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Optical Character / Code VerificationDocument Version A
User
Man
ual
Optical Character / Code Verification - OCV 7.001 - User Manual - Document Version A 5/19/201712:58 PM - Schema ST4 PDF engine - Layout by Victor Mahler
Optic
al C
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/ Co
de V
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Contents
1 General Instructions ..................................................................................................... 5
2 Type of Control ............................................................................................................ 6
2.1 Numbers and Types of Camera Control Windows (Smart Camera) .................................. 8
3 Operation of the Camera ............................................................................................... 9
3.1 Keys ...................................................................................................................... 10
3.2 The Virtual Keyboard ............................................................................................... 11
4 Camera Start-Up (New Product) ................................................................................... 12
4.1 Teach-In – Control ................................................................................................... 12
4.2 OCR / OCV - Control ................................................................................................ 13
4.3 CODE - Control ....................................................................................................... 14
4.4 Pixel - Control ........................................................................................................ 15
4.5 Pattern Check ......................................................................................................... 16
4.6 Position Control ...................................................................................................... 17
4.7 Acquire Image ........................................................................................................ 18
4.8 Instructions for Setting the Control Window ................................................................. 18
4.9 Instructions for Setting the Grey value Threshold .......................................................... 19
4.10 OCV Window Color Normal and Inverted .................................................................... 20
4.11 Tracking Linkage ..................................................................................................... 21
4.12 Track OCV/TIN/PIX Windows with POS windows ......................................................... 22
4.13 Track all windows with PATTERN CHECK Window ....................................................... 24
4.14 Color Inspection of the Pixel Window ......................................................................... 24
4.15 Control Mode of the Pixel Window ............................................................................. 24
4.16 Tolerances of the Pixel Window ................................................................................ 25
4.17 New Reference Code ................................................................................................ 25
4.18 Production Mode..................................................................................................... 25
4.19 Menu Overview ....................................................................................................... 26
5 Product Management Menu ......................................................................................... 28
6 Edit Product .............................................................................................................. 28
7 Font Menu ................................................................................................................ 30
7.1 Learn Character Group ............................................................................................. 30
7.2 Train Characters...................................................................................................... 30
7.3 Show Font .............................................................................................................. 31
7.4 Confusion List......................................................................................................... 32
7.5 Tolerances ............................................................................................................. 33
7.6 Change threshold 1 and threshold 2 .......................................................................... 34
7.7 Delete pattern ......................................................................................................... 34
7.8 Delete character ...................................................................................................... 34
7.9 Copying, Renaming, Deleting Font ............................................................................ 35
7.10 Correct Font Size ..................................................................................................... 35
7.11 Temporary Teaching Character ................................................................................. 35
8 Statistics Menu .......................................................................................................... 36
9 Service Menu ............................................................................................................ 37
9.1 Optical Settings ....................................................................................................... 37
9.2 Configuration Illumination ........................................................................................ 38
9.3 Image Configuration ................................................................................................ 38
9.3.1 Image transfer Configuration ..................................................................................... 38
9.3.2 Image geometry ...................................................................................................... 38
9.3.3 Image resolution ..................................................................................................... 39
9.4 Camera Configuration .............................................................................................. 39
9.4.1 I/O configuration ..................................................................................................... 39
9.4.2 Master – Slave Statistic mode ................................................................................... 45
9.4.3 Eject Station Control ................................................................................................ 46
9.4.4 Image server .......................................................................................................... 47
9.4.5 Reader Mode .......................................................................................................... 48
9.5 Diagnosis .............................................................................................................. 49
9.6 System Parameters ................................................................................................. 50
9.6.1 Time Out ................................................................................................................ 50
9.6.2 Clock overflow ........................................................................................................ 50
9.6.3 Reference Data receive check .................................................................................... 50
9.6.4 On/Off measurement line automatic ........................................................................... 50
9.6.5 Trigger edge ........................................................................................................... 50
9.6.6 Save counters ......................................................................................................... 50
9.6.7 Image Shading ....................................................................................................... 51
9.6.8 Language ............................................................................................................... 52
9.6.9 Preferred font color .................................................................................................. 52
9.7 User and Password Management .............................................................................. 53
10 Password, Zoom ........................................................................................................ 54
10.1 Change Password ................................................................................................... 54
10.2 Zoom In (Zoom Out) ............................................................................................... 54
11 Parameters of OCV / TIN Windows ................................................................................ 55
12 Parameter PATTERN CHECK Window ............................................................................. 62
13 Parameter Position Control Window .............................................................................. 63
14 Parameter Code Window ............................................................................................. 67
15 Barcode Quality Control Referring to ISO/IEC 15416 ......................................................... 73
15.1 Classification of a 1D Barcode .................................................................................. 73
15.2 Configuration of Quality Control ................................................................................. 76
16 Pixel Window Parameters ............................................................................................ 77
17 Data Matrix Window Parameters ................................................................................... 79
18 Data Matrix Quality Control .......................................................................................... 84
18.1 Data Matrix Quality Control in Keeping with ISO/IEC 15415 .......................................... 84
18.2 Camera Calibration for Data Matrix Quality Control Reasons ......................................... 86
19 QR Code Window Parameters ...................................................................................... 88
20 Code Aggregation ....................................................................................................... 91
21 Appendix .................................................................................................................. 93
21.1 Error Messages and Error Recovery ........................................................................... 93
21.2 Maintenance ........................................................................................................... 95
21.3 Further Documents .................................................................................................. 95
21.4 Adjusting the Focus / Reading Distance ..................................................................... 96
22 Specifications for OCR/OCV Control ............................................................................... 97
22.1 Font ...................................................................................................................... 97
22.2 Permissible Characters for OCR/OCV Control ............................................................... 98
23 Readable Code Types ............................................................................................... 100
24 Index ..................................................................................................................... 104
5
1 General Instructions
Operator's Duty to Exercise Due Care
The PCE OCV SMART CAMERA was designed and constructed in accordance with the stipulated harmonized
standards and other technical specifications. It thereby conforms to state-of-the-art technology and enables an
optimum degree of safety during operation.
The safety of the system during everyday operation can only be ensured if all the necessary, relevant measures are
taken. Planning these measures and controlling their implementation is part of the system operator's responsibility
for exercising due care.
The operator must ensure that
The system is used in accordance with the stipulations,
The system is only operated in perfect, fully functional condition,
The operation manual is always in complete and readable condition at the location of the machine
Only respectively qualified and authorized personnel operate and service the system,
This personnel is instructed on a regular basis in all the relevant aspects concerning work safety,
and that they are familiar with the Instruction Manual and the safety instructions it contains,
All the system features relating to safety are carefully tested at regular intervals,
The higher the safety risks of this device the more frequently regular inspections have to be performed
Basic Safety Measures
For safe operation of the image processing system, the following points must be observed:
The camera must be mounted on a stable, mechanically fixed attachment.
During operation, the camera must be protected against the influence of external light.
The voltage supply system of the device is 24V DC and is supplied from an external voltage source. All the
safety instructions necessary for this type of system design are to be observed.
The device may only be operated by persons trained and authorized to use the device, who are familiar
with the Instruction Manual and are able to operate the device accordingly.
To ensure safe operation of the image processing system, repeated inspections of all safety relevant parts must be
performed. The points mentioned above and the operating manual must be followed.
Requirements for the Operating Personnel
The device is operated via user administration. This may only be operated by personnel specifically trained for the
respective level.
In this connection, please also read the section “Operating details and menu structure”. This operation manual
serves for enabling the user to install and operate the device. However, this operation manual does not replace the
installation and the customer service performed by trained personnel!
Transport, Installation and Start-up
During transport must be ensured that the device is packed and transported so that it is protected against moisture
and impact.
When installing the device in an industrial environment, this should be done where the effects of dust, moisture,
temperature and vibration lowest. Safe operation of the device can only be guaranteed if specially trained personnel
have conducted the installation and start-up.
Note: To avoid the risk of stumbling, all device connections (cables) must be laid in such a way that they
will not cause tripping!
Intended Use
The PCE OCV SMART CAMERA is suitable for inspecting the readability of:
Identification number, lot number, proof of origin, expiry date and variable print on labels, cartons, films and other
printed items.
The optical character reading monitors the most important errors of:
Stamp, hot stamp block, photo plate, thermal transfer, laser or inkjet printers, that render the print unreadable or
result in incorrect recognition, for example:
Reversed characters; blurred characters; worn characters; merged characters or missing character(s).
Typical applications for PCE optical character verification are on:
Brochures, labels, vignettes, cartons, tubes and tins.
6
Note: If the PCE optical character verification is not used correctly, reliable operation of the system cannot be
guaranteed. For all personal and material damage resulting from improper use the operator of the PCE
image processing system is responsible, not the manufacturer.
2 Type of Control
OCV mode (optical character reading)
The individual characters are taught in once by the operator using samples. The sample will be deposited at the
character set. When changing the batch the reference characters will be taught-in via keyboard. If the deviation of the
character set compared to the reference code is too big, the print will be evaluated as “BAD”.
Application:
For bad print, because several samples of one character can be taught in.
If there is a small gap or the gap is missing between the characters.
OCR mode (optical character reading)
As in the OCV mode, reference character samples can be taught-in as one character set. When changing the batch
the reference characters will be taught-in via keyboard. During production the actual character will be compared with
all samples of the character set. The sample with the least deviation is selected and compared to the reference code.
If the matching calculated is too small, the print will be evaluated as “bad”. The OCR mode is slower than the OCV
mode. Spaces have to be available between the characters; otherwise they cannot be recognized individually!
Application:
If the OCV mode is not sufficient for distinguishing between different characters (example: "O" vs."0" or "8" vs. "B").
If the content of a print job needs to be read and output.
If the exact reference code is unknown but only characters from the taught-in character set are allowed.
Note: OCV has a greater tolerance for poor quality print and is generally sufficient.
Teach-In mode (optical character reading)
The operator teaches in the reference character samples as a reference code. No allocation of samples to characters
takes place.
Application:
Constant changes of font type and font sizes; characters must be separated clearly by a gap.
Note: This mode should not be used if reference codes are specified by the PLM.
Pixel mode
In a pixel window the sizes of the black and white areas are verified. The tolerances can be entered as absolute, or
relative.
Application:
Presence control of objects or print.
Code mode
With the set window, a barcode (1D code) is read and the code content is compared with the reference code.
See the "Readable Code Types" chapter for the various possible code types.
Application:
Object control using code reading. Verification of the code quality (grading)
Data Matrix mode
With this window, a data matrix code (2D code) can be read and compared with the reference code. See the
"Readable Code Types" chapter for the various possible code types currently available.
Application:
Object control via data matrix code reading. Verification of the print quality of the data matrix code (grading)
QR mode
With this window, a QR (Quick Response) code can be read and compared with the reference code. See the
"Readable Code Types" chapter for the various possible code types currently available.
Application:
Object control via QR code reading. Verification of the code content.
Pattern Check
The camera will search for a pattern taught in. The position of pattern and the deviation from reference will be
measured.
This control type can be used for positioning of OCV/OCR, PIXEL or CODE windows.
Application:
7
Presence control of correct print. Positioning tool for other control types
Position Control The POS window can be used for the absolute and relative position measurement of objects. It can also be used
only for the tracking and shifting of windows with each image processing cycle. Application: Position control for example of label positions or cap fitting. Positioning tool for other control types.
8
2.1 Numbers and Types of Camera Control Windows (Smart Camera)
The following control types are available:
Type Name Number #
Optical character (OCR, OCV, Teach In) window OCR#, OCV#, TIN# 20
Pixel windows PIX# 20
Barcode window CODE# 5
Data matrix code window DM# 5
QR code window QR# 2
Pattern Check window PC# 4
Position windows POS# 25
The different control types for the sensor cannot be freely combined. The user must decide whether to use the
sensor for pixel, optical character, barcode, or data matrix checking. Except for these restrictions, the sensor
software functions just like the camera software.
The results of the controls (checks) can be AND or OR linked and routed to different outputs. An AND link and OUT0
have been preset as a GOOD output.
The sensor cannot be used for code quality verification (grading).
9
3 Operation of the Camera
The image processing system is operated using simple menu navigation on the display and an integrated touch
screen. The areas that shall be inspected are marked and verified using the window technique. Operating
instructions are displayed for single products. The following illustration shows the main menu after choosing a
camera and pressing “Menu” on the touch screen.
Note: When the system is switched on, the production run – the actual control mode – is started. After
choosing the camera and pressing “MENU”, the production run can be quit, and the main menu is
displayed.
Menu selection
Status Line
10
3.1 Keys
The following key assignments are valid in the menus:
A menu item can be selected via touch screen.
A menu item will be selected after releasing a menu item.
Quit or cancel a sub-menu using the “Exit button”.
Setting windows, frames and lines:
The windows for the different types of control (OCV, OCR, Code, DM, QR, PIX, PC) will be configured on the touch
screen via control symbols.
The windows can be changed directly via touch screen (mouse). By pressing the center of the window this can be
moved, by pressing on the side next to the window the size of the window can be changed.
By choosing the center button the active mode can be switched.
In “scrolling” mode the window can be shifted using the arrow keys
In “zoom in” mode the window can be enlarged using the arrow keys.
In “zoom out” mode the window can be reduced using the arrow keys.
The entry will be acknowledged using the button.
The entry will be cancelled using the button.
Arrow keys
Mode
11
3.2 The Virtual Keyboard
Alphanumeric characters (passwords, set texts, codes) will be entered via touch screen using
the virtual keyboard. This will be displayed as soon as an entry has to be made.
Changes between capital and small letters as well as numbers and special
characters.
Confirms the entry of characters or completes the entry.
Cancels the entry.
Shifts the keyboard upwards, . Shifts the keyboard downwards.
allows to freely position the keyboard
let the keyboard disappear
12
4 Camera Start-Up (New Product)
4.1 Teach-In – Control
Type of control
Teach In Control
OCV Control
OCR Control
CODE Control
PIXEL Control
DATA MATRIX Control
PATTERN CHECK
Position reading window:
See also chapter:
"Instructions for setting
the control window"
Window with position
control
See chapter:
"Instructions for setting
the measuring lines" Setting grey threshold:
See also chapter:
“Instructions for setting the
grey threshold”
Product
administration
New
product
New
product name: ...
Live image
Live image with trigger
Window without
position control
13
4.2 OCR / OCV - Control
Type of control
Teach-In Control
OCV Control
OCR Control
CODE Control
PIXEL Control
DATA MATRIX Control
PATTERN CHECK
Position reading window:
See also chapter:
"Instructions for setting
the control window"
Window with position
control
See chapter:
"Instructions for setting
the measuring lines"
Window without
position control
Setting grey threshold:
See chapter:
“Instructions for setting the
grey threshold”
Product
administration
New
product New
product name: ...
Live image
Live image with trigger
Create new Font
See also chapter:
"Instructions for setting
the control window"
Use existing
font
Setting grey threshold:
See also chapter: "Instructions for setting the grey threshold"
Entry of characters:
12345HN00G
14
4.3 CODE - Control
Type of control
Teach-In Control
OCV Control
OCR Control
CODE Control
PIXEL Control
DATA MATRIX Control
PATTERN CHECK
Position reading window:
See chapter:
"Instructions for setting
control window”
Prior choice of code determination
Product
administration
New
product
New
product name: ...
Live image
Live image with trigger
trigger
All barcodes
automatic?
Barcode
Pharmacode
Code 39
Int 2/5
Code 128
Code 32
UPC_A Code 10 figures
UPC_A Code 12 figures
EAN 13
Codabar
2-Track Pharmacode
GS1 DataBar (RSS)
CC-A
EAN 8
Chosen code type
automatic?
Manual?
Set contrast:
See also chapter:
“Instructions to set the contrast”
Static
Omnidirectional
Pharmacode?
Omnidirectional?
Set the size of the
codes
Determine
information for
code search
15
4.4 Pixel - Control
Type of control
Teach-In Control
OCV Control
OCR Control
CODE Control
PIXEL Control
DATA MATRIX Control
PATTERN CHECK
Product
administration
New
product New
product name: ...
Live image
Live image with trigger
Positioning of pixel-window:
See also chapter:
"Instructions for setting
the control window"
Setting grey threshold:
See also chapter:
"Instructions for setting the
grey threshold"
Window with measuring arrows
See also chapter: "Instructions
for setting the measuring lines"
Window
without
measuring
arrows
Setting an additional
control function
Inspection color
bright or
dark?
