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SIPLACE Pro 3.0 Programming Interface for C omponent Shapes SIPLACE Pro Reports for LC Import and Conversion Procedure Conver ting the Component Shape with LC Import from a UNIX/LINUX Line S tudent Guide SIPLACE Vision (…

SIPLACE Pro 3.0 Programming Interface for Component Shapes

Converting the Component Shape with LC Import from a UNIX/LINUX Line Computer Adopting the Standard Component Shape from the

Student Guide SIPLACE Vision (Customer)

SIPLACE Pro 3.0 Programming Interface for Component Shapes Edition 12/2008 EN

160

Selecting the standard component shapes to

be imported

Selection menu

-> for CS.

Fiducials will not be imported!

Completing the import

After importing the standard component shape,

you need to add nozzles and camera for the X

machine. This sequence of programming events is

designed to allow you to still compile data without

X machines.

SIPLACE Pro 3.0 Programming Interface for Component Shapes

SIPLACE Pro Reports for LC Import and Conversion Procedure Converting the Component Shape with LC Import from a UNIX/LINUX Line

Student Guide SIPLACE Vision (Customer)

Edition 12/2008 EN SIPLACE Pro 3.0 Programming Interface for Component Shapes

161

7.2.3 SIPLACE Pro Reports for LC Import and Conversion Procedure

Notification message and error reports

LC import report

Any messages and errors from the LC import procedure are displayed in the CS programming window.

Right-click with the mouse (as always in SIPLACE Pro) to save these reports as files.

Example.: C:\log file\notification_LRU_imp_030305.xml (we recommend adding the task and date to the

file name).

Inspection and type conversion report

This function shows where the automatic CS interpretation function (for recognition in SIPLACE Vision)

achieved unclear results. By correcting the original data, you can usually find a common data basis for

both Vision systems (ICOS description rules are flexible). However, should this fail, separate group and

lead descriptions can be set up for the component shape. In extreme cases, a totally new component

description can be created for SIPLACE Vision.

Component shape check (plausibility test) report

This tool allows SIPLACE Pro to follow the same procedure as SIPLACE Vision and check that a

component adheres to the description rules.

Excerpt from error list file

……

Error! Hyperlink reference invalid.

<Category>Component Shape Type</Category>

<Text>Josef\10704 was recognized as Plcc</

Text>

</NotificationElement>

Error! Hyperlink reference invalid.

<NotificationElement> error converting CS

<Category>Component Shape Type</Category>

<Text>Josef\3159: Component Shape Type was

recognized as 'Soxx' but reset to 'Undefined'

because of compatibility problems to SIPLACE

Vision, error code:...</Text>

</NotificationElement>

……

SIPLACE Pro 3.0 Programming Interface for Component Shapes

Converting the Component Shape with LC Import from a UNIX/LINUX Line Computer SIPLACE Pro Reports for LC Import and Conversion

Student Guide SIPLACE Vision (Customer)

SIPLACE Pro 3.0 Programming Interface for Component Shapes Edition 12/2008 EN

162

Correction

 CS type correction:) If the component shape needs to be corrected, the edited values will be

overwritten by standard values (without query), if the description rules do not correspond with the

new type.

 CS body correction:

If the component body needs to be corrected, the edited values will be overwritten by standard

values (without query).

 CS lead type correction:

If the component shape lead type needs to be corrected, the edited values will be overwritten by

standard values (without query).

Additional tools will be provided with SIPLACE Pro 3.1

CS report tools:

SIPLACE Pro individual shape report; excerpts

from ICOS and SIPLACE Vision

Changing the lead group offsets directly

influences the placement accuracy or

component placement. SIPLACE Pro 3.1 CS

report via component shape directory or

component shape selection