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SIPLACE 80S-20/F4/F5 User M anual 5 Vision Func tions 05/99 Issue from Software Version SR.405.xx 5.7 Guidelines for D escribing Package F orms Line en gineer 5 - 141 5.7.7 Setting the C omponent s Illumination at the IC…
5 Vision Functions SIPLACE 80S-20/F4/F5 User Manual
5.7 Guidelines for Describing Package Forms 05/99 Issue from Software Version SR.405.xx
5 - 140 Line engineer
NOTE
With respect to 0402 and 0603 components, avoid the nozzle being displayed during imaging. If this seems
likely, remove the component from the nozzle and use the ’Illumination Option’ on Page 105 to see whether
the nozzle did appear in the image.
5.7.6.6 General Information on Setting Illumination Values
– As a rule it is better to overilluminate the component than to underilluminate it. A saturated image is prefer-
able to a low-contrast image.
– Optimum illumination is attained when only the leads are imaged and the component body is not shown.
– If you cannot clearly separate the image of the component body from the leads, we recommend to illumi-
nate body and leads equally and then to measure the outline.
SIPLACE 80S-20/F4/F5 User Manual 5 Vision Functions
05/99 Issue from Software Version SR.405.xx 5.7 Guidelines for Describing Package Forms
Line engineer 5 - 141
5.7.7 Setting the Components Illumination at the IC Head Camera
5.7.7.1 General Information on Illumination Methods
The idea of illumination setting is to obtain an image of the leads of a component which is as high-contrast as
possible. At the same time it is also important to suppress representation of the body of the component.
These instructions are intended to help you find the best possible illumination parameters. This, however,
does not imply that you rigidly comply with the values specified in these instructions. The way you should pro-
ceed is first to follow these instructions and then to adjust the parameters yourself where necessary. It may
well be that you come across one or other component the leads of which are better illuminated using values
different to the ones suggested in these instructions.
The illumination system comprises three different illumination levels. The intensities can be programmed indi-
vidually. By using the individual illumination levels one at a time or in combination with one another you can
adapt the illumination to suit a wide range of components.
Flat illumination level
The flat illumination level is used for illuminating BGAs, J-lead components (PLCC) and components with con-
vex-type leads. It tends to emphasize body and lead edges. It is, however, less suitable for displaying bright
component bodies and ceramic components.
Middle illumination level
The middle illumination level can be used universally with a wide range of components. With bright compo-
nent bodies, ceramic components and BGAs it should, however, only be used at lower intensity levels.
Steep illumination level
The main application for the steep illumination level is for reflective leads, ceramic components and bright
component bodies. It is less suitable for reflective component bodies and BGAs.
NOTE
Most components will require a combination of these three illumination levels to achieve optimum illumination.
Using
one
illumination level will only be successful in exceptional cases.
5 Vision Functions SIPLACE 80S-20/F4/F5 User Manual
5.7 Guidelines for Describing Package Forms 05/99 Issue from Software Version SR.405.xx
5 - 142 Line engineer
5.7.7.2 Pseudo color representation
The pseudo color representation provides a powerful and objective assessment of the illumination, by repre-
senting a brightness value in a color.
A contrast of at least 4 color scales between the lead and body is required for a measurement. In the ‘Illumina-
tion’ menu of the package form manipulator, components are displayed in the pseudo color representation on
the station computer monitor.
5.7.7.3 Setting values for the illumination of standard components
The range of standard components includes tantalum capacitors, PLCCs, QFPs, SOs, SOJs, TSOPs, ICs,
power components and BGAs.
For the components listed below, the package form interpreter in the station computer uses the preset illumi-
nation parameters listed in Fig. 5.7.9:
– tantalum capacitors (component body, not mirrored)
– PLCC, QFP, SO, SOJ, TSOP, ICs, power ICs
– BGAs (not for ceramic BGAs)
As a rule you will not need to change the illumination parameters for the standard components. For all other
components you will need to determine the illumination values and test them (see Section 5.7.7.4, Page 5 -
143).
Color scale Brightness
white light
yellow
orange
red
brown
green
light blue
blue
violet
black dark
Tab. 5.7.4 Conversion table for the pseudo color representation at the IC head