KI

SETUP Menu
2. Superposition of foreign tolerances of the workpiece housing

F
F

Housing tolerance
3. Overlay of positioning and simultaneous housing tolerances of the workpiece

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9.4.2.6 Determining the appropriate reference point

Once a bundle of curves has been 'adjusted', the most appropriate reference point can be de-
termined by the administrator subsequently switching to TRIGGER-Y, BLOCK or ABSOLUTE.

1. All curves and the EO are referenced relative to ABSOLUTE.
This means that they are now referenced relative to the absolute (or in some cases tared) zero
point for channel X. There is clear evidence of dispersion in the X dimension here, presumably
due to positioning tolerances.

2. The same bundle of curves after switching to a TRIGGER-Y reference.

All the curves now pass through the intersection (trigger point) where the two dashed lines
cross (e.g. with a threshold of 20 N).

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SETUP Menu

3. The same bundle of curves after switching to a BLOCK reference
The vertical dashed line represents BLOCK as the common reference point. The XMAX points
for all the curves now converge on this line.

9.4.2.7 Catch zone for process values
9.4.2.7.1
General
9.4.2.7.2 The sole purpose of the catch zone defined for an EO is to ensure that process values continue
to be captured even beyond the boundaries of the box. The catch zone has no effect on the
evaluation result (OK or NOK).

Use and purpose of catch zones

To ensure process values are properly allocated specifically, to be able to identify which
process value belongs to which EO, the catch zones must not overlap. To ensure this, a
clearly demarcated catch zone must be allocated to each EO. For diagnosing the causes of
NOK results, and for analyzing NOK statistics, it is important that process values outside the
required limits can also be identified so as to determine, for example, by what margin the
curve missed the entry line.

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9.4.2.7.3 Specifying the size of a catch zone

The span of the catch zone can be set separately for each EO. The percentage input refers to
the width of the particular box boundary in the X or Y dimension. If no catch zone is required,
the parameter is set to 0 % for the dimension concerned.

'Show Catch zone'
(this is shown as a
yellow area)

9.4.2.7.4 How are catch zones constructed?

1.

Catch zones are positioned around a particular EO in different ways, depending on the entry
and exit configuration specified. When EO configuration is complete, touch the 'Display
Catch zone' button (see top of page). The catch zones now appear on the graph as yellow
areas. Try experimenting with the percentage inputs to adjust the X and Y dimension.

The ENTRY and EXIT process values are captured when they intersect the BOX lines defined
as entry and exit sides and from there along their extensions (marked by dashed lines) until
the boundary of the catch zone.

Process values for vertical setpoint lines will be Y values, for horizontal lines they will be X
values.

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9.4.2.8 Testing and adjusting evaluation
9.4.2.8.1
Checking in the PROCESS Menu
To test the EOs, first switch to the blue PROCESS main menu.
EOs are set up, run several cycles and assess the evaluation results. Correct the reference-
points and/or EOs where required.

9.4.2.8.2 Checking modified EOs in setup menu

With the maXYmos NC, any EOs, that have been changed or modified can easily be checked.
This can be done in the Evaluation Preview section of the MP SETUP menu.

Capture Evaluation
Object/EOs
1.

Preview/Compare

2.

After you have set up the changed/modified EOs, select Evaluation Preview. Select the Start
button (bottom right), run several cycles and assess the evaluation results:
1st results = previous setting, 2nd results = new setting. In this example, the new setting
clearly produces better results. If necessary, use EO menu to correct the reference points and/
or EO coordinates.

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9.4.2.9 Evaluation Objects/EO in detail
9.4.2.9.1 EO UNI-BOX

9.4.2.9.2 Evaluation criterion EO UNI-BOX

The measurement curve must enter once through the specified entry side and exit once
through the specified exit side. Any side can be specified as the entry or exit side. The first
point at which the curve crosses a box boundary is the entry event, and its next intersection
with a box boundary thereafter is the exit event.

Example cases

Y IO Y NIO Y IO Y NIO

XX XX

YY YY

X X XX
YY

XX

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9.4.2.9.3 Positioning EO UNI-BOX

A UNI-BOX cab be placed by:
1. numerical input,
2. touching the screen with your finger/a stylus or
3. via PC/MAC (if VNC ® connection established).

1. 1.
2.

3.

