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Traffic sensors
Visual range measuring devices
Tunnel Sensors
Overheight detectors
Switching sensors
Ultrasonic sensors
Ultrasonic sensors, cubic
Special sensors
Luminescence sensors
Edge detection in overlap flow
Double sheet / splice inspections
Contrast sensors
Color sensors
Optical sensors
Sensors for potentially explosive areas
Sensors for detecting transparent media
Photoelectric sensors/diffuse sensors, cylindrical
Photoelectric sensors/diffuse sensors, cubic
Light curtains
Inductive switches
Standard sensors, cylindrical
Standard sensors, cubic
Reduction factor 1 sensors
Miniature sensors
All stainless steel sensors
AC/DC sensors
Forked sensors
Forked sensors for label detection
 Forked sensors for object detection
Fiber optic sensors
Fiber Optics
 Amplifiers
Capacitive sensors
Capacitive sensors, standard sensors, cylindrical
Capacitive sensors, standard sensors, cubic
Capacitive sensors / PTFE sensors
Capacitive sensors / IO-Link sensors
3D sensors
Light section sensors
 Laser scanners
Products for safety at work
Safe locking devices, switches and proximity sensors
Safety transponders
Safety switches
Safety locking devices
Safety command devices
Non-contact safety switches
Mechanical bolts for safety switches
Magnetically coded sensors
Electro-mechanical safety switches
Safe control components
Safety relay
Programmable safety controls
AS-Interface Safety at Work
Optoelectronic safety sensors
Single light beam safety devices
Safety light curtains
Safety laser scanner
Protective sensor sets
Multiple light beam safety devices
New Products,Identification
Bar code identification,3D Scanner
Bar code identification,2D Scanner
New Products
Measuring sensors
Ultrasonic distance sensors
Sensors for positioning
Optical laser measurement systems
Optical guidance
Compartment fine positioning
Camera-based positioning sensors
Bar code positioning systems
Optical distance sensors
Measuring forked sensors
Light curtains
3D sensors
Light section sensors
Laser scanners
Industries
Process Automation
Waste and recycling
Power
Oil and gas
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Metal and steel
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Chemicals, petrochemicals and refineries
Building materials
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Semiconductor
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Food and beverage
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Consumer goods
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Automotive and part suppliers
Industrial image processing
Smart camera
Light section sensors
Industrial IP camera
Identification
RF identification
Transponders
Stationary RFID read/write systems
Bar code identification
Stationary bar code readers
Mobile bar code readers
2D-code identification
Stationary 2D-code readers
Mobile 2D-code readers
Directly marked codes (DPM)
Data transmission/control components
Safe control components
Safety relay
Programmable safety controls
AS-Interface Safety at Work
Power supply
Modular connection units
Data transmission
Accessories
Signaling devices
Ready-made signaling columns
Panel-mount modules
Muting indicators
Multitone + beacon
Individually configurable signaling columns
Reflectors and reflective tapes
Standard reflectors
Reflectors with higher resistance
Reflectors with heating
Reflective tapes for standard applications
Reflective tapes for laser and clear-glass applications
Micro-triad-type reflectors
Protective screens
Muting mounting systems
Mounting systems
Rod mounts
Other mounting systems
Mounting bracket
Fiber optics
Plastic fibers
Glass fibers
Device columns
Deflecting mirrors / Deflecting mirror columns
Deflecting mirrors / individual mirrors
Deflecting mirrors / continuous
Deflecting mirror columns / individual mirrors
Deflecting mirror columns / continuous
Connection technology
Y-distribution cables
User-configurable connectors
Terminating resistors
Interconnection cables
Distribution boxes
Connection cables
Connection boxes
Base stations
Adapters
Bar code tapes
Alignment aids
3D Scanner
2D Scanner
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target="_blank" style="">12h<span class="ctf-screenreader"> 1308286229784350721</span></a></div></div><div class="ctf-corner-logo" style=""><svg class="svg-inline--fa fa-twitter fa-w-16" aria-hidden="true" aria-label="twitter logo" data-fa-processed="" data-prefix="fab" data-icon="twitter" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 512 512"><path fill="currentColor" d="M459.37 151.716c.325 4.548.325 9.097.325 13.645 0 138.72-105.583 298.558-298.558 298.558-59.452 0-114.68-17.219-161.137-47.106 8.447.974 16.568 1.299 25.34 1.299 49.055 0 94.213-16.568 130.274-44.832-46.132-.975-84.792-31.188-98.112-72.772 6.498.974 12.995 1.624 19.818 1.624 9.421 0 18.843-1.3 27.614-3.573-48.081-9.747-84.143-51.98-84.143-102.985v-1.299c13.969 7.797 30.214 12.67 47.431 13.319-28.264-18.843-46.781-51.005-46.781-87.391 0-19.492 5.197-37.36 14.294-52.954 51.655 63.675 129.3 105.258 216.365 109.807-1.624-7.797-2.599-15.918-2.599-24.04 0-57.828 46.782-104.934 104.934-104.934 30.213 0 57.502 12.67 76.67 33.137 23.715-4.548 46.456-13.32 66.599-25.34-7.798 24.366-24.366 44.833-46.132 57.827 21.117-2.273 41.584-8.122 60.426-16.243-14.292 20.791-32.161 39.308-52.628 54.253z"></path></svg></div></div><div class="ctf-tweet-content"><p class="ctf-tweet-text" style="">#Nationa #Laser #Sensor<br />
#Glossary<br />
#Laser #Sensors #Technology #Glossary <br />
#Armoring </p><div class="ctf-tweet-media"><a href="https://pbs.twimg.com/media/Eif3Y3-UcAAea48.jpg" data-ctf-lightbox="1" data-title="#Nationa #Laser #Sensor
#Glossary
#Laser #Sensors #Technology #Glossary 
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Last four added laser sensors

Confidence index

Max Company 1
70.8%
+15
Max Company 2
51.2%
+7
Max Company 3
47.6%
-7
Max Company 4
76.3%
+8

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National Laser Sensor