Sigma LBA-300, LBA-710, LBA-712 Capture Methods and Rate Control, Programming the Capture Interval

and ½ the maximum possible counts based on the number of A to D conversion bits. For example: If you are using an LBA-712PC frame grabber (a 12 bit digitizer) you have the following possible Video Trigger Level choices: 256, 512, 1024, 2048. If you set the level to 512, the LBA will capture a laser beam pulse as soon as it detects a pixel raw energy value of 512 or greater.

Unless your camera is very noisy we recommend that you use the minimum level as a starting value.

5.1.5.1CCD Frame and Interline Transfer Cameras, Interlaced

When the LBA is running, each digitized pixel is being tested for the trigger level pixel value. When a trigger field is detected, the data is retained in the frame buffer and displayed. The timing delay to the next frame that can be acquired depends upon the overhead needed to process the first frame.

As in earlier examples, the Interline camera can display a pulse acquired in both fields while the Frame transfer camera can only use one field. Because of the asynchronous arrival of the laser pulse, the Frame transfer image will randomly hop fields.

5.2 Capture Methods and Rate Control

The rate at which data is being acquired can be seen in the Rate counter displayed at the far right

edge of the status line. To determine the acquisition rate in frames per second, divide the camera's frame rate by the indicated Rate counter value.

In every case, the fastest rate at which data can be acquired is ultimately dependent upon how you have configured the LBA to operate. Rates slower than the fastest rate can, to a greater extent, be controlled by the user. The fastest acquisition rates are thus determined by a combination of factors that are dependent upon the selections made in the Capture, Computations, and Display dialog boxes. In general, the more features you are using, the slower things will operate.

Two specific edit control items are provided that allow you to program the acquisition rate. These are the Capture Interval, and Trigger Interval.

Frame Averaging and Summing will also figure into the rate calculations. For example, if you are averaging 8 frames, then the acquisition time will increase by the amount of time that it takes to acquire and average 8 frames of data.

The following examples are assuming that no frame Averaging or Summing is taking place, and that all other overhead operations occur faster that the resulting acquisition rates.

5.2.1Programming the Capture Interval

In Continuous, Block, and Live Video Capture Methods, the Capture Interval value will determine the data acquisition rate. With the Single Shot Method, this value becomes a delay count that determines the number of frames that will elapse from the time you click Start!, until a single frame is acquired. The capture interval interacts with the Trigger Type and Trigger Interval settings in the following ways:

5.2.1.1With Trigger Type set to CW

The frame rate of the camera and the Capture Interval will determine the capture rate.