9.4.2.9.4 The UNI-BOXes on the previous page are displayed in the PROCESS view.

Obtaining process values from the UNI-BOX EO

How UNI-BOX process values are delivered depends on the configuration used. The best
way to view them for a given EO is by selecting Process View, Value Table. These process
values can either be displayed later in the PROCESS Value Table or transferred by means of
the fieldbus.

Entry – Process Value
This is captured at the point where the curve first intersects the box line designated as the
ENTRY side and from there to the boundary of the catch zone (extended entry line). A value
will only be generated if an entry side has been defined.

EXIT– Process Value
This is captured at the point where the curve first intersects the box line designated as the
EXIT side and from there to the boundary of the catch zone (extended exit line). A value will
be only be generated if an exit side has been defined.

The process value is always an X value for horizontal box lines, a
Y value for vertical box lines..

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Example cases EINTRITT (X)
AUSTRITT (X)
Min-Max Process Values
Y
EINTRITT (Y)
AUSTRITT (Y)
Y

XX

EINTRITT (Y) EINTRITT (X)
AUSTRITT (Y) AUSTRITT (X)

ThesYe will be displayed inside theYboundaries of the box and, beyond those boundaries, up to
the limits of the catch zone (if one has been defined). Depending on the configuration being
used, these values can be:

XMIYNM-XA/X-XYM/IYNM-YAX X-X(the lowesXt MX AvaXl-uXe/aXnMd iAXtsX-cYorresponding Y value)
XMAYXM-XIN/-YX/MYAMXI-NY-X (the highesXtMXINva-Xlu/e XaMndINit-sYcorresponding Y value)
YMIN-Y / YMIN-X (the lowest Y value and its corresponding X value)
YMAYX-Y / YMAX-X (the higheYst Y value and its corresponding X value)

Example cases X X
YMAX-Y / YMAX-X XMAX-X / XMAX-Y
YMIN-Y / YMIN-X XMIN-X / XMIN-Y

Y Y

XX

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9.4.2.9.5 Specifying catch zone of the EO UNI-BOX
See also 'Catch Zone for Process Values'

Catch zone (yellow)

Advanced settings button and then choose the 'Catch Zone' tab
The catch zones, i.e. the zones within which process values are 'captured', must be specified
for each EO individually in the EO Editor.

Here, a Catch zone of 50 % in X and Y direction is defined (yellow area) for EO-01. Inside
this Catch zone, the specified process values of the respective EO configuration are captured
(select see next section) "Display Process Values of the UNI-BOX in Value Tables".

Important: The OK/NOK evaluation is only performed inside the
box boundaries. The Catch zone simply ensures that in addition,
the process values a​​ re also recorded over these box boundaries.
If, for example, the entry side of a box is missed, it may be a
statistical interest to know the distance of the curve to the entry
boundary.

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9.4.2.9.6 Display process values of the UNI-BOX in value tables
The process values can be displayed in the (blue) value table.

Page 310 Any name can be
entered here.

next page
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SETUP Menu

Continue

Configuring
Select desired measurement program, e.g., 'MP-001' (ž Setup/MP-Setup/MP-001). Select
'Process View' and then 'Configure Value Table'. Tap on 'EO' field and select desired EO,
e.g., EO-04. Tap on 'Name' field and select desired measurement value, e.g., for the entry
value (ENTRY).

Move row:
Move selected row above/below

Add row.
Delete row.

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9.4.2.10 Evaluation Objects/EO in Detail TRAPEZOID

9.4.2.10.1 EO TRAPEZOID-X/TRAPEZOID-Y

9.4.2.10.2 Evaluation criterion EO TRAPEZOID

The measurement curve must enter once through the specified entry side and exit once
through the specified exit side. Any side can be specified as the entry or exit side. The first
point at which the curve crosses a box boundary is the entry event, and its next intersection
with a box boundary thereafter is the exit event.

Example cases Y NIO TRAPEZOID-Y Y NIO
TRAPEZOID-X
Y IO
Y IO

XXX X

• Evaluation of the Trapezoid EO X/Y correlates with the UNI-BOX
• Entry and exit as designated
• No violation of „closed“ sides allowed
• Each side defineable as entry or exit

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9.4.2.10.3 Positioning EO TRAPEZOID

A TRAPEZOID cab be positioned by:
1. numerical input,
2. touching the screen with your finger/a stylus or
3. via PC/MAC (if VNC ® connection established).