See also chapter "Inspection
color of pixel windows"
Selection of print control
or presence control
See also chapter
"Control mode of the
pixel windows"
Entry of the
tolerances
See also chapter
"Tolerances of the
pixel windows"
16
4.5 Pattern Check
Type of control
Teach-In Control
OCV Control
OCR Control
CODE Control
PIXEL Control
DATA MATRIX Control
PATTERN CHECK
Product
administration
New
product
New
product name: ...
Live image
Live image with trigger
Teach-In reference pattern
Teach-In searching area
17
4.6 Position Control
18
4.7 Acquire Image
For adjustment of camera position, focus and aperture, it’s necessary to acquire an image. Image acquisition is
also required for teaching the control windows and learning patterns and characters.
Live image In live image mode the camera is grabbing pictures automatically till “NEXT” button is pressed.
Live image with trigger The camera needs to get a trigger signal (In0) for image acquisition.
Load image Flash memory stored image can be loaded and used for the parameter setup.
Note: “Save and Load images for Test-Evaluation” must be activated in Diagnosis menu. Faulty pictures
can be stored in “batch record -> show faulty pictures” menu.
4.8 Instructions for Setting the Control Window
The described procedure is valid for all types of windows (verification types) of the camera. The control window is
superimposed as a yellow frame. The position and size of the window can be changed. Detailed description of the
keys on the touch screen can be found in section 5.1 “Keys”.
The active mode is shown on the mode key between the arrow keys.
Shift window,
Enlarge window,
Reduce window.
Shifting the window or changing the size is carried out either via touch screen (follow cursor) or using the four
arrow keys which are also suitable for fine adjustment.
Change the mode using the key between the arrow keys.
Complete and save the procedure by pressing "ENTER"
Editing multiple windows
Existing windows can still be edited in position and size. The Editing Menu is accessible through the windows
parameter tables. If multiple windows of the same type are existing, this Editing Menu will provide a multi edit
mode.
The possible options in this mode are and . The active option is marked green.
Individual: The currently selected window is shown yellow. This window is the one which is currently editable.
Another window can be selected by pressing near its center.
All at once: The window selected last in the individual mode is displayed in red. All changes in position or size
which are done to this reference window will be applied simultaneously to the other (yellow) windows.
The reference window can be switched by selecting Individual mode, choosing your preferred window and
switching back to All-at-once mode.
Individual All at once
All at once Individual
19
4.9 Instructions for Setting the Grey value Threshold
Separating the object from background is done using the grey value threshold, which is set manually by the
operator:
After the control window has been set, the camera displays the binary image (black/white image).
Binary Image
The inkjet filter is also used for adjusting the threshold values of an optical character control window, thus making it
easy to check the effect
Slider Histogram
Accept settings
Canceling
input
The black and white part of the
binary image can be changed by
moving the slider up and down.
The image will be updated as soon
as the slider is no longer pressed.
The histogram on the right shows
the amount of grey values within
the window.
The threshold is set correctly if the
characters are displayed in strong
black. No black points should be
visible in the background.
20
4.10 OCV Window Color Normal and Inverted
If there is a combination of windows with dark font on light background and light font on dark background in the
document, this action can be performed separately for each window in the OCR parameter table ('Parameters of
OCV/TIN Windows').
If different settings in the OCR parameter table are used in a product, then for each new window the camera will ask
whether dark font on light background or light font on dark background should be used.
Optical character window parameters X
Control Window name: OCV0 Identifier GTIN Font: tz1
Search area Position: 165/205 Size: 57/46 >>Next>>
Search area Threshold: 120 Color: Black Direction: L->R
Lines Tilting: 0 Noise pixels 5 Distance: 0
In the production display a window with inverted font (light on dark background) is marked with a window name
with inverted font (see image OCV1 below).
If the reading direction is vice versa (from right to left / from bottom to top) the reference code will be displayed in
an inverted font (see image 0A186A12.2011 below).
21
4.11 Tracking Linkage
Some control windows can provide position information like a Data Matrix Code position or the edge position of a
label. With this information other windows can be repositioned in the camera image before they are being
processed. For repositioning one window by another, the two windows must be linked.
The following windows provide position information after they were processed and can shift other windows by the
position offset:
PC, DM, QR, POS
These windows can be shifted by one of the previously named window types:
PC (only by other PC windows), POS, CODE, TIN/OCR/OCV, PIX
The windows are executed depending on their type in the described order and in numerical order. (PC0, PC1, ... ,
DM0, DM1, … , etc.)
As a diagnosis option, the display of the brown connection lines can be switched on in the "Diagnosis" menu.
The arrow link displays the linking direction and points from the leading window to the one which will be shifted.
Example: The yellow windows POS0 and POS1 are searching for the location of the bottle. POS2 is shifted by POS0
and POS1 to the correct position and inspects the cap location on the bottle. POS3 is also shifted by POS0 and
POS1 and then checks the label position. Finally the PIX0 window is shifted by POS3 to the correct location on the
label and checks for the presence of the printing.
Example: The windows OCV0 - OCV3 are all shifted by the position offset of the DataMatrix code, found inside the
DM0 window.
For changing the processing order (for example to change the linking direction of two linked POS windows) please
refer to the Change control window sequence menu in “Edit product”.
Windows which would be shifted outside the camera-image, will be marked magenta on the affected window
sides.
22
4.12 Track OCV/TIN/PIX Windows with POS windows
In case the print position of the text characters differs between the printed labels, the window position should be
tracked using POS windows, Data Matrix-Code or a Pattern position.
If the Label has a code or a check pattern printed together with the text or pixel you have to control, try to use
tracking via Data Matrix or check pattern. On other cases the inquiry “Add POS window for tracking?” has to be
answered with “Yes”.
Adding POS windows for tracking
When you are setting a new OCV/OCR/TIN window and confirmed to add POS windows for tracking, the camera will
add two POS windows (one horizontal and one vertical) and adjust them automatically.
To keep operation expenditure small, the two POS windows should be set only for the first window. All further
windows are likewise corrected with these POS windows.
When you are setting a new PIX window and confirmed to add POS windows for tracking, you will be asked to set
the POS windows manually.
Manual setting of POS windows for tracking:
If you have set two POS windows for the tracking of one or multiple OCV/OCR/TIN windows you can use the option
to align the POS windows automatically.
This only works for POS windows which have a horizontal or a vertical search direction.
Also the pixel windows can be tracked with POS windows. In case e.g. the black printed area varies several
millimeters to the left, right or up and down. First of all the POS windows adjust the yellow control window to the
correct position. Afterwards the content of the window is evaluated. It always has to be set to at least two lines.
These can be active for only one window, several windows or for all windows. If necessary, individual POS
windows can be set for each window. That means each window can be adjusted individually with two lines.
Regarding the OCV, OCR and Teach-In control the tracking POS windows can be aligned automatically. Please see
also Section “Set measuring lines automatic”.
One measuring line is necessary horizontally or vertically respectively.
Inside the capture ranges a changeover from bright / dark is searched across the scanning width. The line indicates
the search direction here.
23
Setting the POS window for the horizontal guiding position
First, the tracking POS window is set to the horizontal guiding position. By operating the arrow keys you can
choose the direction in which the edge should be searched. This is to be set as shown in the example:
Correct:
For greater clarity in the example, only one window is set around the first line. The line scans the second line from
the right and guides the window back into position accordingly.
The line is correctly positioned as no other additional print is found in the scanning area of the POS window.
Setting the POS window for the vertical guiding position
The line for the vertical guidance can scan downwards or upwards. In the example, the line is shown scanning
upwards.
Correct:
The line is positioned correctly because no other additional print can be found in the scanning area of the POS
window.
Alternative: Setting one POS window for both directions
If the area around the corner of the printing is free, you can work with one single POS window, which is scanning in
horizontal and vertical direction.
Correct:
The line is correctly positioned, as no other additional print is found in the scanning area of the POS window
A grey value threshold is also defined for each POS window. The threshold is optimally set when the background is
an even grey and the print is shown in black with sharp outlines.
After setting the POS window for tracking you can still edit parameters for those windows in the Parameter Table for
POS windows.
24
4.13 Track all windows with PATTERN CHECK Window
Instead of measurement lines it is also possible to use a PATTERN CHECK for positioning other control windows.
This tool is more flexible, because there are fewer restrictions.
To use this feature, measurement lines have to be denied during setting up OCV/TIN/PIX windows.
At the end of PATTERN CHECK adjustment, the question arises weather all other active controls ((Data Matrix
windows expected) should be tracked using this tool. If “Yes” is selected, all windows will be moved depending on
reference pattern position.
4.14 Color Inspection of the Pixel Window
While teaching in a Pixel window, the message is displayed that asks: “Which pixels are to be counted?”. There are
two answering possibilities, “dark pixels” or “bright pixels”. The answer that is suitable for the object has to be
chosen. For example “dark pixels” have to be chosen, if a dark print on a white background shall be inspected.
“Bright pixels” have to be taken, if a white label on a brown bottle shall be inspected.
4.15 Control Mode of the Pixel Window
After choosing the pixel color the message “Reference value for the tolerances” is displayed with the choice of
“Presence control” or “Print control”.
“Presence control” (absolute measurement)
For the “absolute measurement”, the black area e.g. is displayed as a measured pixel number. When the black
area increases, the measured number of pixels increases, and vice versa. The plus tolerances and the minus
tolerances are entered as a pixel number. Finally, in the production mode, the measuring value is similarly
displayed as a pixel number.
“Print control” (relative measurement)
In the relative setting, the size of an area (reference area) is taught in and accepted as 100%. The following
measurements can be smaller than 100% if, e.g. the printed area is missing, or greater than 100% if, e.g. there is
too much print. The input of the plus and minus tolerance and the display of the measuring values is given as a
percentage value.
„Exp“ = reference pattern;
„PC0“ = Pattern Check window;
“OCV0” = window, which will be moved;
25
4.16 Tolerances of the Pixel Window
After selecting and acknowledging with “Enter” the present measuring value is displayed in pixels or as 100%. The
camera waits for the entry of the minimum tolerance. Following this, the maximum tolerance is entered.
For the presence control: the minimum tolerance value should be less than the actual pixel value and the
maximum tolerance value should be greater than the actual pixel value.
For the print control: the minimum tolerance value should be entered less than 100% and the maximum tolerance
value greater than 100%.
4.17 New Reference Code
The entering of new reference codes depends on the control windows which have been set before.
Control window New Reference Code
Teach-In Reference character will be taught-in by the means of a GOOD-print
OCV Reference character will be entered via the keyboard
OCR Reference character will be entered via the keyboard
Code Depends on the “Teach-in” parameter, see the “Parameters for the Barcode Window”.
- Reference character will be entered via the keyboard
- Index a./o. Parameter of the code will be taught-in by means of a GOOD code
Pixel In case of control type "Print Control" the print reference will be taught-in by the
means of a GOOD-object.
Data matrix Depending on the parameter “Teach-in Code”, see “Parameter Data matrix window”.
- Reference character will be entered via the keyboard
- Index a./o. Parameter of the code will be taught-in by means of a GOOD code
Pattern Check No action
Note: If the camera is operated with PLM 4 or higher, reference codes will be transferred from the pilot to
the camera at start of production. The input reference codes are of secondary importance in this
operating mode, nevertheless this function is useful because the CODE and data matrix windows
detect important settings during reference check.
4.18 Production Mode
After entering the reference code it is possible to change over to the production mode, and the camera is ready for
operation.
If only PIXEL or PATTERN CHECK windows are used for inspection, it is possible to change directly to the production
mode after creating a new product.
The camera is now ready for operation.
Note: For safety reasons it is not possible to switch to production mode with the “Default Product” since
there are no control windows set. The warning message “No windows set” appears on the screen.
26
4.19 Menu Overview
Production
New reference code
Change product
Edit product
Product management
Font
Batch record
Service
Change Password
Zoom On
Main menu
Start batch record
Show batch record
Stop batch record
Show faulty pictures
Reset counters
Batch record
New product
Show product
Rename product
Copy product
Delete product
Product Management
Acquire image
Add control window
Delete control window
Change control window sequence
Set DM windows automatically
Track windows
Parameter OCV/TIN window
Parameter CODE window
Parameter PIXEL window
Parameter DATA MATRIX window
Parameter PATTERN CHECK window
Parameter QR-Code window
Parameter POS window
Switch camera ON/OFF
Test-Evaluation
Edit product
Acquire image
Optical Settings
Configuration illumination
Image configuration
Camera configuration
Diagnosis
System parameter
User Management
Service
Change matching tolerance
Change searching tolerance
Change size tolerance
Change threshold 1
Change threshold 2
Tolerances
Learn character group
Train characters
Show font
Copy font
Rename font
Delete font
Correct font size
Temporary teaching character
Font
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Pattern Check: Current values
OCR/OCV Window: Binary Picture
OCR/OCV Window: Blank-out
OCR/OCV Window: Current Character
OCR/OCV Window: Matching Accuracy
PIX/POS Window: Binary Picture
Data Matrix: Display Edge and Grid
Data Matrix: Display Binary Picture
PIX Window: Current values
Debug Data Matrix searching (exp. mode)
Debug character searching (exp. mode)
Debug code reading (exp. mode)
XML Data on Port 23 (exp. mode)
GUI Data on Port 23 (exp. mode)
Data Matrix: Display Quality Parameter
XML ACK on Port 23
GUI ACK on Port 23
BarCode: Display Quality Parameter
Save and Load images for Test-Evaluation
Display Tracking Linkage
POS: texts on top left
Display duration Ref. Data -> Trigger
digital testbench mode
Diagnose Level
Acquire Image
Optical settings
Configuration illumination
Image Configuration
Camera Configuration
Diagnosis
System parameters
User Management
Service
Time Out
Clock overflow
Reference Data receive check
On/Off measurement line automatic
Save counters
Image Shading
Language
Default text colour
System parameters
Image transfer configuration
Image geometry
Image Resolution
Image configuration
I/O configuration
Master - Slave Statistic Mode
Eject Station Control Mode
Image Server
Reader Mode
Camera configuration
28
5 Product Management Menu
New product
To create a new product, please follow the instructions of section “Camera start-up (new product)”. The teach-in
procedure is basically identical for all the camera inspection types (Teach-In, OCV, OCR, code, pixel and Data
matrix): image-acquiring, naming the product, and selecting the inspection type, setting windows and different
parameters. This procedure is repeated for each control window required.
Naming, copying and deleting the product
Before a product is renamed, copied or deleted, the required product is selected from the product list. Then the
product can be changed or deleted accordingly.
Show product
The entire data specific to the product are displayed here. To print out the data, drag the slider on the right of the
window down until the text line "Print data" at the end of the list appears. Use the touchscreen to select it.
By default the question arises weather the data shall be saved (as a PDF-file) or sent directly to a connected printer
(via the PCs standard printing menu). The file will be saved by default to the PLM (resp. MscClient) installation
folder on the PC. Printing and saving works only for PLM versions above 4.1.
Change product
After choosing this option, all products created until now are displayed. The required product can be selected. In
this way, all the settings stored under this product are called up and activated.
6 Edit Product
Use the “Menu” button to navigate to the “Main Menu” and then activate the “Edit product” submenu therein. This
submenu contains the various options for changing an existing product. You will need to do this if the window
position, window size, reference positions for tracking, etc., are no longer correct. You can make the changes under
the corresponding menu items. The description of the parameters for each type of control or inspection you will find
in a separate chapter in this manual.
Change control window sequence
In this menu the index number of the control windows can be changed. This way also the processing order of those
windows is affected.
When changing the order of two windows of the same type (e.g. PC0 -> PC1 and PC1 -> PC0), which are linked
for tracking, the following window will become the leading window and vice versa.
It is not possible to change the processing order for windows of different types.
Set DM windows automatically
This function will let you set a window for one DM code in the camera image. When the camera has read the code
it will search for a number of other resembling DM codes and set the control windows for them automatically.
Track windows
See chapter “Tracking linkage”
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Switching off the camera
In the menu “Change product” the camera can be switched off. During production run, the message “Camera is
switched off” is displayed. The following signal conditions are possible for adaptation to the machine control:
Camera ON System Ready = High Good signal(s) as per the setting in the service
Camera OFF System Ready = Low Good signal(s) always = High
Camera OFF System Ready = High Good signal(s) always = High
Note: When the camera is switched off, it always sends a “GOOD signal” to the machine. Because no
check is performed, the light will not flash.
Test-Evaluation
This option is only available if you activated the corresponding Diagnosis function.
With this option you can test your current inspection setup, without entering production mode. You can decide to
take a (triggered) Live image or to load a previously save camera image. The inspection will then be applied to this
image and you will see the results as they would be displayed in production mode.
