabResult,timeoutHandling)&&grabResult->GrabSucceeded();
Adds an camera event handler to the list of registered camera event handler objects.
Parameters:
pCameraEventHandler The receiver of camera events.
nodeName The name of the event data node updated on camera event, e.g. "ExposureEndEventTimestamp" for exposure end event.
userProvidedId This ID is passed as a parameter in CCameraEventHandler::OnCameraEvent and can be used to distinguish between different events. It is recommended to create an own application specific enum and use it's values as IDs.
mode Indicates how to register the new cameraEventHandler.
cleanupProcedure If cleanupProcedure equals Cleanup_Delete, the passed event handler is deleted when no longer needed.
availability If availability equals CameraEventAvailability_Mandatory, the camera must support the data node specified by node name. If not, an exception is thrown when the Instant Camera is open, the Instant Camera is opened, or an open Pylon device is attached.
Postcondition: The cameraEventHandler is registered and called on camera events.
Error Safety:
Throws an exception if the availability is set to CameraEventAvailability_Mandatory and the node with the name nodeName is not available in the camera node map (see GetNodeMap()). Throws an exception fail if the node callback registration fails. The event handler is not registered when an C++ exception is thrown.
Thread Safety:
This method is synchronized using the camera event handler lock. If the camera is open, the lock provided by GetLock() and the camera node map lock are also used for synchronization.
If mode equals RegistrationMode_ReplaceAll, the list of registered camera event handlers is cleared.
If the pointer pCameraEventHandler is not NULL, it is appended to the list of camera event handlers.
Internally, a GenApi node call back is registered for the node identified by nodeName. This callback triggers a call to the CCameraEventHandler::OnCameraEvent() method. That's why a Camera Event Handler can be registered for any node of the camera node map to get informed about changes.
Adds an camera event handler to the list of registered camera event handler objects.
Parameters:
pCameraEventHandler The receiver of camera events.
nodeName The name of the event data node updated on camera event, e.g. "ExposureEndEventTimestamp" for exposure end event.
userProvidedId This ID is passed as a parameter in CCameraEventHandler::OnCameraEvent and can be used to distinguish between different events. It is recommended to create an own application specific enum and use it's values as IDs.
mode Indicates how to register the new cameraEventHandler.
cleanupProcedure If cleanupProcedure equals Cleanup_Delete, the passed event handler is deleted when no longer needed.
availability If availability equals CameraEventAvailability_Mandatory, the camera must support the data node specified by node name. If not, an exception is thrown when the Instant Camera is open, the Instant Camera is opened, or an open Pylon device is attached.
Postcondition: The cameraEventHandler is registered and called on camera events.
Error Safety:
Throws an exception if the availability is set to CameraEventAvailability_Mandatory and the node with the name nodeName is not available in the camera node map (see GetNodeMap()). Throws an exception fail if the node callback registration fails. The event handler is not registered when an C++ exception is thrown.
Thread Safety:
This method is synchronized using the camera event handler lock. If the camera is open, the lock provided by GetLock() and the camera node map lock are also used for synchronization.
If mode equals RegistrationMode_ReplaceAll, the list of registered camera event handlers is cleared.
If the pointer pCameraEventHandler is not NULL, it is appended to the list of camera event handlers.
Internally, a GenApi node call back is registered for the node identified by nodeName. This callback triggers a call to the CCameraEventHandler::OnCameraEvent() method. That's why a Camera Event Handler can be registered for any node of the camera node map to get informed about changes.
Returns the connection state of the camera device.
Return: True if the camera device removal from the PC has been detected.
Attention: Due to technical reasons, the IsCameraDeviceRemoved() property may not be updated immediately after the first error caused by a device removal occurs.
Error Safety:
Does not throw C++ exceptions.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
The device removal is only detected while the Instant Camera and therefore the attached Pylon device are open.
The attached Pylon device is not operable anymore if the camera device has been removed from the PC. After it is made sure that no access to the Pylon device or any of its node maps is made anymore the Pylon device should be destroyed using CInstantCamera::DeviceDestroy(). The access to the Pylon device can be protected using the lock provided by GetLock(), e.g. when accessing parameters.
Returns the ownership of the attached Pylon device.
Return: True if a Pylon device is attached and the Instant Camera object has been given the ownership by passing the cleanup procedure Cleanup_Delete when calling Attach().
Error Safety:
Does not throw C++ exceptions.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Returns the open state of the attached Pylon device object.
Return: Returns true if a Pylon device is attached and it is open.
Note This method still returns true if the camera device has been physically removed from the PC while the attached Pylon device object is open. The Pylon device object will not automatically close itself on device removal. It must be closed by calling CInstantCamera::Close(). The IsCameraDeviceRemoved() method can be used to check if the connection to the camera device has been lost while the attached Pylon device object is open.
Error Safety: Does not throw C++ exceptions.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
grabLoopType If grabLoopType equals GrabLoop_ProvidedByInstantCamera, an additional grab loop thread is used to run the grab loop.
Precondition:
A Pylon device is attached.
The stream grabber of the Pylon device is closed.
The grabbing is stopped.
The attached Pylon device supports grabbing.
Must not be called while holding the lock provided by GetLock() when using the grab loop thread.
Postcondition:
The grabbing is started.
Grab-specific parameters of the camera object are locked, e.g. MaxNumBuffers.
If grabLoopType equals GrabLoop_ProvidedByInstantCamera, an additional grab loop thread is running that calls RetrieveResult( GrabLoopThreadTimeout, grabResult) in a loop. Images are processed by registered image event handlers.
Operating the stream grabber from outside the camera object will result in undefined behavior.
Error Safety:
The Instant Camera object is still valid after error. Open() may throw. Configuration event calls may throw. The grab implementation may throw. The grabbing is stopped with StopGrabbing() if the OnGrabStarted event call triggers an exception. Throws a C++ exception, if Upcoming Image grab strategy is used together with USB camera devices.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
If a grab loop thread has been used in the last grab session, the grab loop thread context is joined with the caller's context.
If the Pylon device is not already open, it is opened by calling Open().
The configuration event OnGrabStart is fired. The notification of event handlers stops when an event call triggers an exception.
Grab-specific parameters of the camera object are locked, e.g. MaxNumBuffers.
If the camera device parameter ChunkModeActive is enabled, the Instant Camera chunk parsing support is initialized.
If the Instant Camera parameter GrabCameraEvents is enabled, the Instant Camera event grabbing support is initialized.
The grabbing is started.
The AcquisitionStart command of the camera device is executed.
The configuration event OnGrabStarted is fired if the grab has been started successfully. The notification of event handlers stops when an event call triggers an exception.
If grabLoopType equals GrabLoop_ProvidedByInstantCamera, an additional grab loop thread is started calling RetrieveResult( GrabLoopThreadTimeout, grabResult) in a loop.
Starts the grabbing for a maximum number of images.
Parameters:
maxImages The count of images to grab. This value must be larger than zero.
strategy The grab strategy. See Pylon::InstantCamera::EStrategy for more information.
grabLoopType If grabLoopType equals GrabLoop_ProvidedByInstantCamera, an additional grab loop thread is used to run the grab loop.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Extends the StartGrabbing(EStrategy, EGrabLoop) by a number of images to grab. If the passed count of images has been reached, StopGrabbing is called automatically. The images are counted according to the grab strategy. Skipped images are not taken into account.
The amount of allocated buffers is reduced to maxImages when grabbing fewer images than according to the value of the MaxNumBuffer parameter and the grab strategy is GrabStrategy_OneByOne.
If the Pylon device has been opened by StartGrabbing and no other camera object service requires it to be open, it is closed.
Grab specific parameters of the camera object are unlocked, e.g. MaxNumBuffers.
Error Safety:
Does not throw C++ exceptions. Possible C++ exceptions are caught and ignored.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Nothing is done if the Instant Camera is not currently grabbing.
The configuration event OnGrabStop is fired. Possible C++ exceptions from event calls are caught and ignored. All event handlers are notified.
The AcquisitionStop command of the camera device is executed.
The grabbing is stopped.
All buffer queues of the Instant Camera are cleared.
The OnGrabStopped configuration event is fired if the grab has been stopped successfully. Possible C++ exceptions from event calls are caught and ignored. All event handlers are notified.
If the Instant Camera has been opened by StartGrabbing, it is closed by calling Close().
Grab-specific parameters of the camera object are unlocked, e.g. MaxNumBuffers.
Actively waits until the the camera is ready to accept a frame trigger.
Parameters:
timeoutMs The timeout in ms for active waiting.
timeoutHandling If timeoutHandling equals TimeoutHandling_ThrowException, a timeout exception is thrown on timeout.
Return: True if the camera can execute a frame trigger.
Precondition: The 'AcquisitionStatusSelector' node is writable and the 'AcquisitionStatus' node is readable or the 'SoftwareTrigger' node is readable. This depends on the used camera model.
Error Safety:
Accessing the camera registers may fail.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
The implementation selects 'FrameTriggerWait' for the 'AcquisitionStatusSelector' and waits until the 'AcquisitionStatus' is true. If the above mentioned nodes are not available and the 'SoftwareTrigger' node is readable, the implementation waits for SoftwareTrigger.IsDone().