1. 1. Setpoint input

2. The TRAPEZOID EO X
3. Needs 6 setpoints to be
entered:
Force (Ymin and Ymax)
Displacement 1 (X1min and
X1max)
Displacement 2 (X2min and
X2max)

The advanced configu-ra-
tion is similar to the UNI-
BOX.

9.4.2.10.4 On the previous page the TRAPEZOID EO’s are shown in the PROZESS view.

Obtaining process values from the TRAPEZOID EO

How TRAPEZOID process values are delivered depends on the configuration used. The best
way to view them for a given EO is by selecting Process View, Value Table. These process
values can either be displayed later in the PROCESS Value Table or transferred by means of
the fieldbus.

Entry – Process Value
This is captured at the point where the curve first intersects the box line designated as the
ENTRY side and from there to the boundary of the catch zone (extended entry line). A value
will only be generated if an entry side has been defined.

EXIT– Process Value
This is captured at the point where the curve first intersects the box line designated as the
EXIT side and from there to the boundary of the catch zone (extended exit line). A value will
be only be generated if an exit side has been defined.

TRAPEZOID-X:
Entry and exit as specified. No violation of closed sides permitted. Any side to be specified as
entry or exit. Inclination scalable in X direction.
TRAPEZOID-Y:
Entry and exit as specified. No violation of closed sides permitted. Any side to be specified as
entry or exit. Inclination scalable in Y direction.

In case of horizontal box lines the process value is always an
X-value, in case of vertical box lines an Y-value.

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Example cases

Min-Max Process Values

ENTRY (Y) ENTRY (X)
EXIT (Y) EXIT (X)

Y Y

XX

ENTRY (Y) ENTRY (X)

EXIT (Y) EXIT (X)

ThesYe will be displayed inside theYboundaries of the box and, beyond those boundaries, up to
the limits of the catch zone (if one has been defined). Depending on the configuration being

used, these values can be:

XMIYNM-XA/X-XYM/IYNM-YAX X-X(the lowesXt MX AvaXl-uXe/aXnMd iAXtsX-cYorresponding Y value)
XMAYXM-XIN/-YX/MYAMXI-NY-X (the highesXtMXINva-Xlu/e XaMndINit-sYcorresponding Y value)
YMIN-Y / YMIN-X (the lowest Y value and its corresponding X value)
YMAYX-Y / YMAX-X (the higheYst Y value and its corresponding X value)

Example cases X X
YMAX-Y / YMAX-X XMAX-X / XMAX-Y
YMIN-Y / YMIN-X XMIN-X / XMIN-Y

Y Y

XX

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SETUP Menu

9.4.2.10.5 Specifying catch zone of the EO TRAPEZOID
See also 'Catch Zone for Process Values'

Catch zone (yellow)
Advanced Settings button and then choose the 'Catch Zone' tab
The catch zones, i.e. the zones within which process values are 'captured', must be specified
for each EO individually in the EO Editor.

Here, a Catch zone of 50 % in X and Y direction is defined (yellow area) for EO-01. Inside
this Catch zone, the specified process values of the respective EO configuration are captured.

Important: The OK/NOK evaluation is only performed inside the
box boundaries. The Catch zone simply ensures that in addition,
the process values a​​ re also recorded over these box boundaries.
If, for example, the entry side of a box is missed, it may be a
statistical interest to know the distance of the curve to the entry
boundary.

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9.4.2.11 EO CALC

9.4.2.11.1 Evaluation criterion EO CALC

This EO takes two user-definable process values and uses them to make a calculation - e.g.
the X difference between two ripples - which it then evaluates.

Example Case

X X

9.4.2.11.2 Positioning EO CALC

Use a numerical input,
your fingertip or a
VNC® command to po-
sition the CALC EO in
the required location.

Page 316 Measured values can
be calculated with va-
riables.

002-679e-08.19

SETUP Menu

9.4.2.11.3 Configuring EO CALC

Input 1 / Input 2
EO "Curve" or "Vari-
able" can be selected.

Select EO CALC. Define inputs EO-01 and EO-02 or Curve, Variable.
Define measurement value, e.g., GET-REF-X and the operation, e.g., subtraction.
In the example above, EO-02-GET-REF-X-Value is subtracted from EO-01-GET-REF-X-Value.

Enter target values (min. and max.); these are displayed with the results lower right on the
EO field border.

A name (is displayed upper left with EO number) and information can be assigned to the EO
field under "Advanced Settings".