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7 Font Menu
In this menu characters can be taught in. There is the choice between teaching several characters at once or
multiple char sets. Up to 70 different characters can be applied per character set.
Please note!
A new character set (font) must be created, when size of characters, font type or character
orientation (horizontal, vertical, upside down) was changed!
7.1 Learn Character Group
After selecting the menu item “Learn character group” in the sub-menu Character set, an image of a sample object
has to be taken. “Live-image” or “Live-image with trigger” can be chosen.
Afterwards the character set belonging to the characters that shall be taught in can be selected.
A teach-in window is inserted in the image acquired. The position and size of the window can now be changed.
The active mode is displayed in the lower status line. Depending on the mode, the window can be shifted, enlarged
or reduced using the touch screen or the four arrow keys, as mentioned in chapter 5.1.
Changing the mode using key “Mode”;
Acknowledge and terminate the procedure using the “ENTER” key.
With a teach-in window, a complete line can be taught in. The character(s) must lie completely inside this window.
For character strings without a gap or for poor printing quality, the teach-in procedure should be carried out for
each character separately. In this case, make sure that only this one character and no additional print is inside the
teach-in window.
After setting the window enter the character (or characters) using the keyboard. For entering letters, press the Alpha
key and for capital letters, additionally press the shift key.
If the same characters are already available in the character set, a message is displayed asking whether the
characters are to be additionally taught in, or whether they should be overwritten.
After all the characters have been taught in please change to the mode, "Train characters".
7.2 Train Characters
In this special mode a re-correction of the taught-in characters is carried out inside the reading window. For this
reason the references for all the windows are scanned. A trigger signal is required for starting. Using the training
function, additional character samples are created. The training is used to reduce the “Pseudo rejection” in the
production mode.
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7.3 Show Font
In this sub menu all the characters of one character set is displayed. For inspecting the “Teach-in and training
results”, the samples of a character shown as a group of 8 can be viewed.
Characters that cannot be read properly can be deleted.
The quality of the samples is decisive for the system's readability exactness.
Make sure that the character samples are easily readable and can be distinguished well from the samples of other
characters.
The black character contour should be shown without any discontinuation.
The green zone describes the pixels that may be black or white during evaluation. In other words, this is
the tolerance zone.
For checking how good the separation of characters works, please see “ConfusionList”.
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7.4 Confusion List
The Confusion List shows for each character the most similar character. Since there exists up to 8 different patterns
for each character, the number of the most fitting pattern will also be displayed.
The values in the last row show the amount of different modules and the matching tolerance (here for example
“6”). In this confusion list, separation of all characters is guaranteed, because for all characters the amount of
different modules is greater than matching tolerance. If this is not fulfilled, the matching tolerance for the regarding
character can be decreased or the regarding pattern can be deleted.
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7.5 Tolerances
Character set tolerances X
Change matching tolerance
Change searching tolerance
Change size tolerance
Change threshold 1
Change threshold 2
Change matching tolerance and searching tolerance
The matching tolerance specifies the maximum permissible deviation between the actual character and the
reference character. If the deviation is less than the matching tolerance, the character is recognized as “good”. -->
Character marked green. The current character will be searched as long as the deviation is smaller than the
searching tolerance and larger than the matching tolerance. When the max. search time is exceeded (“! TO !”
marking) or when the end of the window is reached, the search will be terminated and the control window is
marked red.
A character recognized as “Good” will be marked green. An incorrect character will be marked red.
Matching tolerance is adjustable for each single character!
Change size tolerance
This factor determines how much the size of a taught-in sample may vary from the read character and still be
recognized. The default value is 30%, which means that a taught-in sample and a read character may vary by as
much as 30% and still be recognized as “Good”. This setting can be reduced to less than 10% in order to
distinguish between characters that are only different in terms of size, e.g. zero = “0” and “O” or eight = “8” or “B”.
For such character sets it is also recommended using OCR, because characters are no longer recognized with
certainty if the size tolerance is less than 5%.
Search tolerance Pass tolerance Deviation
Green Only window frame red.
Value small Value large
Char. and window red.
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7.6 Change threshold 1 and threshold 2
Threshold 1 and threshold 2 define the black and white proportions of a character. Threshold 1 specifies a mean
value and threshold 2 a deviation from this mean value. The graphic illustration of the values can be seen in
“Display character set”. The gray background is above threshold 1+(1/2*threshold 2). In “Display character set “, the characters are displayed as follows: The green area lies within the tolerance specified by threshold 2. And the
black area is below threshold 1-(1/2*threshold 2).
7.7 Delete pattern
By selecting the character and the respective sample number a sample can be deleted.
7.8 Delete character
By selecting the character and selecting the "Delete character" menu item, it is possible to delete an entire character
with all samples.
Threshold 1
Threshold 2
black green grey
black = core area of the character, green = black or white area,
grey = background (white)
dark bright
35
7.9 Copying, Renaming, Deleting Font
The simple character set administration allows copying, renaming and deleting a character set. Caution! A complete
character set can be deleted here. In the menu item “Display character set” individual characters can also be
deleted.
7.10 Correct Font Size
For each character taught-in the width and height is saved. If now, e.g. the reading distance is considerably
changed, or the same character set shall be created in another size, it is possible to correct the character size
(height and width) in the menu “character set”. To change the character size, please proceed as follows:
1. Call menu “Correct character set/character size”;
2. Acquire image using “Live-image” or “Live-image with trigger”;
3. Select character set required;
4. Use window to completely frame a line with several characters;
5. Set grey value threshold;
6. Enter character sequence of the window;
Then the size for all the characters of the selected character set is corrected.
7.11 Temporary Teaching Character
The procedure of “Temporary teaching character” is the same as “Learn character group”. But in this menu the
taught in character will be saved only until the format is changed.
After teaching character go to “show font” to check results.
Pattern 1 is marked “brown”, because this pattern was taught-in temporarily.
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8 Statistics Menu
Starting, viewing and ending batch
Within the statistics menu, a batch protocol can be started. A batch protocol is intended for documenting the
production. All the relevant data, such as the order number, quantity, remarks etc., can be entered in the batch
protocol at the start of a batch. The first three lines marked with "<Fix>" have to be entered once and will then
appear on every protocol start.
The information in the first "<Fix>" line (max. 45 characters in length) will also be displayed in the production run
and in the main menu at the top margin of the screen. Hence for example different batches can be distinguished
faster.
To print out the data, drag the slider on the right of the window down until the text line "Print data" at the end of the
list appears, and then use the touchscreen to select it.
By default the question whether you want to save (as a PDF-file) or send the data directly to a connected printer
(via the PCs standard printing menu) appears. The file will be saved by default to the PLM (resp. MscClient)
installation folder on the PC. Printing and saving works only for PLM versions above 4.1.
Note: To display the menu screen after changes are made a restart of the system is required.
Display error images
Depending on the configuration, up to four error images, generated during the last production run, can be
displayed.
Options Buttons:
[Continue] Displays the next error image
[Cancel] Ends the display
[Accept] Accepts the error image as current sample, so it is available for teaching in characters and other
improvements.
Note: The error images are lost once the system is switched off. In the Service menu can be selected,
whether no, one or four error images shall be displayed.
Delete counter
The counters for good and bad readability are set to zero. The deletion of the counters is only active if no batch
protocol has been started.
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9 Service Menu
When calling up the menu item “Service” the password for access to the service settings is required. The password
after delivery of the device is "000".
To make any specific settings on the system select the menu item “Service” in the main menu.
Note:
If changes to the service settings shall be made, a documentation is available in the chapter "Form
Settings ".
9.1 Optical Settings
Shutter
The shutter value states the exposure duration of an image in µs. The image will get brighter using high values and
darker using low values. The exposure duration is also related to the flash duration of the internal or external LEDs
and the exposure duration of the image acquired by the camera.
High shutter times and fast moving products may cause a motion blur in the images acquired.
The shutter can be adjusted via a slider that switches between high and low values if needed.
Shutter 30-1200
+ X
300
- OK
Shutter 800-10000
+ X
2100
- OK
The cameras will be delivered with the following values:
Type Resolution [Pixel] Description Shutter [µs]
320 1600 x 1280 Standard 150
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Note: If the camera is equipped with a dimmable internal illumination always set dimmer values to
maximum before adjusting the shutter values.
For data matrix quality analysis, it is recommended that these values are not changed. The values may be different
for cameras with external illumination, UV illumination, or for special requirements.
Dimmer
Some cameras might be equipped with a dimmer for the internal illumination. The shutter can only be adjusted in
steps of 40 – 80 µs dependent on the camera model used. Dimming the illumination allows a precise adjustment
of image brightness for Print Quality inspection.
If the camera does not support brightness adjustment via illumination, the iris has to be changed instead of the
illumination.
Focus & Autofocus
Some cameras are equipped with a variable lens, so adjusting the focus can be done manually via a slider after
pressing the Focus button or automatically by using Autofocus.
9.2 Configuration Illumination
It is possible to switch between internal, external and internal, and external lighting here. The setting is stored under
the current format name.
This function is only available for certain types of cameras!
9.3 Image Configuration
All settings regarding the image can be set using this menu
9.3.1 Image transfer Configuration
Here the quality of the transferred images can be modified or turned off. Depending on the value used for image
quality, the transfer is activated or deactivated; the screen will be updated accordingly in the production mode.
Image transfer is turned on (activated) and set to a quality of '2' by default, which means that with a resolution of
640 x 480, only every second pixel in X and only every second pixel in Y will be transferred. The evaluation time
could increase to 30 ms if every pixel were transferred.
Caution:
If image transfer is deactivated, in the production mode the screen will not be updated, including
counters. Internally, however, the recorded image will be analyzed and all signals will be emitted as
usual. It is possible to call up the main menu at any time with “MENU”. In this case image transfer is
always activated!
9.3.2 Image geometry
The geometry of the recorded image can be adjusted for presentation and processing. A typical application is the
correction of an upside-down image. Possible options are: ‚turn image by 180 degree’, ‚mirror image horizontally’,
’rotate image by 90 degree to the right’, ‘rotate image by 90 degree to the left’, ‚mirror image vertically’, and
‚normal image’.
39
9.3.3 Image resolution
If only a part of the field of view is needed it can be reduced by changing the resolution.
The resolution can be changed to ‘640x480’ pixel, ‘1024x768’ pixel, ‘1280x1024’ or full resolution. The sector
that shall be inspected can be selected by shifting the image.
Note:
If the image resolution shall be changed while inspection windows already set the resolution and the possible
image position is limited to the windows set. For example, if the total Field of view of all windows set is larger than
640 pixel, this resolution value cannot be chosen. Also the position of the image is limited so all inspection
windows are still within the field of view.
9.4 Camera Configuration
Settings regarding the camera can be adjusted using this menu.
9.4.1 I/O configuration
Good outputs and results-linking for window groups
Control windows can be organized into groups. Each control window must be in exactly one group.
The first group is G0 in the basic setting for each window.
The good output of a group defines on which camera output the result of all control window of this group is
displayed.
The good/bad results of the control window or window groups is given in the basic settings on the “good output”
(OUT0) of the camera. There is a further output (OUT2) of the camera available which can be used as a second
good output.
Within a group, the results of window control are linked to one another, and return a group result. The results are
linked with AND using the basic settings.
If the results of several groups go through the same output, the group results are always connected together using
the logic AND.
Linking logic:
AND - already bad reading from only one control window leads to a total 'bad' result.
(“Bad wins”)
OR - already a good reading from only one control window leads to a total 'good' result.
(“Good wins”)
40
Group G0 Group G1
CODE0 (Good)
CODE1 (Bad)
PIX0 (Good)
PIX1 (Bad)
OR AND
Bad Good
Output OUT0
Bad
41
The camera offers a “good signal”; it is high during a good reading (+24V) and low during a poor reading (0V).
There are four variations of good signal behavior to choose from.
Mode 0: For the setting “Good pulse after evaluation up until the next trigger” the good signal is high or
low, depending on each evaluation after a trigger pulse. During the evaluation time, the good signal is
low.
Mode1: For the setting “Latch mode” the good signal remains low after a poor evaluation, even if other
trigger pulses and possible good readings follow. For resetting a poor reading, the quit key therefore has
to be pressed. The quit key is located on the terminal, or separately on the machine. During the evaluation
time the good output remains high.
Mode 2: For the setting “Good pulse after evaluation up until expiry of the defined time” the output is set
after the evaluation time up until the expiry of a settable time. In the case of a negative reading result the
output remains at low. The GOOD pulse length can be set between 5 and 100 ms.
Mode 3: not supported at the present time.
Caution: In order for the camera to be able to recognize the negative trigger edge, the white quit lead has to be
connected to the brown trigger lead.
Mode 4: not supported at the present time.
Mode 5: not supported at the present time.
Mode 6: For the setting “like configuration ' 2 ', only with additional RESULT-READY signal on exit ' OUT3” the output is set after the evaluation time up until the expiry of a settable time. In the case of a negative
reading result the output remains at low. The GOOD pulse length can be set between 5 and 100 ms. In
addition, the output ' OUT3 ' is set on High. This means that starting from this time a good signal can be
measured. Thus 2 identical signals come at the same time during a positive reading.
Mode 7: For the setting “like configuration ’6’, but good signal and the next trigger can be overlapping” if the output is set after the evaluation time up until the expiry of a settable time. In the case of a negative
reading result the output remains at low. The GOOD pulse length can be set between 5 and 100 ms. In
addition, the output ' OUT3 ' is set on High. This means that starting from this time a good signal can be
measured. Thus 2 identical signals come at the same time during a positive reading. In addition, it is
possible that the good signal and the next trigger are overlapping, without any problems.
Mode 8: In this mode there will be a delayed emission of a GOOD impulse at a precisely defined time after
the trigger. The mode has been programmed for applications in which a good signal confirms the position
and content of a code at a precise time. The delay interval and the pulse length are adjustable. A second
trigger before the possible output will be ignored.
42
The following diagram clearly shows the different signal samples.
Signal overview of the trigger and good signal.
Trigger signal from the machine:
Result (Mode 0):
Result (Mode 1):
ö
Result (Mode 2):
24V
0V
24V
0V
Evaluation
time
Good reading Error
Evaluation
time Evaluation
time
Good reading
"Good pulse after
evaluation“
24V
0V
Good reading Error Good reading
Evaluation time
Quit
"Latch-mode"
24V
0V
Evaluation
time
Good reading
Evaluation
time
Evaluation
time
Good reading
"Good pulse with
def. length after
evaluation.“
Length can be
set between 5-
100ms
Error
43
Trigger signal from the machine:
Result (Mode 3):
Result (Mode 4):
24V
0V
24V
0V
Evaluation
time
Good reading Error
Evaluation
time
Good reading
"Good pulse with def.
length after neg.
edge, one cycle
later.“
Length can be
set between 5-
100ms
Evaluation
time
Good reading
24V
0V
Evaluation
time
Good reading Error
Evaluation
time
Good reading
“Good pulse one
cycle later with pos.
trigger edge up until
the next pos. edge”
Evaluation
time
Good reading
44
Trigger signal from the machine:
Result (Modes 6&7):
OUT0 – Good Signal
OUT3 – Data Valid
Result: (Mode 8)
OUT0 – Good Signal
24V
0V
24V
0V
Error
24V
0V
Length can be set
between 5-100ms
Evaluation
time Evaluation
time
"Good pulse with def.
length and DataValid
on OUT3."
24V
0V
Error
Delay time
20-2000ms Delay time
Good Reading
Good
Reading
45
False code
The universal camera output OUT2 can, as an option, also be used for displaying a false code. This additional
signal is High (24V) if the code agrees with the reference. If the code is not legible or has false contents, the signal
is Low (0V).
In this mode OUT2 can be used together with OUT0 in order to discover sub-mixes.
When using this function, all DataMatrix, Barcodes and OCR controls are checked. Furthermore, OUT2 can no
longer be used as a good output.
A “false code” error (OUT2->Low) occurs in the following cases:
DM
OR
Code
OR
OCR
If at least one DM code
has a legible contents
which deviates from the
reference code.
If at least one barcode
code has a legible
contents which deviates
from the reference code.
If at least one OCR window reads a string in
which at least one character does not match the
reference character, but a different character
from the character set or if the character set
does not match.
DataValid- / “Data ready” signal
See good output configuration, modes 6 & 7.
