2
The company headquarters in Waldkirch/Germany
S I C K – A t home in many d i f fe ren t b ranches .
■ Automotive industry
■ Food, beverages and
tobacco industries
■ Packaging industry
■ Handling and warehousing
systems
■ Transport, traffic, logistics
■ Electronics industry
■ Energy management
■ Industrial processes
■ Analyzers and process
instrumentation
and many other branches
safety technology, analyzersand process instrumentationas well as systems for auto-matic identification, makes amajor contribution to modern-ising and rationalising industri-al processes. With over 50years of experience in sensortechnology, SICK has compre-hensive application know-howfrom virtually all industrialbranches and is, therefore,able to provide perfect solu-tions for all branches of indu-stry.
Qua l i t y i s a cen t ra l e lement .
The success of our customersall over the world clearlydemonstrates that the qualityand long service life of SICKsensors set global standards.This is the result of consistentquality management in de-velopment, production, distri-bution and service. Since theconcept of quality has longbeen a central element ofSICK’s company philosophy,each and every employeefeels responsible for makingtheir own personal contri-bution to maintaining the highlevel of product quality.
Welcome to the g loba l p layer fo r sensor te chno logy.
SENSICK – The brand namefor highly advanced andpowerful sensor technology.SENSICK automation solu-tions can be found whereverprocesses have been optimi-sed and improved. Today, withover 3600 employees in morethan 20 different countries,SICK is one of the world’sleading sensor manufactu-rers.
Opt imis ing en t i re p rocess sequences .
Nowadays companies mustthink and react in terms ofprocesses instead of individu-al functions. They must aban-don inflexible workingmethods and optimise value-added activities as a whole.The answer is not found inspecific individual measures,but rather in solutions, whichdeal with the problem in itsentirety.
SICK, as one of the world’sleading providers of sensorsystems for automation,
The Company
S I C K I n d u s t r i a l S e n s o r S y s t e m s
3
In power stations and industrialplants, SICK systems make sure thatthe specified limits are observed, andalso support process management.
In automated production processes,photoelectric safety sensors andsafety light grids, laser scanners andsafety sensors provide effective pro-tection against accidents and injury.
In many cases, SENSICK sensorsensure cost-effective automationprocesses.
SICK bar-code scanner systemscontrol and monitor production andlogistics processes.
Coopera t i ve par tner -sh ips : Jo in t successresu l t ing f romin tens ive d ia logue .
Innovative automation solutions are the result ofintensive dialogue with ourcustomers. SICK considerscritical analysis and continu-ous improvement of one’sown performance to be ofprime importance in main-taining a stable business partnership with its customers.
With great ambition, SICKdevelopment engineers continuously seek to developexisting applications furtherwith regard to precision, easeof application and economicefficiency.
A g loba l se rv ice ne twork tha t i s therewhere you nee d i t .
A wide sales and service network with subsidiaries andrepresentatives all over theworld provide you with expertsupport where you need it.We support our customersand trading partners by pro-viding well-founded coursesand training seminars, assistance in planning andcommissioning, informationconcerning technical inno-vations, and clearly writtenand complete documenta-tion.
All this ultimately contributesto the continued cost-effecti-veness and availability ofyour systems.
SENSICK
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Encoders Ultrasonicsensors
Inductivesensors
Ultrasonicproximity sensors
Ultrasonic double-sheetdetectors
Inductiveproximity sensors,single sensingrange
Inductiveproximity sensors,double sensingrange
Inductiveproximity sensors,triple sensingrange
Inductiveproximity sensors,flush installation
Inductiveproximity sensors,non-flushinstallation
Incremental encoders
Absolute singleturnencoders
Absolutemultiturn encoders
Incrementalwire drawencoder
Absolutewire drawencoder
Absoluteencoders,linear
Optoelectrosensors
Capacitivesensors
Magneticsensors
Inductiveproximity sensors,cylinder housing
Inductiveproximity sensors,threaded cylinderhousing
Inductiveproximity sensors,cuboid housing
Capacitiveproximity sensors
Magneticproximitysensors
Magnetic cylinder sensors,Reed
Magnetic cylinder sensors,electronic
Photoeximity sforegrosuppres
Photoeximity sbackgrosuppres
Photoeximity senerget
Photoereflex s
Throughphotoelsensors
Photoesensorsfibre-op
S E N S I C K
6
onic Accessories
Special accessory for encoder
Connection systems
Mounting systems
Optic
Fibre-optic cables
Switching devices andpower supply units
Other accessories
BUS-Gateways
lectric pro-sensors,undssion FGS
lectric pro-sensors,oundssion BGS
lectric pro-sensors,tic
lectricsensors
h-beamlectrics
lectrics withptic cable
Contrast scanners
Color sensors
Luminescencescanners
Fork sensors
Distancesensors
IR datatransmissionphotoelectricsensors
Light grids
Reflex light grids
IntelligentCamera Sensors
Color Vision Sensor
Light sectionsensors
Position finders
...
7
Modern automated production proces-
ses need management and control sys-
tems, and control systems need infor-
mation.
With the information they provide,
SICK’s highly developed sensors make
way for new economical applications –
based on more than 50 years’ experi-
ence.
EncodersUltrasonic
sensorsCapacitive
sensorsInductivesensors
Magneticsensors
Opto-electronicsensors
SENSICK
SENSICK – Industrial Sensors
Encoders
8
High-precision displacement and angle measurement
Displacement, position, angle – in industrial automation where positions have to be
precisely determined, you simply cannot beat an encoder. The same applies when
determining speed and acceleration. Due to their working principle, the photoelec-
tric scanning of optical code patterns, in linear displacement measurement these
sensors have a resolution of micrometers and in angle measurement they have a
resolution of a few thousandths of a degree. With less demanding tasks, of course,
they cope easily.
Compared to incremental encoders, absolute encoders have one decisive advan-
tage – they do not need a initialising reference-run.
9
Incremental encoders, rotary
Incremental encoders generate information relat-ing to position and angle in the form of electricalimpulses. The number of pulses per revolutiondetermines the resolving capability. The individualposition is determined by counting these pulsesfrom a point of reference. When the power is firstswitched on an initialising reference run is neededto determine absolute position.
Absolute encoders, rotary
Absolute encoders generate information relatingto position, angle or number of revolutions in theform of unique codes. A unique code is assignedto each angular step. The number of uniquecode patterns per revolution determines theresolving capability. Since an absolute position isassigned to each unique code pattern, an initial-ising reference run is not required. Singleturnand multiturn versions are available.
Wire draw encoder
Wire draw encoder consist of wire draw mecha-nism and encoder. The rotation of the drum isproportional to the length being measured. Thismovement is counted by an encoder and convert-ed to a measuring signal. This provides high-reso-lution position or distance information for linearmeasurement paths, even under difficult ambientconditions. Precise linear guidance, as requiredfor other length measurement systems, is notnecessary.
Absolute encoders, linear
Linear position measuring systems for materialhandling applications e.g. storage and conveyingsystems, have particularly high requirements.The current position is continously evaluated bythe sensor unit and is directly transmitted as anencoded signal by the evaluation electronicshoused in the sensor unit. Since the sensor unitand the reference scale are separate compo-nents, even extremely long distances can bemeasured.
Encoders
10
Rotary and Linear encoders
Incremental encoders
Number of pulses from1 to 10,000Zero-pulse Teach-in at thepress of a buttonOpto-ASIC with chip-on-board technologyWide range of flanges andhollow shaftsVarious electrical interfaces
Multiturn absolute encoders
Number of steps perrevolution from 2 to 8,192.Maximum number ofrevolutions: 8,192.The multiturn function isachieved using a gearedmechanismMR sensor system withchip-on-board technology
Rotary encoders
Max. measuring length1,700 mResolution 0.1 mmVarious interfacesNon-contact and wear-free
Linear encoders
Singleturn absolute encoders
Number of steps from 2 to 32,768Simple electronic zero-setat the push of a button orvia a signal lineVarious interfaces
Absolute encoders
Measuring lengths up to 50 mResolution up to 0.025 mmZero-Pulse-Teach viapressing a buttonElectrical interfaces HTL and TTL
Incremental wire draw encoder
Measuring lengths up to 50 m Resolution up to 0.025 mmElectronically adjustable Different interfaces
Absolute wire draw encoder
DRS 60
Any number of pulses
between 1 . . . 8,192
Ø 60 mm
TTL/RS 422, HTL/push pull
4.5 . . . 5.5 V DC
or 10 . . . 32 V DC
6 mm solid shaft
10 mm solid shaft
6,000/10,0001) min–1
–20 °C . . . +85 °C
Axial/radial cable, circular
screwing connector system
axial/radial
IP 65/IP 66
6, 8, 10, 12, 15 mm as well
as 1/4, 3/8 and 1/2 inch
3,000 min–1
–20 °C . . . +85 °C
Axial/radial cable, circular
screwing connector system
axial/radial
IP 65/IP 66
6, 8, 10, 12 mm as well as 1/4, 3/8 and 1/2 inch
3,000 min–1
–20 °C . . . +85 °C
Cable, circular screwing
connector system radial
IP 64
DGS 60/DGS 65/DGS 66
100 to 10,000 all conven-
tional numbers of pulses
Ø 60 mm
TTL/RS 422, HTL/push pull
4 . . . 6 V DC,
10 . . . 30 V DC
DGS 60
6 mm solid shaft
10 mm solid shaft
6,000/10,0001) min–1
0 °C . . . +85 °C
Axial/radial cable, circular
screwing connector system
axial/radial
IP 65/IP 67
DGS 65/DGS 66
6, 8, 10, 12 mm (DGS 65)
6, 8, 10, 12, 14, 15 mm
and 1/2 inch (DGS 66)
6,000 min–1
–20 °C . . . +70 °C
Cable, circular screwing
connector system
radial (DGS 65)
radial cable (DGS 66)
IP 65/IP 66
DGS 66
6, 8, 10, 12, 14 mm,3/8 and 1/2 inch
6,000 min–1
–20 °C . . . +70 °C
Radial cable
IP 65
Incremental encoders
11
Technical data
Number of pulses per rotation
Dimensions
Interfaces/drivers
Supply voltage
Approvals
Solid shaft
Servo flange
Face mount flange
Max. operating speed
Working temperature range
Connection type
Enclosure rating
Blind hollow shaft
Shaft diameter
Max. operating speed
Working temperature range
Connection type
Enclosure rating
Through hollow shaft
Shaft diameter
Max. operating speed
Working temperature range
Connection type
Enclosure rating
1) Without shaft seal
Rotary encoders
Encoders
12
Rotary encoders
ARS 60
Singleturn encoder
Any resolution from
2 … 32,768 steps
Ø 60 mm
SSI or parallel (push-pull)
10 . . . 32 V DC
6 mm solid shaft
10 mm solid shaft
6,000/10,0001) min–1
–20 °C . . . +85 °C
Axial/radial cable, circular
screwing connector system
axial/radial
IP 65/IP 66
6, 8, 10, 12, 15 mm as well
as 1/4, 3/8 and 1/2 inch
3,000 min–1
–20 °C . . . +85 °C
Axial/radial cable, circular
screwing connector system
axial/radial
IP 65/IP 67
6, 8, 10, 12 mm as well as1/4, 3/8 and 1/2 inch
3,000 min–1
–20 °C . . . +85 °C
Cable, circular screwing
connector system radial
IP 64
ATM 60/ATM 90
Multiturn encoder
8,192 steps per revolution
8,192 revolutions
(max. 25 bit with SSI)
Ø 60 mm (ATM 60)
Ø 93 mm (ATM 90)
SSI, RS 422 parameter interf.,
Profibus, DeviceNet, CANopen
10 . . . 30 V DC
ATM 60
6 mm solid shaft
10 mm solid shaft
6,000 min–1
–20 °C . . . +85 °C
Radial cable, circular screwing
connector system radial
IP 67
ATM 60
6, 8, 10, 12, 15 mm as well
as 1/4, 3/8 and 1/2 inch
3,000 min–1
–20 °C . . . +85 °C
Cable, circular screwing
connector system radial
IP 67
ATM 90
12 and 16 mm as well as 1/2 inch
2,000 min–1
–20 °C . . . +70 °C
Cable, circular screwing
connector system radial
IP 65
Absolute encoders
Technical Data
Resolution
Dimensions
Interfaces/drivers
Supply voltage
Approvals
Solid shaft
Servo flange
Face mount flange
Max. operating speed
Working temperature range
Connection type
Enclosure rating
Blind hollow shaft
Shaft diameter
Max. operating speed
Working temperature range
Connection type
Enclosure rating
Through hollow shaft
Shaft diameter
Max. operating speed
Working temperature range
Connection type
Enclosure rating
1) Without shaft seal
Wire draw encoder
PRF Incremental wire draw
encoder
Up to 50 m
0.025 mm
± 1 measuring step
TTL/RS 422, HTL/push pull
4.5 . . . 5.5 V DC or
10 . . . 32 V DC
–20 . . . +70 °C
Screw-in system
Up to IP 64
0.81 mm respectively 1.35 mm
4 m/s
Aluminium anodised
0.05 %
Incremental wiredraw encoder
Absolute wiredraw encoder
Technical data
Measurement range
Resolution
Reproducibility
Interfaces
Operating voltage
Approvals
Working temperature range
Connection type
Enclosure rating
Wire draw mechanism
Measuring wire diameter
Operating speed
Drum housing
Drum precision
13
BTF Absolute wire draw
encoder
Up to 50 m
0.05 mm
± 1 measuring step
SSI, RS 422 configuration
interface, Profibus, DeviceNet,
CANopen
10 . . . 30 V DC
–20 . . . +70 °C
Screw-in system,
bus adaptors
Up to IP 64
0.81 mm respectively 1.35 mm
4 m/s
Aluminium anodised
0.05 %
NEWNEW
Encoders
14
Linear encoders
POMUX® KH 53
Up to 1,700 m
0.1 mm
300 µm
SSI, RS 422, Profibus
10 . . . 32 V DC
–20 . . . +60 °C
Cable or round screwing
system
IP 65/IP 66
6.6 m/s
0.8 ms
0.9 ms
1.1 ms
Absolute encoder
Technical data
Measurement range
Resolution
Reproducibility
Interfaces
Operating voltage
Ambient operating temperature
Connection type
Enclosure rating
Max. process speed
with continual measurement value output
Approvals
Scanning interval
SSI
RS 422
Profibus
15
m Precise point positioningeven over long distances:linear encoders are the non-plus-ultra in completely andpartially automated loadingstations.
