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Component Shapes Coplanarity Measurement ILD2200 Coplanarity Measuremen t for Gullwing and Ball Leads S tudent Guide SIPLACE Vision (Customer) Edition 12/2008 EN Component Shapes 121 5.6 Coplanarity Measurement for Gullw…
Component Shapes
New SIPLACE Vision Functions for 702 Station SW Rectangle
Student Guide SIPLACE Vision (Customer)
Component Shapes Edition 12/2008 EN
120
5.5.3 Rectangle
A new feature for "Nonstandard" CS types is the rectangle. The search looks for rectangles which are
either features or entire components (see the following diagrams).
The rectangle needs to be visible with the normal illumination for leads (a golden rectangular area on a
BGA does not fulfill this requirement). Rectangular shapes in 90° and squares in 45° can be programmed
and recognized.
The minimum and maximum size (NO multiple measurement at the stationary cameras) depends on the
camera resolution.
Search for rectangles as features
Search for rectangles as entire components
Component Shapes
Coplanarity Measurement ILD2200 Coplanarity Measurement for Gullwing and Ball Leads
Student Guide SIPLACE Vision (Customer)
Edition 12/2008 EN Component Shapes
121
5.6 Coplanarity Measurement for Gullwing and Ball Leads
5.6.1 Coplanarity Measurement ILD2200
This coplanarity check determines the lead
height deviation for gullwings or, by using the IVP
3D coplan sensor, the ball height deviation to a
calculated lead level.
Do NOT mistake this inspection type with the
colinearity check, which determines the deviation
of the lead measurement edge to a calculated lead
straight line.
5-21: ILD2200 coplan sensor (laser class 2) of gullwings only
This coplan sensor (SST17) can be operated at
the station computers of the D1 / D3 / X2 or X3 in
combination with a TwinHead. Simultaneous
operation of the IVP 3D sensor at X machines in
not possible.
Component Shapes
Coplanarity Measurement for Gullwing and Ball Leads Coplanarity Measurement ILD2200
Student Guide SIPLACE Vision (Customer)
Component Shapes Edition 12/2008 EN
122
Measurement Basics
5-22: Measurement procedure for a SOxx component on the ILD2200
A spot laser beam is used to measure the contact
surfaces of the gullwing leads, with the
triangulation principle. The Z axis control function
for the TwinHead ensures stabile and precise
component height positioning during the
measurement process. The gantry axes move the
lead contact surfaces – in line with the preceding
optical centering by the stationary component
camera – exactly over the laser beam in the
direction of scanning and parallel to the
component edges.
5-23: Triangulation of the spot laser for determining the gullwing lead height
deviation
The lowest leads found during scanning determine
the contact level of the component. To ensure
reliable soldering of all leads, the highest lead may
not be higher than the solder paste height
specified in the PCB programming.
If the lead reflects the laser beam at a higher
position, the CCD sensor will recognize this
reflection below the center of the arrangement.
The signal processor and the evaluation system
for the station computer can then calculate the
lead height position.