Control output OUT3
Using the option “Control output OUT3,” one can choose depending upon format whether the output OUT3 is
switched with 0V or 24V. At this output, for example, an additional illumination can be switched on. So that the
choice of a specific format in which this output is set to 24V, the external illumination is switched on.
9.4.2 Master – Slave Statistic mode
This option is only available if the needed extension program OCRMSS is installed on the camera and only work
with a compatible PLM version.
This parameter controls a Master-Slave Statistic messaging system. In this mode multiple cameras, acting as Slave
Cameras, send their statistic data to one Master Camera. This Master Camera bundles all statistic data into on
statistic message for transmission via the VDMAXML communication interface e.g. to the Pilot Line Manager (PLM).
Master Mode:
The Master Camera is ready to accept a connection from a Slave Camera when it is in Production state.
All messages the Master Camera receives from the Slave Cameras are put into a queue.
After a trigger was received the Master Camera processes its own inspection. After that it generates a Statistic
Message, which contains the Masters Statistic Data from the current cycle and the oldest Statistic Data from the
queue for each Slave Camera and sends it to the PLM. If the queue is empty for any of the Slave Cameras, the
Master Camera will wait for this data before it sends the Statistic Message to the PLM.
One Master Camera can handle 4 Slave Cameras at maximum.
Slave Mode:
The Slave Camera connects to the Master Camera as soon as it enters Production state.
In Production state after a trigger was received, it processes its inspection function and afterwards sends the
resulting statistic data to the Master Camera.
46
Master-IP:
The Master IP is the IP address of the Master Camera. It has to be entered once, so that the Slave Camera can
connect to the right camera when entering Production Mode.
On the production screen of the Master Camera the IP addresses of all connected Slave Cameras are displayed. If
there are currently messages in the queue, the number of messages will be displayed behind the corresponding
Slave Camera IP.
On the production screen of a Slave Camera, the IP address of the connected Master Camera is displayed.
9.4.3 Eject Station Control
In this mode the camera can track a product and control an eject station without a PLC.
The camera must be mounted directly next to the eject station. There must be no other products in between the
camera and the eject station, until the last evaluated product has passed the station.
The camera uses three 24V inputs for handling the tracking. Furthermore one 24V output is used for controlling the
eject station and one 24V output (System Ready) for stopping the machine, if an error occurs.
Sensor1/Trigger
The product is at the camera position and should be inspected.
Sensor2/Eject Station
The product has arrived at the eject station.
Sensor3/Counter Check
Product has passed the eject station.
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Eject Station Control Settings
Sensor Signals - Sensor2 / Sensor3:
If set to “Rising Edge”, the camera will detect a product with the rising edge of the sensor signal. If set to “Falling
Edge”, the camera will detect the product with the falling edge of the sensor signal.
Eject Signal - Logic
If set to 24V the camera will set the ejection output to 24V to activate the ejector. If set to 0V instead, the camera
ejection output will be 24V by default and will be set to 0V to activate the ejector.
Eject Signal - Delay
Specifies the time until the eject signal will be set after the product has been detected at Sensor 2.
Eject Signal - Duration
The time frame for how long the ejection signal should persist.
Counter Check - Timeout
From the moment when the product has been detected by Sensor 1, this defines the timeframe in which a good
product must have passed the eject station and been detected by counter check Sensor 3.
If a bad product which has not been ejected is detected by Sensor 3 or if a good product was not detected by
Sensor 3 within the timeframe, the system will be stopped.
Notes:
The following product must not pass Sensor1 before the current timeframe is closed.
For Error recovery, please refer to Appendix 23.1Error Messages and Error Recovery.
9.4.4 Image server
This option is only available if the needed extension program OCRIMG is installed on the camera. With this option
there is the possibility to transfer all faulty pictures to an external storage space. The images will be stored in a
reduced resolution with integrated overlay graphics in a special format. For this feature a FTP client is running in
program OCRIMG. On server or PC side a standard FTP server e.g. “IIS FTP”, “FileZillaServer”, “WingFTPServer”,
“Quick&EasyFTP”, or other is needed. Please use ”mtpceftp” as user name and password on FTP server side. The
camera will generate a sub directory “100.xxx”. “xxx” is depending on IP address of camera. The Filename will
have the following syntax:
<format name><error counter>.999
While ftp server is running, press on text “Image server off”.
Image Server Settings X
FTP Connection Image server off
IP address server ---.---.---.---
FTP user mtpceftp
FTP password mtpceftp
FTP Subdirectory 100.216
Camera will try to connect with server. When successful, the IP address of the server will appear in the table
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Image Server Settings X
FTP Connection Connected
IP address server 192.168.100.010
FTP user mtpceftp
FTP password mtpceftp
FTP Subdirectory 100.216
The faulty images can’t be displayed with a standard image viewer. For displaying images, please see Inspection
Manager (IM) or PCE-Line-Manager (PLM) user manual.
9.4.5 Reader Mode
Standard:
Camera is waiting for the trigger signal on input 0. With rising or falling edge (adjustable) a picture will be taken.
After that the camera starts with evaluating the image. When finished, the good signal will be set.
Auto-Read:
When gate signal on input 1 is high, camera grabs a picture and evaluate the image. This will be repeated till end
of gate signal or positive reading result.
Aggregation:
Please see Chapter “Code Aggregation”.
Aggregation (partial rejection):
Please see Chapter “Code Aggregation”.
Peel-Off Check:
This mode is dedicated for when the Smart Camera is doing a regular product/label inspection but is also used as
a counter check for rejections.
While the signal on input 1 (IN1) is high the Smart Camera:
- will not increase the good or bad counters
- will not send any results via the VDMAXML interface (to the PLM for example)
- will invert the result signal logic (high signal on bad and low signal on good evaluation)
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9.5 Diagnosis
In order to switch the different display functions of the system on and off, the diagnosis value is changed. The
diagnosis value is also a helpful instrument for seeking errors. Currently the following functions can be called up for
diagnosis:
Diagnose Level X
Pattern Check: Current values
OCR/OCV Window: Binary Picture
OCR/OCV Window: Blank-out
OCR/OCV Window: Current Character
OCR/OCV Window: Matching Accuracy
PIX/POS Window: Binary Picture
Data Matrix: Display Edge and Grid
Data Matrix: Display Binary Picture
PIX Window: Current values
Debug Data Matrix searching (exp.
mode)
Debug character searching (exp. mode)
Debug code reading (exp. mode)
XML Data on Port 23 (exp. mode)
GUI Data on Port 23 (exp. mode)
Data Matrix: Display Quality Parameter
XML ACK on Port 23
GUI ACK on Port 23
BarCode: Display Quality Parameter
Save and Load images for Test-
Evaluation
Display Tracking Linkage
POS: texts on top left
Display duration Ref. Data -> Trigger
digital testbench mode
Note: Please observe that changes in the diagnosis level can increase the evaluation time of the camera.
The “debugging” display functions cannot be used during machine run.
Data that sent via the serial interface to Port 23 (Ethernet, TCP/IP, Telnet-Port) can be received by a PC, e.g. with
the PCE service program “JDATATRANS”, or can be visualized via a laptop and a suitable terminal program.
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9.6 System Parameters
Specific camera parameters that as a general rule only have to be changed when mounting the camera are set in
the “System Parameters” submenu.
9.6.1 Time Out
Using this value, the maximum evaluation time of the camera can be changed. The value is given in milliseconds
[ms]. A typical product with a data matrix window and three OCV windows requires less than 100 ms on a
standard camera. These times could vary through bad print quality, grading, switched on diagnosis functions, or
high image quality image transfer setting.
9.6.2 Clock overflow
The camera offers a function for detecting when the machine is running too fast. If the camera is triggered within the
evaluation time, then the error message “Machine over clocked” is shown on the display. This can be deleted by
pressing any key. The speed of the machine must be reduced if this message appears.
The function can be switched on and off.
Caution: If for example the trigger signal bounces it is recommended switching off the over clocking protection.
9.6.3 Reference Data receive check
With each trigger, the camera will check if it has received new reference data for all applicable Control Windows via
the VDMAXML_P interface (e.g. the PLM). If one or more windows have not received any new data, the camera will
stop the machine by switching off the System Ready signal.
9.6.4 On/Off measurement line automatic
When this menu item is active, the measuring lines for position guiding are automatically set during setting up a
new product and activating measurement arrows.
After selecting “automatic” a grey offset (basic setting 15%) can be set for the measuring lines. Finally the
maximum permissible position tolerance in the reading direction (basic setting 50) has to be entered.
9.6.5 Trigger edge
With this option can be adjusted whether the camera takes an image after the rising trigger edge from 0V to 24V, or
after the falling edge from 24V on 0V. The rising edge is set by default.
9.6.6 Save counters
If this option is active and a High signal is applying at input IN3, the counters (ALL and GOOD) are stored in the file
“_counter.110 “in the Flash. This option prevents that the counters of the camera are lost during power loss. The
supply voltage of the camera has to be buffered longer than 100 ms. In the frame buffer the message appears
“!Power fail! Counters are saved!”.
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9.6.7 Image Shading
If the camera image has an unevenly or inhomogeneous brightness distribution, we talk about image shading. This
shading can for example be caused by the illumination or the camera optics.
For these cases the camera has a correction function to compensate the shading.
For using this shading correction the camera has to be calibrated once.
Calibration
The camera switches to the Live Image view. You need to place a plane, white surface into the cameras field of
view in the same distance as the product, which the camera will inspect. It will be used as a reference for defining
the appearance of the shading.
Before calibration: Calibrating (full correction range):
The range of the correction is adjustable while calibrating. For a low range value, only pixels with a strong
deviation will be corrected, for a high value, also pixels with a small deviation will be corrected.
A higher range value will cause a more homogenous image but also increases the calculation time.
Correction On/Off
The correction data is global but the correction can be activated or deactivated for each product. In this menu the
shading correction can be turned on or off for the current product.
This menu will show a live image preview, to see the effect of the correction and also the time consumption of the
processing.
View Shading Template
This menu displays the correction template/image for diagnosis purposes.
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9.6.8 Language
The language of the user interface can be changed here. The corresponding language files must be installed on the
camera. In some cases the currently existing language files are only available upon request.
German =ocr_de.222, English = ocr_en.222, French = ocr_fr.222,
Italian = ocr_it.222, Spanish = ocr_es.222, Danish = ocr_da.222,
Hungarian = ocr_hu.222, Dutch = ocr_nl.222, Norwegian = ocr_no.222
Polish = ocr_pl.222 Portuguese = ocr_pt.222, Slovenian = ocr_sl.222,
English = ocr_en.222, Swedish = ocr_sv.222, Turkish = ocr_tr.222,
9.6.9 Preferred font color
Here the pre-selection of the preferred font color for OCR, OCV or Teach-In windows can be selected. This color is
also valid for teaching in fonts.
Depending on the setting, “dark print on light background” or “light print on dark background” will be the default for
creating a window or teaching in a character set.
The camera analyzes the set reading fields and queries again if there is an obvious deviation from the preset text
color. If “both” is specified as the preferred font color, the camera will then query the desired font color for each new
font window.
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9.7 User and Password Management
The default password for all the menu levels is “000”. This can be freely configured in the “User management” or
under “Changing the password”. The password “000” allows “Administrator rights”. By default, the password is
requested on the menu levels:
“Change product”,
“Product Management”,
"Character set"
“Service”,
“Change password” requested.
Note: The pilot software will handle user management if the camera is used with Version 4 or more recent
versions.
User management
Several users with user names, passwords and different rights can be set up. These settings are made in the “User
management menu”. In the basic setting, the user is “admin” with password “000”.
The selection of the menu levels for which a password is requested, can be set in the user “admin”. By pressing the
key “admin” twice the settings “Change password”, “Define password”, “Minimum password length” and “Logout
time”. Under “define password”, the required password levels can be defined. A password is required for the levels
marked red. The levels marked blue can be reached without password.
The following password levels/rights can be assigned:
“A Product new, delete or rename”,
“B Delete or rename character set”,
“C Start or end batch protocol”,
“D Reference code”,
“E Change product”,
“F Product management” or ‘Edit product’,
“G Change character set”,
“H Service”,
“I Switch on/off camera”,
“J Temporary characters”,
If a new user is created, a blank window will be opened via clicking twice, here the desired user name and
password have to be entered. Subsequently the requested right or the requested rights are assigned to the user. If
clicking twice on the entry of an existing user, the menu “User management” appears with the items “Change user
profile”, “Delete user” and “Switch password invalid”
When a user registers for the first time he has to change his password.
The administrator can block or delete users.
Changing the password
Here for example, the password “000” can be changed if “Administrator” only (default) is created as user.
If several users are created, all the created users can change their password. When changing the password, first
the user name, then the new password must be entered twice.
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10 Password, Zoom
10.1 Change Password
In the “Change password” menu item, the user can change his/her actual password on the camera.
10.2 Zoom In (Zoom Out)
In the “Zoom in” menu item, the camera display mode can be changed to Zoom in order to highlight details for
teaching in fonts or creating products. After the Zoom function is selected, the software expects the user to select the
center of the zone that shall be enlarged. Only a magnification by a factor of two is possible at the present time.
Please only use the view in the Zoom mode for teaching in the product or for error searches. With continuous
operation in the zoom mode, there is a risk of mix-ups with the actual image size occurring.
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11 Parameters of OCV / TIN Windows
With an OCV Control window, plain texts can be checked in the TIN (Teach In), OCV (Optical Character
Verification), and OCR (Optical Character Recognition) modes. Texts can be read horizontally or vertically, and also
forwards or backwards; this is governed by the orientation of the control window and also the setting of the reading
direction.
Parameters of TIN, OCV, OCR Windows X
Control Window name: OCV0 Alias GTIN Font: test
Search area Position: 165/205 Size: 57/46 >>Next>>
Search area Threshold: 120 Color: Black Direction: L->R
Lines Tilting: 0 Noise pixel: 5 Distance: 0
Character Min. size: 5 Max. width: 100 Check quantity: Off
Character Character search: standard Gap: -2 ----
Special characters Min. w. wildcard: 5 Check “.„ a. „–„ 0/3 ----
Filter Ink-Jet: 0,0 Reflection: 0 Brightness correction: OFF
Filter Delete border pix: 0 Noise reduction: OFF ----
Reference code Compare: --- Dynamic: OFF from Data Matrix: ---
Control
Window name
The name of the window currently being processed is shown here. By selecting a window, a menu will open in
which the TIN (Teach In), OCV (Optical Character Verification), and OCR (Optical Character Recognition) modes for
that window can be selected.
Note: Before changing to production, a teach-in window will analyze the text portions and create a
character set with the name #auto for them. The sample is not allocated alphabetically; hence these
windows cannot be used with version 4 of the pilot software, which sends reference values to the
camera.
Alias
It is possible to give a window an additional name. This identifier is used by older versions of the pilot software to
assign reference values. The “reference code from data matrix” option also uses these additional identifiers.
Font
Here subsequent changes to the character set for a control window can be made.
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Search area:
The position and size of the control window can be changed by selecting a parameter. The values shown here
define the coordinates of the control window in which the OCR process is being performed.
>>Next>>
By clicking this field the different windows taught in can be selected. Only windows created beforehand will be
displayed.
Search area:
Threshold
The grey value threshold for the OCR is shown in this window. The setting can be changed here. Details can be
found in the “Instructions for Setting the Grey Value Threshold” section
Color
This function can be used to adjust the color of the print relative to the background:
Black stands for "dark font on light background",
White stands for "light font on dark background".
The default for creating an OCV window is black, but it will change if there are only white windows or if there is a
combination of black and white windows.
Direction
Here the reading direction can be adjusted relative to the screen layout.
Possible settings:
L->R: Left to right R->L: Right to left
U->D: Up to down D->U: Down to Up
Lines:
Tilting
The maximum degree, that the text line may be tilted in production, can be adjusted here with a slider.
Text tilted horizontally by -10 degrees
A maximum tilting up to +/-44 degrees is possible. The basic setting is 0 degrees. The greater the permissible
tilting, the longer the analysis time may last.
This setting is valid for all TIN, OCV, or OCR windows
Text tilted vertically
by +12 degrees
Tilting
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Noise pixels
The maximum number of pixels that can be contained in an empty line is adjustable here.
Example: Parts of the barcode are located above (and within) the text line. The black pixels of the barcode will
interfere with the empty line needed for searching. The “Max. Empty Line Pixels” has been set to 30 in the example
(the basic setting is 5).
Note: For some parameters an input in pixels is expected. A size expressed in millimeters can be converted
to pixels if the camera resolution and the image size are known. For the standard camera, the
resolution in X is 1600 pixels and the image size in X is 95 mm. A character with a width of 2.5
mm would thus have a width of 2.5/95*1600 = 42 pixels.