Checks to see whether the camera device can be queried whether it is ready to accept the next frame trigger.
Return: Returns true if the camera is open and the camera device can be queried whether it is ready to accept the next frame trigger.
Note If a camera device can't be queried whether it is ready to accept the next frame trigger, the camera device is ready to accept the next trigger after the last image triggered has been grabbed, e.g. after you have retrieved the last image triggered using RetrieveResult(). Camera devices that can be queried whether they are ready to accept the next frame trigger, may not be ready for the next frame trigger after the last image triggered has been grabbed.
Postcondition: The 'AcquisitionStatusSelector' is set to 'FrameTriggerWait' if writable.
Error Safety:
Accessing the camera registers may fail.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
If 'FrameTriggerWait' can be selected for 'AcquisitionStatusSelector' and 'AcquisitionStatus' is readable, the camera device can be queried whether it is ready to accept the next frame trigger.
If the nodes mentioned above are not available and the 'SoftwareTrigger' node is readable, the camera device can be queried whether it is ready to accept the next frame trigger.
Note The application has to make sure that the correct trigger is selected before calling ExecuteSoftwareTrigger(). This can be done via the camera's TriggerSelector node. The Pylon::CSoftwareTriggerConfiguration selects the correct trigger when the Instant Camera is opened.
Precondition:
The grabbing is started.
The camera device supports software trigger.
The software trigger is available. This depends on the configuration of the camera device.
Error Safety:
Accessing the camera registers may fail. Throws an exception on timeout if timeoutHandling is TimeoutHandling_ThrowException.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
The camera needs to be configured for software trigger mode. Additionally, the camera needs to be ready to accept triggers. When triggering a frame this can be checked using the WaitForFrameTriggerReady() method;
Provides access to the node map of the camera device.
Return: Reference to the node map of the camera device.
Precondition: A Pylon device is attached.
Error Safety:
The Instant Camera object is still valid after error.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
The Pylon device must be opened before reading ore writing any parameters of the camera device. This can be done using the Open() method of the Instant Camera class.
Provides access to the transport layer node map of the attached Pylon device.
Return: Reference to the transport layer node map of the attached Pylon device or the reference to the empty node map if a transport layer node map is not supported. The GenApi::INodeMap::GetNumNodes() method can be used to check whether the node map is empty.
Precondition: A Pylon device is attached.
Error Safety:
The Instant Camera object is still valid after error.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Provides access to the stream grabber node map of the attached Pylon device.
Return: Reference to the stream grabber node map of the attached Pylon device or the reference to the empty node map if grabbing is not supported. The GenApi::INodeMap::GetNumNodes() method can be used to check whether the node map is empty.
Precondition:
A Pylon device is attached.
The Pylon device is open.
Error Safety:
The Instant Camera object is still valid after error.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Provides access to the event grabber node map of the attached Pylon device.
Return: Reference to the event grabber node map of the attached Pylon device or a reference to the empty node map if event grabbing is not supported. The GenApi::INodeMap::GetNumNodes() method can be used to check whether the node map is empty.
Precondition:
A Pylon device is attached.
The Pylon device is open.
Error Safety:
The Instant Camera object is still valid after error.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
Sets an alternative buffer factory that is used for buffer allocation.
Parameters:
pFactory A pointer to a buffer factory.
cleanupProcedure If ownership is cleanupProcedure Cleanup_Delete, the passed factory is destroyed when no longer needed.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
This use of this method is optional and intended for advanced use cases only.
If NULL is passed as buffer factory then the default buffer factory is used. Buffers are allocated when StartGrabbing is called. A buffer factory must not be deleted while it is attached to the camera object and it must not be deleted until the last buffer is freed. To free all buffers the grab needs to be stopped and all grab results must be released or destroyed.
Returns the SFNC version read from the camera node map.
Return: The SFNC version used by the camera device. The returned SFNC version is 0.0.0 (Pylon::Sfnc_VersionUndefined) if no SFNC version information is provided by the camera device.
Precondition: A Pylon device is attached.
Error Safety:
The Instant Camera object is still valid after error.
Thread Safety:
This method is synchronized using the lock provided by GetLock().
The SFNC version is read from the camera node map using the integer nodes DeviceSFNCVersionMajor, DeviceSFNCVersionMinor, and DeviceSFNCVersionSubMinor.
Provides access to the lock used for synchronizing the access to the camera.
Error Safety:
Does not throw C++ exceptions.
This lock can be used when extending the Instant Camera class.
Example:
classCMyInstantCamera:publicCInstantCamera{// Method extending the Instant Camera classvoidFoo(){// Scoped Lock.AutoLocklock(CInstantCamera::GetLock());//...}};
Aborts the acquisition of images - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Aborts the acquisition of images. If the camera is currently exposing a frame, the camera stops exposing immediately. The readout process, if already started, is aborted. The current frame will be incomplete. Afterwards, image acquisition is switched off.
Starts the acquisition of images - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Starts the acquisition of images. If the camera is configured for single frame acquisition, it will start the acquisition of one frame. If the camera is configured for continuous frame acquisition, it will start the continuous acquisition of frames.
Indicates whether the camera is waiting for trigger signals - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Indicates whether the camera is waiting for trigger signals. You should only use this feature if the camera is configured for software triggering. If the camera is configured for hardware triggering, monitor the camera's Trigger Wait signals instead.
Sets the signal whose status you want to check - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the signal whose status you want to check. Its status can be checked by reading the Acquisition Status parameter value.
Sets the operation mode of the Exposure Auto auto function - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Sets the operation mode of the Exposure Auto auto function. The Exposure Auto auto function automatically adjusts the exposure time within set limits until a target brightness value has been reached.
Timebase (in microseconds) that the camera uses when the exposure time is specified using the Exposure Time (Raw) parameter - Applies to: CamEmu, CameraLink and GigE.
Exposure time of the camera (raw value) - Applies to: CamEmu, CameraLink and GigE.
Exposure time of the camera (raw value). The actual exposure time equals the current Exposure Time (Raw) value multiplied with the current Exposure Timebase value.
Enables the synchronous free run mode - Applies to: GigE and blaze.
Enables the synchronous free run mode. If enabled, the camera will generate all required frame start or line start trigger signals internally. You don't need to apply frame start or line start trigger signals to the camera.
Sets the type of signal transition that will activate the selected trigger - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Number of frames to acquire for each Frame Burst Start trigger - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Acquisition frame rate of the camera in frames per second - Applies to: CamEmu, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Indicates the delay between the start of exposure and the start of the flash window in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress and dart USB.
Enables the Immediate Trigger mode - Applies to: dart USB and pulse USB.
Enables the Immediate Trigger mode. If this mode is enabled, exposure starts immediately after triggering, but changes to image parameters become effective with a short delay, i.e., after one or more images have been acquired.
Maximum number of frames that can be acquired per second with current camera settings - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Maximum number of frames that can be acquired per second with current camera settings. In High Speed burst mode, this value is usually higher than the Resulting Transfer Frame Rate parameter value.
Maximum number of bursts per second with current camera settings - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB and dart USB.
Maximum number of frames that can be transferred per second with current camera settings - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Maximum number of frames that can be transferred per second with current camera settings. This value indicates the peak frame rate to be expected at the camera's output. In High Speed burst mode, this value is usually lower than the Resulting Acquisition Frame Rate parameter value.
Maximum number of lines that can be transferred per second with current camera settings - Applies to: racer 2 CXP.
Maximum number of lines that can be transferred per second with current camera settings. This value indicates the peak line rate to be expected at the camera's output.
Sets the bit depth of the image sensor's data output - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the bit depth of the image sensor's data output. You can set the sensor bit depth independently of the pixel format used if the Sensor Bit Depth Mode parameter is set to Manual. If that parameter is set to Auto, the sensor bit depth is adjusted automatically depending on the pixel format used.
Puts the sensor in standby mode - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart USB and racer 2 CXP.
Puts the sensor in standby mode. In standby mode, power consumption is reduced significantly, which results in a lower camera temperature. Certain parameters can only be configured when the sensor is in standby mode.
Exposure time of the camera in microseconds - Applies to: CamEmu, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Sets which component the Exposure Time parameter value applies to - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart USB and racer 2 CXP.
Enables Burst Acquisition - Applies to: CameraLink and GigE.
Enables Burst Acquisition. If enabled, the maximum frame rate only depends on the sensor timing and the timing of the trigger sequence. The image transfer rate out of the camera has no influence on the frame rate.
Trigger delay as number of line triggers - Applies to: CameraLink and GigE.
Trigger delay as a number of consecutive line triggers that are allowed between trigger having been received and before effectively activating the trigger.
Determines whether a partial or a complete frame is transmitted when the Frame Start trigger signal transitions prematurely - Applies to: CameraLink and GigE.
Determines whether a partial or a complete frame is transmitted when the Frame Start trigger is used with High or Low states and the trigger signal transitions prematurely.
Number of separate action signals supported by the camera - Applies to: GigE.
