VectorImage SetMarkDelay

Sets the Mark Delay for the marking
Overloads
public void SetMarkDelay(int markDelay)
Return value
void
Parameters
int
markDelay
Mark Delay in micro seconds
Example
Copy
scanDocument = scanDeviceManager.CreateScanDocument(GetselectedDeviceUniqueName(), DistanceUnit.Millimeters, false);
CommandGenerationMode markingMode = scanDeviceManager.markingMode;

if (scanDocument != null)
{
    VectorImage vectorImage = scanDocument.CreateVectorImage("image1", DistanceUnit.Millimeters);
    
    
    vectorImage.SetRepeatCount(1);
     
    vectorImage.SetJumpSpeed(1000);     // Ignored in Scanpack mode.  The LinkRate config variable Scanpack Vector Params regulates the jump speed
    vectorImage.SetMarkSpeed(1000);      // With this default setting. Feel free to adjust as needed for more/less speed.
    vectorImage.SetMarkDelay(400);      // Ignored in Scanpack mode
    vectorImage.SetJumpDelay(400);      // Ignored in Scanpack mode

    if (markingMode == CommandGenerationMode.ScanPack)
    {
        vectorImage.SetMaxRadialError(0.1F);        // Affects Scanpack skywriting behavior.  Not used in Traditional mode.
        vectorImage.SetBreakAngle(45.0F);           // Affects Scanpack skywriting behavior.  Not used in Traditional mode.

        vectorImage.SetLaserOnDelay(0);   // Normally set to zero when in Scanpack mode.  Use the LaserRiseTime Scanpack config variable instead.
                                          //Use this for fine adjustment.
        vectorImage.SetLaserOffDelay(0);  // Normally set to zero when in Scanpack mode.  Use the LaserFallTime Scanpack config variable instead.
                                          // Use this for fine adjustment.
    }
    else
    {
        vectorImage.SetLaserOnDelay(100);   // Normally set to zero when in Scanpack mode.  Use the LaserRiseTime Scanpack config variable instead.
                                            //Use this for fine adjustment.
        vectorImage.SetLaserOffDelay(100);  // Normally set to zero when in Scanpack mode.  Use the LaserFallTime Scanpack config variable instead.
                                            // Use this for fine adjustment.

    }
    vectorImage.SetPolyDelay(75);       // Ignored in Scanpack mode
    vectorImage.VariablePolyDelayEnabled = false;   // No angle-based optimization of delay
    vectorImage.SetPipelineDelay(0);    // For advanced laser timing control.  Used to adjust symmetry of bidirectional marking vectors
    vectorImage.SetModulationFrequency(100);    // LASERMOD1 and LASERMOD2 Frequency in KHz
    vectorImage.SetChannelOneDutyCycle(50);     // LASERMOD1 duty-cycle
    vectorImage.SetChannelTwoDutyCycle(5);      // LASERMOD2 duty-cycle
    vectorImage.SetLaserPowerPercentage(50);    // Sets the actual laser power via the analog or digital port depending on hte LaserConfig file setting
    vectorImage.SetVelocityCompensationMode(VelocityCompensationMode.Disabled, 0, 0);   // Advanced laser power control at the ends of vectors

    CircleShape circleShape = new CircleShape();
    circleShape.CenterPoint.X = 0.0f;
    circleShape.CenterPoint.Y = 0.0f;
    circleShape.CenterPoint.Z = 0.0f;
    circleShape.Clockwise = true;
    circleShape.Radius = 10;
    circleShape.StartAngle = 0;
    circleShape.MaximumSegmentationError = 0.001f;

    vectorImage.AddCircle(circleShape);

    scanDocument.Scripts.Add(new ScanningScriptChunk("defaultScript", "ScanAll()"));

    try
    {
        scanDocument.StartScanning();
    }
    catch
    {

    }

}