n Wire draw encoders meas-ure the paths precisely in com-pletely and partially automatedloading stations.
m It is not easy to coordinateand monitor thousands ofmovements. Where it is aquestion of each rotation,absolute multiturn encoderswith a connection to theimportant bus systems are in their element.
Ultrasonic sensors
Ultrasonic proximity sensors
Non-contact detection and distance measurement of objects usingultrasonicTeach-inHigh measurement accuracyLarge scanning rangesDetects even transparent objects and liquidsImmune to particulate matter in pollution of the airCompact, dirt-resistant designBinary switching output or analogue output
Ultrasonic double-sheet detector
Detection of double sheetsand missing sheetsAutomatic setting, noadjustment necessarySpectrum of materials fromultra-thin film to thin metalsheets
Detection and distance measurement with sound
Almost no material exists which can damp sound so effectively that it is no
longer detectable by an ultrasonic sensor. Even transparent objects and f luids
are detected. Additional advantages are the excellent background blanking
and immunity to all types of impurities in the surrounding air. The application
determines the output – binary or analogue, as required.
UM 30
M30 x 127.5 1)
Brass, nickel-plated
12 . . . 30 V DC
IP 65
–20 °C . . . +70 °C
30 . . . 1300
0.36
0.15 %
Yes
Yes
Plug connector M12
4 . . . 20 mA or 0 . . . 10 V DC
PNP, Q/Q–
PNP, Q1, Q2/Q–1, Q–2
Technical data
Dimensions
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning range
Operational area
Scanning distance [mm]
Resolution [mm]
Reproducibility
Temperature compensation 2)
Teach-in
Connection type
Output function
Analog output
or 1 switching output
or 2 switching output
Switching outputs
Double-sheet
Mis-fed-sheet
1) Thread diameter x Length [mm]2) At –20 °C ... +50 °C
UM 30
M30 x 135.5 1)
Brass, nickel-plated
12 . . . 30 V DC
IP 65
–20 °C . . . +70 °C
350 . . . 3400
1
0.15 %
Yes
Yes
Plug connector M12
4 . . . 20 mA or 0 . . . 10 V DC
PNP, Q/Q–
PNP, Q1, Q2/Q–1, Q–2
Ultrasonic proximity sensors
17
Ultrasonic sensors
18
Ultrasonic sensors
UM 30
M30 x 138.5 1)
Brass, nickel-plated
12 . . . 30 V DC
IP 65
–20 °C . . . +70 °C
800 . . . 6000
1
0.15 %
Yes
Yes
Plug connector M12
4 . . . 20 mA or 0 . . . 10 V DC
PNP, Q/Q–
PNP, Q1, Q2/Q–1, Q–2
Ultrasonic proximity sensors
Technical data
Dimensions
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning range
Operational area
Scanning distance [mm]
Resolution [mm]
Reproducibility
Temperature compensation 2)
Teach-in
Connection type
Output function
Analog output
or 1 switching output
or 2 switching output
Switching outputs
Double-sheet
Mis-fed-sheet
1) Thread diameter x Length [mm]2) At –20 °C ... +50 °C
19
UM 18
M18 x 21/M18 x 111.5 3)
Brass, nickel-plated
20 . . . 30 V DC
IP 65
+5 °C . . . +60 °C
40 mm ± 3 mm
Paper grams per square meter
of 20 . . . 1200 g/m2,
metal-laminated sheets and
films ≤ 0.4 mm thickness,
self-adhesive films,
metal sheets ≤ 0.3 mm,
ultra-fine corrugated cardboard
Cable
Yes
PNP
PNP
Ultrasonicdouble-sheetdetectors
Technical data
Dimensions
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning range
Operational area
Scanning distance [mm]
Resolution [mm]
Reproducibility
Temperature compensation
Teach-in
Connection type
Output function
Analog output
or 1 switching output
or 2 switching output
Switching outputs
Double-sheet
Mis-fed-sheet
3) Sender/Receiver: Thread diameter x Length [mm]
Inductive sensors
20
Sensors with a feeling for metal
When voltage becomes information, induction often plays a part. Inductive
sensors detect metallic objects in typically very small scanning areas. The
sensor diameter is the decisive parameter for the switching interval , which
can range from a few millimeters to several centimeters. On the other hand,
inductive sensors are fast, accurate and extremely rugged.
Inductive proximity sensors
Single sensing range
Double sensing range
Triple sensing range
Flush installation
Non-flush installation
Cylinder housing
Threaded cylinder housing
Cuboid housing
21
IM 04
M4 x 0.51)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 100
PNP/NPN
v
o0.6
Cable
IP 67
2000
●
●
Technical data
Dimensions
Housing material
DC 3/4-wire
Operating voltage Ub
Continuous current Ia (mA)
Switching output
Output function
Flush installation
Sensing range Sn, single [mm]
Sensing range Sn, double [mm]
Sensing range Sn, triple [mm]
Connection type
Enclosure rating
Max. switching frequency f [ /s]
Short-circuit protection
Reverse polarity protection
Approvals
Further designs
Short version
Multitalent
(freely configurable output function/switching output)
Further electrical designs
DC 2-wire
AC/DC 2-wire
NAMUR to EN 50227
1) Thread diameter x Pitch [mm]2) Diameter [mm]3) Width x Height x Length [mm]
IM 05
M5 x 0.51)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v
o0.8
Cable/connector M8 x 1
IP 67
5000
●
●
IM series
Inductive sensors
22
Inductive proximity sensors
IM 08
M8 x 11)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v / k
o q1.5 2.5
2 4
3 6
Cable/
connector M8 x 1/M12 x 1
IP 67
5000
●
●
4)
●
●
�
IM 12
M12 x 11)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 300
PNP/NPN
v / k /
Complementary
o q2 4
4 8
6 10
Cable/
connector M8 x 1/M12 x 1
IP 67/IP 68
2000
●
●
4)
●
●
●
●
●
�
IM series
Technical data
Dimensions
Housing material
DC 3/4-wire
Operating voltage Ub
Continuous current Ia (mA)
Switching output
Output function
Flush installation
Sensing range Sn, single [mm]
Sensing range Sn, double [mm]
Sensing range Sn, triple [mm]
Connection type
Enclosure rating
Max. switching frequency f [/s]
Short-circuit protection
Reverse polarity protection
Approvals
Further designs
Short version
Multitalent
(freely configurable output function/switching output)
Further electrical designs
DC 2-wire
AC/DC 2-wire
NAMUR to EN 502271) Thread diameter x Pitch [mm]2) Diameter [mm]3) Width x Height x Length [mm]4) EU Directive (ATEX) II 2G EEx ia IIC T6
IM 18
M18 x 11)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 400
PNP/NPN
v / k /
Complementary
o q5 8
8 12
12 20
Cable/connector M12 x 1
IP 67/IP 68
1000
●
●
4)
●
●
●
●
●
�
IM 30
M30 x 1,51)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 400
PNP/NPN
v / k
o q10 15
15 20
22 40
Cable/connector M12 x 1
IP 67
500
●
●
4)
●
●
●
●
�
IM 12 INOX
M12 x 11)
Stainless steel V4A
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v / k
o q
6 10
Connector M12 x 1
IP 69K
400
●
●
IM 18 INOX
M18 x 11)
Stainless steel V4A
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v / k
o q
10 20
Connector M12 x 1
IP 69K
200
●
●
23
Available:Autumn 2004
Available:Autumn 2004
Inductive sensors
24
Inductive proximity sensors
Technical data
Dimensions
Housing material
DC 3/4-wire
Operating voltage Ub
Continuous current Ia (mA)
Switching output
Output function
Flush installation
Sensing range Sn, single [mm]
Sensing range Sn, double [mm]
Sensing range Sn, triple [mm]
Connection type
Enclosure rating
Max. switching frequency f [/s]
Short-circuit protection
Reverse polarity protection
Approvals
Further designs
Short version
Multitalent
(freely configurable output function/switching output)
Further electrical designs
DC 2-wire
AC/DC 2-wire
NAMUR to EN 50227
1) Thread diameter x Pitch [mm]2) Diameter [mm]3) Width x Height x Length [mm]
IH 03
3 2)
Stainless steel
●
10 . . . 30 V DC
≤ 100
PNP/NPN
v
o0.6
Cable
IP 67
2000
●
●
IM 30 INOX
M30 x 1.5 1)
Stainless steel V4A
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v
o q
20 40
Connector M12 x 1
IP 69K
100
●
●
IH seriesIM series
Available:Autumn 2004
IH 34
34 2)
Plastic
●
20 . . . 250 V AC/DC
v / k
q
30
Cable
IP 67
7
●
●
●
25
IH 06
6.5 2)
Stainless steel
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v / k
o q1.5
2 4
Cable/connector M8 x 1
IP 67
5000
●
●
●
�
IH 20
20 2)
Plastic
●
20 . . . 250 V AC/DC
v
q10
Cable
IP 67
70
●
●
●
IH 04
4 2)
Stainless steel
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v
o0.8
Cable/connector M8 x 1
IP 67
5000
●
●
Inductive sensors
26
Inductive proximity sensors
IQ series
Technical data
Dimensions
Housing material
DC 3/4-wire
Operating voltage Ub
Continuous current Ia (mA)
Switching output
Output function
Flush installation
Sensing range Sn, single [mm]
Sensing range Sn, double [mm]
Sensing range Sn, triple [mm]
Connection type
Enclosure rating
Max. switching frequency f [/s]
Short-circuit protection
Reverse polarity protection
Approvals
Further designs
Short version
Multitalent
(freely configurable output function/switching output)
Further electrical designs
DC 2-wire
AC/DC 2-wire
NAMUR to EN 50227
1) Thread diameter x Pitch [mm]2) Diameter [mm]3) Width x Height x Length [mm]
IQ 05
5 x 5 x 253)
Brass, nickel-plated
●
10 . . . 30 V DC
≤ 200
PNP/NPN
v
o0.8
Cable
IP 67
5000
●
●
IQ 08
8 x 8 x 40/493)
Plastic
●
10 . . . 30 V DC
≤ 300
PNP/NPN
v
o q
2 4
Cable/connector M8 x 1
IP 67
5000
●
●
IQ 40 Short model
40 x 40 x 663)
Plastic
●
10 . . . 36 V DC
≤ 250
PNP
v / k /
Complementary
o q15 20
20 35
Connector M12 x 1
IP 67
300
●
●
●
●
�
®
27
IQ 12
12 x 26 x 40/493)
Plastic
●
6 . . . 36 V DC
≤ 300
PNP/NPN
v
o q
3 6
Cable/connector M8 x 1
IP 67
3000
●
●
IQ 40
40 x 40 x 1213)
Plastic
●
10 . . . 36 V DC
≤ 250
PNP
v / k /
Programmable/Complementary
o q15 20
Terminal chamber
IP 65/IP 68
300
●
●
●
●
�
®
IQ 10
10 x 16 x 28/373)
Plastic
●
10 . . . 30 V DC
≤ 300
PNP/NPN
v / k
o q
3 6
Cable/connector M8 x 1
IP 67
3000
●
●
Inductive sensors
28
Inductive proximity sensors
IQ series
Technical data
Dimensions
Housing material
DC 3/4-wire
Operating voltage Ub
Continuous current Ia (mA)
Switching output
Output function
Flush installation
Sensing range Sn, single [mm]
Sensing range Sn, double [mm]
Sensing range Sn, triple [mm]
Connection type
Enclosure rating
Max. switching frequency f [/s]
Short-circuit protection
Reverse polarity protection
Approvals
Further designs
Short version
Multitalent
(freely configurable output function/switching output)
Further electrical designs
DC 2-wire
AC/DC 2-wire
NAMUR to EN 50227
1) Thread diameter x Pitch [mm]2) Diameter [mm]3) Width x Height x Length [mm]
IQ 80
80 x 40 x 105/1123)
Plastic
●
10 . . . 36 V DC
≤ 250
PNP
v / k /
Complementary
o r q50 50 44.5
60
Terminal chamber/
connector M12 x 1
IP 65/IP 67
4/70
●
●
●
�
®
29
Complete menu in “Food & Beverage” forincreased economy: Inductive INOX sensors *)
A sensor solution for wet environments in the food and beverage
processing industry (sensor *) + cable + connection box)
Specially developed for use in the food processing industry
High level of protection for extremely stringent requirements
(IP 69K)
Entirely encased in V4A stainless steel
Sensors with triple sensing range for increased plant
in-service availability
Protected and optimised connection of the wiring to system
peripherals through use of IP 69K connection boxes
Reduced amount of wiring, simple and safe installation
*) Available late 2004
Capacitive sensors
Capacitive proximity sensors
High level of temperaturestabilityEnhanced sensing rangesfor functional reserve
High level of immunity against:– Electrostatic discharge,
e.g. in plastic or wood production– Electromagnetic interference, e.g. caused
by radio transceivers and mobile telephones– Interference surge voltage caused by switching
devices or solenoid valves– Conducted high frequency, e.g. frequency
converters or switched-mode power supplies
Detection of widely differing materials
Metallic and non-metallic substances, whether liquid or solid, have a certain
conductivity and an electrical constant. Capacitive sensors detect changes
caused by these substances in the electrical f ield of their detection area. The
evaluation of the changes gives exact information on the presence of objects
in this area, or, for example, material levels in containers and silos.