Number of separate action signals supported by the camera. Determines how many action signals the camera can handle in parallel, i.e., how many different action commands can be configured on the camera.
Device key used for action commands - Applies to: GigE and ace 2 GigE.
Device key used to authorize the execution of an action command. If the action device key in the camera and the action device key in the protocol message are identical, the camera will execute the corresponding action.
Group mask used for action commands - Applies to: GigE and ace 2 GigE.
Group mask used to filter out a sub-group of cameras belonging to a group of cameras. The cameras belonging to a sub-group execute an action at the same time. The filtering is done using a logical bitwise AND operation on the group mask number of the action command and the group mask number of a camera. If both binary numbers have at least one common bit set to 1 (i.e., the result of the AND operation is non-zero), the corresponding camera belongs to the sub-group.
Number of action commands that can be queued by the camera - Applies to: ace 2 GigE.
Number of action commands that can be queued by the camera. The camera will execute them in ascending order of action time. If the queue is full, additional commands will be ignored.
Number of separate action signals supported by the camera - Applies to: GigE.
Number of separate action signals supported by the camera. Determines how many action signals the camera can handle in parallel, i.e., how many different action commands can be configured on the camera.
Stream channel index of the Action Late event - Applies to: GigE.
Stream channel index of the Action Late event. An Action Late event is raised when a scheduled action command with a timestamp in the past is received.
Backlight compensation to be applied - Applies to: dart USB and pulse USB.
Backlight compensation factor that allows the camera to compensate for underexposure. This is done by excluding a certain percentage of the brightest pixels in the image from the target average gray value calculations.
Target brightness for the Gain Auto and the Exposure Auto auto functions - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Brightness adjustment damping factor to be applied - Applies to: dart USB and pulse USB.
Brightness adjustment damping factor to be applied. This controls the speed with which pixel gray values are changed when Exposure Auto, Gain Auto, or both are enabled. The lower the damping factor, the faster the target brightness value is reached.
Balance White adjustment damping factor to be applied - Applies to: CameraLink and GigE.
Balance White adjustment damping factor to be applied. This controls the speed with which the camera adjusts colors when the Balance White Auto auto function is enabled. This can be useful, for example, when objects move into the camera's field of view and the light conditions are changing gradually due to the moving objects.
Balance White adjustment damping factor to be applied (raw value) - Applies to: CameraLink and GigE.
Balance White adjustment damping factor to be applied (raw value). This controls the speed with which the camera adjusts colors when the Balance White Auto auto function is enabled. This can be useful, for example, when objects move into the camera's field of view and the light conditions are changing gradually due to the moving objects.
Gray value adjustment damping factor to be applied - Applies to: CameraLink and GigE.
Gray value adjustment damping factor to be applied. This controls the speed with which pixel gray values are changed when Exposure Auto, Gain Auto, or both are enabled. This can be useful, for example, when objects move into the camera's field of view and the light conditions are changing gradually due to the moving objects.
Gray value adjustment damping factor (raw value) to be applied - Applies to: CameraLink and GigE.
Gray value adjustment damping factor (raw value) to be applied. This controls the speed with which pixel gray values are changed when Exposure Auto, Gain Auto, or both are enabled. This can be useful, for example, when objects move into the camera's field of view and the light conditions are changing gradually due to the moving objects.
Lower limit of the Exposure Time parameter when the Exposure Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
Upper limit of the Exposure Time parameter when the Exposure Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function AOI - Applies to: CameraLink and GigE.
Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function AOI. For this parameter, Gain Auto and Exposure Auto are considered as a single auto function named 'Intensity'.
Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function AOI - Applies to: ace USB.
Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function AOI. For this parameter, Gain Auto and Exposure Auto are considered as a single auto function named 'Brightness'.
Sets how gain and exposure time will be balanced when the camera is making automatic adjustments - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Height of the auto function ROI (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Highlights the current auto function ROI in the image window - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB and dart USB.
Highlights the current auto function ROI in the image window. Areas that do not belong to the current ROI appear darker.
Horizontal offset of the auto function ROI from the left side of the sensor (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Vertical offset from the top of the sensor to the auto function ROI (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Vertical offset of the auto function ROI from the top of the sensor (in pixels).
Sets which auto function ROI can be configured - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function ROI - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
Assigns the Gain Auto and the Exposure Auto auto functions to the currently selected auto function ROI. For this parameter, Gain Auto and Exposure Auto are considered as a single auto function named 'Brightness'.
Assigns the Balance White Auto auto function to the currently selected auto function ROI - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Width of the auto function ROI (in pixels) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Lower limit of the Gain parameter when the Gain Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and pulse USB.
Upper limit of the Gain parameter when the Gain Auto auto function is active - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Bright target value to be used during automatic tonal range adjustments - Applies to: GigE and ace USB.
Bright target value to be used during automatic tonal range adjustments. When you enable the Tonal Range Auto auto function, the camera sets the Tonal Range Target Bright parameter to this value. Not available if the Auto Tonal Range Mode parameter is set to Color.
Dark target value to be used during automatic tonal range adjustments - Applies to: GigE and ace USB.
Dark target value to be used during automatic tonal range adjustments. When you enable the Tonal Range Auto auto function, the camera sets the Tonal Range Target Dark parameter to this value. Not available if the Auto Tonal Range Mode parameter is set to Color.
Threshold value from which the Tonal Range Source Bright parameter value is calculated during automatic tonal range adjustments - Applies to: GigE and ace USB.
Threshold value from which the Tonal Range Source Bright parameter value is calculated during automatic tonal range adjustments. The parameter is expressed as a percentage of all pixels in the assigned auto function ROI. Example: Assume you set the Auto Tonal Range Threshold Bright parameter to 0.1 and enable the Tonal Range Auto auto function. Now assume that 0.1 % of the pixels in the assigned auto function ROI have a pixel value greater than or equal to 240. The camera automatically detects this, sets the Tonal Range Source Bright parameter to 240, and starts tonal range adjustments.
Threshold value from which the Tonal Range Source Bright parameter value is calculated during automatic tonal range adjustments (raw value) - Applies to: GigE.
Threshold value from which the Tonal Range Source Bright parameter value is calculated during automatic tonal range adjustments. The parameter is expressed as a percentage of all pixels in the assigned auto function ROI. Example: Assume you set the Auto Tonal Range Threshold Bright parameter to 0.1 and enable the Tonal Range Auto auto function. Now assume that 0.1 % of the pixels in the assigned auto function ROI have a pixel value greater than or equal to 240. The camera automatically detects this, sets the Tonal Range Source Bright parameter to 240, and starts tonal range adjustments.
Threshold value from which the Tonal Range Source Dark parameter value is calculated during automatic tonal range adjustments - Applies to: GigE and ace USB.
Threshold value from which the Tonal Range Source Dark parameter value is calculated during automatic tonal range adjustments. The parameter is expressed as a percentage of all pixels in the assigned auto function ROI. Example: Assume you set the Auto Tonal Range Threshold Dark parameter to 0.2 and enable the Tonal Range Auto auto function. Now assume that 0.2 % of the pixels in the assigned auto function ROI have a pixel value lower than or equal to 30. The camera automatically detects this, sets the Tonal Range Source Dark parameter to 30, and starts tonal range adjustments.
Threshold value from which the Tonal Range Source Dark parameter value is calculated during automatic tonal range adjustments (raw value) - Applies to: GigE.
Threshold value from which the Tonal Range Source Dark parameter value is calculated during automatic tonal range adjustments. The parameter is expressed as a percentage of all pixels in the assigned auto function ROI. Example: Assume you set the Auto Tonal Range Threshold Dark parameter to 0.2 and enable the Tonal Range Auto auto function. Now assume that 0.2 % of the pixels in the assigned auto function ROI have a pixel value lower than or equal to 30. The camera automatically detects this, sets the Tonal Range Source Dark parameter to 30, and starts tonal range adjustments.
Balance Ratio value to be applied to the currently selected channel - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Sets which color channel can be adjusted when performing manual white balance - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Sets which color channel can be adjusted when performing manual white balance. All changes to the Balance Ratio parameter will be applied to the selected color channel.
Visibility: Beginner
Selecting Parameters: BalanceRatio, BalanceRatioAbs and BalanceRatioRaw
Sets the operation mode of the Balance White Auto auto function - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Horizontal decimation factor - Applies to: CameraLink, GigE, Stereo ace and ace USB.
Horizontal decimation factor. This specifies the extent of horizontal sub-sampling of the acquired frame, i.e., it defines how many pixel columns are left out of transmission. This has the net effect of reducing the horizontal resolution (width) of the image by the specified decimation factor. A value of 1 means that the camera performs no horizontal decimation.
Vertical decimation factor - Applies to: CameraLink, GigE, Stereo ace, ace USB and boost V CoaXPress.
Vertical decimation factor. This specifies the extent of vertical sub-sampling of the acquired frame, i.e., it defines how many rows are left out of transmission. This has the net effect of reducing the vertical resolution (height) of the image by the specified decimation factor. A value of 1 means that the camera performs no vertical decimation.