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9.4.2.12 EO GET-REF

9.4.2.12.1 Evaluation criterion EO GET-REF

This EO/evaluation object detects significant curve characteristics and their XY coordinates
in the expected range. These are used as reference points for other EOs or as input for the
'CALC' item.

Example Case

X X

9.4.2.12.2 Position EO GET-REF

Position GET-REF to
desired position by
means of numeric in-
put, finger or VNC®

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9.4.2.12.3 Configuring EO GET-REF

Select EO GET-REF. Select the desired measurement function, e.g., 'Entry', under the tab
'Function'.

The curve section can be defined under 'Advanced Settings': Equal, positive or negative. In
addition, it can be chosen whether re-entry should be ignored or not.

The HYSTERESIS-X/-Y can be set up under the tab 'Hysteresis'.

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9.4.2.13 EO GRADIENT-X

9.4.2.13.1 Evaluation criterion EO GRADIENT-X

This EO/evaluation object evaluates the gradients (angle of incline) dY/dX between two
horizontal lines.

Example Case

9.4.2.13.2 Position EO GRADIENT-X

Position GRADIENT-X
to desired position by
means of numeric in-
put, finger or VNC®

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SETUP Menu

9.4.2.13.3 Configuring EO GRADIENT-X

Select EO GRADIENT-X. Enter target limits (gradient min./max.).

The curve section can be defined under 'Advanced Settings': Positive or negative. A name
and information can be assigned.

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9.4.2.14 EO GRADIENT-Y

9.4.2.14.1 Evaluation criterion EO GRADIENT-Y

This EO/evaluation object evaluates the gradients (angle of incline) dY/dX between two
vertical lines.

Example Case

9.4.2.14.2 Position EO GRADIENT-Y

Position GRADI-
ENT-Y to desired
position by means of
numeric input, finger
or VNC®

Page 322 002-679e-08.19

SETUP Menu

9.4.2.14.3 Configuring EO GRADIENT-Y

Select EO GRADIENT-Y . Enter target limits (gradient min./max.).

The curve section can be defined under 'Advanced Settings': Positive or negative. A name
and information can be assigned.

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9.4.2.15 EO HYSTERESIS-X

9.4.2.15.1 Evaluation criterion EO HYSTERESIS-X

This EO/evaluation object evaluates the HYSTERESIS-X between a forward and a returning
leg of a curve on a horizontal line.

Example case

9.4.2.15.2 Position EO HYSTERESIS-X

Position HYSTERE-
SIS-X to desired
position by means of
numeric input, finger
or VNC®.

Important: If the
HYSTERESIS-EO can
not be positioned ž
next page

Page 324 002-679e-08.19

SETUP Menu

9.4.2.15.3 Configuring EO HYSTERESE-X

Select EO HYSTERESIS-X and enter min./max.

A name and information can be assigned under 'Advanced Settings'.

Important: The EO HYSTERESIS-X does not function or can not be positioned if:
1. the curve return leg is hidden.
ž Setup > ___ > Cycle Control > Curve Processing > Truncate Curve At set to
'NO'
2. the STOP threshold is incorrectly defined in the cycle control (the return leg is
defined by the Stop condition).
ž Configure Setup > ___ > Cycle Control > START/STOP > STOP Threshold
3. points 1 and 2 were corrected, the old curve was not deleted and new captured.
ž Capture measurement curve (icon upper right)

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9.4.2.16 EO HYSTERESIS-Y

9.4.2.16.1 Evaluation criterion EO HYSTERESIS-Y

This EO/evaluation object evaluates the HYSTERESIS-Y between a forward and a returning
leg of a curve on a vertical line.

Example case

9.4.2.16.2 Position EO-HYSTERESIS-Y

Position HYSTERE-
SIS-Y to desired
position by means of
numeric input, finger
or VNC®.

Important: If the
HYSTERESIS-EO can
not be positioned ž
next page



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SETUP Menu

9.4.2.16.3 Configuring EO-HYSTERESE-Y

Choose EO HYSTERESE-Y and enter min./max.

A name and information can be assigned under 'Advanced Settings'.

