Smart Gui - Algorithm Training Material_rev1.pdf - 第56页
Copyright © ViT rox All Rights Reserved . B-type Algorithm - Body 56 g. Coplan Thres ● V ertical: The measured height difference between the two coplanarity inspection boxes in vertical direction. ● Horizontal: The measu…
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B-type Algorithm - Body
55
d. Coplan Mode
● To select the arrangement of the inspection boxes to detect
coplanarity defects.
3. Coplan Alternative
● Add another AND relationship coplan alternative which different
in the coplan location.
Both Primary and Alternative
must pass in order to pass
Cross Square
e. Coplan Thres
● To enable the coplan inspection direction in horizontal or vertical
or both.
Eg. for 40%
f. Coplan Location
● To adjust the location for the coplan inspection boxes.
● The smaller the percentage, The inner the boxes towards the
centroid
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B-type Algorithm - Body
56
g. Coplan Thres
● Vertical:
The measured height difference between the two coplanarity
inspection boxes in vertical direction.
● Horizontal:
The measured height difference between the two coplanarity
inspection boxes in horizontal direction.
3. Coplan Alternative
● Add another AND relationship coplan alternative which different
in the coplan location.
Both Primary and Alternative
must pass in order to pass
Coplan Thres (um)
Height Difference (um)
FAIL
PASS
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B-type Algorithm - Body
57
h. 3D Damaged Inspection
● Tick this to enable 3D Damaged Inspection
i. Damaged Location
● To adjust the location for the damages inspection boxes.
● The smaller the percentage, The inner the boxes towards the centroid
j. Damaged Thres
● Software will check the height of these 4 boxes, the component will fail as
“Damaged” if the absolute height different between any one of the ROI's height
and component height higher than damaged threshold.
Damaged Thres (um)
Measured Height - Reference Height
FAIL
PASS