This setting is valid for all TIN, OCV, or OCR windows
Distance:
The minimum number of pixel lines for the empty space between two lines is adjustable here.
Line spacing =1 Line spacing = 5
If characters consisting of several non-connected parts (e. g., Ü, Ä, À, ´B....) are being checked, the line spacing
must be set to a value greater than the largest gap within the character so that all parts will be combined into one
character.
This setting is valid for all TIN, OCV, or OCR windows
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Character:
Min. size:
The minimum character size setting removes objects that are too small for a character. Any objects which are
smaller than the size of the adjusted pixel number will be masked. It is thus possible to eliminate disruptive dots in
the background.
This setting is valid for all TIN, OCV, or OCR windows
Max. width:
Here the maximum character width for character recognition can be specified. The value corresponds to the pixel
width of a character. If a character in a Teach-In-Window is wider than that, this character is cut in two pieces. This
setting effects only the TIN-Windows (in production mode and when teaching in a new reference code)
Note: This value plays an important role in character recognition in the Teach-in or character set teach-in
modes. The setting is valid for all TIN windows.
Check quantity
If the character number check is activated, an error message will be generated if additional characters are detected
in the reading window in front of or after the reference characters.
This setting is valid for all TIN, OCV, or OCR windows
Special characters
Gap
Here the size (in pixels) of the gap between two characters can be adjusted. This setting has different meanings for
OCV- and OCR-mode:
In OCV-mode or TIN-mode, the next character will be searched from this position relative to the previous
character, so if there is no gap between two characters, please enter a negative value for the gap size. In
this case the next character will be searched within the previous character.
In OCR-mode, if the value is greater than zero, then characters which have a smaller gap to each other
than this value will be merged. If the value is zero, it depends on the setting “character search”, what
happens: If the character search is set to “advanced”, then characters, which overlap each other vertically
slightly, will be separated. If the character search is set to “standard”, then nothing happens.
This setting is valid for all TIN, OCV, or OCR windows
Wildcard
If for example the quality is not adequate for an OCV/OCR control, characters can simply be checked for
presence. To do so, the operator enters a star (*) in the reference code for the character in question.
This setting is valid for all OCV windows.
A B C D E F G 1 * 3 4
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Control “ . “ and “ – “
Distinguishing “.” (dot) from “–“ (hyphens)
If the camera should do a very precise dot and hyphen check, in this menu two parameters can be set: the limit
value and the tolerance. The first pixel value indicates a limit value for the black surface, e.g., 150 means that each
character smaller than 150 pixels will be evaluated as a dot or a hyphen. The length of the dot or hyphen is then
measured with the accuracy specified in the “Tolerance” setting. For example, the “Tolerance” can be +/-3 pixels.
The size of the tolerance value can be used to distinguish between dots and hyphens.
8 A 5 W
This setting is valid for all TIN, OCV or OCR windows
Filter:
Inkjet
The inkjet filter must be used for inkjet printing or for similar printing results. The filter function enlarges individual
dots so that undesired white spaces between the dots are filled in. Setting the value of the filter size in x- and y-
direction to zero (Filter size = 0,0) will turn off the filter.
The Inkjet filter turned off The Inkjet filter turned on
The size of the Inkjet-filter is adjustable in x- and y-direction, so that the single dots of a stretched inkjet print can be
merged.
Note: Character sets should always be taught in with each inkjet filter. In other words, if the filter is
changed, then a character set needs to be taught in again.
This filter is used for all TIN, OCV, or OCR windows
The length of characters with an area of, e.g. more than
150 pixels = “threshold value”, is not measured.
Characters with less than e.g. 150 pixels are verified
in their length using the “tolerance” value.
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Reflection
You can adjust the reflection filter to reduce disruptive reflections (such as those on aluminum blisters). The value
is specified as a %. Excessively bright areas in the window will thus be darkened.
This filter is used for all TIN, OCV, or OCR windows
Brightness correction
With the "Brightness correction" filter you can make the background more evenly colored. The filter should be turned
on if the brightness of the background is not uniform. Areas that are too dark will be made brighter.
This setting is valid for all TIN, OCV, or OCR windows
Filter:
Delete border pix
This filter deletes black pixels projecting from the outside into the edge area of an OCV field; the parameter defines
how large the interruptions may be. This function is especially useful for optical character fields with disruptions in
the edge areas. Such disruptions interfere with tilting recognition.
Noise reduction
This filter suppresses noisy background when switched on.
Character search
This setting is a switch between the standard and advanced character search. If the character search is set to
advanced, it is possible to separate vertically overlapping characters, like it is shown in the figures below.
Standard character search Advanced character search
Note: This setting only affects the OCR-windows and the teach-in of new characters.
Reference code:
Compare
The camera normally always performs a comparison between target and reference values in OCR windows. If the
camera only reads window content, however, the result of the reading can be obtained from the statistics report in
the VDMAXML log. In this case the target/reference comparison for OCR windows can be turned off.
This setting is valid for all OCR windows
Caution: If this function is active, there will be no comparison between the read characters and the reference code.
The camera works for character reading and display.
Dynamic
The “Dynamic reference code” setting should only be turned on when checking sequential number series. A listing
or counting of the code is thus possible. The setting can be turned ON or OFF individually for each OCV window,
OCV0-OCV3, or code window. It is thus possible to check dynamic and static print simultaneously. The dynamic
counter is not increased until after the first GOOD reading.
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From Data Matrix:
This function is designed for stand-alone systems in which pilot software does not specify dynamic
reference values. A data matrix code reading is used as a source for OCV reference codes. The content in
the data matrix code must be in GS1 format. The content is allocated via the identifiers of the windows.
A wizard will help with the selection once the function has been activated:
Example of an application:
Identifier Function
DMx : DMX DM window as source of data in GS1 format
OCVx : GTIN OCV window as target, GTIN data
OCVx : LOT OCV window as target, BATCH (LOT) data
OCVx EXP OCV window as target, expiration date
OCVx : PROD OCV window as target, manufacturer date
OCVx : SER OCV window as target, serial number
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12 Parameter PATTERN CHECK Window
Within the search region, a previously learned pattern will be searched. The position with the lowest deviation
between located and learned pattern will be marked.
This tool can be used also for positioning other control windows.
Parameter Pattern Check X
Control PC0 <<< >>>
Pattern Show Change 53x46
Search Region Change 50/50 400x199
Congruency 0% --- ---
Group 0 --- ---
Control
Window name
The name of the window currently being processed is shown here. Show only!
<<< >>>
Select next or previous control window.
Pattern
Show
Displays the learned pattern;
Change
Learn the reference pattern. Window can be moved only inside the search region. Maximum size of reference
pattern is 200 x 200 Pixel.
Search region
Change
Learn the search region. Moving the search window is limited by pattern window.
Congruency
Is a tolerance which indicates how well the learned pattern must match the found pattern.
0% means: Search for the best match, matching value is minor.
100% means: Only if learned pattern and found pattern are absolutely identical, the result is good;
Group
This is the number of the group which this control window belongs to. Show only! For modifying this setting see
chapter “System Parameters/ I/O configuration”.
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13 Parameter Position Control Window
A position control window (POS window) searches for a gray value edge in the image. The reference positions of
the edge are taught in with the aid of a Good Product. The user can set a tolerance range for this edge. The window
will be rated as Good as long as the edge lies within the tolerance range.
Parameters of Position Windows X
>>NEXT>> POS0 POS1 POS2
Mode tracking Inspection tracking
Search Area 54/413/83/53 38/225/83/53 271/207/83/53
Edge threshold 100 100 100
Edge height 10 10 10
Edge length 1 1 1
Edge pixels 10[%] 10[%] 10[%]
Pixel in tolerance 0[%] 0[%] 0[%]
Direction 3(↓) 1(→) 0(←)
Increment 1 1 1
X target pos --- 41 px 82 px
Y target pos 26 px --- ---
X pos tolerance --- -12 / + 12 px OFF
Y Pos tolerance OFF --- ---
Group-No. 0 0 0
Linkage none none none
Reference Reference Reference Reference
64
Fig.: Gray value edge and parameters
Position control parameters
Mode:
The mode is an indicator to show, if this window is doing an inspection on the position or if it is only used for
tracking. The mode is depending on the tolerance settings. If all tolerances (X and Y) are set to 0 (off), this window
is in tracking mode.
Search area:
The search area is defined with windows. For each line or column in the search window, a light/dark transition will
be sought, and its position will be marked in green.
Edge threshold:
The slider can be used to adjust the gray value for the edge threshold. The edge threshold defines the border value
between light and dark (see above).
Edge height:
For detecting an edge, the criterion of edge height must also be fulfilled in addition to that of edge threshold. Edge
height describes the gray value difference of the adjacent pixels.
Edge length:
Edge length describes the distance between pixels for determining the edge height. The edge length is equal to 2
pixels in the above figure.
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Edge pixels:
"Edge pixels" is a percentage value and relates to the total number of pixels marked in green (edge points) (see
below).
Edge pixels = 15%
Edge pixels = 50%
Edge pixels = 80%
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Direction:
This defines the direction in which the edge is searched for:
Increment:
The increment specifies the interval for scanning for the edge. In other words, if the increment is set to 1, an edge
will be searched for in each line or column within the POS window. If the increment is set to 2, only every other line
or column will be scanned. The evaluation time can be shortened by selecting a larger increment. The number of
edge points, however, will also be reduced.
X target position, Y target position:
The reference position can be taught in (see "Referencing") or set by hand here. The zero position is always the left
window border for the X position and the top window border for the Y position.
X position tolerance, Y position tolerance:
The allowable position tolerance in the X and Y directions is set here (see the figure: "Gray value edge and
parameters"). The unit is pixels.
When set to 0, the tolerance will not be checked but the position information will still be calculated and can be
used for Window Tracking.
Linkage:
Opens the window linkage menu, where for example POS windows can be linked with each other.
The window with the smaller number (e.g. "POS0") is calculated first. The linked window (e.g. "POS1") is shifted
by the corresponding position offset. The display of the brown connection lines can be switched on with "Display
service/diagnosis/linkage”.
Referencing:
The target edge positions of all POS windows are recalculated with "Referencing". Please note that the object in the
recorded image also has the reference measurements.
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14 Parameter Code Window
Barcodes can be checked with windows for code control (barcodes, pharmacodes, batch codes). Barcodes can be
read in horizontal or vertical directions, or omnidirectionally. This is controlled with the value for code size as well
as the geometry of the control window.
Parameters of BARCODE Windows X
Window Name CODE0 ---- >>NEXT>>
Search Area 250/190/100/75 ---- Omnidirectional:On
Code Type Pharmacode QZone:0 ---
Pharmacode binary L->R ---
Threshold / Color #AUTO# #AUTO# ---
Size #AUTO# Attempts:1 ---
Finder 0 0/0 ---
Filter Delete:0 Connect:4 Noise reduction: Off
Contrast 0 Attempts:1 ---
Learn All Barcodes ‘11’ ----
Quality check OFF 11111111 Code Syntax: CTRLC ON
Scans Min. / Steps 1 2 ---
Compare / Dyn.Code ON OFF ---
Search area PX, PY, DX, DY
By choosing this parameter, the control window's size and position can be changed. The values displayed here
describe the coordinates of the control window in which the barcode will be searched for.
Omnidirectional
ON/OFF
If “Omnidirectional” is switched on, the camera is able to read a barcode on any rotated position. Some additional
parameters as Threshold, Color and Size will appear in this mode. Please switch on only when necessary,
because Omnidirectional reading isn’t possible in some cases.
QZone, checking the quiet zone
A test can be allowed for the minimum width of the quiet zone on the left and right border of the code window. If the
quiet zone is too small, the code will be indicated as invalid; the standards for most codes indicate a quiet zone of
at least 10x the width of the smallest module; if the code is tested for adherence to these values, a '10' is to be
entered. If a '0' is entered as a value, no test is undertaken.
For quality control of a printed barcode, this function is recommended to be used together with the function
“minimum number of positive scans,” and to set a minimum number of code height/4.
Scans with false quiet zones are marked in the reading window; red lines indicate a disrupted quiet zone, blue lines
an error-free range.
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Checking the quiet zones is only possible at this time with static codes, for omnidirectional code reading, the
QZone displays a value which is added to the length of the codes, and makes it possible to have a quiet zone for
the reliable reading of codes. The default value is 10, and means that the code found has been lengthened by 10
pixels.
Code Type
The type of barcode is set under code type. This can also be changed later. The currently legible code types are
found at “general” in Appendix “smart camera code types”. The code type can be analyzed by specifying the
reference codes, and is then entered into the product.
Code Type dependent settings:
Pharmacode
For pharma codes, the decoding of the reference codes can have additional decimals or binary settings.
Binary (Pharmacode): 1=thin bar, 2=thick bar;
Trinary (2-track -Pharmacode): 0=bar below, 1=bar above, 2=bar above and below;
Decimal: Decimal value;
PDF417
A PDF417 Code has some special properties as the Number of Rows and Lines and the Level for Error Correction
(ECC). Those can be manually defined (but they can also be automatically detected)
Furthermore the camera has an ECC Mode option which can be turned off to prevent the camera from using the
Error Correction Data inside the code. If the Decoding is turned off completely, the camera will only count the
readable Code words and return this as the number of positive scans.
L->R / R-> L ; U->D / D->U - Direction
If a Pharmacode, a two-track Pharmacode or a PDF417 is chosen as a code type, the reading direction can be set
here.
Threshold [for omnidirectional reading]
The gray value threshold is shown in this window for omnidirectional reading to find the barcode. The value can be
taught. If the value is at #AUTO#, then the camera tries to automatically determine this value, and then enters the
value found into the product.
Color [for omnidirect. reading]
Here a setting is made which searches for a code which is black on white or white on black.
Size [for omnidirect. reading]
The size and print color of the code can be set in this window, with omnidirectional code reading, it constructs an
important value to find the code within the control window. If the value is at #AUTO#, then the camera tries to
automatically determine this value, and then enters the value found into the product.
Note: With omnidirectional reading of pharmacodes, the code size must necessarily be taught.
Attempts (1,3,5,7) [for omnidirectional reading]
The number of tries to search for the barcode with omnidirectional code reading can be set here; if the code is not
found in the first attempt, then the code search will be repeated with changed threshold values and filter settings.
Finder [for omnidirectional Reading and pharma code]
Additional information must be configured to find the pharmacode with omnidirectional code reading, because
pharma codes possess identifiers for the start or end, such additional information is needed in order to determine
the reading direction of the pharmacode.
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In addition, the size of the codes must be learned:
Then the range can be established in which the additional information is searched for:
The size of the search area and the number values found are entered as parameters in the product.
Filter: Delete points, Connect points [for omnidirectional. reading]
These parameters are important to find the barcodes with omnidirectional code reading, with codes with large gaps,
a large filter value is needed with “connect points,” small codes with small distances to disrupting objects need a
smaller filter value. The behavior of the filters can be analyzed with the diagnostic function.
[Menu]->|Service|->|Diagnostic|->|Data Matrix: Display binary image|check.
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Filter: Noise Reduction
This filter is suppressing noisy background when switched on.
Improves the image quality in colored background.
Can be used for smoothing of holes in bars. Should not be used, if structures are extremely fine.
Contrast
The contrast value is related to the contrast between the code and the background. A small value is set for low
(“poor”) contrast, a larger value accordingly for a high contrast. The value range is from 1 to 255. Undesired
contrast in the background can be grayed out, or the sensitivity increased with the contrast value. The contrast can
also be automatically taught if the respective option is chosen to set or change the code window.
Contrast: Attempts (1,3,5,7)
Camera is trying to read the code with up to 7 different contrast settings. This can be useful, when illumination or
contrast conditions are inconstant during production.
Learn: Code 39, Int2/5, Code 128……
These are the predefined code types, which will be used for automatic code learning.
Learn: ‘11’
Here one can choose whether contrast and reference codes are automatically taught, or should be set manually.
Manual
[X] Reference code [_] Contrast
[_] Reference code [X] Contrast
[X] Reference code [X] Contrast
[_] Reference code [_] Contrast
[X] Reference code [_] Contrast
[_] Reference code [X] Contrast
[X] Reference code [X] Contrast
The setting determines which parameters can be learned automatically with the “new reference code” function.
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Note: Because reference codes are for the most part sent from the pilot, the camera in normal operation
can be easily used manually with Teach-in set to manual.