Important: The EO HYSTERESIS-Y does not function or can not be positioned if:
1. the curve return leg is hidden.
ž Setup > ___ > Cycle Control > Curve Processing > Truncate Curve At set to
'NO'
2. the STOP threshold is incorrectly defined in the cycle control (the return leg is
defined by the Stop condition).
ž Configuring Setup > ___ > Cycle Control > START/STOP > STOP Threshold
3. points 1 and 2 were corrected, the old curve was not deleted and new captured.
ž Capture measurement curve (icon upper right)

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9.4.2.17 EO TUNNELBOX-X

9.4.2.17.1 Evaluation criterion EO TUNNELBOX-X
This EO/evaluation object evaluates the specified entries and exits. No crossing of the closed
sides is allowed. A crossing of the closed sides generates a real time signal.

Example case

IO NIO

XX

9.4.2.17.2 Position EO TUNNELBOX-X

Position TUNNEL-
BOX-X to desired
position by means of
numeric input, finger
or VNC® .



Page 328 002-679e-08.19

SETUP Menu

9.4.2.17.3 Configuring EO TUNNELBOX-X

Select an evaluation type:
Online:
During the measurement.
Offline:
After the measurement

If NOK, the NC joining mo-
dule is stopped immediately.

Select EO TUNNELBOX-X and entry/exit direction.

The curve section can be defined under 'Advanced Settings': Equal, positive or negative. In
addition, it can be chosen whether re-entry should be ignored or not. A name and informa-
tion can be assigned. The name is displayed next to the EO number above left.

The HYSTERESIS-X/-Y can be set up under the tab 'Hysteresis'.

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9.4.2.18 EO TUNNELBOX-Y

9.4.2.18.1 Evaluation criterion EO TUNNELBOX-Y

This EO/evaluation object evaluates the specified entries and exits. No crossing of the closed
sides is allowed. A crossing of the closed sides generates a real time signal.

Example case

IO NIO
X X

9.4.2.18.2 Position EO TUNNELBOX-Y

Position TUNNEL-
BOX-Y to desired
position by means of
numeric input, finger
or VNC® .



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SETUP Menu

9.4.2.18.3 Configuring EO TUNNELBOX-Y

Select an evaluation
type:
Online: During the
measurement..
Offline: After the
measurement.

If NOK, the NC joi-
ning module is stop-
ped immediately.

Select EO TUNNELBOX-Y and Entry/Exit Direction

The curve section can be defined under 'Advanced Settings': Equal, positive or negative. In
addition, it can be chosen whether re-entry should be ignored or not. A name and informa-
tion can be assigned. The name is displayed next to the EO number above left.

The HYSTERESIS-X/-Y can be set up under the tab 'Hysteresis'.

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9.4.2.19 EO SPEED

9.4.2.19.1 Evaluation criterion EO SPEED
This EO/evaluation object evaluates the speed between the entry and exit point.
Example case

mm/s

0 max

9.4.2.19.2 Position EO SPEED

Position SPEED to de-
sired position by means
of numeric input, fin-
ger or VNC® .



Page 332 002-679e-08.19

SETUP Menu

9.4.2.19.3 Configuring EO SPEED

Select EO SPEED, entry/exit direction and min./max. speed.

The curve section can be defined under 'Advanced Settings': Equal, positive or negative. In
addition, it can be chosen whether re-entry should be ignored or not. A name and informa-
tion can be assigned. The name is displayed next to the EO number above left. The HYSTERE-
SIS-X/-Y can be set up under the tab 'Hysteresis'.
Choose button 'Advanced Settings' and then the tab 'Catch zone'. The Catch zone, which is
'caught' inside of these process values, is specified separately in the EO Editor.

Important: The OK/NOK evaluation is only performed inside the
box boundaries. The Catch zone simply ensures that in addition,
the process values a​​ re also recorded over these box boundaries.
If, for example, the entry side of a box is missed, it may be a
statistical interest to know the distance of the curve to the entry
boundary.

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9.4.2.20 EO TIME
This EO/evaluation object evaluates the time between the entry and exit point.
Example case

9.4.2.19.4 Evaluation criterion EO TIME
This EO/evaluation object evaluates the time between the entry and exit point.
Example case

sek.

9.4.2.19.5 Position EO TIME

Position TIME to de-
sired position by means
of numeric input, fin-
ger or VNC® .



Page 334 002-679e-08.19

SETUP Menu

9.4.2.20.1 Configuring EO TIME

Select EO TIME, entry/exit direction and min./max. speed.