Height of the camera's region of interest (area of interest) in pixels - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Height of the camera's region of interest (area of interest) in pixels. Depending on the camera model, the parameter can be set in different increments.
Horizontal offset of the region of interest (area of interest) from the left side of the sensor (in pixels) - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Horizontal offset from the left side of the sensor to the region of interest (area of interest) (in pixels).
Vertical offset of the region of interest (area of interest) from the top of the sensor (in pixels) - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Vertical offset from the top of the sensor to the region of interest (area of interest) (in pixels).
Width of the camera's region of interest (area of interest) in pixels - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Width of the camera's region of interest (area of interest) in pixels. Depending on the camera model, the parameter can be set in different increments.
Sets whether sensor or FPGA binning can be configured - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets whether sensor or FPGA binning can be configured. To configure binning, use the Binning Horizontal, Binning Vertical, Binning Horizontal Mode, and Binning Vertical Mode parameters.
Visibility: Expert
Selecting Parameters: BinningHorizontal, BinningHorizontalMode, BinningVertical and BinningVerticalMode
End of the three-dimensional ROI - Applies to: blaze.
The Minimum Depth and the Maximum Depth parameters together define the desired three-dimensional ROI. In the point cloud display, points outside the ROI will be ignored. When using the Mono16 or RGB8 pixel formats, points in front of the ROI receive the minimum distance value, while points beyond the ROI receive the maximum distance value.
Start of the three-dimensional ROI - Applies to: blaze.
The Minimum Depth and the Maximum Depth parameters together define the desired three-dimensional ROI. In the point cloud display, points outside the ROI will be ignored. When using the Mono16 or RGB8 pixel formats, points in front of the ROI receive the minimum distance value, while points beyond the ROI receive the maximum distance value.
Number of bytes separating the starting pixels of two consecutive lines - Applies to: ace USB.
Number of bytes separating the starting pixels of two consecutive lines. This feature is useful if you want to align your image data to fixed-size groups of digits, e.g., to 4-byte (32-bit) or 8-byte (64-bit) words. Data alignment can improve performance.
Distance between the sensor plane and the front of the housing - Applies to: blaze.
Distance between the sensor plane and the front of the housing. This value can be used to calculate the distance between the optical center and the front of the housing.
Black level value to be applied to the currently selected sensor tap - Applies to: CamEmu, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Sets the color space for image acquisitions - Applies to: dart USB and pulse USB.
Sets the color space for image acquisitions. Note that the gamma correction value also influences the perception of brightness in the resulting images.
Value of the currently selected gain in dB - Applies to: CamEmu, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Sets the type of black level adjustment to be configured - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart USB, pulse USB and racer 2 CXP.
Visibility: Beginner
Selecting Parameters: BlackLevel, BlackLevelAbs and BlackLevelRaw
Digital shift to be applied - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Digital shift allows you to multiply the pixel values in an image. This increases the brightness of the image. If the parameter is set to zero, digital shift is disabled.
Sets the operation mode of the Gain Auto auto function - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and pulse USB.
Sets the operation mode of the Gain Auto auto function. The Gain Auto auto function automatically adjusts the gain within set limits until a target brightness value has been reached.
Sets the gain type to be adjusted - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart USB, pulse USB and racer 2 CXP.
Sets the gain type to be adjusted. All changes to the Gain parameter will be applied to the selected gain type.
Visibility: Beginner
Selecting Parameters: AutoGainLowerLimit, AutoGainUpperLimit, Gain, GainAbs, GainAuto and GainRaw
Identifies outlier pixels and adjusts their intensity value - Applies to: dart 2 USB, dart MIPI and dart USB.
Pixels that have a significantly higher or lower intensity value than the neighboring pixels are called outlier pixels. This feature identifies them and adjusts their intensity value.
Sets which features the camera adjusts when you select a light source preset - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB and dart USB.
Sets which features the camera adjusts when you select a light source preset. By default, the camera adjust all features.
Confidence threshold for pixels - Applies to: blaze.
Pixels have to exceed the confidence value specified here in order to be taken into account for the distance measurement. The threshold value is based on the gray values of the confidence map.
Identifies outlier pixels and adjusts their intensity value - Applies to: dart USB and pulse USB.
Identifies pixels that have a significantly greater or lesser intensity value than its neighboring pixels (outlier pixels) and adjusts their intensity value.
Strength of the temporal filter - Applies to: blaze.
Strength of the temporal filter. The higher the value, the further back the memory of the filter reaches. High values can cause motion artifacts, while low values reduce the efficacy of the filter.
Enables the temporal noise filter - Applies to: blaze.
The temporal noise filter uses the values of the same pixel at different points in time to filter out noise in an image. It is based on the depth data of the image.
Indicates the status of the target brightness adjustments performed by the Exposure Auto and Gain Auto auto functions - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
Unique identifier of the current frame - Applies to: Stereo ace, ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
Unique identifier of the current frame. The frame ID starts at 0 and keeps incrementing by 1 for each exposed image until the camera is powered off. The maximum value is 2^48.
Bit field that indicates the status of all of the camera's input and output lines when the image was acquired - Applies to: GigE, Stereo ace, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB and dart USB.
CRC checksum of the acquired image - Applies to: GigE, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB and dart USB.
CRC checksum of the acquired image. The checksum is calculated using all of the image data and all of the appended chunks except for the checksum itself.
Number of bytes of data between the beginning of one line in the acquired image and the beginning of the next line in the acquired image - Applies to: GigE and ace 2 GigE.
Sets the color space for image acquisitions - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart MIPI and dart USB.
Sets the color space for image acquisitions. Note that the gamma correction value also influences the perception of brightness in the resulting images.
Indicates the maximum temperature the camera reached during operation - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Indicates the temperature state - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Indicates how often the temperature state changed to Error - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Path of the Video4Linux device used to control the camera - Applies to: dart MIPI.
Path of the Video4Linux device used to control the camera. This allows you to distinguish individual cameras if more than one camera is connected to your board.
Indicates the character set used by the strings of the device's bootstrap registers - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Identifier of the product family of the device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the behavior of the camera's status LED - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Bandwidth limit for data transmission (in bytes per second) - Applies to: CamEmu, Stereo ace, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB, dart USB and pulse USB.
Visibility: Beginner
Selected by: DeviceLinkSelector and DeviceLinkThroughputLimitMode
Enables/disables the device link throughput limit - Applies to: CamEmu, Stereo ace, ace 2 GigE, ace 2 USB, ace USB, dart 2 USB, dart USB and pulse USB.
Enables/disables the device link throughput limit. If disabled, the bandwidth used is determined by the settings of various other parameters, e.g., exposure time or frame rate.
First URL to the GenICam XML device description file of the selected manifest entry - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, boost CoaXPress and racer 2 CXP.
Major version number of the schema file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Minor version number of the schema file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Major version number of the GenICam XML file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Minor version number of the GenICam XML file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Subminor version number of the GenICam XML file of the selected manifest entry - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Endianness of the registers of the device - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Major version number of the SFNC specification that the camera is compatible with - Applies to: GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Major version number of the Standard Features Naming Convention (SFNC) specification that the camera is compatible with.
Minor version number of the SFNC specification that the camera is compatible with - Applies to: GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Minor version number of the Standard Features Naming Convention (SFNC) specification that the camera is compatible with.
Subminor version number of the SFNC specification that the camera is compatible with - Applies to: GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Subminor version number of the Standard Features Naming Convention (SFNC) specification that the camera is compatible with.
Serial number of the camera - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Indicates the type of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Major version number of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Minor version number of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Subminor version number of the device's transport layer - Applies to: Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB and racer 2 CXP.
Temperature at the selected location in the camera (in degrees centigrade) - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Temperature at the selected location in the camera (in degrees centigrade). The temperature is measured at the location specified by the Device Temperature Selector parameter.
Sets the location in the camera where the temperature will be measured - Applies to: CamEmu, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the location in the camera where the temperature will be measured. The temperature can be retrieved using the Device Temperature parameter.
Latches the current timestamp counter and stores its value in TimestampLatchValue - Applies to: Stereo ace, ace 2 GigE, ace 2 USB, ace USB, blaze, dart 2 USB and dart USB.
Latches the current timestamp counter and stores its value in the Timestamp Latch Value parameter.
Indicates whether the outgoing image is valid - Applies to: boost V CoaXPress.
Indicates whether the outgoing image is valid. If the value of this parameter is false, change your Dual ROI settings. For example, the regions must not overlap, and the total height of all regions must not exceed the height of the image sensor.
Enables the Dual ROI feature - Applies to: boost V CoaXPress.
Enables the Dual ROI feature. This feature allows you to define two regions on the sensor array that will be transmitted as a single image. The height and the vertical offset can be defined individually for both regions. You do so by configuring rows on the sensor array. The width and horizontal offset are always identical for both regions. They are defined by the global Offset X and Width parameters.
Time period in which the camera evaluates all changes and durations of logical states of the input signal - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Time period in which the camera evaluates all changes and durations of logical states of the input signal. During evaluation, the camera calculates the mean value over time and applies a threshold function to the result to reconstruct the digital signal. This removes noise, interference, etc. as well as signal pulses shorter than the filter time.