CM 18 (PTFE)1)
M18 x 12)
Plastic, PTFE
●
10 . . . 40 V DC
≤ 200
PNP/NPN
v / k /
Complementary
o8
Cable
IP 67
30
●
●
Technical data
Dimensions
Housing material
DC 4-wire
Operating voltage Ub
Continuous current Ia [mA]
Switching output
Output function
Installation type
Sensing range Sn [mm]
Connection type
Enclosure rating
Max. switching frequency f [/s]
Short-circuit protection
Reverse polarity protection
Approvals
1) PTFE = polytetrafluorethylene-coated2) Thread diameter x Pitch [mm]3) Width x Height x Length [mm]
CM 18
M18 x 12)
Plastic
●
10 . . . 40 V DC
≤ 200
PNP/NPN
v / k /
Complementary
o q8 12
Cable/connector M12 x 1
IP 67
30
●
●
�
®
CM series
31
Capacitive sensors
32
Capacitive proximiy sensors
CM 30 DC
M30 x 1.52)
Plastic
●
10 . . . 40 V DC
≤ 200
PNP/NPN
v / k /
Complementary
o q16 25
Cable, connector M12 x 1
IP 67
50
●
●
�
®
CM 30 AC
M30 x 1.52)
Plastic
●
20 . . . 265 V AC
≤ 500
v / k /
Complementary
o q16 25
Cable, connector M12 x 1
IP 67
10
●
●
�
®
CM series
Technical data
Dimensions
Housing material
DC 4-wire/AC 2-wire
Operating voltage Ub
Continuous current Ia [mA]
Switching output
Output function
Installation type
Sensing range Sn [mm]
Connection type
Enclosure rating
Max. switching frequency f [/s]
Short-circuit protection
Reverse polarity protection
Approvals
1) PTFE = polytetrafluorethylene-coated2) Thread diameter x Pitch [mm]3) Width x Height x Length [mm]
NEW
33
CQ 35
15 x 35 x 57.5/69.53)
Plastic
●
10 . . . 40 V DC
≤ 200
PNP/NPN
v / k /
Complementary
o q16 25
Cable, connector M12 x 1
IP 67
50
●
●
�
®
CQ series
Capacitive sensors areused to monitor the fill-level of bottles in fillingsystems.
Paper feed monitoring inprinting or cutting machines.Capacitive sensors are theideal solution for this applica-tion.
m Capacitative sensors moni-toring filling levels in a labora-tory of the pharmaceuticalindustry.
Magnetic sensors
34
Detection of magnets
Very high switching distances and detection of permanent magnets through
material are possible using accurate and reliable magnetic sensors.
Magnetic proximity sensors
Detection of magneticobjects, usually permanentmagnetsLarge sensing ranges despitecompact designs
Objects can be detectedthrough non-magneticmaterials
35
MM 08
M8 x 11)
Brass, nickel-plated
10 . . . 30 V DC
≤ 300
PNP/NPN
v60
Cable/connector M8 x 1
IP 67
5000
●
●
●
●
Technical data
Dimensions
Housing material
Operating voltage Ub
Continuous current Ia [mA]
Switching output
Output function
Sensing range Sn [mA]3)
Connection type
Enclosure rating
Max. switching frequency f [/s]
Power-up pulse suppression
Short-circuit protection
Reverse polarity protection
Wire-break protection
Approvals
Further designs
NAMUR EN 50227
MM 12
M12 x 11)
Brass, nickel-plated
10 . . . 30 V DC
≤ 300
PNP/NPN
v60
Cable/connector M12 x 1
IP 67
5000
●
●
●
●
4)
●
MM series
1) Thread diameter x Pitch [mm]2) Width x Height x Length [mm]3) Refers to devices embedded in non-magnetic materials with magnet
M 4.0 (see Accessories)4) EU Directive (ATEX)
II 2G EEx ia IICT6
Magnetic sensors
36
Magnetic proximity sensors
MM 18
M18 x 11)
Brass, nickel-plated
10 . . . 30 V DC
≤ 300
PNP/NPN
v70
Cable/connector M12 x 1
IP 67
5000
●
●
●
●
4)
●
MQ 10
10 x 16 x 28/372)
Plastic
10 . . . 30 V DC
≤ 300
PNP/NPN
v60
Cable/connector M8 x 1
IP 67
5000
●
●
●
●
MM series
Technical data
Dimensions
Housing material
Operating voltage Ub
Continuous current Ia [mA]
Switching output
Output function
Sensing range Sn [mA]3)
Connection type
Enclosure rating
Max. switching frequency f [/s]
Power-up pulse suppression
Short-circuit protection
Reverse polarity protection
Wire-break protection
Approvals
Further designs
NAMUR EN 50227
MQ series
1) Thread diameter x Pitch [mm]2) Width x Height x Length [mm]3) Refers to devices embedded in non-magnetic materials with magnet
M 4.0 (see Accessories)4) EU Directive (ATEX)
II 2G EEx ia IICT6
37
Magnetic proximity sensors areused for triggering automated guid-ed vehicle systems in high-baywarehouses. They actuate the safe-ty sensor systems (e.g. SICK laserscanner) when the vehicle entersthe aisle between the high-bayracks.
Positioning of aircraft hangardoors using magnetic proximitysensors.
Magnetic proximity sensors arefitted, for example, in the pipes offilling and delivery systems used inthe chemical and foodstuff industry.A typical application is the monitoringof pigs used to clean or seal offthese pipes.
Magnetic sensors
38
Magnetic cylinder sensors
Magnetic cylinder sensors,reed or electronic
SICK offers a range of special magnetic cylinder sensors,which are used for detecting the position of pistons inpneumatic cylinders. They are attached directly to the cylin-der body. The sensors reliably detect a magnetic ring onthe piston through the housing wall (made of aluminium,brass or stainless steel) and trigger a switching signal.
Weld immuneStrong magnetic fields capable of impairing the func-tioning of the sensors are produced during welding. TheMZU 2 magnetic cylinder sensors from SICK can beused under these difficult conditions.
Easy mountingThe magnetic cylinder sensors for profile cylinderswith T-slot can be inserted from above into all standardT-slots. This makes additional assembly work unneces-sary and also allows the sensors to be used for appli-cations where space is restricted.
39
MZN 1/RZN 1
3.6 x 2.8 x 25
Plastic
10 . . . 30 V DC
≤ 70
PNP/Reed
v
mCable,
cable with connector M8 x 1
IP 67
1000/500
2, 3
●
●
Profile cylinder C-slot mounting
Technical data
Dimensions1)
Housing material
Operating voltage Ub
Output current IA [mA]
Switching output
Output function
Sensitivity [mT]
Sensing face
Connection type
Enclosure rating
Max. switching frequency f [/s]
Protective measures2)
Approvals
Special designs
NAMUR EN 50227
Reed switch
Teflon coating
Can be inserted from above
Weld immune
Accessories
Mounting adapter
Application
1) Width x Height x Length [mm]2) 1 = Power-up pulse suppression
2 = Short-circuit protection3 = Reverse polarity protection4 = Wire-break protection
MZT 6/RZT 6
6.05 x 4.3 x 31.5
Plastic
10 . . . 30 V DC
≤ 100/≤ 500
PNP/NPN/Reed
v
mCable,
cable with connector M8 x 1
IP 68
5000/400
1, 2, 3, 4
●
●
BEF-KHZ-ST1
BEF-KHZ-PT1
BEF-KHZ-RT1 . . .
Profile cylinder T-slot mounting
MZ/RZ series
Magnetic sensors
40
Magnetic cylinder sensors
MZT 1/RZT 1
6.2 x 4.6 x 30
Plastic
10 . . . 30 V DC
≤ 100
PNP/Reed
v3
mCable,
cable with connector M8 x 1
IP 67
5000/400
1, 2, 3, 4
●
●
BEF-KHZ-ST1
BEF-KHZ-PT1
BEF-KHZ-RT1
Profile cylinder T-slot mounting
MZF 1/RZF 1
6.7 x 6 x 30
Plastic
10 . . . 30 V DC
≤ 150
PNP
v3
mCable,
cable with connector M8 x 1
IP 67
5000
1, 2, 3, 4
●
Profile cylinder T-slot mounting
MZ/RZ series
Technical data
Dimensions1)
Housing material
Operating voltage Ub
Output current IA [mA]
Switching output
Output function
Sensitivity [mT]
Sensing face
Connection type
Enclosure rating
Max. switching frequency f [/s]
Protective measures2)
Approvals
Special designs
NAMUR EN 50227
Reed switch
Teflon coating
Can be inserted from above
Weld immune
Accessories
Mounting adapter
Application
1) Width x Height x Length [mm]2) 1 = Power-up pulse suppression
2 = Short-circuit protection3 = Reverse polarity protection4 = Wire-break protection
3) EU Directive (ATEX) EEx ib IIC T6
MZZ 1
30 x 23/34 x 30
Aluminium
10 . . . 30 V DC
≤ 300
PNP/NPN
v3
mCable,
connector M12 x 1
IP 67
5000
1, 2, 3, 4
3)
●
Tie rod cylinder
up to rod-ø 10 mm
MZZ 2
37.5 x 35.5/44.5 x 35
Plastic/aluminium
10 . . . 30 V DC
≤ 300
PNP/NPN
v3
m / hCable,
connector M12 x 1
IP 67
5000
1, 2, 3, 4
Tie rod cylinder
up to rod-ø 12.5 mm
MZP 3
37.3 x 25.4 x 30
Aluminium
10 . . . 30 V DC
≤ 300
PNP
v3
mCable,
connector M12 x 1
IP 67
5000
1, 2, 3, 4
3)
●
Integrated profile cylinder
up to profile width 14 mm
MZP 4
40.8/54 x 32 x 30
Aluminium
10 . . . 30 V DC
≤ 300
PNP
v3
mCable,
connector M12 x 1
IP 67
5000
1, 2, 3, 4
3)
●
Integrated profile cylinder
up to profile width 18 mm
41
MZ series
Magnetic sensors
42
Magnetic cylinder sensors
MZK 1/MZK 3
14.3/21 x 13.5 x 26
Aluminium
10 . . . 30 V DC
≤ 300
PNP
v2
mCable,
connector M8 x 1
IP 67
5000
1, 2, 3, 4
●
Short-stroke cylinder
MZR 1/RZR 1
Ø 8; L = 30/37
Aluminium
10 . . . 30 V DC
≤ 300
PNP/NPN
v3
mCable,
connector M8 x 1
IP 67
5000
1, 2, 3, 4
●
BEF-S-R1 . . .