Print quality (ISO15416)
Here, the Quality Control of the Barcode reading can be activated and configured. The quality analysis corresponds
to ISO15416.
Print quality (ISO15416) C 11111111
Off / A / B / C / D / F Quality Parameters
Note: The correct code analysis depends on an accurate adjustment of the camera; the aperture of the
camera must be configured accurately by means of calibration cards. Any later changes such as
illumination, distance, focal length or contamination change the reliability of the quality analysis.
Quality check / Grading
The grading classes ABCDF correspond to the proposals of the ISO15416. Class ‚F’ is classified as no longer
readable.
At this point the minimum quality class that has to be reached by a barcode, to be evaluated as a “Good Product”,
can be set.
Quality Parameters
Configuration of possible parameters for the classification of a code is made here. All seven parameters must be set
for an analysis according to ISO15416.
Code Syntax
CTRLC ON (default):
Camera will read and transfer all control character.
CTRLC OFF:
When “CTRLC OFF” is set, a control character like value 102 (“]C1”) will be hidden in the current code.
GS1:
If “GS1” is set, then a code must start with a decimal value 102, which during decoding will be converted to the
character sequence “]C1”. This setting helps distinguish a GS1-compliant code from a code that is merely similarly
decoded.
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Scans, minimum numbers of positive scans
This inputs how many scans must be positive so that the code can be assessed as GOOD.
With CC-A-Code, the minimum number of positive scans is given for how many rows of stacked code must be
present at a minimum.
Scan Steps (distance of the individual readings)
Code reading by the camera is carried out similar to a laser scanner. Individual rows of the code are read. The
reading frequency of the codes can be set using the parameter “scan distance.” The adjustable step width is 1-10
rows. As a default here, '2' is set; for very small codes, one can set '1,' for large codes, greater values can be set
in order to save calculating time.
Reference - Actual Comparison
The way the reference/actual comparison is performed is defined here. The possibilities are as follows:
0 = Good signal for a positive reference/actual comparison
1 = Machine stops for an incorrect code 1)
2 = NO positive reference/actual comparison
The reference/actual comparison is adjusted for each defined code window.
1) If the Function 1 is activated and if the code is incorrect, the active signal of the
camera will be reset and the message “Wrong Code” will be displayed.
Dynamic Reference Code
In order to check a continuous barcode, the reference code of the camera must be changed too. With the “Dynamic
reference code” setting, the camera can adjust the reference code. For doing so, various settings can be input in the
camera menu item “New Reference Code”:
Correction = Pre-specification of the next reference characters (reference codes). The first code for
which the check is to start must be entered.
New Format = Specify a new counting system: Input unchanging characters, next counter reading,
minimum counter reading, maximum counter reading, counting direction (up, down)
for counters and interval for counters.
Image from production run: CC-A-Code with two columns and 6 rows. The minimum number of positive scans is six.
Image from production run: Barcode with 27 positive scans. Minimum number is 6.
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15 Barcode Quality Control Referring to ISO/IEC 15416
The bar coding technology is based on the recognition of samples, which are encoded in bars and gaps with
different widths. The translation of numbers and characters into bars and gaps is defined for every code type in its
on guideline. If a barcode shall fulfill its purpose, it has to be decodable reliably at the place, where it will be used.
The standard ISO/IEC 156416 is a basis for the classification of the quality of 1D codes, related to specific
demands on the reading process.
The print quality control with a PCE Smart Camera can only be an approximation to the standard, because the
control conditions of the standard are adjusted for an Offline-Inspection, the PCE SMC instead is an Inline-
Inspection system.
Various adverse conditions for inline inspection (e.g., position tolerances, aberrant lighting, limited analysis time,
etc.) may result in a difference of one grading class between inline inspection and offline inspection.
The viewing direction of the camera as well as any additional lighting can also affect the grading results!
15.1 Classification of a 1D Barcode
The classification of the quality of a barcode divides into the classes A (best) to F (worst).
Numeric 4 3 2 1 0
Letter A B C D F
Note: Class E will not be used for classification!
The class of a 1D barcode is determined from the classes of 10 different lines inside the code. This means, that
every one of these lines will be evaluated.
If a line has been decoded successfully, afterwards its quality will be checked by the usage of a number of
parameters. The quality class of the line arises from the class of the worst rated parameter. If, for example, 5
parameters are rated A, but 1 is only rated C, the result class of this line will be C.
The total class of the barcode is the average value over the 10 result classes from the 10 analyzed lines.
Good Bad Quality
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Parameters of Classification
In the following the parameters, which have to be checked in order to fulfill ISO/IEC 15416, are described. Image 2
shows a grey value profile or reflection profile of one line of the code, shown in image 1. In this profile some of the
parameters, which have to be analyzed, are shown.
0
25
50
75
100
125
150
175
200
225
250
Image 2: Grey value profile for one line through the barcode
Decode [DEC]
The classification of a Barcode Scanline can only be done, if the decoding was possible with the reference
decoding algorithm. This means that the code data has to be readable and the checksum (if applicable) has to be
correct. Also the Quiet Zone will be checked.
Note: If decoding of the barcode is possible, but the quality analysis claims a bad Decode-parameter, this
suggests a Quiet Zone which is too small. If Omnidirectional Reading is deactivated: Make sure that the Control Window is set big enough to
contain the whole Code and its Quiet Zone. If Omnidirectional Reading is activated: Increase the parameter QZone in the CODE-Window
parameter table step-by-step if required Make sure, there are no other graphics/texts on the product inside of the codes Quiet Zone.
Global
Threshold
Quiet zone Quiet zone max. Grey Value
min. Grey Value
min. Adjacency-
contrast
Defect Gaps
Bars
Image 1: Original barcode image
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Symbol Contrast [SC]
The Symbol Contrast indicates the maximum difference of reflection
in the barcode. Through the whole Barcode including its Quiet Zone
the minimum and maximum reflection values are searched.
Adjacency Contrast [ECmin]
The Adjacency Contrast or Edge Contrast is the reflection difference
between 2 adjacent elements. Every bar or gap is an element. The
minimum of these contrast values which are found in the barcode
will set this parameter.
This value is checked to make sure that a good contrast is not only
available between the maximum and minimum brightness of the
code, but also between every bar and gap
Modulation [MOD]
The Modulation is the ration from the Adjacency Contrast to the
Symbol Contrast. An Adjacency Contrast near the Symbol Contrast
means that the Contrast is constant and will result in a better
Modulation value.
Minimal Reflection [Rmin]
The Minimal Reflection is the lowest reflection value in the whole
barcode. According to ISO/IEC 15416, it may not be greater than
the half of the maximum Reflection. This parameter shall make
sure, that there is enough difference between the brightness of bars
and gaps.
Defects [Def]
Defects are irregularities within spaces and bars. If there are
interfering elements in the spaces or scratches in the bars, the
code indicates defects at these places. Defects are identified in the
whole barcode including its Quiet Zone.
Decodability [V]
The decodability of a barcode is an indicator of its printing
accuracy in relation to the dimensions specified by its standard
decoding algorithm. It is calculated on basis of different reference
decoding algorithms depending on the code type. "Dimensions"
refers to the widths of the elements and their relationship to one
another.
Inconsistent widths of bars and gaps in the barcode will result in a
lower decodability.
This Parameter uses different calculations for 2-width-codes
(Interleaved 2/5, Code39) and multi-width-codes (Code128,
EAN13).
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15.2 Configuration of Quality Control
Calibration of the camera for barcode quality control reasons
For barcode quality control reasons the camera must be calibrated in advance. An adequate calibration is essential
for the correct evaluation of the quality.
Please refer to the instructions in chapter 18.2 „Camera Calibration for Data Matrix Quality Control Reasons“.
Maybe you will have to create a new temporary product with a data matrix control window, in order to perform the
calibration.
Usage of the Barcode Quality Control
A Minimum-Quality-Class has to be chosen. If the printing of a barcode does not achieve this Minimum-Quality-
Class, it will be rated as a Bad-Product. For example, if the class B was chosen, the printing of a code has to
receive class A or B, to be rated as a Good-Product.
Furthermore, single parameters can be specifically excluded from the print quality analysis.
The quality control can be activated in the parameter table for CODE windows (see chapter 11 “Parameter code
window).
It is recommended to use the omni-directional reading with the quality control if possible, to improve the code
finding and the reliability of the quality analysis.
Note: The print quality control is currently only available for barcodes of the type Code128.
In production, the result of the quality
analysis of the present barcode will be
shown inside the CODE-Window.
Structure of the result view:
Grade: C (2.2) (MOD)
Grade: Grading-Class (numerical Class) (worst average Parameter)
Additional display of parameters:
The parameter view shows the average
quality of all line readings for each parameter.
See chapter 9 „Service Menu“ (p. 37).
Note: By activating the view, the cameras
calculation time possibly increases.
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16 Pixel Window Parameters
By using a pixel window, sizes of the black and white areas will be measured. In this way, the presence of a label
or printing can be verified very easily, for example: For one control window two limit values always have to be set,
the upper and the lower tolerance value. If the camera is in the production run, and the actual measuring value lies
within the two tolerances, the object is then assessed as “good”. Below and above the tolerance values the object
is “bad”.
If the camera works with large tolerances, the system controls the presence. If the plus and minus tolerance is kept
small the camera is able to carry out measurements. The operator can choose whether the tolerance values are to
relate to a black or white area. In addition, the operator can decide whether the measuring values and tolerances
are to be absolute or relative. The inspection principle “Area measurement” is the same for both measurements.
During the pixel inspection, the first window is given the name “Pix0”. This is displayed in the top left corner of the
window. The other pixel windows are given the names “Pix1”, “Pix2”, etc. Up to twelve different pixel windows can
be set and thus up to twelve different features can be verified on an object. When the first window has been set,
press the Enter button to save the settings.
“Presence control” (absolute measurement)
For the “absolute measurement”, the black area e.g. is displayed as a measured pixel number. If the area to be
inspected is enlarged, the number of pixels is then greater. If the size of the black area is reduced, the number of
pixels measured is smaller. The plus tolerances and the minus tolerances are entered as a pixel number; the
display for the actual value is shown in the production mode as a pixel number. The measurement of an area does
not depend on the size of the control window.
Examples:
Pixel number =1000 (reference value) Pixel number =500 Pixel number =2000
“Print control” (relative measurement)
For the “relative” setting, the size of an area (reference area) is taught in and set as 100%. The following
measurements can be smaller than 100% if, e.g. the printed area is missing, or greater than 100% if, e.g. there is
too much print. The input of the plus and minus tolerance and the display of the measuring values is given as a
percentage value.
Examples:
Measuring value =100% (reference value) Measuring value =50% Measuring value =200%
Note: The pixel windows are to be set as described in the section “Camera start-up” with OCV windows.
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Changing an existing product with pixel windows
If for example, after a change in format, the window position is no longer correct or only the tolerances have to be
changed, this can be changed quickly and easily in the parameter table.
Starting at the main menu the sub-menu, “Change product” > “Parameters PIXEL window” can be called up. A table
appears there with all the pixel inspection parameters. Here the size and position of each window can be changed,
the grey threshold aligned or the tolerances modified.
Parameter table
Windows PX, PY, DX, DY
The parameters Px, Py, Dx and Dy give the coordinates of the control window. The size and position of the window
can thereby be documented and, if necessary, reproduced. If the black cursor is positioned on one of the values
and the Enter key is pressed, the yellow control window appears in the following step for processing. The size and
position can be changed using the line keys.
Grey threshold
The contrast value “Grey threshold” should be set for each window such that the object appears black and the
background is shown in white without any black points. If the inspection is inverted, the background should be an
even black and the object an even white.
Object color
Here it is possible to choose whether the tolerances are related to the white or black areas.
Minimum, maximum tolerance
For one control window two limit values always have to be set, the upper and the lower tolerance value. For the
absolute measurement, the entry is given as a pixel number and for the relative measurement as a percentage
value. (see absolute, relative measurement above).
Mode
The relative or absolute measurement can be selected as the mode. The absolute measurement is called “presence
control” (mode0) and the relative measurement, “Print control”.
The absolute measurement supplies the pixel number. (Mode 0)
The relative measurement supplies a percentage value in respect to the teach-in object.
(Mode 1)
Contrast
Here a filter can be activated for improving the contrast. This is beneficial for poorly contrasting images, or images
that are illuminated unevenly. Pixels supplying contrast values that are smaller than the settable minimum value,
are set to the background (background = black, if object color = “bright pixels” is activated; background = white, if
object color = “dark pixels” is activated).
The evaluation time is longer if the contrast filter is switched on.
Send result
Here, the output of the reading result via the interface RS232 can be switched on and off.
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17 Data Matrix Window Parameters
In a DM window a Data matrix code (ECC200) or an EAN Data matrix is inspected. The code content is read by
the camera and compared with the reference code. If they agree, the “good” signal is given.
The quadratic code can be read in any position (omni directional), i.e. the code can be turned at any angle within
360°. Currently there is no omni directional reading at rectangular code possible, but only in the orientations of 0,
90, 180 and 270° with a tipping up to 30°.
The camera can also send the read content of the code on the serial interface without a comparison.
With “Main menu” > “Change product” > “Parameter Data matrix window” any necessary setting can be made by
the operator. Further information about Data matrix Code sizes with preset content can be found in the appendix
"Size/Data Comparison Chart".
Parameter Data Matrix CODE X
Control DM0 ON Calibration >>NEXT>>
Searching area 180 74 364 351
Code size/Module number 136x135 px² 14x14
mod² --- ---
MultiCode(Amount/Int./Tol.) #1 100% 300% ---
Ori/Col #AUTO# Black --- ---
GW threshold Search: 102 Code: 102 Attempts:1 ---
Code Syntax/Code to
RS232 CTRLC ON OFF --- ---
Dot-Code OFF --- --- ---
Max. Distortion/Grid 0° Grid: 20% --- ---
Print quality ON C,40% 11111110 Minimum
Learn Code/Compare 4:’1111’ ON --- ---
Filter: Erase/Dilat 0 3 --- ---
Dynamic Code OFF --- --- ---
OCV Reference OFF --- --- ---
Calibrate
This function starts code reading of a Data Matrix Code in the presented search area. It will help you adjusting the
camera for Data Matrix print quality inspection.
Searching area
The search area stipulates the position and size of the control window using four coordinates.
Code size
The code size provides the camera with information telling it how large the code is printed, or seen by the camera.
This is given using two size coordinates.
Module number
The number of modules states the number of modules the code consists of, e.g. 14x14 modules. At present, the
camera can inspect quadratic codes from 10x10 to 144x144 and rectangular codes with 8x18, 8x32, 12x26,
12x36, 16x36 and 16x48 modules. Using the “Auto” function, the camera can automatically determine the
number of modules and read the code.
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MultiCode - Code Amount
Sets the number of codes inside of the DM window. This way multiple Codes can be found and read in one single
DM window. All codes will be evaluated separately. Only if the adjusted number of codes was found and every
code was evaluated positively, the DM window will state a good reading.
Please note that there is only one reference code per DM window so that all Codes inside must have the same
content if the Comparison is set to ON.
MultiCode - Search Intensity
If the camera is finding other objects inside of the window (which have the appearance of the searched DM Code),
it may not find the real DM Code objects. In this case the Search Intensity can be increased. The system will then try
to find and read additional objects, under which the DM Codes should be.
A higher value will increase calculation time.
MultiCode - Match Tolerance
If the DM codes inside the window have high deviations in their shape, this value may be increased to find them.
If the camera is trying to decode other objects which are no DM Codes but have a slightly similar shape, this value
may be reduced, to ignore those objects.
A smaller value will reduce calculation time. (Use this when working with multiple Attempts.)
Ori / Col
The Orientation parameter (Ori) stands for the position of the L-finder in the code. Different positions or “Auto” can
be preset for the camera. The Color parameter (Col) states whether the code has been printed in black or white, i.e.
black on a white background or white on a black background.
GW threshold
The grey value or contrast threshold appears in the list with three parameters. Grey value 1 “Search” defines the
contrast for finding the code and for distinguishing it from any other additional print and the background. Grey
value 2 “Code” is used for code reading. By using the adjustment “Attempts” a multiple evaluation can be set. The
quantity of trials can be chosen between 1, 3 and 7. The standard adjustment is 3.
Code to RS232 (option)
If this function is activated, the camera sends the code content via the RS232, for example, to a PC.
Code Syntax
CTRLC ON (default):
Camera will read and transfer all control character.
CTRLC OFF:
When “CTRLC OFF” is set, a control character like value 232 (“]d2”) will be hidden in the current code.
