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User Manual HS-50 6 Vision functions Software Vers ion SR.501.xx 12/99 Issue US 6.7 G uidelines for Describing Package Form s 307 t I I t 6.7.3 Shapes and possible measuring methods f or rough (G) and fine centering (F) …

6 Vision functions User Manual HS-50

6.7 Guidelines for Describing Package Forms Software Version SR.501.xx 12/99 Issue US

306

t IIt

Fig. 6.7 - 4 Flow chart: ’Programming and testing a package form (GF)’, part 2 - station computer

Display component

Always identical?

Yes

Error message

occurred?

Yes

Modify package form as required in "Vision system“ and "Test component“

Send program and set-up with this package form to the station and set up

Revolver head

Pick-up GF (component)

Pick&Place placement head

Pick up GF (component)

Measure component

Check GF (component), press

Return for next meas. step

Display component

Check GF (component), press

Return for next meas. step

Measure GF (component)

Repeat meas. process several

times (move component onto

nozzle to simulate picking up

different components)

and check results

Assemble component

several times

Important note:

The manipulation of

components at the station

must remain the exception,

rather than the rule.

In general, only a few

components have to be

changed.

1. Handling error: pick-up angle,

nozzle type, CO on nozzle etc.

2. Display component

3. Modify lighting

4. Modify measuring modes

and measuring parameters

5. Modify component dimension

6. Modify pin/ball contrast

7. Modify pin/bal

dimensions

8. Program contrast

(program table)

User Manual HS-50 6 Vision functions

Software Version SR.501.xx 12/99 Issue US 6.7 Guidelines for Describing Package Forms

307

t IIt

6.7.3 Shapes and possible measuring methods for rough (G) and fine centering (F)

If one or more of the results are outside the tolerance, the component will not be placed. 6

Design

SIZE

ROW

CORNER

Lead : combined

analysis windows

Lead: separate

analysis windows

GRID

BALL

Result of the

last measuring step

PDC without lead G/F

∆X, ∆Y, (∆φ), Component

length, width, (quality)

PDC rounded image G/F F Angular tolerance

Small FDCs, e.g.

2 leads

G/F F

∆X, ∆Y, (∆φ), Component

length, width, (quality)

FDC, regular with short

rows of PINs

four-

sided

Not

four-

sided

Max. deviation from the

spacing: ∆X, ∆Y, ∆φ,

(quality)

FDC, regular with long

rows of PINs

four-

sided

Not

four-

sided

Max. deviation from the

spacing: ∆X, ∆Y, (∆φ),

quality

FDC irregular with

short rows of PINs

G(G)F F

∆X, ∆Y, number of PINs

(quality), max. deviation

from the spacing

FDC, irregular with

long rows of PINs

G(G)F F

∆X, ∆Y, number of PINs

(quality), max. deviation

from the spacing

FDC, irregular with one

row of PINs, several

PIN models or spac-

ings

GG F

∆X, ∆Y, (∆φ), standardized

lead deviation (quality)

Number of PINs, second-

ary offset

FDCs with circular seg-

ment PIN arrange-

ments

(G) G F

∆X, ∆Y, (∆φ), standardized

lead deviation (quality)

Number of PINs, second-

ary offset

BGA, flip-chip G G F

∆X, ∆Y, (∆φ), spacing,

angle, quality)

Tab. 6.7.1 Component measuring methods

6 Vision functions User Manual HS-50

6.7 Guidelines for Describing Package Forms Software Version SR.501.xx 12/99 Issue US

308

t IIt

If the component cannot be centered correctly, additional measuring methods may be omitted.

You should, however, carry out all the rough centering steps since these reduce the size of the

measuring window. 6

– In the ’Test component’ menu, the components are optically centered in the individual measur-

ing steps, via the ’Check component’ function, but the results are not output.

– In the ’Test component’ menu, the components are optically centered in the individual measur-

ing steps, via the ’Measure component’ function, but the results are not output.

– If the components are larger than 32 mm x 32 mm, a multiple measurement will be carried out

automatically in the vision system.