FP04
FP11
Farbsensor
Color Sensor

Bedienungsanleitung
Operating Instructions

SAP NR. 80213
Stand: 11.04.2011


EN

21

Index
1. Proper Use

22

2. Safety Precautions

22

3. Device Features
3.1. Device Types
3.2. Connection Diagram
3.3. Housing Dimensions
3.4. EC Declaration of Conformity
3.5. Technical Data

3.6. Complimentary Products (see catalog)
3.7. Control Panel
3.8. Mounting Instructions

22
22
23
23
23
24
25
25
25

4. Adjustment
4.1. Setting the Outputs to the Desired Colors
4.2. Function
4.2.1. On-Delay and Off-Delay
4.2.2. Activating/Deactivating Outputs
4.2.3. Trigger Function at Pin 5
4.3. Interface and Software-Tools

27
27
30
30
31
33
33


5. Maintenance Instructions

38

6. Proper Disposal

38

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1. Proper Use
This wenglor product has to be used according to the following functional principle:
Color Sensors
The white light source and receiver optics are integrated into a single housing (reflex mode), or enclosed in
two separate housings (through beam mode). The Sensors are capable of recognizing previously defined
colors. These include colors of transparent objects and liquids in the through-beam operating mode, as well
as colors of surfaces in reflex mode operation. The various color Sensors are differentiated by configuration
and type of utilized white light source.


2. Safety Precautions
• This operating instruction is part of the product and must be kept during its entire service life.
• Read this operating instruction carefully before using the product.
• Installation, start-up and maintenance of this product has only to be carried out by trained personal.
• Tampering with or modifying the product is not permissible.
• Protect the product against contamination during start-up.
• These products are not suited for safety applications.

3. Device Features
3.1. Device Types
FP04PCT80
FP11PCT80
Function: Scanning mode Function: Barrier mode
Application: Colored surfaces Application: Transparent objects



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3.2. Connection Diagram
+
A1/ 1
A2/ 2
A3/ 3
RxD/W

TxD/T

–
S

156

10 to 30 V supply power
Switching output A1
Switching output A2
Switching output A3
RxD: Interface Input Cable
W: Trigger-Input
TxD: Interface Output Cable
T: External Teach-Input
Minus
Shield

3.3. Housing Dimensions

 = optical axle
3.4. EC Declaration of Conformity
All optical and inductive proximity switches have been designed, engineered and manufactured in accordance

with the directives listed below. The following international standards and specifications apply:
• EN 50 081 Electromagnetic compatibility, generic standard for interference emission
Part 1 Residential, business and commercial areas
Part 2 Industrial applications
• EN 50 082 Electromagnetic compatibility, generic standard for interference immunity
Part 1 Residential, business and commercial areas
• EN 60 947-5-2 Low-voltage switchgear, control switches/proximity switches
Other applicable standards for use must be taken into consideration as well.

50 V

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3.5. Technical Data
Optical Data
Working Range
Working Distance
Reference Reflector
Light Source

Service Life (T = 25 °C)
max. Ambient Light
Light Spot Diameter
Electrical Data
Supply Voltage
Current Consumption (Ub = 24 V)
Switching Frequency
Response Time
ON-/OFF-Delay
Temperature Range
Switching Outputs
Switching Output Voltage Drop
PNP Switching Output/Switching Current
Short Circuit Protection
Reverse Polarity Protection
Teach Mode
Interface
Baud Rate
Digital Inputs
Mechanical Data
Adjustment
Housing
Protection Mode
Connection
Protective Insulation, Rated Voltage

FP04PCT80

FP11PCT80


30...40 mm
35 mm
–
White Light
100000 h
10000 Lux
2 mm

10...1000 mm
–
RE6151BM
White Light
100000 h
10000 Lux
10 mm

10...30 V
< 50 mA
1660 Hz
300 µs
0...1 s
–25...60 °C
3
1,5 V
200 mA
yes
yes
FT
RS-232
38400 Bd

2

10...30 V
< 50 mA
1660 Hz
300 às
0...1 s
25...60 C
3
1,5 V
200 mA
yes
yes
FT
RS-232
38400 Bd
2

Teach-In
Plastic
IP67
M12ì1
50 V

Teach-In
Plastic
IP67
M12ì1
50 V


FT: Window Teach-In

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3.6. Complimentary Products (see catalog)
wenglor offers Connection Technology providing field wiring means.
Suiting Mounting Technology No.

80
S01

Suiting Connection Technology No.