Round-body cylinder
up to ø 63 mm;
MZ/RZ series
Technical data
Dimensions1)
Housing material
Operating voltage Ub
Output current IA [mA]
Switching output
Output function
Sensitivity [mT]
Sensing face
Connection type
Enclosure rating
Max. switching frequency f [/s]
Protective measures2)
Approvals
Special designs
NAMUR EN 50227
Reed switch
Teflon coating
Can be inserted from above
Weld immune
Accessories
Mounting adapter
Application
1) Width x Height x Length [mm]2) 1 = Power-up pulse suppression
2 = Short-circuit protection3 = Reverse polarity protection4 = Wire-break protection
3) EU Directive (ATEX) EEx ib IIC T6
MZR 2
12 x 12/19 x 30
Aluminium
10 . . . 30 V DC
≤ 300
PNP/NPN
v3
mCable,
connector M8 x 1
IP 67
5000
1, 2, 3, 4
3)
●
●
BEF-S-R2 . . .
Round-body cylinder
up to ø 100 mm;
universal
MZU 2
18 x 29 x 48
Die-cast zinc
10 . . . 30 V DC
≤ 300
PNP
v3
mConnector M12 x 1
IP 67
40
1, 2, 3, 4
●
●
Pull-rod cylinder up to
rod ø 20 mm,
integrated profile cylinder
up to profile width 18 mm,
profile cylinder with T-slot
43
Mounting adapter for MZT 1/RZT 1 and MZT 6/RZT 6
– Integrated profile cylinder
– Tie rod cylinder
– Round-body cylinder
– Cylinder with dovetail groove
Optoelectronic sensors
44
Transmit light, gain information
Modern optoelectronic sensors operate
on the basis of different light sources.
Depending on the application, visible red
light, invisible infrared light, blue, green
or laser light may be used. Every change
in the light beam is detected, evaluated
in the receiver and converted into a digi-
tal or analogue signal.
Different functional principles open up
a wide f ield of applications for optoelec-
tronic sensors in all areas of automa-
tion.
45
Distance sensors
Binary switching or measurement required?Analogue sensors also measure distances withthe help of time-of-flight measurements or trian-gulation, depending on the application.
Contrast, color andluminescence sensors
Complex sensors are used not only for detectingbut also distinguishing objects. Whether half-tone contrast, luminescence detection or colordistinction are required, there is a sensor spe-cially designed for each. With the help of lightgrids, some sensors are even able to cover thesecond dimension.
Vision sensors
The important step to structure and objectrecognition is possible using vision sensors.With the appropriate sensors, all three dimen-sions of the check are covered. As with theother sensors, the same simple basic principlesof “Teach-in, comparing and evaluating”, pro-duce a simple and reliable detection process.Integrated and external lighting, side and backrespectively, makes vision sensors suitable for awide range of applications. In this way, a largenumber of solutions can be achieved simply andwithout demanding programming operations.
Through-beam photoelectric sensors
Long ranges can be obtained using separatetransmitting and receiving devices. When laserdiodes generate the light beam, as an extra theresolution of the sensor increases.
Photoelectric proximity sensorsand photoelectric reflex sensors
Photoelectric proximity sensors make use of thelight reflected from the object being detected.The sensors detects the reflected light and eval-uates it – combined with efficient blanking ofbackground and foreground, this is an excellentsolution! Photoelectric reflex sensors require anadditional reflector which is mounted oppositethe sender-receiver unit. Every break in the lightbeam is detected and evaluated.
Photoelectric sensors with fibre-optic cables
In particularly confined spaces, fibre-optic cablesare often the only way of getting a sensor intoposition. The flexible plastic and fibre-opticcables increase the field of application of prox-imity sensors and through-beam systems.
Optoelectronic sensors
46
Photoelectric sensors andphotoelectric proximity sensors
Overview
Photoelectric proximity sensors
Sender and receiver in one housingNo reflector requiredReacts to light reflected off object to be detected
Photoelectric proximitysensors, energetic
Scanning range/switchingpoint can be set by adjusting sensitivity
Photoelectric proximity sensorswith foreground suppression(FGS)
Detection of low objects,e.g. on conveyor belt.Objects, which reduce dis-tance from scanning planeto sensor, are detected.
Photoelectric proximity sensorswith background suppression(BGS)
Detection of objects withina defined scanning range.Objects beyond this rangeare not detected.
Photoelectric reflex sensors
Sender and receiver in onehousingReflector requiredDifferent reflector sizes fordifferent ranges and objectsizesLarge scanning rangesPolarisation filters alsoallow reflective objects tobe detectedAutomatic sensitivityadjustment with “Teach-in”sensors
Through-beam photoelectric sensors
Separate sender and receiver (2 devices)Very large scanning rangesHigh operating reservesReliable detection of bothtransparent and reflectiveobjects
Fibre-optic photoelectric sensors
Sender and receiver in onehousing2 fibre-optic cables, scan-ning or through-beam prin-ciple possibleAppropriate fibre-opticcable available for eachtaskEspecially suitable whereinstallation space is limitedand for use in hostile envi-ronments
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression
3) BGB = Background blanking4) FGS = Foreground suppression
W 2 Slim
7.6 x 22 x 13.5
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–20 °C . . . +50 °C
Cable/plug connector
WT 2 Slim
50
15/30 focused
Red light, Pin Point LED
WL 2 Slim
0 . . . 0.5/PL 40 A
0 . . . 0.8/PL 40 A
Yes/red light, Pin Point LED
WS/WE 2 Slim
0 . . . 1
Red light, Pin Point LED
Miniature photoelectric sensors
47
W 4-2
16 x 32 x 12
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–40 °C . . . +60 °C
Cable/connector
WT 4/2
4 . . . 130
Red light
WL 4/2
0 . . . 1.7/PL 80 A
0 . . . 2.8/PL 80 A
Glass detection
Yes/red light
WS/WE 4-2
0 . . . 4
TI 8)
Red light
Optoelectronic sensors
48
Photoelectric sensors and photoelectric proximity sensors
W 4-2 Teflon® 9)
22 x 42 x 22
Teflon® coated
10 . . . 30 V DC
NPN/PNP
IP 68
–40 °C . . . +60 °C
Cable
SEMI, FDA
WT 4-2 Teflon®
5 . . . 80, fix
Red light, Pin Point LED
WS/WE 4-2 Teflon®
0 . . . 3
Red light, Pin Point LED
W 100
11 x 31 x 20
Plastic
10 . . . 30 V DC
NPN/PNP
IP 65
–25 °C . . . +55 °C
Cable/connector
WT 100
0 . . . 900
4 . . . 120
Red light
WL 100
0.01 . . . 5.0/PL 80 A
0.01 . . . 2.6/PL 80 A5)
0.01 . . . 6.0/PL 80 A
0.01 . . . 3.0/PL 80 A5)
Glass detection
Yes/red light
WS/WE 100
0 . . . 15
Slotted masks
Red light
Miniature photoelectric sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression3) BGB = Background blanking4) FGS = Foreground suppression
5) For transparent objects6) T = Teach-in setting via button
or external control cable
7) AO = Alarm output8) TI = Test input9) Teflon® is a registered trademark
of the Dupont Corporation
Small photoelectric sensors
W 140-2
11 x 31 x 20
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–25 °C . . . +55 °C
Cable/connector
WT 140-2
0 . . . 900
2 . . . 500
BGS with timer
Red light
WL 140-2
0.01 . . . 5.0/PL 80 A
0.01 . . . 3.5/P 250
0.01 . . . 6.0/PL 80 A
0.01 . . . 4.0/P 250
Yes/red light
WS/WE 140-2
0 . . . 15
Slotted masks,
polarising filter attachments
Red light
W 150
10 x 28 x 17.5
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–25 °C . . . +55 °C
Cable/connector
WT 150
10 . . . 250
2 . . . 100
Red light
WL 150
0.01 . . . 2.0/PL 80 A
0.1 . . . 0.6/PL 80 A5)
0.005 . . . 2.4/PL 80 A
0.1 . . . 0.7/PL 80 A5)
Glass detection
Yes/red light
WS/WE 150
0 . . . 4.4
Slotted masks
Red light
�
W 160
11 x 23 x 38
11 x 38 x 23
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–25 °C . . . +55 °C
Cable/connector
WT 160
0 . . . 900
4 . . . 55, focused
Red light
WL 160
0.01 . . . 4/PL 80 A
0.01 . . . 6/PL 80 A
Yes/red light
WS/WE 160
0 . . . 14
Slotted masks
Red light
W 160T 6)
11 x 23 x 38
11 x 38 x 23
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–25 °C . . . +55 °C
Cable/connector
WT 160T
700/1000
50 . . . 150/15 . . . 50 focused
Teach-in
Red light/infrared light
WL 160T
0,01 ... 1/P 250
0,01 . . . 0,8/P 2505)
Teach-in , glass detection
Yes/red light
TI
TI
49
Optoelectronic sensors
50
Photoelectric sensors and photoelectric proximity sensors
W 170
12 x 37 x 29
Plastic/metal
10 . . . 30 V DC
NPN/PNP
IP 67
–25 °C . . . +55 °C
Cable/connector
WT 170
10 . . . 550
10 . . . 100, focused
Red light
WL 170
0.01 . . . 3.5/PL 80 A
0.01 . . . 0.65/PL 80 A5)
0.01 . . . 4.0/PL 80 A
0.01 . . . 0.8/PL 80 A5)
Glass detection
Yes/no/red light
WS/WE 170
0 . . . 8.5
TI 8), slotted masks,
Polarising filter
Red light
WT 190T 6)
15 x 44.4 x 30
Plastic
10 . . . 30 V DC
NPN/PNP, Q programmable
IP 67
–25 °C . . . +55 °C
Cable/connector
WTB 2) 190T/WTV 4) 190T
50 . . . 100/100 . . . 300
50 . . . 100/100 . . . 300
Teach-in , display, timer
Red light
TI
�
Small photoelectric sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression3) BGB = Background blanking4) FGS = Foreground suppression
5) For transparent objects6) T = Teach-in setting via button
or external control cable
7) AO = Alarm output8) TI = Test input9) Teflon® is a registered trademark
of the Dupont Corporation
10) Teflon-coating on request
W 9-2
12 x 40 x 22
Plastic
10 . . . 30 V DC
NPN/PNP, Q + Q–
IP 67
–40 °C . . . +60 °C
Cable/connector
WT 9-2
80 . . . 450/80 . . . 1500
10 . . . 20/30 . . . 250
30 . . . 500
Teach-in
Red light/infrared light
WL 9-2
3/PL 80 A
4/PL 80 A
Teach-in
Yes/red light; no/infrared light
WS/WE 9-2
0 . . . 7
TI 8), slotted masks
Red light/infrared light
TI
TI
®
W 190 Laser Standard series
15 x 44.4 x 30
Plastic
10 . . . 30 V DC
PNP/NPN, Q selectable
IP 67
–10 °C . . . +40 °C
Cable/connector M8
CDRHWTB 190 L
50 . . . 100/100 . . . 300
Laser, red; class 2
WL 190 L
0.01 . . . 5/P 250 F
0.01 . . . 5.5/P 250 F
Yes/laser, red; class 2
WS/WE 190 L
50
Laser, red; class 2
W 190 Laser High Grade
15 x 44.4 x 30
Plastic
10 . . . 30 V DC
PNP/NPN, Q programmable
IP 67
–10 °C . . . +40 °C
Cable/connector M8
CDRHWTB 190 TL
40 . . . 100/100 . . . 270
40 . . . 100/100 . . . 270
Teach-in , display, timer
Laser, red; class 2
WLG 190 T
0.01 . . . 1.5/PL 80 A
0.01 . . . 5/P 250 F
0.01 . . . 1.8/PL 80 A
0.01 . . . 5.5/P 250 F
Teach-in , display, timer,
glass detection
Yes/laser, red; class 2
TI
TI
W 9 L
12 x 40 x 22
Plastic
10 . . . 30 V DC
NPN/PNP
IP 67