Time period in which the camera doesn't accept any further trigger signals or signal changes after receiving an input trigger signal - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Time period in which the camera doesn't accept any further trigger signals or signal changes after receiving an input trigger signal. This is useful if you want to avoid false triggering caused by multiple trigger signals arriving in quick succession (contact bounce).
Resets the overload status of the selected line - Applies to: ace USB.
This command resets the overload status of the selected line. If the overload condition is still fulfilled, the overload status will be set again immediately.
Indicates whether an internal error occurred on the device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Indicates whether an internal error occurred on the device. If an error occurred, you can use the Error Report Next command to determine the error code.
Error code indicating the cause of the internal error - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Error code indicating the cause of the internal error. If there are multiple errors, execute the Error Report Next command to retrieve the next error code. A parameter value of 0 means that there are no more error codes to retrieve.
Photo Response Non-Uniformity (PRNU) coefficient of the column specified by the Flat-Field Correction Coeff X parameter - Applies to: boost V CoaXPress.
The mean gray value of all pixels in the dark field image - Applies to: boost V CoaXPress.
The mean gray value of all pixels in the dark field image. This is the sum of the gray values of all pixels of all acquired images divided by the total number of pixels.
Operating channel of the camera - Applies to: blaze.
Operating channel of the camera. In multi-camera setups, use a different channel on each camera. This ensures that the cameras are operating at different frequencies and their light sources will not interfere with the other cameras' light sources.
Sets the operating mode of the camera - Applies to: blaze.
Sets the operating mode of the camera. The choice you make here, affects the working range of the camera, i.e., the Minimum Working Range and Maximum Working Range parameters. If the operating mode is changed, the exposure time is set to the recommended default value.
Adds an offset to the measured distance - Applies to: blaze.
This parameter allows you to adjust the internal camera calibration. The offset specified by Scan3dCalibrationOffset is added to the radial distances the camera measures. The camera transforms the radial distances into x, y, z coordinates in a Cartesian coordinate system whose origin lies in the camera's optical center. The Scan3dCalibrationOffset parameter can be used to manually correct a temperature-dependent drift. Note: Since Scan3dCalibrationOffset is added to the radial distances, it can't be used to translate the origin of the coordinate system, i.e., it can't be used to add a constant offset to the z coordinate. Specifically, you should not use it in an attempt to shift the origin of the camera's coordinate system from the optical center to the front of the camera housing. Trying to do so will result in measurement errors causing planar surfaces to appear curved.
Visibility: Expert
The <a href="https://docs.baslerweb.com/?rhcsh=1&rhmapid=Scan3dCalibrationOffset" target="_blank">feature documentation</a> may provide more information.```
### variable Scan3dCoordinateOffset
```cpp
Pylon::IFloatEx & Scan3dCoordinateOffset;
Offset when transforming a pixel from relative coordinates to world coordinates - Applies to: Stereo ace and blaze.
Returns the focal length of the camera in pixel - Applies to: Stereo ace and blaze.
Returns the focal length of the camera in pixel. The focal length depends on the selected region. The value of this feature takes into account horizontal binning, decimation, or any other function changing the image resolution.
Enables the definition of a non-valid flag value in the data stream - Applies to: Stereo ace and blaze.
Enables the definition of a non-valid flag value in the data stream. Note that the confidence output is an alternate recommended way to identify non-valid pixels. Using an Scan3dInvalidDataValue may give processing penalties due to special handling.
Returns the value of the horizontal position of the principal point, relative to the region origin, i e - Applies to: Stereo ace and blaze.
Returns the value of the horizontal position of the principal point, relative to the region origin, i.e. OffsetX. The value of this feature takes into account horizontal binning, decimation, or any other function changing the image resolution.
Returns the value of the vertical position of the principal point, relative to the region origin, i e - Applies to: Stereo ace and blaze.
Returns the value of the vertical position of the principal point, relative to the region origin, i.e. OffsetY. The value of this feature takes into account vertical binning, decimation, or any other function changing the image resolution.
Distance between the origin of the z axis to the front of the camera housing - Applies to: blaze.
Distance between the origin of the z axis to the front of the camera housing. Due to mechanical tolerances, this offset is device-specific and needs to be taken into account when measuring absolute distances.
Sets the operation mode of the Autofocus function - Applies to: dart MIPI.
Sets the operation mode of the Autofocus function. The Continuous mode automatically adjusts the focus within an image area until the focus has been reached. The Once mode does it only one time. The Off mode enables the user to manually set the focus.
Pre-divider value to decrease the signal frequency - Applies to: racer 2 CXP.
Pre-divider value to decrease the signal frequency. The value determines the frequency with which input signals are passed to the multiplier submodule.
Maximum ratio between the payload size of compressed and uncompressed images - Applies to: ace 2 GigE and ace 2 USB.
Maximum ratio between the payload size of compressed and uncompressed images. For example, if you set this parameter to 70, the camera will try to compress the payload of images to 70 % or less of the original size. Note that if the camera can't achieve compression with the specified Image Compression Ratio and Image Compression Rate Option settings, frames will be skipped.
Number of trigger signals that were received while any of the connected light devices wasn't ready for it - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Number of trigger signals that were received while any of the connected light devices wasn't ready for it. Counts up to a maximum value of 65535.
Resets the counter for trigger signals that were received while any of the connected light devices wasn't ready for it - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Brightness of the light in percent of total brightness available - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Brightness of the light in percent of total brightness available. Setting this parameter to 100 % means that the light device draws the maximum current as specified by the Light Device Max Current parameter.
Brightness of the light in percent of total brightness available (raw value) - Applies to: GigE.
Brightness of the light in percent of total brightness available (raw value). Setting this parameter to 100 % means that the light device draws the maximum current as specified by the the Light Device Max Current parameter.
Nominal current that the light device uses in continuous operation - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Nominal current that the light device uses in continuous operation. If not automatically set, you must set this value to the nominal current of your device to avoid overload. To change the setting, the Light Device Operation Mode parameter must be set to Off.
Duty cycle of the device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Duty cycle of the device calculated using the strobe duration and the frame period. If the strobe duration is longer than the frame period, the duty cycle exceeds 100 %.
Error code indicating the cause of an error in a light device - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Error code indicating the cause of an error in a light device. The error code provides additional information about the kind of error. Execute the Light Device Error Status Read And Clear command to read the error code from the light device. Then, contact support with the error code.
Reads the error code from the current light device and resets the error status to No Error - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Reads the error code from the current light device and resets the error status to No Error. After executing this command, the error code is available in the Light Device Error Code parameter.
Maximum current that the light device is going to use - Applies to: GigE and ace USB.
Maximum current that the light device is going to use. The value should not exceed the power rating of the device. To change the setting, the Light Device Operation Mode parameter must be set to Off.
Maximum current that the light device is going to use (raw value) - Applies to: GigE.
Maximum current that the light device is going to use (raw value). The value should not exceed the power rating of the device. To change the setting, the Light Device Operation Mode parameter must be set to Off.
Maximum current to be used when operating the light device in overdrive - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Maximum current to be used when operating the light device in overdrive. This parameter value is relative to the value of the Light Device Max Current parameter.
Sets which light device can be configured - Applies to: GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Sets which light device can be configured. To populate the list, use the Light Control Enumerate Devices command first. All subsequent parameter changes in this category will be applied to the device selected here.
Enables or disables the ability to define multiple regions in horizontal direction - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Enables or disables the ability to define multiple regions in horizontal direction. When disabled, the width and horizontal offset of all regions is defined by the Width and Offset X parameters, and the Multiple ROI Column Offset and Multiple ROI Column Size parameter values are ignored.
Enables or disables the ability to define multiple regions in vertical direction - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Enables or disables the ability to define multiple regions in vertical direction. When disabled, the height and vertical offset of all regions is defined by the Height and Offset Y parameters, and the Multiple ROI Row Offset and Multiple ROI Row Size parameter values are ignored.
Amount of noise reduction to be applied - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
Amount of noise reduction to be applied. The higher the value, the less chroma noise will be visible in your images. However, very high values may result in image information loss.
Sets the transition type of the source signal that activates the synchronization - Applies to: dart MIPI.
Sets the transition type of the source signal that activates the synchronization. The period between the individual transitions determines the period of the of the resulting periodic signal.
Value indicating the priority of the device when determining the master clock - Applies to: ace 2 GigE.
Value indicating the priority of the device when determining the master clock. The network device with the lowest Priority 1 setting is the master clock.
Threshold value below which the device will set the Ptp Servo Status parameter to Locked, indicating that the device is sufficiently synchronized - Applies to: ace 2 GigE.
Threshold value below which the device will set the Ptp Servo Status parameter to Locked, indicating that the device is sufficiently synchronized. For example, if you set this parameter to 10000, the servo status is set to Locked whenever the offset from master is below 10000 nanoseconds.
Initiates a receiving transaction from the serial input buffer - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
Initiates a receiving transaction from the serial input buffer. When the transaction has been completed, the Serial Transfer Length parameter indicates the number of valid data units received.