380

Interface Cable S232W3
Protection Housing Set ZSP-NN-02
Protection Housing ZSV-0x-01


3.7. Control Panel

= Minus key (with LED)

= Plus key (with LED)
A1
= Switching status display for output 1
A2
= Switching status display for output 2
A3
= Switching status display for output 3
ON Delay = On Delay
OFF Delay = Off Delay
Trigger
= Trigger mode
RS-232
= Interface operating mode
TEACH A3 = Teach output 3
TEACH A2 = Teach output 2
TEACH A1 = Teach output 1
RUN
= Run-function
Ý
= Rotary selector switch

3.8. Mounting Instructions
All applicable electrical and mechanical regulations, standards, normative documents and safety rules must be
observed during operation of the Sensors. Sensors must be protected against mechanical influences.
These Sensors are not suitable for use in safety applications!
The distance between the optic and the surface of the object must be 35 mm.

The Sensor must be fixed during the measurements.

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35
m

m

FP04

20 45

Spot Diameter
Working Distance
Light Spot Diameter

30 mm
3 mm


35 mm
2 mm

40 mm
3 mm

FP11
10 1000 mm

Reflector
e.g. Typ RE6451BM

Spot Diameter
Working Distance
Light Spot Diameter

10 mm
5 mm

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200 mm
10 mm

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1000 mm
50 mm


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4. Adjustment
4.1. Setting the Outputs to the Desired Colors
Outputs 1, 2, 3
• Set the rotary selector switch Ý to Teach A1, Teach A2, Teach A3
• Press and hold the plus key 
è The LED at the plus key lights up
è The LED at the plus key goes out after 1 second, and the switching status display for output 1,
output 2, output 3 starts blinking
• Release the plus key 
è Color is taught in to output A1, A2, A3
• Set the rotary selector switch Ý to RUN
• Check for correct function
Checking for Correct Function
• If the Sensor is unable to correctly differentiate amongst the selected colors in the actual application,
window width must be reduced.
• If additional colors need to be recognized at an output to which a color has already been taught in, these
can be subsequently taught in to the output.
• If the output demonstrates unreliable switching due to erratic measuring conditions, window width must
be increased.
Setting Color at Output 1 via External Input Pin 4
Use of the external Teach-Input (Pin 4):

If you use the external Teach-Input (Pin 4) you have to connect a 1 kOhm/1 W-resistor between Pin 4 (external
Teach-Input) and Pin 3 (GND).
Do not connect this resistor if you use the serial interface of the Sensor!
This function can only be used for output A1.
• Set the rotary selector switch Ý to RUN
• Apply 10…30 V to external Teach-In input T (Pin 4) for a period of 0,3 seconds
• Disconnect voltage from the Teach-In input
è Color is taught in to output A1
• Check for correct function
Subsequent Color Teach-In
This function allows for subsequent Teach-In of further colors in addition to an already taught in color to any
given output.
Example:
A specific color needs to be recognized. However, an additional color or a permissible color deviation needs
to be recognized as well. The initial color is taught in to the desired output. All other additional colors which
also need to be recognized are subsequently taught in to the same output. The entire spectrum which lies
between the taught in colors is recognized.
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Subsequent Output Teach-In
• Direct the Sensor’s spot at the color to be taught in subsequently
• Set the rotary selector switch Ý to the desired output (Teach A1, Teach A2, Teach A3)
• Press and hold the minus key 
è The LED at the minus key lights up
è The LED at the minus key goes out after 1 second
è The switching status display for the corresponding output A1, A2, A3 blinks slowly
• Release the minus key 
è The additional color is taught in to the corresponding output
• Set the rotary selector switch Ý to RUN
• Check for correct function

Setting Window Width
When the color value is taught in, a color recognition window width is established at the same time. Window
width can be set to one of 7 different values individually for each output. Small window width: The wenglor®
FPxx color Sensor recognizes extremely fine color differences. Large window width: The wenglor® FPxx color
Sensor only differentiates amongst color families. The window width default is 3, which represents a medium
value.