–10 °C . . . +50 °C
Plug connector
CDRHWT 9 L
30 . . . 150
Laser, red; class 2
WL 9 L
0.1 . . . 8/PL 80 A
0.1 . . . 12/PL 80 A
Yes/laser, red; class 2
WS/WE 9 L
0 . . . 50
Laser, red; class 251
NEW NEW
Optoelectronic sensors
52
Photoelectric sensors and photoelectric proximity sensors
Small photoelectric sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression3) BGB = Background blanking4) FGS = Foreground suppression
5) For transparent objects6) T = Teach-in setting via button
or external control cable
7) AO = Alarm output8) TI = Test input9) Teflon® is a registered trademark
of the Dupont Corporation
W 11
15 x 49 x 41.5
Plastic
10 . . . 30 V DC
NPN/PNP, Q + Q–
IP 65
–20 °C . . . +60 °C
Cable/connector
WT 11
80 . . . 1000
20 . . . 250
35 . . . 100
Red light
WL 11
5/PL 80 A
7/PL 80 A
Glass detection
Yes/red light
W 12-2
15 x 49 x 41.5
Metal
10 . . . 30 V DC
NPN/PNP, Q + Q–
IP 67
–40 °C . . . +60 °C
Cable/connector
WT 12-2
80 . . . 800
20 . . . 250
35 . . . 100
Red light/infrared light
WL 12-2
0 . . . 5/PL 80 A
0 . . . 7/PL 80 A
Glass detection
Yes/red light
WS/WE 12-2
0 . . . 20
TI 8), slotted masks
Red light
®
W 14-2
17.6 x 75.5 x 33.5
Plastic
10 . . . 30 V DC
NPN/PNP, Q + Q–
IP 65
–25 °C . . . +60 °C
Cable/connector
WT 14-2
300 . . . 1500
50 . . . 250/80 . . . 500
Teach-in
Red light/infrared light
WL 14-2
0.15 . . . 4/PL 80 A
0.15 . . . 6/PL 80 A
Yes/red light
WS/WE 14-2
0 . . . 15
TE8)
Red light
TI
W 18-3
17.6 x 75.5 x 33.5
Plastic
10 . . . 30 V DC
PNP/NPN, Q + Q–
IP 67
–40 °C . . . +60 °C
Cable/connector
WT 18-3
50 . . . 600/700/1000
Potentiometer, Teach-in
Red light/infrared light
WL 18-3
0 . . . 5/PL 80 A
0 . . . 7/PL 80 A
Autocollimation
Yes/red light
WS/WE 18-3
0 . . . 20
TE8)
Red light
TI
53
W 12 G
15 x 49 x 41.5
Metal
10 . . . 30 V DC
NPN/PNP
IP 67
–25 °C . . . +60 °C
Plug connector
WL 12 G
0 . . . 2.7/PL 80 A
0 . . . 3/PL 80 A
Glass detection
Yes/red light
®
W 12 L-2
15 x 49 x 41.5
Metal
10 . . . 30 V DC
NPN/PNP
IP 67
–10 °C . . . +50 °C
Plug connector
WT 12 L-2
30 . . . 300
Laser, red; class 2
WL 12 L-2
0 . . . 13/PL 80 A
0 . . . 18/PL 80 A
Yes/laser, red; class 2
WS/WE 12 L-2
0 . . . 80
TI 8)
Laser, red; class 2
®
NEW NEW
Optoelectronic sensors
54
Photoelectric sensors and photoelectric proximity sensors
Small photo-electric sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression3) BGB = Background blanking4) FGS = Foreground suppression
5) For transparent objects6) T = Teach-in setting via button
or external control cable
7) AO = Alarm output8) TI = Test input9) II 2G EEx ia IIC T4
10) II 3D IP67 T 70 °CII 3G EEx nA II T4X
Standard photo-electric sensors
WTV 18-3
20 x 76 x 31.5
Plastic
10 . . . 30 V DC
PNP, Q + Q–
IP 67
–40 °C . . . +60 °C
Plug connector
WTV 18-3
60 . . . 120/100 . . . 200
Infrared light
W 24-2
27 x 87.5 x 65
Metal
10 . . . 30 V DC
12 . . . 240 V DC/
24 . . . 240 V AC
NPN/PNP/Rel. SPDT
IP 67
–40 °C . . . +60 °C
Terminal chamber/plug connector
WT 24-2
100 . . . 1200/100 . . . 2500
AO7), TI8)
Red light/infrared light
WL 24-2
0 . . . 15/PL 80 A
0 . . . 22/PL 80 A
AO7), TI8)
Yes/red light
WS/WE 24-2
0 . . . 60
AO7), TI 8)
Red light
W 260
25 x 77.5 x 63
Plastic
10 . . . 30 V DC
12 . . . 240 V DC/
24 . . . 240 V AC
NPN/PNP/Rel. SPDT
IP 67
–25 °C . . . +55 °C
Terminal chamber/plug connector
WT 260
5 . . . 1000/5 . . . 1300
15 . . . 2500/20 . . . 3000
160 . . . 380/100 . . . 2000
AO7), TI 8)
Infrared light/red light
WL 260
0.01 . . . 13/PL 80 A
0.01 . . . 10/P 250
0.01 . . . 15/PL 80 A
0.01 . . . 11/P 250
TI8)
Yes/red light
WS/WE 260
0 . . . 35/0 . . . 45
TI 8)
Red light
�
�
W 280
23.5 x 74.5 x 63
Plastic
DC 10 . . . 30 V
DC 24 . . . 240 V/
AC 24 . . . 240 V
NPN/PNP/Rel. SPDT
IP 66
–25 °C . . . +55 °C
Terminal, cable, connector
WT 280
10 . . . 1300
Red light
WL 280
0.01 . . . 13/PL 80 A
0.01 . . . 10/P 250
0.01 . . . 15/PL 80 A
0.01 . . . 11/P 250
Yes/red light
WS/WE 280
0 . . . 45
Red light
55
W 24 Exi
27 x 87.5 x 65
Metal
8.2 V DC
EN 60947-5-6 (NAMUR)
IP 67
–20 °C . . . +50 °C
Terminal chamber/plug connector
EU Directive
94/9/EG („ATEX“)9)
WT 24 Exi
100 . . . 2000
Infrared light
WL 24 Exi
0 . . . 8/PL 80 A
0 . . . 15/PL 80 A
Yes/red light
W 250
20 x 65 x 43
Plastic
10 . . . 30 V DC
12 . . . 240 V DC/
24 . . . 240 V AC
NPN/PNP/Rel. SPDT
IP 67
–25 °C . . . +55 °C
Cable/connector
WT 250
5 . . . 310/10 . . . 600
10 . . . 1100
Red light
WL 250
0.01 . . . 11/PL 80 A
0.01 . . . 8/P 250
0.01 . . . 13.5/PL 80 A
Yes/red light
WS/WE 250
0 . . . 25
Red light
�
�
NEW
Optoelectronic sensors
56
Photoelectric sensors and photoelectric proximity sensors
Standard-Lichtschranken
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression3) BGB = Background blanking4) FGS = Foreground suppression
5) For transparent objects6) T = Teach-in setting via button
or external control cable
7) AO = Alarm output8) TI = Test input9) II 2G EEx ia llC T4
W 23
24 x 80 x 54
Plastic
12 . . . 24 V DC
90 . . . 265 V AC
NPN/PNP, Q + Q–/Rel. SPDT
IP 65
–25 °C . . . +60 °C
Cable/connector
WT 23
300 . . . 2000
30 . . . 1000
Infrared light
WL 23
0.1 . . . 6/PL 80 A
0.1 . . . 9/PL 80 A
Yes/red light
W 27-2
24 x 80 x 54
Plastic
10 . . . 30 V DC
24 . . . 240 V UC
NPN/PNP, Q + Q–/Rel. SPDT
IP 67
–40 °C . . . +60 °C
Cable/connector
WT 27-2
100 . . . 800/100 . . . 1000/
100 . . . 1500
TI8)
Red light/infrared light/
laser class 2
WL 27-2
0.1 . . . 10/PL 80 A
0.1 . . . 14/PL 80 A
TI8)
Yes/red light
WS/WE 27-2
0 . . . 35
TI 8)
Red light
10) II 3D IP67 T 70 °CII 3G EEx nA II T4X
57
W 45
60 x 105 x 105
Metal
10 . . . 60 V DC
24 . . . 240 V UC
NPN/PNP, Q + Q–/Rel. SPDT
IP 67
–25 °C . . . +55 °C
Terminal chamber/plug connector
WT 45
400 . . . 2000
TI 8)
Infrared light
WL 45
0 . . . 25/PL 80 A
1 . . . 45/OP 60
0 . . . 30/PL 80 A
1 . . . 55/OP 60
AO7), TI 8)
Yes/red light
WS/WE 45
0 . . . 350
AO7), TI 8)
Infrared light
WTR
18/51.5 x 99.5/151 x 46
(with magnetic valve;
integrated logic)
Plastic
24 V DC
PNP
IP 54
–40/–10 °C . . . +55/+60 °C
WTR
300 . . . 900
Infrared light
WLR
0 . . . 5/PL 80 A
FGS 4)
Red light
W 34
27 x 92 x 70
Plastic
10 . . . 30 V DC
12 . . . 240 V DC/
24 . . . 240 V AC
NPN/PNP, Q + Q–/Rel. SPDT
IP 67
–40 °C . . . +60 °C
Terminal chamber/plug connector
WT 34
100 . . . 1200/100 . . . 2500
AO7), TI 8)
Red light/infrared light
WL 34
0 . . . 15/PL 80 A
0 . . . 22/PL 80 A
AO7), TI 8)
Yes/red light
WS/WE 34
0 . . . 60
AO7), TI 8)
Red light
W 27-2 Ex
31.4 x 110.3 x 68.4
Plastic, stainless steel
10 . . . 30 V DC
PNP
IP 67
–20 °C . . . +50 °C
Cable
EU Directive
94/9/EG („ATEX“)10)
WT 27-2 Ex
100 . . . 1500
Infrared light
WL 27-2 Ex
0.1 . . . 10/PL 80 A
0.1 . . . 14/PL 80 A
Yes/red light
WS/WE 27-2 Ex
0 . . . 35
Red light
Photoelectricproximity sensorsfor rollerconveyors
NEW
NEW
Optoelectronic sensors
58
Photoelectric sensors and photoelectric proximity sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Switching outputs
Enclosure rating
Ambient operating temperature
Connection type
Approvals
Photoelectric proximity sensors
Energetic scanning range [mm]
BGS2) range [mm]
BGB3) range [mm]
FGS4) range [mm]
Special features
Light source
Photoelectric reflex sensors
Operating range [m]/on reflector
Typical max. range [m]/on reflector
Special features
Polarising filter/light source
Through-beam photoelectric sensors
Typical max. range [m]
Special features
Light source
1) Width x Height x Depth [mm]2) BGS = Background suppression3) BGB = Background blanking4) FGS = Foreground suppression
5) For transparent objects6) T = Teach-in setting via button
or external control cable
7) AO = Alarm output8) TI = Test input9) For connecting optoelectronic or
inductive SICK sensors
ZLM 1 9)
74 x 105 x 31
(with magnetic valve;
integrated logic)
Plastic
24 V DC
PNP
IP 40
–10 °C . . . +55 °C
Logic module forroller conveyor
V 12
M12 x 66/80
Metal
10 . . . 30 V DC
PNP, Q
IP 67
–25 °C . . . +70 °C
Cable/connector
VT 12
100/200
Infrared light
VL 12
0.005 . . . 2/C 110
0.005 . . . 2.5/C 110
Infrared light
VS/VE 12
0 . . . 5
Infrared light
Cylindrical photo-electric sensors
NEW
59
V 18 straight
M18 x 63.6/78/80
Plastic/metal
10 . . . 30 V DC
20 . . . 253 V AC
PNP, NPN, Q/TRIAC
IP 67
–25 °C . . . +60/70 °C
Cable/connector
VT 18 straight
200/400/800
50/100
Infrared light
VL 18 straight
0.05 . . . 3/C 110
0.05 . . . 3.7/C 110
Yes/red light
VS/VE 18 straight
0 . . . 20
TI 8)
Infrared light
V 18 angled
M18 x 60.6/75
Plastic/metal
10 . . . 30 V DC
PNP, NPN, Q
IP 67
–25 °C . . . +60/70 °C
Cable/connector
VT 18 angled
200/400/800
50/100
Infrared light
VL 18 angled
0.05 . . . 3/C 110
0.05 . . . 3.7/C 110
Yes/red light
VS/VE 18 angled
0 . . . 20
TI 8)
Infrared light
V 18 L
M18 x 98/108
Metal
10 . . . 30 V DC
PNP, NPN
IP 67
–25 °C . . . +70 °C
Plug connector
VT 18 L
300/350
Laser, red, class 1
VL 18 L
0 . . . 30/P 250 F
0 . . . 35/P 250 F
Yes/Laser, red, class 1
VS/VE 18 L
0 . . . 60
Laser, red, class 1
MH 15
M18 x 15 x 34 ... 65
Plastic
10 . . . 30 V DC
PNP, NPN
IP 67
–25 °C . . . +55 °C
Connector/cable
MHT 15
350/250
100/90
Light emission axially or radially
Infrared light
MHL 15
0 . . . 3.5/0 ... 2.6/PL 80 A
0 . . . 5/0 ... 4.5/PL 80 A
Light emission axially or radially
Yes/red light
MHSE 15
0 . . . 5/0 ... 4
Light emission axially or radially
Red light
NEW
Optoelectronic sensors
60
Photoelectricsensors
WLL 160 (T)
12 x 38.5 x 591)
Plastic
10 . . . 30 V DC
PNP/NPN
1660/s
Time delay, selectable
IP 66
–25 . . . +55 °C
Cable/connector M8
0 . . . 70 mm
0 . . . 500 mm
0 . . . 2 m with front lenses
Red light
Plastic fibre-optic cable LL3
Test input, sensitivity can be
adjusted with Teach-in ,
manually or via control wire
TI
�
�
WLL 170 (H/A/T)
9 x 38.5 x 601)
Plastic
10 . . . 30 V DC
PNP/NPN
1430/s; 10000/s (High-speed)
Off delay,
40 ms fix, selectable
IP 50
–25 . . . +55 °C
Cable/connector M8
0 . . . 100 mm
0 . . . 600 mm
0 . . . 2,5 m with front lenses
Red light/green light
Plastic fibre-optic cable LL3
Analog output 1 . . . 5 V
Sensitivity can be adjusted
with Teach-in , manually or
via control wire Mark sensor
(green light)
TI
�
WLL 190 T
10.5 x 32.2 x 76.51)
Plastic
10 . . . 30 V DC
PNP/NPN
2000/s, selectable
0 . . . 9 s, selectable
IP 66
–25 . . . +55 °C
Cable/connector M8
0 . . . 300 mm
0 . . . 1300 mm6)
0 . . . 5 m with front lenses
Red light/green light
Plastic fibre-optic cable LL3
Digital display; all operation
parameters can be set menu-
prompted (Teach-in ).
