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Pr oduc t Ch ang e Ov er User Re f eren ce Manu al 4022 591 960 82 6-86 FCM M ult ifle x 02.02 The PL CC algorithm ▼ H o w does it work 1. Find the first l ead (black on e in drawing) with a defined search area and last …
4022 591 96082 User Reference Manual
02.02 FCM Multiflex 6-85
Product Change Over
FIGURE 6-36 Calculation of the component’s origin
▼
For which components do you use this algorithm
For components that have leads on all four sides, and that have the leads projecting
outside the body (perpheral leads), and that have only one lead group a side, like:
• QFP components;
• FQFP components.
▼
General important information
• Ruler offsets are adjustable in the SMD info file; normally the value 3 is used
for most components (5 or 7 is also possible if you have components with a
bigger lead width). Ruler offset is in pixels; one pixel = 75x 75 µm. Always
use odd ruler widths in order to get valid mean calculation results.
• The body length and width in the SMD info file must be correct, because they
determine the positions of the leads together with the number of leads and
the lead pitch.
• For the ruler threshold, the value is normally between 20 and 30, but it
depends on the specific component type and the amount of light used.
• The search area as indicated in the drawings matches the reject level in the
SMD info file.
Component origin = vision origin
Component outline
NORTH
SOUTH
EAST
WEST
Body length
Body width
Product Change Over
User Reference Manual 4022 591 96082
6-86 FCM Multiflex 02.02
The PLCC algorithm
▼ How does it work
1. Find the first lead (black one in drawing) with a defined search area and last
lead with a fine search area of the South side.
2. Find the first lead (black one in drawing) and last lead for the other sides
(South, East, and West).
3. Depending on the component lead pitch, measure all the lead sides (edges) or
lead ends. If the pitch < 0.50 mm, then search for lead ends, otherwise search for
lead edges.
4. Check the pitch between the leads (if there is more than one lead a side).
5. Calculate the centre and angle of the component origin with the information of
the lead sides or lead ends (depending on the lead pitch, see step3.) for all four
sides.
6. If the skew angle is required, measure the skew angle of the 4-sided component.
FIGURE 6-37 The PLCC algorithm measuring aspects
7. Check the distance between the middle of the first side (North) to the middle of
the second side (South) and between the third side (East) and the fourth side
(West).
Ruler
Ruler
Ruler offset
Ruler offset
Search area
Fine-search areaFine-search area
Fine-search area
SOUTH
EASTWEST
NORTH
4022 591 96082 User Reference Manual
02.02 FCM Multiflex 6-87
Product Change Over
8. Calculate the component origin, based on the found vision origin and gravity
offsets.
FIGURE 6-38 Calculation of the component’s origin
▼
For which components do you use this algorithm
For components that have leads on all four sides, and of which the leads are bent
underneath the body (J-leads) and only one lead group a side, like:
• PLCC44.
▼
General important information
• Ruler offsets are adjustable in the SMD info file; normally the value 3 is used
for most components (5 or 7 is also possible if you have components with a
bigger lead width). Ruler offset is in pixels; one pixel = 75x 75 µm. Always
use odd ruler widths in order to get valid mean calculation results.
• The body length and width in the SMD info file must be correct, because they
determine the positions of the leads together with the number of leads and
the lead pitch.
• For the ruler threshold, the value is normally between 20 and 30, but it
depends on the specific component type and the amount of light used.
• The search area as indicated in the drawings matches the reject level in the
SMD info file.
• If you want to use the skew angle option, you have to use the SPECIAL
algorithm.
Component origin = vision origin
Component outline
NORTH
WEST
EAST
SOUTH
Body length
Body width