Checking the Current Window Width Setting
• Set the rotary selector switch Ý to the desired output (Teach A1, Teach A2, Teach A3)
• Press and hold the minus key 
è The LED at the minus key lights up
è The LED at the minus key goes out after 1 second
è The switching status display for the corresponding output A1, A2, A3 blinks slowly
è The switching status display for the corresponding output A1, A2, A3 starts blinking rapidly after
approximately 3 seconds
• Release the minus key 
è Observe the display which indicates the current window width setting and refer to table 1
• Check window width

• Set the rotary selector switch Ý to RUN

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Window Width Setting Displays
Window Width at the Respective LED at Minus Key 

LED at Plus Key 

0 (extremely fine color difference are
1× blink, pause, 1× blink
recognized)

off

1
2
3 (default setting)
4

5

2× blinks, pause, 2× blinks
3× blinks, pause, 3× blinks
4× blinks, pause, 4× blinks
off
off

off
off
off
1× blink, pause, 1× blink
2× blinks, pause, 2× blinks

6 (differentiates amongst color
families only)

off

3ì blinks, pause, 3ì blinks

Table 1

Adjusting Window Width
ã Set the rotary selector switch Ý to the desired output (Teach A1, Teach A2, Teach A3)
• Press and hold the minus key 
è The LED at the minus key lights up
è The LED at the minus key goes out after 1 second
è The switching status display for the corresponding output A1, A2, A3 blinks slowly
è The switching status display for the corresponding output A1, A2, A3 starts blinking rapidly after

approximately 3 seconds
• Release the minus key 
è The setup mode is now activated
è Observe the display which indicates the current window width setting and refer to table 1
• Briefly press the minus key 
è The window width for output A1, A2, A3 becomes smaller
• Check for correct function
• Briefly press the plus key 
è The window width for output A1, A2, A3 becomes larger
• Set the rotary selector switch Ý to RUN
è The new setting is saved to memory
• Check for correct function

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Exiting the Setup Mode
• Set the rotary selector switch Ý to RUN
è The new setting is saved to memory
... or ...

• Press and hold the minus key 
è The LED at the minus key lights up
è The LED at the minus key goes out after 1 second, and the switching status display for the corresponding output A1, A2, A3 starts blinking
• Release the minus key 
è The new setting is saved to memory
... or …
• Do not activate any keys for a period of 60 seconds
è The setup mode is exited without saving any changed settings to memory

4.2. Function
4.2.1. On-Delay and Off-Delay
Object
Color
Agreement

yes
no
on
off
on
off

Time
Time

Delay

Time
Delay


Time

Adjusting On-Delay
• Set the rotary selector switch Ý to on-delay
è Observe the display which indicates the current on-delay setting and refer to table 2
• Briefly press the plus key 
è On-delay is increased
• Briefly press the minus key 
è On-delay is decreased
• Set the rotary selector switch Ý to RUN
• Check for correct function
Adjusting Off-Delay
• Set the rotary selector switch Ý to off-delay
è Observe the display which indicates the current off-delay setting and refer to table 2
• Briefly press the plus key 
è Off-delay is increased
• Briefly press the minus key 
è Off-delay is decreased
• Set the rotary selector switch Ý to RUN
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Delay Time Setting Displays
Delay

LED at Minus Key 

LED at Plus Key 

0,3 ms*
10 ms
20 ms
50 ms
100 ms
200 ms
500 ms
1000 ms

1×
2×
3×
4×
off
off
off
off

off
off
off

off
1×
2×
3×
4×

blink, pause, 1× blink
blinks, pause, 2× blinks
blinks, pause, 3× blinks
blinks, pause, 4× blinks

blink, pause, 1× blink
blinks, pause, 2× blinks
blinks, pause, 3× blinks
blinks, pause, 4× blinks

*Default setting

Table 2

4.2.2. Activating/Deactivating Outputs
Deactivating and Activating Output 2 and Output 3
Outputs 2 and 3 of the wenglor® FPxx color Sensor can be deactivated.
Switching frequency for the remaining outputs can be increased in this way.
Output 2 Deactivated
yes
yes
no
no


Output 3 Deactivated
yes
no
yes
no

Switching Frequency
1,66 kHz
830 Hz
830 Hz
550 Hz*

*Default setting

Table 3

Output 1 cannot be deactivated! After deactivation/activation of one or several outputs, the other
active outputs have to be teached-in anew.
Checking Output 2 for Activation/Deactivation
• Set the rotary selector switch Ý to Teach A2
è The switching status display for output 2 does not blink
è Output 2 is activated
è The switching status display for output 2 blinks rapidly
è Output 2 is deactivated