Very large scanning range
Integrated: block installation
for internal BUS: 8-times anti-
interference, reduced wiring
work, internal evaluation logic
TI
Photoelectric sensors with fibre-optic cables
Technical data
Dimensions
Housing material
Supply voltage
Switching outputs
Max. switching
frequency
Time delay
Enclosure rating
Amb. operat. temp.
Connection type
Approvals
Scanning distance3)4)
Scanning range5)6)
Light source
Fibre-optic cable
System features
Special models
1) Width x Height x Depth[mm]
2) Thread diameter x Length [mm]
3) Scanning systems
4) Dependent on device and fibre-opticcable type, light type, object
5) Through-beam systems6) Dependent on selected response time7) II 2G EEx ia llC T4
WLL 12
15 x 49 x 531)
Metal
10 . . . 30 V DC
PNP/NPN
1300/s
IP 67
–25 . . . +55 °C
Connector M12
0 . . . 50 mm
0 . . . 550 mm
Red light/infrared light/green light
Plastic fibre-optic cable LL3,
fibre-optic cable in metal
filament LM/LT
Scanning system with
background suppression
WLL 24 Exi
27 x 87.5 x 651)
Metal
8.2 V DC
Control current dependent on
switching state in accordance
with EN 60947-5-6 (NAMUR)
50/s
IP 65
–20 . . . +50 °C
Connector M12/terminal
EU Directive
94/9/EG („ATEX“)7)
25 mm with LL3-DB 01
100 mm with LL3-TB 02;
1000 mm with front lenses
LL3-TA 01
Red light
Plastic fibre-optic cable LL3
WLL 260
25 x 77.5 x 631)
Plastic
10 . . . 30 V DC;
12 . . . 240 V DC/
24 . . . 240 V AC
PNP/NPN/Rel. SP
700/s (DC); 25/s (UC)
Time delay selectable (UC)
IP 66
–25 . . . +55 °C
Connector M12/terminal
0 . . . 65 mm
0 . . . 800 mm
Red light
Fibre-optic cable
LIS/LBS
VLL 18T
M18 x 89.42)
Metal
10 . . . 30 V DC
PNP/NPN
800/s
IP 67
–25 . . . +70 °C
Cable/connector M12
0 . . . 50 mm
0 . . . 200 mm
0 . . . 1000 mm with
Front lenses LL3-TA 01
Red light
Plastic fibre cable LL3
Adjustable sensitivity with
Teach-in , manual, or
via control wire
TI
61
Optoelectronic sensors
62
Contrast, color, luminescence, fork sensors
Contrast scanners
Very high contrastresolutionSwitching threshold can beset manually or by Teach-in(static or dynamic)User-friendly setting viadisplayHigh switching frequencyCan detect print marks,using the difference in con-trast between the marksand the backgroundAlso available with fibre-optic cables
Luminescence scanners
React to luminescent substancesDetect markings otherwiseinvisible to the naked eyeScanning range adjustedby changing lensAlso available with fibre-optic cables
Color sensors
Identification, checking andsorting according to colorPrecise color recognitionusing transmitted and inci-dental lightDetection of up to threecolorsSimple programming bymeans of Teach-in Also available with fibre-optic cables
Fork sensors
Sender and receiver in onehousingLarge number of differentfork widthsCan be precisely adjustedto the objectDetection of minute differ-ences in light intensityTeach-in function by buttonor control cable (WF 3T,WF 5T)
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [mm]
Switching outputs
Analog output
Switching frequency
Light source
Interface
Connection type
Teach-in
1) Width x Height x Depth [mm]
WTM 160 (T)
11 x 23 x 38/11 x 38 x 23
Plastic
10 . . . 30 V DC
IP 67
–25 °C . . . +55 °C
10 ± 2.0
PNP/NPN
2500/s
Green light
Q
Cable/connector M8
Manual/external TI
Contrast scanners
63
WLL 170 (T)
9 x 38 x 60
Plastic
10 . . . 30 V DC
IP 50
–25 °C . . . +55 °C
Depending on fibre-optic
cable LL3, objectiv
PNP/NPN
1 . . . 5 V (optional)
1000/s; 10000/s
Green/red light
Switching output Q
Cable/connector M8
Static/dynamic TI
�
Optoelectronic sensors
64
Contrast, color, luminescence, fork sensors
Contrast scanners
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [mm]
Switching outputs
Analog output
Switching frequency
Light source
Interface
Connection type
Teach-in
1) Width x Height x Depth [mm]2) ET = Teach-in input3) LD = Light-/dark-switching4) FC = Fine/coarse input
KT 2
15 x 49 x 41.5
Metal
10 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
13.5
PNP/NPN
10000/s
Green/Red light
QP /QN
Plug connector M12
®
KT 3
12 x 40 x 22
Plastic
24 V DC ± 20 %
IP 67
–10 °C . . . +55 °C
12.5
PNP/NPN
1500/s; 10000/s
Red, blue, green light/green light;
Laser, red; class 2
Plug connector M12
Static, 2-point TI
KT 5-2
30.4 x 56 x 99
Metal
10 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
10/20/40
PNP/NPN
0 . . . 10 mA (optional)
10000/s
Red, blue, green light/green light
Q, ET2), LD3), FC4), QA
Plug connector M12
Static/dynamic TI
®
KT 5L
30.4 x 99 x 56
Metal
10 . . . 30 V DC
IP 67
–10 °C . . . +40 °C
150
PNP/NPN
0 . . . 10 mA
10000/s
Laser, red; class 2
Q, QA
Plug connector M12
®
KTL 5-2 fibre-optic cables
30.4 x 53 x 118.5
Metal
10 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
Depending on
fibre-optic cable
PNP/NPN
0 . . . 10 mA (optional)
10000/s
Green light
Q, QA
Plug connector M12
®
65
KT 10
30.4 x 53 x 80
Metal
12 . . . 30 V DC
IP 67
–10 °C . . . +60 °C
12.5
PNP/NPN
25000/s
Red, blue, green light
Q, ET2), AT3)
Plug connector M12
Dynamic TI
®
Optoelectronic sensors
66
Contrast, color, luminescence, fork sensors
CSM 1
12 x 40 x 22
Plastic
24 V DC ± 20 %
IP 67
–10 °C . . . +55 °C
12.5
PNP/NPN
1500/s
Red, blue, green light
ET2)
Plug connector M12
Static
1 (programmable)
TI
CS 1/CS 3
30.4 x 53 x 80
Metal
12 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
12.5/60
0.05 . . . 1
PNP/NPN
1000/s; 300/s
Red, blue, green light
Q1, Q2, Q3, ET2), AT3)
Plug connector M12
Static
1/3 (programmable)
TI
Color sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [mm]
Scanning range
Switching outputs
Analog output
Switching frequency
Light source
Interface
Connection type
Teach-in
Number of colors
1) Width x Height x Depth [mm]2) ET = Teach-in input3) AT = Blanking input
67
CSL 1
30.4 x 53 x 118.5
Metal
DC 12 . . . 30 V
IP 67
–10 °C . . . +55 °C
Depending on
fibre-optic cable2)
PNP/NPN
1000/s
Red, blue, green light
Q1, ET3), AT4)
Plug connector M12
Static
1 (programmable)
TI
LUT 1-4
64 x 138 x 200
Metal
18 . . . 30 V DC
IP 63
0 °C . . . +45 °C
10/20/50/125/300
8/15 with fibre-optic cable
PNP/analog
0 . . . 1.5 V
5000/s
UV
Q
Plug connector
Luminescencescanners
LUT 2
12 x 40 x 22
Plastic
24 V DC ± 20 %
IP 67
–10 °C . . . +55 °C
12.5
PNP/NPN
500/s; 2000/s
UV
Q
Plug connector M12
Static TI
LUT 3-6/3-8/3-9
27 x 88 x 85.2
Metal
12 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
10/20/50/90
PNP/NPN
0.5 . . . 10 mA
1500/s
UV
QP /QN, QA
Plug connector M12
®
Optoelectronic sensors
68
Contrast, color, luminescence, fork sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [mm]
Scanning range
Fork widths [mm]
Switching outputs
Analog output
Switching frequency
Light source
Interface
Connection type
Teach-in (setting)
1) Width x Height x Depth [mm] depending on fork width and depth2) All fork ranges available in three fork depths
LUT 3-8/9 fibre-optic cable
27 x 88 x 85.2
Metal
12 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
Depending on pigment ratios
PNP/NPN
0.5 . . . 10 mA
1500/s
UV
QP /QN/QA
Plug connector M12
®
Luminescencescanners
WFT
12 x 37/39 x 801)
Metal
10 . . . 30 V DC
IP 65
–20 °C . . . +60 °C
3; 5
PNP/NPN
10000/s
Infrared continuous light
Q; Teach-in input
Plug connector M8
Static TI
®
Fork sensors
69
WF next
10 x 32 . . . 150 x 57/75/110
Metal
10 . . . 30 V DC
IP 65
–20 °C . . . +60 °C
2; 5; 15; 30; 50; 80; 1202)
PNP/NPN
10000/s
Infrared modulated light
QP, QN
Plug connector M8
Manual, static TIITI
®
Labels can only be cutand punched if printing andcontrol marks can be accu-rately detected. Fork sen-sors are used to ensurethat everything runssmoothly and reliably.
The high repeat accuracyof the KT 10 is required toensure precise cutting.
NEW
Optoelectronic sensors
Light grids
...
...
Light grids
Through-beam (ELG/MLG) and reflection systems (WLG)Two-dimensional detection rangeRecording and counting irregular objectsMeasuring and sorting different heightsPresence and protrusion monitoringSag monitoring for web-shaped materialsTeach-in function (MLG/WLG)Software-supported user-friendly parameterization and user guidance via application wizards (MLGsetup)
WLG 12 2)
62 x 106 x 47
Plastic
18 . . . 30 V DC
IP 67
–25 °C . . . +55 °C
8
0 . . . 1.5
6 . . . 12.5 adjustable
8 x PNP + Alarm
1 x PNP + Alarm
2 x PNP, Q, Q–, 2 x NPN, Q, Q–
850/s
Red light
Cable/connector
...