The curve section can be defined under 'Advanced Settings': Equal, positive or negative.
In addition, it can be chosen whether a re-entry should be ignored or not. A name and in-
formation can be assigned. The name is displayed next to the EO number above left. The
HYSTERESIS-X/-Y can be set up under the tab 'Hysteresis'.
Select the button 'Advanced Settings' and then the tab 'Catch Zone'. The Catch zone, which
is 'caught' inside of these process values, is specified separately in the EO Editor.

Important: The OK/NOK evaluation is only performed inside the
box boundaries. The Catch zone simply ensures that in addition,
the process values a​​ re also recorded over these box boundaries.
If, for example, the entry side of a box is missed, it may be a
statistical interest to know the distance of the curve to the entry
boundary.

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9.4.2.21 EO AVERAGE

9.4.2.21.1 Evaluation criterion EO AVERAGE
This EO/evaluation object evaluates the mean value of all Y values in the box range.
Example case

9.4.2.21.2 Position EO AVERAGE

Position AVERAGE to
desired position by
means of numeric in-
put, finger or VNC® .



Page 336 002-679e-08.19

SETUP Menu

9.4.2.21.3 Configuring EO AVERAGE

Select EO AVERAGE, entry LEFT/RIGHT and min./max./mean value.

The curve section can be defined under 'Advanced Settings': Equal, positive or negative. In
addition, it can be chosen whether re-entry should be ignored or not. A name and informa-
tion can be assigned. The name is displayed next to the EO number above left. The HYSTERE-
SIS-X/-Y can be set up under the tab 'Hysteresis'.
Choose button 'Advanced Settings' and then the tab 'Catch zone'. The Catch zone, which is
'caught' inside of these process values, is specified separately in the EO Editor.

Important: The OK/NOK evaluation is only performed inside the
box boundaries. The Catch zone simply ensures that in addition,
the process values a​​ re also recorded over these box boundaries.
If, for example, the entry side of a box is missed, it may be a
statistical interest to know the distance of the curve to the entry
boundary.

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9.4.2.22 EO BREAK

9.4.2.22.1 Evaluation criterion EO BREAK

EO BREAK monitors abrupt changes in gradient inside of the break detection area (box area).
It does not matter whether it is is a sudden drop (workpiece breaks) or a sudden increase of
the measurement curve (workpiece residue blocks the feed).

Example case

9.4.2.22.2 Position EO BREAK

Position BREAK to de-
sired position by means
of numeric input, fin-
ger or VNC® .

Page 338 002-679e-08.19

SETUP Menu

9.4.2.22.3 Configuring EO BREAK

A name and information can be assigned under 'Advanced Settings'. The name is displayed
next to the EO number above left.

Important: The OK/NOK evaluation is only performed inside the
box boundaries. The Catch zone simply ensures that in addition,
the process values a​​ re also recorded over these box boundaries.
If, for example, the entry side of a box is missed, it may be a
statistical interest to know the distance of the curve to the entry
boundary.

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9.4.2.22.4 Break report as online signal

Online break report
A break report can be output as an online signal. The online brake
report must be set up in the measurement program. 8 possible
outputs are available in its menu Output Signals.

Break detection
If there is a break detection, the NC joining module is stopped
immediately.

Display switching state in the SERVICE menu: Service > Dig-IO Status > Tab Digital Outputs

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9.4.2.23 EO LINE-X

9.4.2.23.1 Evaluation criterion EO LINE-X

The measurement curve must cross EO LINE-X once, just in the specified direction, i.e., from
ABOVE or from BELOW. EO LINE-X monitors compliance of a value X within its tolerance
limits XMIN and XMAX. The process value is also an X value.

Example cases NIO IO NIO

IO Y Y Y

Y

XX XX

9.4.2.23.2 Position EO LINIE-X

Position LINE-X to de-
sired position by means
of numeric input, fin-
ger or VNC® .



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9.4.2.23.3 Specify catch zone EO LINE-X

See also chapter 'Catch Zone for Process Values'.
The Catch zone, which is 'caught' inside of these process values, is specified separately in the
EO Editor.

Here, unlimited was selected as a Catch zone. The process value therefore is captured up to
the limits of the extended horizontal (dotted) line here as far as the measurement range limits
of channel Y.

Important: The actual evaluation is carried out exclusively on the
basis of EO LINE-X limits. The Catch zone, as the extension of
this line, ensures that process values are also captured via the EO
LINE-X limits. If EO LINE-X misses, it may thus be of statistical
interest how far the measurement curve runs past EO LINE-X.