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Deactivating Output 2
• Set the rotary selector switch Ý to Teach A2
• Press and hold the plus key 
è The LED at the plus key lights up
è The LED at the plus key goes out after 1 second
è The switching status display for output 2 blinks slowly
è The switching status display for output 2 starts blinking rapidly after approx. 10 sec.
• Release the plus key 
è Output 2 is deactivated
è The switching status display for output 2 blinks rapidly
• Set the rotary selector switch Ý to RUN
Activating Output 2
• Set the rotary selector switch Ý to Teach A2
è The switching status display for output 2 blinks rapidly
• Press and hold the plus key 
è The LED at the plus key lights up
è The LED at the plus key goes out after 1 second
è The switching status display for output 2 blinks slowly
• Release the plus key 
è Output 2 is activated
• Set the rotary selector switch Ý to RUN
Checking Output 3 for Activation/Deactivation

• Set the rotary selector switch Ý to Teach A3
è The switching status display for output 3 does not blink
è Output 3 is activated
è The switching status display for output 3 blinks rapidly
è Output 3 is deactivated
Deactivating Output 3
• Set the rotary selector switch Ý to Teach A3
• Press and hold the plus key 
è The LED at the plus key lights up
è The LED at the plus key goes out after 1 second
è The switching status display for output 3 blinks slowly
è The switching status display for output 3 starts blinking rapidly after approx. 10 sec.
• Release the plus key 
è Output 3 is deactivated
è The switching status display for output 3 blinks rapidly
• Set the rotary selector switch Ý to RUN
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Activating Output 3

• Set the rotary selector switch Ý to Teach A3
è The switching status display for output 3 blinks rapidly
• Press and hold the plus key 
è The LED at the plus key lights up
è The LED at the plus key goes out after 1 second
è The switching status display for output 3 blinks slowly
• Release the plus key 
è Output 3 is activated
• Set the rotary selector switch Ý to RUN

4.2.3. Trigger Function at Pin 5
• Set the rotary selector switch Ý to Trigger
• Apply the trigger signal (PNP) to input W (pin 5)
è Triggering is executed with a positive signal edge
è The Sensor performs a one-time measurement
è The outputs are updated once only
• Disconnect the signal from the trigger input

4.3. Interface and Software-Tools
Interface
The wenglor® FPxx color Sensor is equipped with an RS-232 interface for communication with a device such as
a PC or a controller. The interface utilizes a software handshake procedure (see protocol specification below).
All Sensor settings can be selected digitally with a PC, and all values generated by the Sensor can be read out
at a PC. In this way, red, green and blue content of the color to be recognized can be read out digitally as well.
Software-Tools
The following software tools are available from the wenglorđ website:
ã lnstall_FP_Demo.exe for the control of all interface functions
• DLL for direct integration into user-specific applications
Download address: www.wenglor.com
Interface Configuration

38.400 baud, 8 data bits, no parity, 1 stop bit
Plug connectors included with the wenglorđ S232W3 plug adapter:
ã 8-pin M12 plug connector for connecting the power supply and the outputs
• 8-pin M12 socket connector for direct Sensor connection
• 9-pin M12 subminiature socket connector for direct connection to the RS-232 interface at the PC, or the
utilized controller
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Connecting the Sensor to a PC, a Controller etc. with the wenglorđ S232W3 Plug Adapter
Installing the wenglorđ S232W3 plug adapter:
ã Switch off the power supply
• Set the rotary selector switch Ý to RS-232
• Disconnect the 8-conductor connector cable (S80-xx) from the Sensor
• Connect the S232W3 plug adapter directly to the Sensor
• Connect the 8-conductor connector cable (S80-xx) to the plug adapter
• Connect the 9-pin subminiature socket connector at the PC to the serial interface
• Switch the power supply on

RS-232


Protocol for Communications via the RS-232 Interface
Frame Layout for Data Transmission
Transmitting Partner
start bit
length information
command byte
1st data byte
2nd data byte
..
n. data byte
checksum (BCC)
stopp bit

Characters
/ (ASCII 47)
2 bytes
2 bytes
2 bytes
2 bytes
..
..
2 bytes
. (ASCII 46)

(ASCII)

=>
=>
=>

=>
=>
=>
=>
=>
=>

Receiving Partner
establish connection
establish connection
data information
data information
data information
disconnect

Frame Section
frame header
frame header
frame header
user data
user data
user data
user data
frame end
frame end

Calculating the Checksum BCC
The checksum is generated from an EXOR link to the frame. Calculation begins with the start bit and ends with
the last character of the user data.
Start Character Length

Command
/
02
0D
2FH
30H 32H
30H 44H
Data used to calculate the checksum
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Data
00
30H 30H

Checksum
59
35H 39H

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Stop character
.
2EH

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Calculating Example:
/2FH =
0010
030H =
0011
XOR =
0001
232H =
0011
XOR =
0010
030H =
0011
XOR =
0001
D44H =
0100
XOR =
0101
030H =
0011
XOR =
0111
030H =
0011
XOR =
0101