Light grids
71
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Number of light beams
Scanning range
Smallest detectable object size [mm]
Switching outputs
Switching frequency
Light source
Interface
Connection type
Teach-in
1) Width x Height x Depth [mm]2) Reflex system3) Depending on range and reflector4) Through-beam system5) Depending on range and beam distance
MLG 4)
29 x 215 . . . 3325 x 34
Metal
15 . . . 30 V DC
IP 65
–25 °C . . . +55 °C
3 . . . 240, modular structure
5/8.5
10 . . . 55 5)
Up to 6 outputs/2 inputs
Infrared light
RS 485 data/
measurement value output
Terminal chamber/plug connector
Static TI
Optoelectronic sensorsOptoelectronic sensors
Light grids
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Number of light beams
Scanning range [m]
Smallest detectable object size [mm]
Switching outputs
Switching frequency
Light source
Interface
Connection type
Teach-in
1) Width x Height x Depth [mm]2) Reflex system3) Depending on range and reflector4) Through-beam system5) Depending on range and beam distance
ELG 4)
29 x 256 . . . 2596 x 34
Metal
15 . . . 30 V DC
IP 65
–25 °C . . . +55 °C
6 . . . 64, modular structure
2/12
25 . . . 655)
Relay SPDT
2 x PNP, Q, Q–
2 x NPN, Q, Q–
Infrared light
Cable/connector
Light grids
72
73
Susi Senkbein
Hafenstr. 19
40038 Firnheim
GRAFIKTEAM
Werbeagentur GmbH
Scheerb nd 3
77654 Offenburg
GRAFIKTEAM
Werbeagentur GmbH
Scheerb nd 3
77654 Offenburg
Susi Senkbein
Hafenstr. 19
40038 Firnheim
GRAFIKTEAM
Werbeagentur GmbH
Scheerb nd 3
77654 Offenburg
SENSO Industriebedarf
Am Kontrollpunkt 2-4
76543 Dahinten
GRAFIKTEAM
Werbeagentur GmbH
Scheerb nd 3
77654 Offenburg
SENSO Industriebedarf
Am Kontrollpunkt 2-4
76543 Dahinten
Overlooked or no? Securityareas in public buildingsrequire access controls, whichprovide information aboutmovement directions. Two lightgrids next to each other detectunauthorized entry.
Correctly packed ornot? Automatic storageand transport systemsoperate smoothly if theoverhang controls detectproblems in time.
Optoelectronic sensors
74
Distance sensors
Distance sensors
Non-contact, precise distance measurement with red orlaser lightLarge operational rangesHigh resolutionEasy to use thanks to programmable parameters or Teach-inSerial interfaces, also SSI for further external processingCan be coupled to Profibus, Interbus-S, DeviceNet busUsed for positioning cranes, automated guided vehicle systems,rack serving units as well as for monitoring filling levels, loopcontrol and detecting minute parts to µm tolerances
IR data transmission photoelectric sensors
Cableless transmission of dataBidirectional communication between sender and receiverLow cable installation and maintenance costsHigh degree of immunity against ambient lightLarge operational rangesCompatible with Profibus, Interbus and SSI
DS 60
38 x 99 x 104
Plastic
18 . . . 30 V DC
IP 67
–25 °C . . . +50 °C
0.2 . . . 6
0.2 . . . 20
15
2 x PNP/NPN
10/s; 50/s
ET6)
Laser, infrared; class 1;
Laser, red; class 2
Connector M12
DS 500
150 x 70 x 50
Metal
10 . . . 30 V DC
IP 65
–10 °C . . . +50 °C
–40 °C . . . +50 °C (Heating)
0.2 . . . 18 (6 % black)
2 x PNP/NPN
250 ms
Laser, red; class 2
Connector M12
Distance sensors
75
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [m]
Scanning range (Reflector mode) [m]
Accuracy
Resolution [mm]
Switching outputs
Switching frequency
“Contamination” output
“Light path free” output
Analog output
Output rate
Serial Interface
Data transmission rate, max.
Inputs
Light source
Connection type
1) Width x Height x Depth [mm]2) Object with 90 % remission3) 18 % remission4) Without heating
5) With heating6) ET = Teach-in input7) SH = Blanking input
NEW
Optoelectronic sensors
76
Distance sensors
WTA 24
27 x 88 x 65
Metal
12 . . . 30 V DC
IP 67
–10 °C . . . +55 °C
0.1 . . . 3
1 . . . 10 % on current value
1.25/9/50 3)
2 x PNP
5/s, 50/s, 100/s
4 . . . 20 mA
5/s, 50/s, 100/s
Infrared light
Connector M12
Distance sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [m]
Scanning range (Reflector mode) [m]
Accuracy
Resolution [mm]
Switching outputs
Switching frequency
“Contamination” output
“Light path free” output
Analog output
Output rate
Serial Interface
Data transmission rate, max.
Inputs
Light source
Connection type
1) Width x Height x Depth [mm]2) Object with 90 % remission3) 18 % remission4) Without heating
5) With heating6) ET = Teach-in input7) SH = Blanking input
DT 2
15 x 49 x 41.5
Metal
18 . . . 30 V DC
IP 67
–10 °C . . . +45 °C
0.05 . . . 0.32)
± 8 % on current value2)
1
4 . . . 20 mA
200 ms
Infrared light
Connector M12
77
DT 60
38 x 104 x 87
Plastic
18 . . . 30 V DC
IP 67
–25 °C . . . +55 °C
0.2 . . . 5.3
± 10 mm
1.5
1 x PNP/NPN
4 . . . 20 mA
15 ms
Laser, red; class 2
Connector, M12
DT 200
54 x 105 x 138
Metal
18 . . . 30 V DC
IP 67
–10 °C . . . +45 °C
0.1 . . . 2
± 5 mm 2)
1
0 . . . 20 mA
30 ms
Laser, red; class 2
Connector, M12
DT 500
150 x 70 x 50
Metal
DC 10 . . . 30 V
IP 65
–10 °C . . . +50 °C
–40 °C . . . +50 °C (Heating)
0.2 . . . 18 (6 % black)
± 3 mm
1
0/4 . . . 20 mA
250 ms
RS 422
19.2 kBit
Laser, red; class 2
Connector, M12
DL 60
38 x 104 x 87
Plastic
18 . . . 30 V DC
IP 67
–25 °C . . . +55 °C
0.3 . . . 24
± 15 mm
7
1 x PNP/NPN
4 . . . 20 mA
8 ms
Laser, red; class 2
Connector, M12
NEW NEW NEW
Optoelectronic sensors
78
Distance sensors Distance sensors
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [m]
Scanning range (Reflector mode) [m]
Accuracy
Resolution [mm]
Switching outputs
Switching frequency
“Contamination” output
“Light path free” output
Analog output
Output rate
Serial Interface
Data transmission rate, max.
Inputs
Light source
Connection type
1) Width x Height x Depth [mm]2) Object with 90 % remission3) 18 % remission4) Without heating
5) With heating6) ET = Teach-in input7) SH = Blanking input
DME 3000
54 x 105 x 138
Metal
18 . . . 30 V DC
IP 65
–10 °C . . . +45 °C
0.1 . . . 8
0.1 . . . 500
± 5 mm 2)
0.125
4 x B
1 ms
SSI, Profibus-DP, RS 422
12.5 MBd (Profibus)
Laser, red; class 2
Connector M16
DME 5000
61 x 101 x 176
Metal
18 . . . 30 V DC
IP 65
–10 °C . . . +55 °C 4)
–40 °C . . . +55 °C 5)
0.15 . . . 70/150/300
± 2 mm/± 3 mm/± 5 mm
0.05 . . . 5, adjustable
2 x B
2 ms
SSI, Profibus, RS 422,
DeviceNet
12.5 MBd (Profibus)
500 KBd (DeviceNet)
Laser off, Preset
Laser, red; class 2
Connector
ISD 300
89 x 190 x 120
Metall
18 . . . 30 V DC
IP 65
+5 °C . . . +50 °C4)
–30 °C . . . +50 °C5)
0.2 . . . 120/200/300
PNP
Profibus/RS 485,
CANopen/DeviceNet,
Interbus/RS 422, Ethernet,
Interbus/LWL DH+/RIO
1.5 Mbit/s, 500 kbit/s,
2 Mbit/s, 230.4 kbit/s
Sender off
Infrared light, 880 nm
Terminal
79
ISD 230/260/280
72 x 169 x 100
Metal
24 V DC ± 20 %
IP 54/IP 65 with connector cover
0 °C . . . +55 °C4)
–38 °C . . . +55 °C5)
0.2 . . . 180/200
PNP
PNP
RS 232, RS 422, RS 485,
CL 20 mA a/p,
Profibus, Interbus-S, SSI
38.4 kBd/0.5 MBd/1.5 MBd
Sender off
Infrared light, 860 nm
Connector
Data transmissionsystems
DMT/DML
99.5 x 99.5 x 213.5
Metal
18 . . . 30 V DC
IP 65
0 °C . . . +40 °C
0.1 . . . 155 (DMT)
0.1 . . . 1100 (DML)
± 7 mm
1
Q1, Q2
16 . . . 1024 ms, adjustable
4 . . . 20 mA, programmable
16 . . . 1024 ms, adjustable
Profibus, RS 232,
RS 422/RS 232 switchable
12.5 MBd (Profibus)
Infrared laser,
class 1/1M
Terminal/Connector
OD/OD Hi/ODC
24 x 60 x 50
Plastic/metal
12 . . . 24 V DC
IP 67
–10 °C . . . +40 °C
20 . . . 400
Up to 80 µm
1 µm
1 x PNP
5/s
4 . . . 20 mA
280 µs
Profibus-DP, RS 232
1.5 MBd
ET6), SH7)
Red light/laser, red;
class 2
Cable, connector
Optoelectronic sensors
Vision sensors
Position finders
Reliable, millimeter-precise positioning atdocking and transfer stations in storage andconveyor engineeringSimple determination of the center point via twoanalog outputs (x/y)
Offset stack counters DMH/S
For counting overlapping objects such asmagazines, cartons, etc.Correct counting even with interrupted orirregular shingles
Intelligent Camera Sensors
Reliable object detection due to very even illu-minationSimple installation, because all components arein one housingSuitable for very fast processes (up to 400 images/s)Flexible use for various product formats viatransmission of parameter sets from and toPC/PLC
Color Vision Sensors
Detecting and/or distinguishing colored objectsFast operation startup with color display andfew operating elementsSimple installation; large depth of focus range
Height finders
For detection positions of objects, monitoringheight profiles, detecting filling levels, regulatingmaterial lanesSimple Teach-in procedure
ICS 100/1101)
47.5 x 47.5 x 140
24 V DC ± 20 %
IP 64
0 °C . . . +50 °C
70 mm
20 mm x 20 mm
Integrated, green
400/s
4 x B (NPN/PNP)
RS 232 optional
Connector M12
4/51)
Technical data
Dimensions2)
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance
Field of view
Lighting 3)
Max. image frequency
Switching outputs
Serial interface
Connection type
Evaluation procedures/software modes
1) Rotational contour check for allICS x1x
2) Width x Height x Depth [mm]3) Additional internal and external
lighting available on request
ICS 101/1111)
110 x 110 x 142
24 V DC ± 20 %
IP 64
0 °C . . . +50 °C
140 mm
40 mm x 40 mm
Integrated, green
400/s
4 x B (NPN/PNP)
RS 232 optional
Connector M12
4/51)
Intelligent Camera Sensors
81
Optoelectronic sensors
82
ICSL 02
185 x 185 x 200
24 V DC ± 20 %
IP 64
0 °C . . . +50 °C
330 mm
80 mm x 80 mm
Integrated, green
400/s
4 x B (NPN/PNP)
Connector M12
4
Technical data
Dimensions2)
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance
Field of view
Lighting 3)
Max. image frequency
Switching outputs
Serial interface
Connection type
Evaluation procedures/software modes
1) Field of view and scanning dis-tance of ICS 009 determined bycustomers’s lens selection
2) Width x Height x Depth [mm]3) Additional internal and external
lighting available on request
ICS 000/001/002/003/0091)
47.5 x 47.5 x 153
24 V DC ± 20 %
IP 64
0 °C . . . +50 °C
70/140/330/650 mm1)
20 mm x 20 mm
to 160 mm1) x 160 mm1)
Integrated, green
400/s
4 x B (NPN/PNP)
Connector M12
4
Intelligent Camera Sensors
Color Vision Sensors
83
AGD/DCI
47.5 x 47.5 x 140
24 V DC ± 20 %
IP 64
0 °C . . . +50 °C
70 mm
20 mm x 20 mm
Integrated, green
400/s
2/4 x B (NPN/PNP)
Connector M12
AGD: pixel sum comparison
DCI: minimum pixel sum
CVS 1
42 x 34 x 106
12 . . . 24 V DC ± 20 %
IP 67
0 °C . . . +40 °C
210 . . . 270/90 . . . 150/
50 . . . 100 mm
40 mm x 50 mm to
100 mm x 115 mm
Integrated, white
Min. 46/s
1(2) x PNP or NPN
Hirose, push-pull
Minimum pixel sum
Pixel sum comparison
CVS 2
42 x 34 x 106
12 . . . 24 V DC ± 20 %
IP 67
0 °C . . . +40 °C
210 . . . 270/90 . . . 150/
50 . . . 100 mm
40 mm x 50 mm to
100 mm x 115 mm
Integrated, white
Min. 46/s
1(2) x PNP or NPN
Hirose, push-pull
Shape comparison
NEW NEW NEW
Optoelectronic sensors
84
Vision sensors
DMP
43 x 125 x 82
Metal
18 . . . 30 V DC
IP 67
–25 °C . . . +55 °C
0.2 . . . 2.0
LED, red
250/s
PNP/NPN
4 . . . 20 mA
Plug connector M12
DMH
43 x 125 x 82
Metal
18 . . . 30 V DC
IP 67
–10 °C . . . +50 °C
42 . . . 62
Laser, red; class 2
160/s
PNP/NPN
4 . . . 20 mA
Plug connector M12
5
Position finders
Technical data
Dimensions1)
Housing material
Supply voltage
Enclosure rating
Ambient operating temperature
Approvals
Scanning distance (scanning mode) [mm]
Scanning range (Reflector mode) [m]
Light sender/Light source
Switching frequency
Switching outputs
Analogausgang
Connection type
Number of Evaluation procedures/software modes
1) Width x Height x Depth [mm]
Light section sensors
DMH/S
43 x 125 x 82
Metal
18 . . . 30 V DC
IP 67
–10 °C . . . +50 °C
42 . . . 62/70 . . . 110
Laser, red; class 2
250/s
PNP/NPN
Plug connector M12
3
85
The DMP usedto ensure precisepositioning sothat vehicles inautomatic carparks are placedin their parkingspace safely andwith millimetreaccuracy.