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9.4.2.23.4 Display process values EO LINE-X in value table
The process values can be displayed in the (blue) value table.

Move row
Insert row
Delete row

Configuring

Select desired measurement program, e.g., 'MP-003' Setup > MP-Setup > (e.g.) MP-003.
Select 'Process View'and then value table 'Configure'. Tap on 'EO' field and select desired EO,
e.g., EO-01. Tap on 'Name' field and select desired measurement value, e.g., for the entry
value (ENTRY).

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9.4.2.24 EO LINE-Y

9.4.2.24.1 Evaluation criterion EO LINE-Y

The measurement curve must cross EO LINE-Y once, just in the specified direction, i.e., from
ABOVE or from BELOW. EO LINE-Y monitors compliance of a value Y within its tolerance
limits YMIN and YMAX. The process value is also a Y value.

Example cases

IO NIO IO NIO
Y Y Y Y

X X X X

9.4.2.24.2 Position process values of EO LINE-Y

Position LINE-Y to de-
sired position by means
of numeric input, fin-
ger or VNC® .



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9.4.2.24.3 Reference process values of EO LINE-Y
Y
The process value ENTRY is the value X at the intersection of the curve with the EO LINE-Y
and additionally with its vertical extension in the Catch zone. The value can be displayed on
the PROCESS page 'Value Table', and can also be transfered via fieldbus.

Example case

IO IO NIO NIO
Y Y Y

XX XX

9.4.2.24.4 EO LINE-Y returns the Y value at the intersection of the curve with the line (left, red circle) or
with its extension within the Catch zone. (right dashed extension).

Specify catch zone EO LINE-Y

See also chapter 'Catch Zone for Process Values'. The Catch zone, which is 'caught' inside of
these process values, is specified separately in the EO Editor.

50 % was chosen as a
Catch zone here. Process
values a​​ re then captured
50 % above and 50 %
below the extended EO
LINE-Y line, based on the
height of this evaluation
object.

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Important: The actual evaluation is carried out exclusively on the
basis of EO-LINE-Y limits. The Catch zone, as the extension of
this line, ensures that process values are also captured via the EO
LINE-Y limits. If EO LINE-Y misses, it may thus be of statistical
interest how far the measurement curve runs past EO LINE-Y.

9.4.2.24.5 Display process values EO LINE-Y in value table
The process values can be displayed in the (blue) value table.

next page

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Configuring:
Select desired measurement program, e.g., 'MP-003' Setup > MP-Setup > MP-003.
Select 'Process View' and then 'Configure Value Table'. Tap on 'EO' field and select desired
EO, e.g., EO-01. Tap on the 'Name' field and select desired measurement value, e.g., for the
input value (ENTRY).

Move row:
Move selected row above/below

Add row.

Delete row.

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9.4.2.25 EO NO-PASS

9.4.2.25.1 Evaluation criterion EO NO-PASS

The EO must not be crossed. Otherwise, it generates NOK and promptly (<1 ms) sets the
online output O-NO-PASS to '1'.
Service > Dig-IO Status > Digital > Outputs

Output EO-NO-PASS remains at '1' up until the next fulfilled START condition. EO NO-PASS
is referenced exclusively to ABSOLUTE. It can only be set to 1 by the measurement program.

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9.4.2.25.2 The EO is used primarily in areas where it depends on quick reactions, e.g., in sprout-up area
with press-fit procedures. For steep force increases in this range are indicative of tilting of the
joining partners, resulting in the crossing of the EO NO-PASS line. The press return stroke can
then be initiated with O-NO-PASS,for example.

Reference EO NO-PASS

The EO NO PASS threshold is mainly placed in areas in which the measurement curve must
not penetrate. EO NO-PASS is commonly positioned over the threading area of a press-fit
curve.



9.4.2.25.3 Referencing process value of EO NO-PASS
EO NO-PASS does not provide process values. It thus has no Catch zone.

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9.4.2.26 EO ENVELOPE CURVE

9.4.2.26.1 Evaluation criterion EO ENVELOPE CURVE

The measurement curve must enter the EO ENVELOPE on the side as defined by ENTRY and
exit on the side as defined by EXIT, without crossing between the upper and lower boundary
lines.

Example case

The EO ENVELOPE is used primarily in areas where it depends on rapid learning of evalua-
tion objects. It is suitable also for sloping curve sections, where EO UNI-BOX or multiple EO
LINE-X would monitor rather intermittently.

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