Signals a break to a receiver connected to the camera, or terminates the break - Applies to: ace 2 GigE, ace 2 USB, boost CoaXPress and racer 2 CXP.
Signals a break to a receiver connected to the camera, or terminates the break. If this parameter is set to true, a serial break is signaled by setting the serial output to low level (space). If this parameter is set to false, the serial output is reset to high (mark).
Absolute target value of the sensor brightness - Applies to: racer 2 CXP.
Absolute target value of the sensor brightness. This is the actual brightness value that has been calculated based on the sensor bit depth of your camera.
Relative target value of the sensor brightness you want to achieve - Applies to: racer 2 CXP.
Relative target value of the sensor brightness you want to achieve. This parameter is only available when creating PRNU shading correction sets. Only pixels with a Shading Correction Absolute Target Value parameter lower than the Shading Correction Maximum Measured Value are corrected.
Sharpening value to be applied - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB, dart MIPI and dart USB.
Sharpening value to be applied. The higher the sharpness, the more distinct the image subject's contours will be. However, very high values may result in image information loss.
Maximum number of defect pixels that the factory or user correction file can contain - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Reloads the user defect pixel correction file - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB and boost CoaXPress.
Reloads the user defect pixel correction file. This command must be executed if the user defect pixel correction file has been uploaded for the first time or has been updated.
Enables or disables the static defect pixel correction test mode - Applies to: boost V CoaXPress.
Enables or disables the static defect pixel correction test mode. In test mode, all corrected pixels are set to completely white. This helps to find pixels that are being corrected in your images.
Enables the vignetting correction - Applies to: boost CoaXPress and dart MIPI.
Enables the vignetting correction. This feature allows you to remove vignetting artifacts from your images. To do this, you first have to create vignetting correction data. For more information, see the Basler Product Documentation.
Index number used for the Input Status At Line Trigger parameter - Applies to: GigE.
Index number used for the Input Status At Line Trigger parameter. The index number can be used to get the state of the camera's input lines when a specific line was acquired. For example, if you want to know the state of the camera's input lines when line 30 was acquired, set the index to 30, then retrieve the value of Status Index parameter.
Value indicating the status of the camera's input lines when a specific line was acquired - Applies to: GigE.
Value indicating the status of the camera's input lines when a specific line was acquired. The information is stored in a 4-bit value (bit 0 = input line 1 state, bit 1 = input line 2 state etc.). For more information, see the Status Index parameter documentation.
Delay between end of transmission and start of transmission of consecutive lines - Applies to: CameraLink.
Delay (in microseconds) between the end of transmission of one line and the start of transmission of the next line. This value will be adjusted automatically to the nearest multiple of the currently selected pixel clock. The line valid signal (LVAL) remains low while the delay is in force. The default value of the parameter is the minimum inter-line delay.
Delay between end of transmission and start of transmission of consecutive lines (raw value) - Applies to: CameraLink.
Delay between the end of transmission of one line and the start of transmission of the next line (raw value). This value will be adjusted automatically to the nearest multiple of the currently selected pixel clock. The line valid signal (LVAL) remains low while the delay is in force. The default value of the parameter is the minimum inter-line delay.
Sets the pixel clock used in the communication with the frame grabber - Applies to: CameraLink.
Sets the pixel clock used in the communication with the frame grabber. The pixel clock speed determines the rate at which pixel data will be transmitted from the camera to the frame grabber.
Enables the IEEE 1588 V2 Precision Time Protocol for the timestamp register - Applies to: GigE.
Enables the IEEE 1588 V2 Precision Time Protocol for the timestamp register. Only available if the IEEE1588_support bit of the GVCP Capability register is set. When PTP is enabled, the Timestamp Control register can't be used to reset the timestamp. When PTP is enabled or disabled, the value of Timestamp Tick Frequency and Timestamp Value registers may change to reflect the new time domain.
Latched IEEE 1588 clock ID of the camera - Applies to: GigE.
Latched IEEE 1588 clock ID of the camera. (The clock ID must first be latched using the IEEE 1588 Latch command.) The clock ID is an array of eight octets which is displayed as a hexadecimal number. Leading zeros are omitted.
Latched IEEE 1588 parent clock ID of the camera - Applies to: GigE.
Latched IEEE 1588 parent clock ID of the camera. (The parent clock ID must first be latched using the IEEE 1588 Latch command.) The parent clock ID is the clock ID of the current master clock. A clock ID is an array of eight octets which is displayed as a hexadecimal number. Leading zeros are omitted.
Indicates the state of the IEEE 1588 clock - Applies to: GigE.
Indicates the state of the IEEE 1588 clock. Values of this field must match the IEEE 1588 PTP port state enumeration (INITIALIZING, FAULTY, DISABLED, LISTENING, PRE_MASTER, MASTER, PASSIVE, UNCALIBRATED, SLAVE).
Indicates the latched state of the IEEE 1588 clock - Applies to: GigE.
Indicates the latched state of the IEEE 1588 clock. (The state must first be latched using the IEEE 1588 Latch command.) The state is indicated by values 1 to 9, corresponding to the states INITIALIZING, FAULTY, DISABLED, LISTENING, PRE_MASTER, MASTER, PASSIVE, UNCALIBRATED, and SLAVE.
This is a read only element. Maximum number of elements in RX event message queue. (The value must first be latched using the IEEE 1588 Latch command.)
This is a read only element. Maximum number of elements in RX general message queue. (The value must first be latched using the IEEE 1588 Latch command.)
Base bandwidth in bytes per second that will be used by the camera to transmit image and chunk feature data and to handle resends and control data transmissions - Applies to: GigE.
Actual bandwidth (in bytes per second) that the camera will use to transmit image data and chunk data - Applies to: GigE.
Actual bandwidth (in bytes per second) that the camera will use to transmit image data and chunk data with the current settings for AOI, chunk features, and pixel format.
Maximum amount of data (in bytes per second) that the camera can generate - Applies to: GigE.
Maximum amount of data (in bytes per second) that the camera can generate with its current settings under ideal conditions, i.e., unlimited bandwidth and no packet resends.
Maximum amount of time (in ticks) that the next frame transmission could be delayed due to a burst of resends - Applies to: GigE.
Maximum amount of time (in ticks) that the next frame transmission could be delayed due to a burst of resends. If the Bandwidth Reserve Accumulation parameter is set to a high value, the camera can experience periods where there is a large burst of data resends. This burst of resends will delay the start of transmission of the next acquired image.
Sends a GigE Vision streaming test packet - Applies to: GigE.
Sends a GigE Vision streaming test packet. If this bit is set and the stream channel is a transmitter, the transmitter will send one test packet of the size specified by the Packet Size parameter. The 'do not fragment' bit of the IP header must be set for this test packet (see the SCPS Do Not Fragment parameter documentation).
Additional information from the vendor about the camera - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Name of the camera model - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Indicates the scan type of the camera's sensor (area or line scan) - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
User-settable ID of the camera - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
Sets the color space for image acquisitions - Applies to: ace USB.
Sets the color space for image acquisitions. Note that the gamma correction value also influences the perception of brightness in the resulting images.
Sets which type of color transformation will be performed - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Visibility: Expert
Selecting Parameters: ColorTransformationEnable, ColorTransformationValue, ColorTransformationValueSelector and LightSourceSelector
Transformation value for the selected element in the color transformation matrix - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Visibility: Expert
Selected by: ColorTransformationSelector and ColorTransformationValueSelector
Sets which element will be entered in the color transformation matrix - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Sets which element will be entered in the color transformation matrix. Depending on the camera model, some elements in the color transformation matrix may be preset and can't be changed.
Visibility: Expert
Selected by: ColorTransformationSelector
Selecting Parameters: ColorTransformationValue and ColorTransformationValueRaw
Number of times a sequencer set is used before the Counter End event is generated - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets which type of signal transition will reset the counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the type of signal transition that the counter will count - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the type of signal transition that will start the counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the signal used to start the selected counter - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the signal used to start the selected counter. If you start a counter, it will not necessarily start counting. If and when the counter counts, depends on the Counter Event Source parameter value.
Sets which source signal will reset the currently selected counter - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Temperature at the selected location in the camera (in degrees centigrade) - Applies to: CameraLink and GigE.
Temperature at the selected location in the camera (in degrees centigrade). The temperature is measured at the location specified by the Temperature Selector parameter.
Number of test packet connection errors received by the device on the connection selected by the Connection Selector parameter - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
Number of test packets received by the device on the connection selected by the Cxp Connection Selector parameter - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
Sets the link configuration that allows the device to operate in its default mode - Applies to: ace 2 CXP, boost CoaXPress, boost V CoaXPress and racer 2 CXP.
Amount of noise reduction to be applied - Applies to: ace USB.
Amount of noise reduction to be applied. The higher the value, the less chroma noise will be visible in your images. However, excessively high values may result in image information loss.
Amount of noise reduction to be applied - Applies to: GigE.
Amount of noise reduction to be applied. The higher the value, the less chroma noise will be visible in your images. However, excessively high values may result in image information loss.
