User`s manual

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AW00098504000 Image Acquisition Control

Basler ace Camera Link 127

Use Case 4 - Acquisition Start and Frame Start Triggers On

Use case four is illustrated on page 128.

In this use case, the Trigger Mode parameter for the acquisition start trigger is set to on and the

Trigger Mode parameter for the frame start trigger is set to on.

Because the acquisition start trigger mode is set to on, the user must apply an acquisition start

trigger signal to the camera. In this case, we have set the acquisition start trigger signal source to

software, so the execution of an acquisition trigger software command will serve as the acquisition

start trigger signal. The Acquisition Frame Count parameter is set to 3.

When an acquisition trigger software command is executed, the camera will exit the "waiting for

acquisition start trigger" acquisition status and enter a "waiting for frame start trigger" acquisition

status. Once the camera has acquired 3 frames, it will re-enter the "waiting for acquisition start

trigger" acquisition status. Before any more frames can be acquired, a new acquisition trigger

software command must be executed to make the camera exit the "waiting for acquisition start

trigger" acquisition status.

Because the frame start trigger is set to on, the user must apply a frame start trigger signal to the

camera in order to begin each frame acquisition. In this case, we have set the frame start trigger

signal source to line 1 and the activation to rising edge, so the rising edge of an externally generated

electrical signal applied to line 1 will serve as the frame start trigger signal. Keep in mind that the

camera will only react to a frame start trigger signal when it is in a "waiting for frame start trigger"

acquisition status.

(Note that the GPIO line is designated as line 1 and in this case it has been set to act as in input

line.)

A possible use for this type of setup is a conveyor system that moves objects past an inspection

camera. Assume that the system operators want to acquire images of 3 specific areas on each

object, that the conveyor speed varies, and that they do not want to acquire images when there is

no object in front of the camera. A sensing device on the conveyor could be used in conjunction

with a PC to determine when an object is starting to pass the camera. When an object is starting to

pass, the PC will execute an acquisition start trigger software command, causing the camera to exit

the "waiting for acquisition start trigger" acquisition status and enter a "waiting for frame start trigger"

acquisition status.

An electrical device attached to the conveyor could be used to generate frame start trigger signals

and to apply them to line 1 on the camera. Assuming that this electrical device was based on a

position encoder, it could account for the speed changes in the conveyor and ensure that frame

trigger signals are generated and applied when specific areas of the object are in front of the

camera. Once 3 frame start trigger signals have been received by the camera, the number of

frames acquired would be equal to the setting for the Acquisition Frame Count parameter, and the

camera would return to the "waiting for acquisition start trigger" acquisition status. Any frame start

trigger signals generated at that point would be ignored.

This sort of setup is useful because it will only acquire frames when there is an object in front of the

camera and it will ensure that the desired areas on the object are imaged. (Transmitting images of

the "space" between the objects would be a waste of bandwidth and processing them would be a

waste of processor resources.)