GS1:
If “GS1” is set, then a code must start with a decimal value 232, which during decoding will be converted to the
character sequence “]d2”. This setting helps distinguish a GS1-compliant code from a code that is merely similarly
decoded.
PPN:
If “PPN” is set, then a code must start with a decimal value 237, which during decoding will be converted to the
character sequence “[)>06”. This setting helps distinguish a PPN compliant code from a code that is merely
similarly decoded.
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Dot-Code
Printing a data matrix code with an inkjet printer results in the creation of round or circular modules. An ideal
printed module, however, should be square. The camera has various filter functions so that such codes can also be
read accurately. In the software, the user can specify whether a dot (module) = a gap is printed. Or whether a
module smaller or larger than a gap is printed. With this function, several dots per module are used for analysis.
Max. Distortion / Grid
In order for the code reading to be less sensitive to printing errors, a setting can be allowed that permits the code to
be read with a trapeze-shaped deformation. The value given by the grid parameter determines the deviation of a
module from the ideal place in the grid.
Print quality Quality control of the Data matrix reading can be activated and configured. The quality analysis corresponds to
ISO15415.
ON/OFF Grading
L-Finder
Quality Parameters Search for
quality
Print quality ON C,30% 11111110 Minimal
Grading
The grading classes ABCDF correspond to the proposals of the ISO15415, class ‚F’ is classified as no longer
readable.
L-Finder Damage
L-Finder Damage is an additional parameter that only evaluates the modules in "L". The percentage value refers to
individual modules in the “L-finder” and sets the maximum number of pixels in a module that might be missing.
Quality Parameters
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Configuration of possible parameters for the classification of a code is made here. The seven first parameters must
be set for an analysis according to ISO15415.
Search for quality
Classification of the code quality depends on the internal settings during the reading. During the setting ‚Minimal’
the reading will be accepted with the first readable and valid quality. During the setting ‘Maximal’ the parameters
will be varied until a result with the utmost quality is reached. For pure control reasons the timesaving function
‚Minimal’ is sufficient. For quality classifications (e.g. during configuration) the function ‚Maximal’ is
recommended.
Note: The correct code analysis depends on an accurate adjustment of the camera; the aperture of the
camera must be configured accurately by means of calibration cards. Any later changes such as
illumination, distance, focal length or contamination change the reliability of the quality analysis.
Teach-in code
The following parameters can be set manually by the operator or determined automatically by the camera:
threshold value (grey), code size (print size), reference code and number of modules. The selection is made using
a table.
0 [_] Threshold [_] Size [_] Reference code [_] No. modules
1 [X] Threshold [X] Size [_] Reference code [_] No. modules
2 [X] Threshold [X] Size [X] Reference code [_] No. modules
3 [X] Threshold [X] Size [_] Reference code [X] No. modules
4 [X] Threshold [X] Size [X] Reference code [X] No. modules
Comparison
As standard the camera offers the good signal of the machine control. It can then be shown whether the correct
code or no code has been read. With the comparison setting, the camera can also indicate when an “incorrect”
code has been read. For this purpose the “camera ready” signal (SR) is either set or not set.
Filter:
If for example there are disruptive ink splashes in the background of the code, the “Erase” filter function can be
used. The “Dilat” filter function is helpful if the code is printed with large gaps. The standard value is “3”, but it can
be lowered to 2 or 1 if interferences in the vicinity of the data matrix code are causing code recognition problems.
For codes with small modules, large gaps, and defective finders, increasing the value may help. This can be
checked with the “Diagnostics: Data Matrix Binary Image” function.
Dynamic Code
Here a counter for the reference code can be activated. It will count up or count down with each trigger. The counter
can be configured as follows:
- “dynamic reference code” ON /OFF
- “start counting with first proper reading”: The counter only starts after the first proper reading.
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Example:
ABCDEF012009056
- left start digit of the counter (first digit is 0): 6
- number of counting digits: 9
- Increment and counting direction: -1
Dynamic Code ON ON 6\9\1 ---
In this example the reference code after the next trigger would look as following: ABCDEF012009055
Note: In operation with the PLM software, the reference codes are specified by PLM. Dynamic reference
codes may not be used in this operating mode.
OCV Reference
These parameters define a function which enables an adjustable part of the read data matrix code to be used as the
reference code of an OCV/OCR window.
A wizard will ask for the necessary values one after the other and thus simplify input:
- First it will ask which the OCV/OCR window to use as the target for the operation.
- Then it will ask for the start position in the Data Matrix reference code (There is a '0' position)
- Then it will input the number of characters to transfer
- Lastly, it will ask for the position in the target. (There is a '0' position and the target must have at
least enough reference characters to accommodate the beginning of the transferred characters.
Example:
The text “Total---” was input as the reference code for OCV0.
The setting in the parameter table looks like this:
OCV Reference OCV0 6\7\5 --- ---
A calibration card with the text “Pharmacontrol Electronic GmbH” appears in front of the camera.
Reading in the production mode results in the following reference code in the OCV0 window: „Total control“
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18 Data Matrix Quality Control
18.1 Data Matrix Quality Control in Keeping with ISO/IEC 15415
To determine the code quality, 8 parameters are measured and the measurement results are assigned to classes
ranging from A to F.
Numeric 4 3 2 1 0
Letter A B C D F
The 8 parameters are:
1. Decode
Code is legible or code is illegible.
Result is A or F.
2. Symbol Contrast
Difference between light and dark modules examined
over the entire code.
3. Modulation
Difference between light and dark modules
relative to the individual code words.
4. Fixed Pattern Damage
Damage in the search sample, frequency sample, and
in the quiet zone.
5. Axial Nonuniformity
Differences in the length of the X-axis relative to the
Y-axis.
6. Grid Nonuniformity
The greatest deviation of the actual position of the modules
relative to the ideal position.
7. Unused error correction
Number of blocks not used for error correction
The worst parameter determines the quality rating of the code.
Good Quality Bad
dy
dx
dy
dx
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8. ’L’-Finder Damage
This parameter is not part of the ISO norm. It was established for detection of typical Ink Jet faults.
The value gives the percentage of pixels that may be missing in an individual Module on the L-Finder.
Note: The ISO/IEC 15415 standard covers offline inspection. At the present time there is no corresponding
standard that covers inline inspection. Various adverse conditions for inline inspection (e.g., position
tolerances, aberrant lighting, limited analysis time, etc.) may result in a difference of one grading
class between inline inspection and offline inspection. Should a code rated as “D” by the offline
verifier be rated as “poor” inline, the grading threshold must therefore be set to “B” in the Smart
Camera menu (also see “Data Matrix Inspection Type” chapter). Laser labeling by removing color: Because the measured contrast is strongly dependent on the
interplay of the varnish used with the lighting employed, it is possible that uniform results may not be
achieved with different verifiers. The viewing direction of the camera as well as any additional lighting can also affect the grading
results!
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18.2 Camera Calibration for Data Matrix Quality Control Reasons
For data matrix quality control reasons the camera must be
adjusted strictly according to the instructions by means of a
calibration card. A suitable calibration card can be ordered from
PCE.
Adequate calibration is essential for the correct evaluation of the
quality.
It is recommended that calibration should be checked every 3
months. Furthermore, if components (camera or illumination)
are replaced or if the reading distance of the camera is changed,
recalibration will be essential.
In case the amount of DM codes evaluated as faulty during the
production exceeds extensively, the calibration should be
checked.
Note: For all formats, it is important to use the same
shutter value! For black ink-jet-print on white
cartons, the following settings are recommended.
Camera type Shutter [microseconds]
- Standard;
- High-Speed;
150
- High Res;
- High Res/High Speed;
-Ultra-high Res/High
Speed;
300
Each calibration card is gauged at PCE. The ML (mean light) value is indicated on the card.
Steps:
1.) Please select [menu] ->
[service] ->
[system parameter] ->
[shutter speed] for checking the right shutter value. 2.) You can adjust the ML (mean light)-value when you select the function ‚Calibration’
Please note a Data Matrix window has to be set to use this function.
The function can be found under
[Menu] ->
|edit product| ->
|parameter data matrix| -> Calibration
Parameter Data Matrix CODE X
Control DM0 ON Calibrate >>CONTINUE>>
In this mode, the camera initially tries to recognize the data matrix code and then continuously displays the read
values for ML as well as the quality parameters for the data matrix reading.
87
3.) Position the data matrix code on the calibration card in front of the camera, at the correct reading distance.
Press [next] button for teaching-in the data matrix code. If there are no hits during setup, please check the
parameter settings explained in chapter 15.
The data matrix code should now be read continuously and the graphic evaluation of the quality analysis
displayed.
The following graphic should be displayed on the screen of the PLM PC:
The displayed ML value must correspond to the value on the calibration card (+/-5).
Please make sure that the measurements are made in exactly the same area of the image where you want to read
the production code.
4.) Adjustment of illumination
If the ML value varies, the illumination of the camera must be adjusted.
In order to do so, open the M18x1 screw blocking access to the objective and turn the aperture ring from the
outside with a suitable tool, e.g. a small pointed screwdriver, making sure not to alter the focus of the objective.
Make sure that you don’t change the focus of the lens.
Do not terminate the 'Calibration' function until you have successfully completed the process.
Note: Some cameras might have an adjustable internal illumination. If the software detects the presence of
an adjustable illumination, it will display a slider for manual adjustment of image brightness. Please
do not try any brightness adjustment on the aperture of your camera.
Aperture Focus
88
19 QR Code Window Parameters
In a QR window a QR (Quick Response) code can be inspected. The code content is read by the camera and
compared with the reference code. If they match, the “good” signal is given.
The quadratic code can be read in any orientation.
The camera can also send the read content of the code on the serial interface without a comparison.
With “Main menu” > “Change product” > “Parameter QR window” any necessary setting can be made by the
operator.
Parameter QR CODE X
Control QR0 ON --- >>NEXT>
>
Searching area 180 74 364 351
Size Finder: 135x135 px² Modules: 14x14 mod² --- ---
Color Black --- --- ---
Threshold Search: 102 Code: 102 Attempts:1 ---
Filter 1.Filter: 1 2.Filter: 0 Noise
reduction:OFF ---
Dot-Code OFF --- --- ---
Code Syntax Symbology ID: OFF --- --- ---
Learn Code/Compare 4:’1111’ ON --- ---
OCV Reference OFF --- --- ---
Code to RS232 OFF --- --- ---
Searching area
The search area defines the position and size of the control window in which the QR code will be detected.
Size - Finder
The Finder Size will help the camera finding the 3 Finder Elements which are part of every QR code and are
important for recognition of size, position and orientation of the code.
Size - Modules
The number of modules states the number of modules the code consists of, e.g. 21x21 modules. Using the “Auto”
function, the camera can automatically determine the number of modules during inspection and read the code.
Color
The Color parameter states whether the code has been printed in black or white, i.e. black on a white background
or white on a black background.
Threshold - Search
The search threshold defines the contrast for finding the 3 finder elements of the code and for distinguishing them
from any other additional print and the background.
Threshold - Code
The code threshold will be used for distinguishing the black and the white module in a QR code.
Threshold - Attempts
By using the adjustment “Attempts”, multiple evaluations with different threshold levels around the configured value
can be activated. The quantity of attempts can be chosen between 1, 3 and 7. A higher value increases reading
stability for poorly printed codes, but also increases time consumption for evaluation.
89
Filters
If for example there are disruptive ink splashes in the background of the code, the first filter can be used with a
negative value. This will reduce the disruption but also the size of the code modules. To regain the correct size of
the modules, the second filter can be used with a positive value.
Filters: off 1.Filter: -3 1.Filter: -3 & 2.Filter: +1
Filter: Noise Reduction
This filter is suppressing noisy background when switched on.
Please consider that this filter will have an impact on the time consumption of the evaluation.
Dot-Code
Printing a data QR code with an inkjet printer results in the creation of round or circular modules. An ideal printed
module, however, should be square. The camera has various filter functions so that such codes can also be read
accurately. In the software, the user can specify whether a dot (module) = a gap is printed. Or whether a module
smaller or larger than a gap is printed. With this function, several dots per module are used for analysis.
Code Syntax - Symbology ID
The Symbology Identifier (e.g. ]Q3) is part of every QR code as it is defined by ISO/IEC15424. In general this
information is not returned by QR code readers.
With this option the behavior of the camera can be defined. If this option is turned on the camera will add this
identifier to the decoded content as a prefix.
Teach-in code
The following parameters can be set manually by the operator or determined automatically by the camera:
threshold values, finder size, reference code and number of modules.
0 [_] Threshold [_] Size [_] Reference code [_] No. modules
1 [X] Threshold [X] Size [_] Reference code [_] No. modules
2 [X] Threshold [X] Size [X] Reference code [_] No. modules
3 [X] Threshold [X] Size [_] Reference code [X] No. modules
4 [X] Threshold [X] Size [X] Reference code [X] No. modules
The marked elements will be automatically defined by the camera, when setting a new reference code in the main
menu.
Comparison
By default camera releases a good signal to the machine control, when the decoded code matches the reference
code.
The camera provides an option here to stop the machine, as soon as it reads a wrong code. For this it will
deactivate its system ready (SR) signal.
A third option is to turn off comparison. Then the camera will evaluate every readable code as a positive result,
independent from the code content.
90
OCV Reference
These parameters define a function which enables an adjustable portion of the read data matrix code to be used as
the reference code of an OCV/OCR window.
A wizard will ask for the necessary values one after the other and thus simplify input:
- First it will ask which OCV/OCR window to use as the target for the operation.
- Then it will ask for the start position in the QR reference code (There is a '0' position)
- Then it will input the number of characters to transfer
- Lastly, it will ask for the position in the target. (There is a '0' position and the target must have at
least enough reference characters to accommodate the beginning of the transferred characters.
Example:
The text “Total---” was input as the reference code for OCV0.
The setting in the parameter table looks like this:
OCV Reference OCV0 6\7\5 --- ---
A calibration card with the text “Pharmacontrol Electronic GmbH” appears in front of the camera.
Reading in the production mode results in the following reference code in the OCV0 window: „Total control“
Code to RS232 (option)
If this function is activated, the camera sends the code content via the RS232, for example, to a PC.
91
20 Code Aggregation
The Aggregation Mode is an optional mode for Smart Cameras which are for example integrated into a Case Packer
System. The Aggregation can be activated in the Parameter Table of a Barcode or DM Code window. When
activated, the mode will be applied to all Barcode and DM Code windows of the current product.
For the function of aggregation, the camera needs two signals from the machine or PLC:
Primary Gate on Input1
Secondary Gate on Input2
The Primary Gate Signal must be high during the aggregation cycle and point out the end of this cycle with its
falling flank. If applicable, the Secondary Gate must point out the end of a subset of codes from the current cycle.
After each aggregation cycle the camera will send all aggregated codes to the PLM.
The maximum amount of codes for one aggregation cycle (e.g. one packing case) is 500.
Operating Modes
The code aggregation can be activated in two different modes (the appropriate mode is depending on the type of
the machine):
Aggregation
In this basic mode all code reading results (no matter if positive or negative) will be submitted to the PLM, this
means unreadable codes will also be sent as part of the aggregation data in form of an error message (prefixed
with “#ERR”).
In this operating mode, the Secondary Gate signal should be coupled [ ] with the Primary Gate signal
physically.
Primary Gate
Trigger & Analysis
Secondary Gate
Good
Bad
Good
Good
Aggregate
Submit Aggregate
Aggregate
Aggregate
92
Aggregation (partial rejection)
If the aggregation system e.g. has a rejection system for a series of products (a layer or a row), a PLC may use the
cameras result output to reject a series if at least one code of it was unreadable.
As the Codes from this series then should not be part of the aggregated data, the camera has this operating mode
in which it will discard these codes (all codes of a series with at least one bad reading).
A series of codes is defined by the Secondary Gate.
Primary Gate
Trigger & Analysis
Secondary Gate
Good
Bad
Good
Good
Aggregate
Ignore
Aggregate
Submit
93
21 Appendix
21.1 Error Messages and Error Recovery
Error message Error recovery
System fails to start: Switch system off and on again.
Check connection leads.
System cannot be operated using the mini keyboard: LAN connection OK?
Switch system off and on again.
System cannot be operated from the PC:
Has the IP address been configured correctly?
Has the correct port on the PC been selected?
Network hardware hub, switch and cabling correct?
Firewall in PC active?
System fails to take a photo: Check the trigger signal.
The photo is blurred: Check the distance between the camera and the object.