Amount of noise reduction to be applied (raw value) - Applies to: GigE.
Amount of noise reduction to be applied (raw value). The higher the value, the less chroma noise will be visible in your images. However, excessively high values may result in image information loss.
Sharpening value to be applied - Applies to: GigE.
Sharpening value to be applied. The higher the sharpness, the more distinct the image subject's contours will be. However, excessively high values may result in image information loss.
Sharpening value to be applied (raw value) - Applies to: GigE.
Sharpening value to be applied (raw value). The higher the sharpness, the more distinct the image subject's contours will be. However, excessively high values may result in image information loss.
New temperature status that applies after the Temperature Status Changed event was raised - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB and dart USB.
Sets the default GenICam XML file - Applies to: CameraLink and GigE.
Sets the default GenICam XML file. If the camera has multiple GenICam XML files, this parameter determines which of them is accessible to non-manifest-aware software.
Correction factor to account for the gaps between the sensor's lines - Applies to: CameraLink and GigE.
Correction factor to account for the gaps between the sensor's lines. Related line captures will be combined. Positive values: The object will pass the top sensor line first. Negative values: The object will pass the bottom sensor line first. In color cameras, the top sensor line is the green line, and the bottom sensor line is the blue line.
Number of bytes read from the file into the file access buffer or written to the file from the file access buffer - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Number of bytes read from the file into the file access buffer or written to the file from the file access buffer. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Visibility: Guru
Selected by: FileOperationSelector and FileSelector
Number of bytes after which FileAccessLength bytes are read from the file into the file access buffer or are written to the file from the file access buffer - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Number of bytes after which FileAccessLength bytes are read from the file into the file access buffer or are written to the file from the file access buffer. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Visibility: Guru
Selected by: FileOperationSelector and FileSelector
Sets the access mode in which a file is opened in the camera - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the access mode in which a file is opened in the camera. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Executes the operation selected by File Operation Selector parameter - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Executes the operation selected by File Operation Selector parameter. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Visibility: Guru
Selected by: FileOperationSelector and FileSelector
Sets the target operation for the currently selected file - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the target operation for the currently selected file. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Visibility: Guru
Selected by: FileSelector
Selecting Parameters: FileAccessLength, FileAccessOffset, FileOperationExecute, FileOperationResult, FileOperationStatus and FileSize
Indicates the file operation execution status - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Indicates the file operation execution status. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Visibility: Guru
Selected by: FileOperationSelector and FileSelector
Size of the currently selected file in bytes - Applies to: CameraLink, GigE, Stereo ace and ace USB.
Size of the currently selected file in bytes. Basler advises against using this parameter. Use the appropriate feature for file access operations instead.
Visibility: Guru
Selected by: FileOperationSelector and FileSelector
Post-divider value to decrease input signal frequency - Applies to: CameraLink and GigE.
Post-divider value to decrease input signal frequency. Determines the frequency with which input signals received from the multiplier sub-module are passed on.
Sets the signal transition relationships between received and generated signals - Applies to: CameraLink and GigE.
Sets the signal transition relationships between the signals received from the pre-divider sub-module and the signals generated by the multiplier sub-module.
Sets the Extended ID mode for GVSP - Applies to: GigE and ace 2 GigE.
Sets the Extended ID mode for GVSP (64-bit block ID, 32-bit packet ID). This bit can't be reset if the stream channels do not support the standard ID mode.
Percentage of the Ethernet bandwidth assigned to the camera to be held in reserve - Applies to: CamEmu, GigE and ace 2 GigE.
Percentage of the Ethernet bandwidth assigned to the camera to be held in reserve for packet resends and for the transmission of control data between the camera and the host computer. The setting is expressed as a percentage of the Bandwidth Assigned parameter. For example, if the Bandwidth Assigned parameter indicates that 30 MBytes/s have been assigned to the camera and the Bandwidth Reserve parameter is set to 5 %, the bandwidth reserve will be 1.5 MBytes/s.
Multiplier for the Bandwidth Reserve parameter - Applies to: CamEmu, GigE and ace 2 GigE.
Multiplier for the Bandwidth Reserve parameter. The multiplier is used to establish an extra pool of reserved bandwidth that can be used if an unusually large burst of packet resends is needed.
Packet size in bytes on the selected stream channel Excludes data leader and data trailer - Applies to: CamEmu, GigE, Stereo ace, ace 2 GigE and blaze.
Packet size in bytes on the selected stream channel. Excludes data leader and data trailer. (The last packet may be smaller because the packet size is not necessarily a multiple of the block size of the stream channel.)
Maximum height of the region of interest (area of interest) in pixels - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Maximum height of the region of interest (area of interest) in pixels. The value takes into account any features that may limit the maximum height, e.g., binning.
Maximum width of the region of interest (area of interest) in pixels - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Maximum width of the region of interest (area of interest) in pixels. The value takes into account any function that may limit the maximum width.
Pixel value to be replaced with the LUT Value pixel value - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress and racer 2 CXP.
New pixel value to replace the LUT Index pixel value - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress and racer 2 CXP.
A single register that lets you access all LUT entries - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress and racer 2 CXP.
A single register that lets you access all LUT entries. In many cases, this is faster than repeatedly changing individual entries in the LUT.
Stream channel index of the Action Late event - Applies to: GigE.
Stream channel index of the Action Late event. An Action Late event is raised when a scheduled action command with a timestamp in the past is received.
Defines a mask that is used when the User Output Value All setting is used to set all of the user settable output signals in one access - Applies to: CameraLink and GigE.
This integer value defines a mask that is used when the User Output Value All setting is used to set all of the user settable output signals in one access.
Indicates the electrical configuration of the currently selected line - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Enables the signal inverter function for the currently selected input or output line - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the mode for the selected line - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the mode for the selected line. This controls whether the physical line is used to input or output a signal.
Sets the I/O line to be configured - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the I/O line to be configured. All changes to the line settings will be applied to the selected line.
Sets the source signal for the currently selected line - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the source signal for the currently selected line. The currently selected line must be an output line.
Visibility: Beginner
Selected by: LineSelector
Selecting Parameters: LineStatus and LineStatusAll
Indicates the current logical state of the selected line - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Single bit field indicating the current logical state of all available line signals at time of polling - Applies to: CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the user-settable output signal to be configured - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the user-settable output signal to be configured. All changes to the user-settable output signal settings will be applied to the selected user-settable output signal.
Single bit field that sets the state of all user-settable output signals in one access - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Removes the factory-set limit of the selected parameter - Applies to: CameraLink and GigE.
Removes the factory-set limit of the selected parameter. If the factory limits are removed, a wider range of parameter values is available and only subect to technical restrictions. Choosing parameter values outside of the factory limits may affect image quality.
Indicates the alignment of the camera's Bayer filter to the pixels in the acquired images - Applies to: CameraLink, GigE, ace USB, dart USB and pulse USB.
Maximum possible pixel value that can be transferred from the camera - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Minimum possible pixel value that can be transferred from the camera - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Sets the format of the pixel data transmitted by the camera - Applies to: CamEmu, CameraLink, GigE, Stereo ace, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, blaze, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Sets the format of the pixel data transmitted by the camera. The available pixel formats depend on the camera model and whether the camera is monochrome or color.
Visibility: Beginner
Selected by: BslAcquisitionMultiPartMode and ComponentSelector
Indicates the depth of the pixel values in the image (in bits per pixel) - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart MIPI, dart USB, pulse USB and racer 2 CXP.
Indicates the depth of the pixel values in the image (in bits per pixel). The potential values depend on the pixel format setting.
Enables horizontal mirroring of the image - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
Enables horizontal mirroring of the image. The pixel values of every line in a captured image will be swapped along the line's center. You can use the ROI feature when using the Reverse X feature. The position of the ROI relative to the sensor remains the same.
Enables vertical mirroring of the image - Applies to: CamEmu, CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB and pulse USB.
Enables vertical mirroring of the image. The pixel values of every column in a captured image will be swapped along the column's center. You can use the ROI feature when using the Reverse Y feature. The position of the ROI relative to the sensor remains the same.
Removes the factory-set limit of the selected parameter - Applies to: ace USB.
Removes the factory-set limit of the selected parameter. If the factory limits are removed, a wider range of parameter values is available and only subect to technical restrictions. Choosing parameter values outside of the factory limits may affect image quality.
Sets which bit of the sequence set address can be assigned to an input line - Applies to: CameraLink and GigE.
Sets which bit of the sequence set address can be assigned to an input line. An input line can be set as the control source for this bit using the Address Bit Source parameter.
Sets an input line as the control source for the currently selected sequence set address bit - Applies to: CameraLink and GigE.
Sets an input line as the control source for the currently selected sequence set address bit. The bit can be selected using the Address Bit Selector parameter.
Enables asynchronous advance from one sequence set to the next - Applies to: CameraLink and GigE.
Enables asynchronous advance from one sequence set to the next. The advance is asynchronous to the camera's frame trigger. Only available in Controlled sequence advance mode.