▼
Handling ve-hicles usuallyapproach high-baystorage racks fullyautomatically. TheDMP providespin-point position-ing to ensure thatthey reach theirdestination accu-rately.
▼
Accessories
86
Accessories/Interfaces
An extensive range of practical sensor accessories completes the SENSICK program:
• To facilitate electrical and mechanical installation
• To f inely adapt sensors to their intended application
• To assist in aligning the sensors
• To protect the sensors against moisture, dust, heat and cold
• To enable specif ied supply voltages to be connected
• To process output signals and to convert them into logic operations
• To integrate sensors in bus systems
With over 50 years of experience in sensor technology, S ICK has comprehen-
sive application know-how from virtually all industry branches. Our product
specialists will provide the perfect solution for your particular application
problem using sensors or complete systems which ensure that your system
continues to function eff iciently and remain available at all times.
Fixing accessories
Universal supports
• For attaching sensors and
reflectors to mounting rods
Mounting brackets
• For appropriate attachment
and fast, simple alignment
Clamps
• Also for attachment to
mounting rails
Mounting clamps and
retainer straps
• For magnetic cylinder
sensors
Mounting adapter
• For magnetic cylinder
sensors
Magnets
• For magnetic proximity
sensors
Optics
Plastic refelectors
• For temperatures up to
+65 °C
• Different sizes allow optimum
adaption to specific tasks
• Self-adhesive, with mounting
holes or as inserts
Reflectors with glass prisms
• For temperatures up to
+300 °C
Oil-proof reflectors
Heated reflectors
• To prevent moisture
condensation
Reflective films
• Cut to size or on rolls
Lenses
• With different focal distances
for contrast and lumines-
cence scanners
Slotted masks
• For through-beam photo-
electric sensors, to enable
detection of small, narrow
objects
Filters
• For luminescence scanners,
to enable adaptation of
spectral sensitivity
Polarising filters
• Attachments for through-
beam photoelectric sensors
to stop mutual interference
Accessories for encoders
Plugs
12-pole circular plug
21-pole circular plug
Cable as meterware
11-, 12- and 22-way
Couplings
• Bellows couplings
• Spring-disc couplings
Mounting bells
for encoders with servo flange
Mounting brackets
for CoreTech encoders with
clamping flange
Mounting plates
Servo-clamps
Collets
for CoreTech encoders with
• Blind hollow shaft
• Through hollow shaft
Connection systems
Cable receptacles
Round screw-type system
M 8, M 12, M 16, M 18
• With 3 to 12 pins or with
cables between 2 m and
10 m in length
• PVC or PUR cable sheath –
free of halogen
Cable receptacles
• Angled plug-in system
• DC, AC/UC coding
• With 3, 6, 7 pins or with
cables between 2 m and
10 m in length
• PVC cable sheath
• PUR cable sheath –
free of halogen
Cables
• By the meter
Extension cables
• With connectors at both
ends
Special cables
• On request
87
Accessories
Other accessories
Dust and weather shields
• For sensors used in hostile
environments
Cooling plates for water
cooling
• For sensors used at temper-
atures up to +160 °C
Peltier cooling unit
• For distance measuring
equipment used at
temperatures up +55 °C
Heating unit
• For distance measuring
equipment used at tempera-
tures from –38 to +40 °C
Luminescence scale
• Test standard and reference
for signal intensity of lumi-
nescent markings
Fiber-optic cables
LL3 plastic fibre-optic cables
• Fibre-optic cable and sheath
made of plastic
• Through-beam and scanning
systems
• High flexibility, small bending
radii
• Can be shortened to almost
any length (cutter supplied)
• Ambient operating tempera-
ture –40 °C to +70 °C
• Special versions up to 180 °C
• Lens attachments for large
scanning ranges (or focused)
available as accessories
LIS/LBS glass fibre-optic
cables with metal filament coil
• Stainless-steel sheath
• Through-beam and scanning
systems
• Min. bending radius 19 mm
• Ambient operating tempera-
ture –58 to +315 °C
LM/LT glass fibre-optic cables
• With PVC sheath or chromi-
um-plated metal filament coil
• Min. bending radius 20 mm
• Amb. operat. temp. –10 to
+60 °C with PVC sheath
–25 to +250 °C with chromi-
um-plated metal filament coil
LLUV UV fibre-optic cables
for luminescence scanners
• Ambient operating tempera-
ture –5 to +35 °C
• Not flexible at temperatures
below 0 °C
Switching devices and
power supply units
Switching devices
• Universal supply voltages
• Inputs with combination
options
• Adjustable time delays
• Clip-on mounting for
DIN 46277 supporting rail
Disconnecting switches
• Reliable electrical isolation
between input, output and
supply voltage
• AC or DC voltage supply
• 2 channels, each with one
SPDT relay output
• Intrinsically safe inputs to
II(1) GD [EEx ia] IIC
• Mounting on 35 mm DIN
rails according to
DIN EN 60715
Power supply units for
contrast scanners
• Clip-on rail mounting or
Euro-card
• Selectable mains voltage
• Relay output
88
BUS gateways
AS-Interface Components
Master/Gateways
• Master with serial interface
RS 232 C
Simple SPS “AS-Interface
Control” Version 2.1 IP 20
Advanced AS-Interface
diagnostics
• Gateway Profibus
Single/double master
Version 2.1 IP 20
Advanced AS-Interface
diagnostics
• Gateway Profibus
Single/double master
version 2.1 IP 20
Graphic display
Advanced AS-interface
diagnostics
• Gateway Profibus
Single master
Version 2.1 IP 65
Advanced AS-Interface
diagnostics
• Gateway DeviceNet
Single master
Version 2.1 IP 20
Advanced AS-Interface
diagnostics
AS-Interface
power supply units
• Supply voltage 115/230 V
• Output current 2.8/8 A
• Output overload and short-
circuit protected
• Power input and output indi-
rect-coupled
• Plug-in bridge for switching
off AS-Interface communica-
tion
• IP 20
Module IP 20
• For cabinet mounting
• Digital inputs and outputs
• Sensor/Actuator
connection via Combicon
plug
• 4 inputs
• 4 inputs/4 outputs
• Version 2.1
Module IP 67
• For applications field
• Digital inputs and outputs
• Connection of 3- or 4-wire
sensors
• 4 inputs
• 2 inputs/2 outputs
• 4 inputs/4 outputs
• Version 2.1
• 2 LED/2 push-buttons
module
2 inputs/2 outputs
Version 2.0
Accessories
• Software AS-Interface
control tools with advanced
AS-Interface diagnostics
• Addressing unit
Version 2.1
• Repeater
• Power Extender
• Module lower parts
• AS interface flat cable
Rubber, yellow/black
• Mounting clip
• Connection cable
Profibus accessories
Profibus connection adapter
• Cable with plug connectors
Profibus master simulator
Profibus terminator
• Plug
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SICK AG · Industrial Sensors · Waldkirch · Germany · www.sick.com
Comprehensive safeguarding of both
personnel and machinery! As specialists
in Sensor Technology, SICK develops and
manufactures pioneering products for
providing protection in hazardous zones,
dangerous locations and for safeguarding
access points. By providing services,
which encompass all aspects of machine
safety and security, SICK is setting new
standards in Safety Technology.
System control, maintaining setpoints,
optimising process control and
monitoring the flow of materials – the
instruments and services for Analysis
and Process Measurement, supplied
by SICK-MAIHAK, are setting the
standards for these applications in
terms of Technology and Quality.
Whether the tasks involve identification,
handling, classification or volume
measurement, innovative Auto Ident
systems and laser measuring systems
function extremely reliably, even under
rapid cycle times. They conform to the
latest Standards and can be simply
and speedily integrated in all industrial
environments and external applications.
Industrial Safety Systems Auto IdentIndustrial Sensors8
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6Analyzers and Process Instrumentation
Our complete range of sensors pro-
vides answers to suit any application
in the field of automation. Even under
rugged ambient conditions objects
are reliably detected, counted and
positioned in respect of their form,
location and surface finish, as well
as their distances established with
pin-point accuracy.
Contact:
A u s t r a l i aPhone +61 3 9497 41001800 33 48 02 – tollfreeE-Mail [email protected]
B e l g i u m / L u x e m b o u r gPhone +32 (0)2 466 55 66E-Mail [email protected]
B r a s i lPhone +55 11 5091- 4900E-Mail [email protected]
C e s k á R e p u b l i k aPhone +420 2 57 91 18 50E-Mail [email protected]
C h i n aPhone +852-2763 6966E-Mail [email protected]
D a n m a r kPhone +45 45 82 64 00E-Mail [email protected]
D e u t s c h l a n dPhone +49 (0)2 11 53 01- 250E-Mail [email protected]
E s p a ñ aPhone +34 93 480 31 00E-Mail [email protected]
F r a n c ePhone +33 1 64 62 35 00E-Mail [email protected]
G r e a t B r i t a i nPhone +44 (0)1727 831121E-Mail [email protected]
I t a l i aPhone +39 02 27 40 93 19E-Mail [email protected]
J a p a nPhone +81 (0)3 3358 1341E-Mail [email protected]
K o r e aPhone +82-2 786 6321/4E-Mail [email protected]
N e d e r l a n d sPhone +31 (0)30 229 25 44E-Mail [email protected]
N o r g ePhone +47 67 81 50 00E-Mail [email protected]
Ö s t e r r e i c hPhone +43 (0)22 36 62 28 8- 0E-Mail [email protected]
P o l s k aPhone +48 22 837 40 50E-Mail [email protected]
S c h w e i zPhone +41 41 619 29 39E-Mail [email protected]
S i n g a p o r ePhone +65 6744 3732E-Mail [email protected]
S u o m iPhone +358 - 9 -25 15 800E-Mail [email protected]
S v e r i g ePhone +46 8 680 64 50E-Mail [email protected]
T a i w a nPhone +886 2 2365 - 6292E-Mail [email protected]
U S A / C a n a d a / M é x i c oPhone +1(952) 941- 67801800 -325 -7425 – tollfreeE-Mail [email protected]
More representatives and agenciesin all major industrial nations atwww.sick.com
S I C KSensor In te l l i gence .