Program Example:
1111
0000
1111
0010
1101
0000
1101
0100
1001
0000
1001
0000
1001

Start
Transmitting Frame = “/020D0059.“ (example)
Transmitting Frame Length=10 (in this example);

Checksum = 0; n = 1;
as long as: n < (Transmitting Frame Length - 3)
Checksum = Checksum EXOR Transmitting
Frame character (n)
n = n + 1
End

=> Checksum = 59H

Setting Sensor Functions with Commands

Commands Overview:
Function
Teach-In
Subsequent Teach-In
Adjust window width
Adjust on and off-delay
Read out RGB color value
Read out thresholds
Execute Sensor reset
Deactivate/activate output
Query Sensor version

Command
T
N
f
A
D
s
W
B
V

Teach-In:
Function
Teach Output 1 NO
Teach Output 1 NC
Teach Output 2 NO
Teach Output 2 NC
Teach Output 3 NO

Teach Output 3 NC

Send Frame Transmitted to the Sensor
/020T0049.
/020T0148.
/020T024B.
/020T034A.
/020T044D.
/020T054C.

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Send Frame Returned from the Sensor
/030MT0005.
/030MT0104.
/030MT0207.
/030MT0306.
/030MT0401.
/030MT0500.

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Adjust Window Width:
Function
Window width for Output 1
Window width for Output 2
Window width for Output 3
bb:
qq:

Send Frame Transmitted to the Sensor
/040f01bbqq.
/040f02bbqq.
/040f03bbqq.

Send Frame Returned from the Sensor
/030Mf0037
/030Mf0136.
/030Mf0235.

Window width from 0…6
Checksum

Adjust On- and Off-Delay:
Function
Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
Set on-delay
/040A01bbqq.
/030MA0111.
Set off-delay
/040A00bbqq.

/030MA0010.
bb:
qq:

Delay value from 0…7
Checksum

Read Out RGB Color Values:
Function
Scanning mode
Through-beam-mode
rrrr:
gggg:
bbbb:
aa:
qq:

Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
/020D0059.
/0E0Drrrrggggbbbbaaqq.
/020D0158.
/0E0Drrrrggggbbbbaaqq.

10 bit red color information
10 bit green color information
10 bit blue color information
Status of switching outputs
Checksum

Length: 4 Byte

Length: 4 Byte
Length: 4 Byte
bit 0: output 0, bit 1: output 1, bit 2: output 2

Read Out Thresholds:
Function

AA:
VV:

Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
/000s6C.
/9C0sAAVVRSOARSOERSUE
RSUAGSOAGSOEGSUEGSUA
BSOABSOEBSUEBSUAAAVV
RSOARSOERSUERSUAGSOA
GSOEGSUEGSUABSOABSOE
BSUEBSUAAAVVRSOARSOE
RSUERSUAGSOAGSOEGSUE
GSUABSOABSOEBSUEBSUA
gg.
Output
Channel amplification factor

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RSOA:
RSOE:
RSUE:
RSUA:

Upper threshold off, red
Upper threshold on, red
Lower threshold on, red
Lower threshold off, red

Length:
Length:
Length:
Length:

4
4
4
4

Byte
Byte
Byte

Byte

GSOA:
GSOE:
GSUE:
GSUA:

Upper threshold off, green
Upper threshold on, green
Lower threshold on, green
Lower threshold off, green

Length:
Length:
Length:
Length:

4
4
4
4

Byte
Byte
Byte
Byte

BSOA:
BSOE:
BSUE:

BSUA:

Upper threshold off, blue
Upper threshold on, blue
Lower threshold on, blue
Lower threshold off, blue

Length:
Length:
Length:
Length:

4
4
4
4

Byte
Byte
Byte
Byte

qq:

Checksum

Query Sensor Status:
Function
Query Status
aa:

bb:
cc:
dd:
ee:
qq:

Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
/000W48.
/0A0Waabbccddeeqq.

Window width, output 1
Window width, output 2
Window width, output 3
Off-delay value
On-delay value
Checksum

Execute Sensor Reset:
Function
Execute Reset
a:
bb:
cc:
qq:

Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
/000R4D.
/070V8a:bbccqq.