Enables asynchronous restart of the sequence set sequence - Applies to: CameraLink and GigE.
Enables asynchronous restart of the sequence set sequence, starting with the sequence set that has the lowest index number. The restart is asynchronous to the camera's frame trigger. Only available in Auto and Controlled sequence advance mode.
Sets which path can be configured - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Sets which path can be configured. By configuring multiple paths, you can define different conditions and settings for sequencer set advance. For example, you can define that the camera should advance to set 0 when a trigger signal on Line 1 is received, and advance to set 3 when a trigger signal on Line 2 is received.
Visibility: Expert
Selected by: SequencerSetSelector
Selecting Parameters: SequencerSetNext, SequencerTriggerActivation and SequencerTriggerSource
Loads the parameter values of the currently selected sequencer set for configuration - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Next sequencer set that the sequencer will advance to when the configured trigger signal is received - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Visibility: Expert
Selected by: SequencerPathSelector and SequencerSetSelector
Saves the sequencer parameter values in the currently selected sequencer set - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
First sequencer set to be used after the Sequencer Mode parameter is set to On - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB and boost CoaXPress.
Loads the selected shading set - Applies to: CameraLink and GigE.
This command copies the selected shading set from the camera's non-volatile memory into the volatile memory. If shading correction is enabled, it will be performed using the shading set in the volatile memory.
Maximum value of the tick counter - Applies to: CameraLink and GigE.
Maximum value of the tick counter of the shaft encoder module. If the tick counter is incrementing and reaches the maximum, it will roll over to 0. If the tick counter is decrementing and reaches 0, it will roll back to the specified maximum value.
Resets the reverse counter of the shaft encoder module - Applies to: CameraLink and GigE.
Resets the reverse counter of the shaft encoder module to 0 and informs the module that the current direction of conveyor movement is forward. Reset must be carried out before the first conveyor movement in the forward direction.
Sharpening value to be applied - Applies to: ace USB, dart USB and pulse USB.
Sharpening value to be applied. The higher the sharpness, the more distinct the image subject's contours will be. However, excessively high values may result in image information loss.
Sets the software signal to be executed - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Test pending acknowledge time in milliseconds - Applies to: ace 2 GigE, ace 2 USB, dart 2 USB, dart USB and pulse USB.
Test pending acknowledge time in milliseconds. On write, the camera waits for this time period before acknowledging the write. If the time period is longer than the value in the Maximum Device Response Time register, the camera must use PENDING_ACK during the completion of this request. On reads, the camera returns the current value without any additional wait time.
Delay of the currently selected timer in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Duration of the currently selected timer in microseconds - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Delay of the selected timer (raw value) - Applies to: CameraLink and GigE.
Delay of the selected timer (raw value). This value will be used as a multiplier for the timer delay timebase. The actual delay time equals the current Timer Delay Raw value multiplied with the current Timer Delay Timebase value.
Duration of the selected timer (raw value) - Applies to: CameraLink and GigE.
Duration of the selected timer (raw value). This value will be used as a multiplier for the timer duration timebase. The actual duration time equals the current Timer Duration Raw value multiplied with the current Timer Duration Timebase value.
Indicates the status of the currently selected timer - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Arm delay of the currently selected timer - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Arm delay of the currently selected timer. If an arm delay is set and the timer is triggered, the camera accepts the trigger signal and stops accepting any further timer trigger signals until the arm delay has elapsed.
Sets the internal camera signal used to trigger the selected timer - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the type of signal transition that will start the timer - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Source value for tonal range adjustments at the bright end of the tonal range - Applies to: GigE and ace USB.
Source value for tonal range adjustments at the bright end of the tonal range. When tonal range adjustments are enabled, the source and target values are compared and the tonal range is adjusted accordingly. The kind of adjustment depends on whether you want to adjust color or contrast or both, whether you want to adjust all pixel values or, e.g., only the red pixel values, and so on.
Source value for tonal range adjustments at the dark end of the tonal range - Applies to: GigE and ace USB.
Source value for tonal range adjustments at the dark end of the tonal range. When tonal range adjustments are enabled, the source and target values are compared and the tonal range is adjusted accordingly. The kind of adjustment depends on whether you want to adjust color or contrast or both, whether you want to adjust all pixel values or, e.g., only the red pixel values, and so on.
Target value at the bright end of the tonal range to which pixel values should be mapped during tonal range adjustments - Applies to: GigE and ace USB.
Target value at the bright end of the tonal range to which pixel values should be mapped during tonal range adjustments. When tonal range adjustments are enabled, the source and target values at the bright end are compared and the tonal range is adjusted accordingly. The kind of adjustment depends on whether you want to adjust color or contrast or both, whether you want to adjust all pixel values or, e.g., only the red pixel values, and so on.
Target value at the dark end of the tonal range to which pixel values should be mapped during tonal range adjustments - Applies to: GigE and ace USB.
Target value at the dark end of the tonal range to which pixel values should be mapped during tonal range adjustments. When tonal range adjustments are enabled, the source and target values at the dark end are compared and the tonal range is adjusted accordingly. The kind of adjustment depends on whether you want to adjust color or contrast or both, whether you want to adjust all pixel values or, e.g., only the red pixel values, and so on.
Sets the user-defined value to set or read - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, dart 2 USB, dart USB and racer 2 CXP.
Sets the user set or the factory set to be used as the startup set - Applies to: ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
Sets the user set or the factory set to be used as the startup set. The startup set will be loaded as the active set whenever the camera is powered on or reset.
Sets the user set or the factory set to be used as the startup set - Applies to: CameraLink and GigE.
Sets the user set or the factory set to be used as the startup set. The default startup set will be loaded as the active set whenever the camera is powered on or reset.
Loads the selected set into the camera's volatile memory and makes it the active configuration set - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
Loads the selected set into the camera's volatile memory and makes it the active configuration set. After the selected set has been loaded, the parameters in that set will control the camera.
Saves the current active set as the selected user set - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
Sets the user set or the factory set to load, save, or configure - Applies to: CameraLink, GigE, ace 2 CXP, ace 2 GigE, ace 2 USB, ace USB, boost CoaXPress, boost V CoaXPress, dart 2 USB, dart USB, pulse USB and racer 2 CXP.
Time span between the beginning of the input bit and the time when the high/low status is evaluated - Applies to: CameraLink and GigE.
This integer value sets the time in microseconds that elapses between the beginning of the input bit and the time when the high/low status of the bit is evaluated. It applies to all bits.
Selects when to start the signal evaluation - Applies to: CameraLink and GigE.
This enumeration selects when to start the signal evaluation. The camera waits for a rising/falling edge on the input line. When the appropriate signal has been received, the camera starts evaluating the incoming bit patterns. When one bit pattern is finished, the camera waits for the next rising/falling edge to read out the next incoming bit pattern. The camera stops listening once three bits have been received.
Enables/disables the vignetting correction - Applies to: GigE and ace USB.
The Vignetting Correction feature allows you to remove vignetting artifacts from your images. To do this, you first have to create vignetting correction data. For more information, see the Basler Product Documentation.
If set, this will automatically execute AcquisitionStart when calling StartGrabbing and AcquisitionStop when calling StopGrabbing This option is enabled by default - Applies to: InstantCamera.
Enables/disables the use of a chunk node map for each grab result Grab result chunk node maps can be disabled to save resources - Applies to: InstantCamera.
If set, all buffers will be cleared (set to 0) before grabbing an image Note that this requires additional processing time per frame - Applies to: InstantCamera.
The maximum number of grab results available at any time during a grab session This value can be limited to save resources Furthermore, it can be used to check that the grab results are returned correctly - Applies to: InstantCamera.
The camera object is set to monitor mode when enabled, e g when using the GigE multicast feature Is writable when the camera object is closed - Applies to: InstantCamera.
The number of buffers queued at Low Level API stream grabber - Applies to: InstantCamera.
This is the number of buffers that are queued for grabbing in the stream grabber. The number is influenced by the number of available free buffers and the maximum number of buffers that can be queued. See also the MaxNumBuffer and MaxNumQueuedBuffer parameters.
This parameter can be used to check whether the number of buffers ready for grabbing is stable, which means that the image processing is fast enough to keep up with the rate of incoming images when using the GrabStrategy_OneByOne grab strategy.
Use Extended ID if available in the camera and supported by the driver - Applies to: InstantCamera.
Enabling this setting will use Extended ID if it is supported by the camera and driver. If it is not supported, it will not be used and this setting has no negative side effects.
If enabled, the user can set a custom priority for the grab loop thread Otherwise, the priority of the newly created thread is not changed - Applies to: InstantCamera.
A custom timeout for the grab loop thread's call to RetrieveResult RetrieveResult is configured to throw an exception on timeout, which will stop the grab session - Applies to: InstantCamera.
If enabled, the user can set a custom timeout for the grab loop thread's call to RetrieveResult RetrieveResult is configured to throw an exception on timeout, which will stop the grab session - Applies to: InstantCamera.
If enabled, the user can set a custom priority for the internal grab engine thread operating the stream grabber Otherwise the priority defaults to 25 - Applies to: InstantCamera.