00198481-01_Technical_Training_E_by_DEK_EN.pdf - 第103页

11 Benchmark Test  Technical Training E by DEK 12/2017 103 11 Benchmark Test Alignment Theory Screen Alignment The camera captures each of the fiducials (screen and board) and sends the data to the processor. The proces…

10 Machine Modules

Room for Your Sketches and Notes

102 Technical Training E by DEK 12/2017

11 Benchmark Test



Technical Training E by DEK 12/2017 103

11 Benchmark Test

Alignment Theory

Screen Alignment

The camera captures each of the fiducials (screen and board) and sends the data to the processor.

The processor uses this data as well as the calibration data to calculate the amount of stencil

movement required to align the stencil to the board. The processor then tells the actuators how

much to move for this alignment.

Parameters Measured

●

Edit outputs in product file

●

Edit limits in product file

11 Benchmark Test



104 Technical Training E by DEK 12/2017

SPC Data Alignment Error

Depending on how the printer has been set-up for SPC output (pre or post or both), the camera will

capture each fiducial in turn. This positional data is sent to the computer for it to calculate the X, Y

and theta alignment error outputs for SPC analysis.

This data is captured just before the print stroke but after the alignment process if "pre" is selected

or after the print stroke if ‘post’ is selected. This data is captured on both occasions if "both" is

selected.

The computer then calculates the alignment error for X, Y and theta and sends it out as SPC

information.

NOTICE

This information for SPC is output just before the print stroke but after the alignment pro-

cess, and/ or just after the print stroke.

Board Stretch

Board stretch is calculated by taking the point of location of stencil fiducials and calculating the dis-

tance between them. Then the point of location of board fiducials and calculating the distance

between them. The difference between these is board stretch. It will be positive if stencil fiducials

are further apart than board fiducials.

Pre and post fiducial X and Y errors are calculated as shown in above diagram by finding positional

difference between each stencil and board fiducial. This can be done either before or after print, but

must be done after alignment. This information is used to calculate X, Y and theta alignment data.

This can be illustrated by running several prints with SPC outputs (alignment weighting set to 50%)

then changing the alignment weighting to 100% or 0% and observing the change. If set to 100%,

fiducial 1 error´s will move closer to zero and if set to 0% fiducial 2 errors will move closer to zero.

Stencil (mm) – Board (mm)

= Board Stretch