Software version

Sensor group (Color Sensor: 07)
Sensor type (FP04: 01, FP11: 02)
Checksum (FP04: 7BH, FP11: 78H)

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Deactivat/Activate Output:
Function
Deactivate output 2
Activate output 2
Deactivate output 3
Activate output 3

Send Frame Transmitted to the Sensor
/040B010F2E.
/040B01075F.
/040B020E2E.
/ 040B02065D.


Send Frame Returned from the Sensor
/030MB0112.
/030MB0112.
/030MB0211.
/030MB0211.

Query Sensor Version:
Function
Query Sensor Version
a:
bb:
cc:
qq:

Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
/000V49.
/070V8a:bbccqq.

Software version
Sensor group (Color Sensor: 07)
Sensor type (FP04: 01, FP11: 02)
Checksum (FP04: 7BH, FP11: 78H)

Transfer error message:
On receipt of incorrect data, e.g. wrong checksum or unknown command, the Sensor sends back an error
message.
Function
Error message
a:
bb:

qq:

Send Frame Transmitted to the Sensor Send Frame Returned from the Sensor
incorrect data
/030Xabbqq.

last valid command
last valid addition
Checksum

5. Maintenance Instructions
This wenglor Sensor is maintenance-free.
It is advisable to clean the lens and the display, and to check the plug connections at regular intervals.
Do not clean with solvents or cleansers which could damage the device.

6. Proper Disposal
wenglor sensoric gmbh does not accept the return of unusable or irreparable products. Respectively valid
national waste disposal regulations apply to product disposal.

Sensors for your success

www.wenglor.com

Sensors for your success

www.wenglor.com


EN


Sensors for your success

39

www.wenglor.com

Sensors for your success

www.wenglor.com


Contacts for your success:
Austria – Linz
wenglor sensoric gmbh
( +43 (0)732 7597-77


Germany – Tettnang
wenglor sensoric gmbh
( +49 (0)7542 5399-0


Portugal – Ilhavo
ProSistAv, Lda
( +351 234 397 210


Belgium – Brussels
wenglor sensoric
( +32 2 412 47-90



Great Britain – Northants
wenglor sensoric Ltd.
( +44 (0)1536 74-7299


Romania – Sibiu
wenglor sensoric romania srl
( +40 (0)269 2077-00


Brazil – Sao Paulo
Murrelektronik do Brasil Ind. e Com. Ltda.
( +55 11 5632-3000


Hungary – Budapest
wenglor sensoric Hungaria Kft.
( +36 1 414 0575


Singapore
Sentronics Automation
( +65 6 744-8018


Bulgaria – Sofia
wenglor sensoric romania srl
( +40 (0)269 2077-00



India – Mahape, Navi Mumbai
wenglor sensoric india private limited
( +91 (022) 4158 0100


Slovakia – Banská Bystrica
EXIM – TECH s.r.o.
( +421 48 414 70 86/87


Canada – Burlington
Hoskin Scientific
( +1 905 333-5510


Italy – Cinisello Balsamo
wenglor sensoric italiana srl
( +39 02/929562-00


Slovenia/Croatia/Serbia
SENSOR d.o.o.
( +386 2 613-1831


China – Shanghai
wenglor sensoric (Shanghai) Co. Ltd.
( +86 21 6855 4890/6855 5295



Korea – Seoul
SEBONG SENSOR CO., LTD.
( +82 2 579-9911


Spain – Barcelona
wenglor sistemas de sensores S.L.
( +34 93 498 75 48


Czech Republic – Prague
Setron s.r.o.
( +420 261 910 222


Mexico – Monterrey
wenglor Mexico, S.A. de C.V.
( +52 81 4444-3196


Sweden – Nässjö
Rutab AB (Treotham AB)
( +46 (0)380/55 50 50


Denmark – Sonderborg
wenglor sensoric gmbh
( +49 (0)7542 5399-0



Moldova – Lasi
wenglor sensoric romania srl
( +40 (0)269 2077-00


Switzerland – Winterthur
wenglor sensoric ag
( +41 (0)52 244 09-11


Finland – Vantaa
Sensorola Oy
( +358 (0)207 289 900


Netherlands – Putten
wenglor sensortechniek b.v.
( +31 (0)341 423064


Turkey – Istanbul
wenglor sensoric Electronic Cihazlar
Sanayi ve Ticaret Ltd.Şti.


France – Angers
wenglor France
( +33 (0)2 41 39 68 68



Poland – Warsaw
wenglor sensoric Polska Sp.z o.o.
( +48 (0)22 6660480


USA – Beavercreek
wenglor sensoric llc
( +1 937-320-0011


Specifications are subject to change without notice.

www.wenglor.com