Good characters are mistaken for errors: Check character set, if necessary, conduct new character teach-in.
Characters in the character set are not readable: Avoid reflections, new character teach-in.
Incorrect readings in the production run
for the optical character verification:
Control window or measuring lines wrongly positioned.
Reset window.
Brightness of background is not even.
Reduce reflections.
Protect against any external light.
Check references entered.
Train characters.
Incorrect readings at high speed: Reduce machine clock speed.
Check whether trigger signal bounces.
“No window set!” One window has to be set.
“Characters not found in the memory!” Teach-in character.
“No teach-in for character!” Teach-in character.
Please teach-in the character set first!” Teach-in character.
Please take photo first!” Take live photo.
Reference code is not permissible!” Change reference code.
Too many different characters!” Enter correct number of characters.
“For dynamic reference code, teach-in compulsory for
all digits!” Teach-in the characters 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9.
„!! Password is incorrect!!” Enter correct password.
“Passwords are not identical” The second new password must agree with the first.
„! Character set memory is empty!” In the OCV mode the characters must be taught in first.
„! Character set memory is full!” No more characters can be taught in. To teach-in new characters,
old characters first have to be deleted.
“Incorrect number of characters! Characters found:”
The number of characters entered does not agree with the number
of taught-in characters. Enter correct number of characters or repeat
the procedure.
“Error when loading the device data”
“The default settings are
used” “ < > “
No data is available in the camera. Error message only occurs
when switching on for the first time.
„!!!! Flash memory is full!!!!” Flash memory is full, delete characters not required.
„!!!! Error Flash memory!!!!
“Data could not be stored.”
Memory is full or an error has occurred. Repeat memory
procedure or delete old characters.
“Error when loading the product! < > “ Repeat loading, or product is not available.
“Error when initializing the
main FDC < >.”
Error message cannot be influenced.
Statistic Buffer full for [IP]
Press Quit on the screen. You may have to remove all products
between the Master and Slave Camera because their statistic data
will be lost.
Statistic not sent. Camera was not able to send Statistic data to PLM before next
trigger. Press Quit on the Screen and check speed limitations.
“!TO!”
Time OUT: evaluation was stopped, because time reached the
defined Time Out value. See also chapter “System Parameters/ Time
Out”
“E01” Missing character in reference code
“-.” Object width out of tolerance. See also chapter
“Parameters of OCV / TIN Windows/ Control “ . “ and “ – “ “
“1000” Character height is out of tolerance. See also chapter “Change
94
scaling tolerance / scaling tolerance”
“ERROR: SENSOR1 (PRODUCT DISTANCE)”
Description: Too many triggers on Sensor1 (product distance
not ok/too small or sensor error).
Solution: Check object distance and adjustment of
Sensor1.
“ERROR: SENSOR2 (UNEXPECTED SIGNAL)”
Description: Too many triggers on Sensor2 (sensor error,
failure of Sensor1).
Solution: Check operation of Sensor1 and adjustment of
Sensor2.
“ERROR: SENSOR3 (NOT EJECTED)”
Description: If product was faulty, but was not ejected and
passed Sensor3.
Solution: Check ejection system and and timings.
“ERROR: SENSOR3 TIMEOUT (WRONG EJECTED)”
Description: Product passed Sensor1 and result was good,
but camera received no signal from Sensor3
within the defined time frame.
Solution: Check ejection system and timings and
operation of Sensor3.
“ERROR: SENSOR2 TIMEOUT"
Description: Product passed Sensor1 but camera received no
signal from Sensor2 within the defined counter
check time frame.
Solution: Check operation of Sensor2 and timings.
“ERROR: NO REFERENCE DATA RECEIVED” Description: Camera not received new data before next
trigger; see chapter System parameter/Reference
data receive check;
Solution: make sure that data will be send from external
or switch off control;
“No connection to image server” Description: Camera is missing an external FTP server for
storing failed images.
Solution: start FTP server or switch off function storing
failed images.
If the error cannot be remedied in this way, please call the Customer Service.
95
21.2 Maintenance
The device has been specially designed for industrial requirements. As a result, reliable operation is guaranteed
under the normal conditions existing in production plants, provided that trained personnel have installed the device.
For perfect operation, it is necessary to clean the glass plate of the camera housing at regular intervals. For
cleaning, only use the cleaning cloths and agents intended specially for this purpose.
Note: The device itself has no mechanical wearing parts and therefore requires no maintenance.
If a Grading according to ISO 15415 for DM or ISO 15416 for other Code types shall be performed a
calibration described in chapter 18.2 Camera Calibration for Data Matrix Quality Control Reasons.
21.3 Further Documents
The following table shows further documents available for Smart Cameras.
Further Documents
SMC 3 Hardware
Documentation Describes the functionally and handling of camera Hardware.
JDatatrans Software
Manual
Describes the functionally and handling of the service tool JDatatrans which is
running on a PC.
Patch Panel 3
Manual
Describes how to connect the camera cables to the patch panel and a switching
cabinet and shows the wire and pin assignment.
SMC 3-Series
Datasheets The datasheets for SMC 3 cameras shows properties of cameras in compact form.
96
21.4 Adjusting the Focus / Reading Distance
The following description can be used to check if the image sharpness displayed by the PLM or the SMC Client
corresponds to the expected image quality or if the image sharpness needs to be readjusted after setting the reading
distance desired.
After adjusting the Focus and the Image brightness change the quality of image transfer back to the pre-set value of
“2” or turn off the Zoom mode. Setting the quality of image transfer too high can increase the processing time
during production by more than 10 ms.
Standard cameras have a reading distance of 89 mm; as a general rule the reading distances are set during the
installation of the system. If the reading distance changes, the focus have to be adjusted manually.
Note: Some cameras might have an adjustable lens, if the software detects the presence of an adjustable
lens, it will display the buttons Focus and Autofocus on the menu for ‘Optical Settings’.
Please make all the adjustments by software using the Focus or Autofocus function.
Instruction to adjust the focus:
1. Increase the size of the details displayed either by turning on the “Zoom” mode in the “Main Menu” or by
switching image quality to “1” in “Service – Image configuration - image transfer”.
2. Then switch the camera to the “Live image” mode.
3. Now adjust the distance between the object and the camera until the image displayed on the screen
corresponds to the size desired.
4. Loosen the screws of the lid, which closes the opening to the lens, and turn the ring for the focal distance
from the outside using a suitable tool such as a small pointed screwdriver until you see a clear, sharp
image on the screen. Make sure that you did not accidentally change the f-stop.
5. Change the quality of image transfer back to the pre-set value of “2” or turn off the Zoom mode. Setting the
quality of image transfer too high can increase the processing time during production by more than 10
ms.
Aperture Focus
97
22 Specifications for OCR/OCV Control
22.1 Font
Font type
In principle the camera can check almost any font type. But because the characters in certain fonts can be hard to
distinguish, we recommend using OCR-A (ISO 1073-1) or OCR-B (ISO 1073-2) font.
Character spacing
There should be a space of at least one line width perpendicular to the reading direction between characters.
Font size
The smallest possible font size depends on the size set for the field of view and on the camera resolution. Cameras
are set to a minimum font size of 2 mm by default.
Font color
The camera can check either light font on a dark background or dark font on a light background. The contrast
between the characters and the background should be as high as possible. Black font on a white background is
ideal, whereas yellow font on a white background, for example, is problematic. The contrast can also be enhanced
by using application-specific lighting. The character background should be uniform.
Printing technique
Stamp, hot stamp, block, thermal transfer, laser, and also inkjet and UV print can be read. A special UV light source
is required for UV ink. For laser and inkjet print, there are filters in the software for connecting the individual dots.
98
22.2 Permissible Characters for OCR/OCV Control
Unicode Character Unicode Character Unicode Character
0020 SPACE (not checked) 0043 C 0065 e
0021 ! (not valid) 0044 D 0066 f
0022 " 0045 E 0067 g
0023 # 0046 F 0068 h
0024 $ 0047 G 0069 i
0025 % 0048 H 006A j
0026 & 0049 I 006B k
0027 ' 004A J 006C l
0028 ( 004B K 006D m
0029 ) 004C L 006E n
002A * (not checked) 004D M 006F o
002B + 004E N 0070 p
002C , 004F O 0071 q
002D - 0050 P 0072 r
002E . 0051 Q 0073 s
002F / 0052 R 0074 t
0030 0 0053 S 0075 u
0031 1 0054 T 0076 v
0032 2 0055 U 0077 w
0033 3 0056 V 0078 x
0034 4 0057 W 0079 y
0035 5 0058 X 007A z
0036 6 0059 Y 007B {
0037 7 005A Z 007C |
0038 8 005B [ 007D }
0039 9 005C \ 007E ~
003A : 005D ] 00a3 £
003B ; 005E ^ 00c4 Ä
003C < 005F _ 00d6 Ö
003D = 0060 ` 00dc Ü
003E > 0061 a 00df ß
003F ? (not valid) 0062 b 00e4 ä
0040 @ 0063 c 00f6 ö
0041 A 0064 d 00fc ü
0042 B 20ac €
99
Cyrillic character:
Note: The characters listed above can be taught -in or entered as reference characters respectively. The
ability to differentiate the characters from each other depends amongst others on the font type and
the features of the respective characters. “SPACE”(u0020) can be entered as reference character,
however it will not be checked. “*” (u002A) is used as replacement character. “!”(u0021) and
“?”(u003F) are used as control characters.
Unicode Character Unicode Character
0401 Ё 0432 в
0404 Ɣ 0433 г 0407 Ɨ 0434 д
0410 А 0435 е
0411 Б 0436 ж
0412 В 0437 з
0413 Г 0438 и
0414 Д 0439 Й
0415 Е 043A к
0416 Ж 043B л
0417 З 043C м
0418 И 043D н
0419 Й 043E о
041A К 043F п
041B Л 0440 р
041C М 0441 с
041D Н 0442 т
041E О 0443 у
041F П 0444 ф
0420 Р 0445 х
0421 С 0446 Ц
0422 Т 0447 ч
0423 У 0448 ш
0424 Ф 0449 щ
0425 Х 044A ъ
0426 Ц 044B ы
0427 Ч 044C ь
0428 Ш 044D э
0429 Щ 044E ю
042A Ъ 044F я
042B Ы 0451 ё
042C Ь 0454 Dž 042D Э 0457 Lj 042E Ю 0490 Ǫ 042F Я 0491 ǫ 0430 а
0431 б
10
0
23 Readable Code Types
Pharmacode
2-Track
Pharmacode
Code-39
Code-32
Interleaved
2 of 5
Code128
GS1-128
(EAN.UCC
128)
10
1
UPC_A
EAN-13
EAN-8
Codabar
Data Matrix
(ECC 200)
GS1 Data Matrix
EAN Data Matrix
PPN Code
Data Matrix
QR Code
GS1-DataBar
(before RSS14)
10
2
GS1-DataBar
Truncated
GS1-DataBar
Stacked
GS1-DataBar
Limited
EAN.UCC
Composite (CCA)
PDF417
(ECC Level 0 –
6)
Compact
PDF417
(truncated)
(ECC Level 0 –
6) GS1-DataBar has been named as RSS14 before. EAN.UCC Composite (CCA-Code) does apply only in connection
with GS1-DataBar. In this case a control window has to be set for both codes.
10
3
10
4
24 Index
A
Accept error images .......................................... 33
Adjusting image sharpness ................................ 83
Alias ................................................................ 47
Applications for optical character verification .......... 5
Assignment for the System Plugs .......................... 7
Autofocus......................................................... 36
B
Black on white ................................................. 48
Brightness compensation .................................. 52
Brightness correction ......................................... 52
C
Calibrate ........................................ 67, 74, 84, 85
Change character set ........................................ 47
Change Product ................................................ 26
Character ......................................................... 27
Check quantity ................................................. 50
Clock overflow .................................................. 42
Code ............................................... 8, 70, 77, 87
Code Type ....................................................... 56
Code types ....................................................... 56
Code-Control .................................................... 55
Colour Inverted ................................................. 20
Configure ......................................................... 26
Connection ........................................................ 5
Connectivity ....................................................... 6
Contrast ........................................................... 58
D
Data .......................................................... 67, 76
Data Matrix Mode ............................................... 8
Delete counter .................................................. 33
Diagnosis ........................................................ 34
Diagnosis value ............................................... 34
Dimmer ........................................................... 36
Direction .......................................................... 48
Display error images ......................................... 33
Disruptive pixels’ .............................................. 49
Distinguishing periods and hyphens ................... 51
Dot-code.................................................... 69, 77
Dynamic .......................................................... 71
E
Empty line pixels .............................................. 49
Error messages ................................................ 81
Error recovery ................................................... 81
External Illumination ........................................... 7
F
Filter .................................................... 57, 71, 77
Finder .............................................................. 56
Focus .............................................................. 36
Font ................................................................ 47
Fonts ............................................................... 27
G
Gap ................................................................. 50
General Instructions ............................................ 4
Geometry ......................................................... 43
Good outputs ................................................... 36
Good signal ..................................................... 37
Grading ............................................... 59, 69, 72
Grey .............................................. 19, 66, 68, 76
Grey threshold measuring arrows ....................... 19
Grey threshold windows .................................... 19
Grid ................................................................. 69
GS1-Test.................................................... 59, 68
H
Hardware ........................................................... 5
I
I/O configuration ............................................... 36
I/O-Cable ........................................................... 7
Identifier........................................................... 47
Image transfer quality ........................................ 42
Ink-Jet-Filter ..................................................... 51
Installation and start-up ....................................... 4
Intended use ...................................................... 4
Interspaces ...................................................... 50
Inverse ................................................ 66, 68, 76
Inverse Filter ..................................................... 48
ISO15415 ................................................. 59, 69
K
Key assignments .............................................. 11
L
Language ........................................................ 44
Learn character group ....................................... 27
Link ................................................................. 36
M
Maintenance .................................................... 82
Maximum character size ................................... 50
Menu Overview ................................................. 24
Menu selection ................................................. 10
Minimum character size .................................... 50
Mirror .............................................................. 43
Module ................................................ 67, 68, 76
N
Noise pixels ..................................................... 49
Noise Reduction ................................... 52, 58, 77
Number ........................................................... 50
O
OCR .................................................................. 8
OCR-Parameter ................................................ 47
OCV ...................................................... 8, 71, 78
OCV-Parameter ................................................. 47
omnidirectional ................................................ 56
105
Operation ......................................................... 10
Optical Character Verification .............................. 47
Optical Character Verification Service ................... 47
Optical Settings ................................................. 35
P
Pass- and search tolerance ................................ 30
Passwords ....................................................... 45
Pixel ...................................................... 8, 22, 65
Place holder ..................................................... 50
Position ........................................................... 48
Product administration ....................................... 26
Q
Quiet zone ........................................................ 55
QZone .............................................................. 55
R
Reading direction .............................................. 48
Reference ......................................................... 23
Reflection ......................................................... 52
Reflection correction .......................................... 52
S
Safety measures .................................................. 4
Save counters ................................................... 42
Service Menu .................................................... 34
Setting ............................................................. 21
Setting control window ....................................... 18
Show character set ............................................ 28
Show Font ........................................................ 28
Shutter ............................................................. 35
Size ................................................................. 48
Size tolerance ................................................... 30
Start-Up ................................................ 13, 14, 15
Statistics .......................................................... 33
switch off ......................................................... 26
Switching off the camera .................................... 26
System cable ...................................................... 7
System parameters ............................................ 35
T
Teach-In Mode .................................................... 8
Technical Specifications ..................................... 82
Time Out .......................................................... 42
TIN-Parameter ................................................... 47
Train characters ................................................ 27
Transport ............................................................ 4
Turn ................................................................. 43
Type .............................................................. 8, 9
U
User ................................................................. 45
User administration ........................................... 45
V
Valid ................................................................ 86
Virtual Keyboard ................................................ 12
W
White on black .................................................. 48
Wildcard .......................................................... 50
Window name OCR ..................................... 47, 54
Z
Zoom ............................................................... 46
Pharmacontrol Electronic GmbHGernsheimer Strasse 264673 Zwingenberg, GermanyTel. +49 6251 8545-0Fax +49 6251 8545-111www.mt.com
Subject to technical changes.© Pharmacontrol Electronic GmbH 05/2017Optical Character / Code Verification - OCV 7.001 - User Manual - DocumentVersion A
For more informationwww.mt.com/pce
Optical Character / Code Verification - OCV 7.001 - User Manual - Document Version A 5/19/201712:58 PM - Schema ST4 PDF engine - Layout by Victor Mahler