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Photoelectric sensor W16 - SICK
The photoelectric sensor W16 from SICK is equipped with new technologies such as twinEye, lineSpot, clearSens and optoFilter for reliable object detection. It can be quickly and conveniently adjusted via the bluePilot operating and display concept.
Since every W16 is designed as a smart sensor, it can be configured to fit the application via IO-Link and offers additional diagnostic functions and Smart Tasks. It is therefore a trailblazer on the path to Industry 4.0. The highly-visible PinPoint LED and the infrared LED are available as the light source. The durable laser inscription ensures device identification in the long run. Thanks to the very rugged VISTAL® housing and the predictive maintenance, the W16 offers very high reliability and prevents unplanned machine downtimes.
Since every W16 is designed as a smart sensor, it can be configured to fit the application via IO-Link and offers additional diagnostic functions and Smart Tasks. It is therefore a trailblazer on the path to Industry 4.0. The highly-visible PinPoint LED and the infrared LED are available as the light source. The durable laser inscription ensures device identification in the long run. Thanks to the very rugged VISTAL® housing and the predictive maintenance, the W16 offers very high reliability and prevents unplanned machine downtimes.
Photoelectric sensor W24-2 – SICK
Long-range sensor with a metal housing for harsh environments.
The photoelectric sensor W24 from SICK features a rugged metal housing that has passed IP 69K testing, which ensures reliability in harsh industrial conditions. These sensors are highly resistant to ambient light and offer a very long sensing range with a high operating reserve.
The photoelectric sensor W24 from SICK features a rugged metal housing that has passed IP 69K testing, which ensures reliability in harsh industrial conditions. These sensors are highly resistant to ambient light and offer a very long sensing range with a high operating reserve.
Photoelectric sensor W250 – SICK
The W250 family of photoelectric sensors from SICK is characterized by a special combination where both DC and AC/DC types are integrated in one highly compact housing.
With a cable variant and a rotatable male connector variant, the W250 is highly flexible when it comes to system integration. Users are aided by an easy-to-read positioning indicator when adjusting sensitivity and sensing distance. Light/dark switching via a control cable cuts the number of device variants by half and reduces storage.
With a cable variant and a rotatable male connector variant, the W250 is highly flexible when it comes to system integration. Users are aided by an easy-to-read positioning indicator when adjusting sensitivity and sensing distance. Light/dark switching via a control cable cuts the number of device variants by half and reduces storage.
Photoelectric sensor W26 – SICK
The photoelectric sensor W26 from SICK is equipped with new technologies such as twinEye, lineSpot, clearSens and optoFilter for reliable object detection. It can be quickly and conveniently adjusted via the BluePilot operating and display concept.
Since every W26 is designed as a Smart Sensor, it can be configured to fit the application via IO-Link and offers additional diagnostic functions and Smart Tasks. It is therefore a trailblazer on the path to Industry 4.0. The highly-visible PinPoint LED and the infrared LED are available as the light source. The durable laser inscription ensures device identification in the long run. Thanks to the very rugged VISTAL® housing and the predictive maintenance, the W26 offers very high reliability and prevents unplanned machine downtimes.
Since every W26 is designed as a Smart Sensor, it can be configured to fit the application via IO-Link and offers additional diagnostic functions and Smart Tasks. It is therefore a trailblazer on the path to Industry 4.0. The highly-visible PinPoint LED and the infrared LED are available as the light source. The durable laser inscription ensures device identification in the long run. Thanks to the very rugged VISTAL® housing and the predictive maintenance, the W26 offers very high reliability and prevents unplanned machine downtimes.
Photoelectric sensor W45 - SICK
Detect products at a distance beyond what the eye can see!
The W45 sensor family from SICK offers the highest level of operational security at 100 m among standard photoelectric sensors.
These sensors are enclosed in a rugged metal housing for harsh industrial environments and long service life. When combined with optional front lens heating, the W45 becomes an ideal choice for long-range outdoor applications.
All versions are equipped with adjustable time delays for individual application flexibility, which reduces the number of stocked part numbers. Variants with DC voltage and universal AC/DC voltage are available.
Special variants have been developed to detect high temperature targets such as glowing steel (> 800 °C).
The W45 sensor family from SICK offers the highest level of operational security at 100 m among standard photoelectric sensors.
These sensors are enclosed in a rugged metal housing for harsh industrial environments and long service life. When combined with optional front lens heating, the W45 becomes an ideal choice for long-range outdoor applications.
All versions are equipped with adjustable time delays for individual application flexibility, which reduces the number of stocked part numbers. Variants with DC voltage and universal AC/DC voltage are available.
Special variants have been developed to detect high temperature targets such as glowing steel (> 800 °C).
Photoelectric sensor W4F – SICK
With the W4F, high performance and smart automation are now also available in a miniature size. The miniature sensor is the perfect complement to the product range of a new generation of opto-electronic sensors such as the W16 and W26 and, thanks to the new ASIC technology from SICK, consistently delivers extremely reliable detection results.
Photoelectric sensors G6 – SICK
Way above the standard – the economic way to business class.
The photoelectric sensors in the G6 product family with their miniature housings will impress you across the board with both their standard mounting configuration of 1-inch spaced holes and also their functional characteristics. The variants with a stainless steel 1.4404 (316L) housing are especially resistant to chemicals and cleaning agents in washdown applications. With PinPoint LED and laser technology, metal inserts for mounting, large and bright indicator LEDs, user-friendly adjustment screws, IP67 and IP69K enclosure ratings, as well as the very latest ASIC technology from SICK, the G6 series far exceeds the current standard.
The photoelectric sensors in the G6 product family with their miniature housings will impress you across the board with both their standard mounting configuration of 1-inch spaced holes and also their functional characteristics. The variants with a stainless steel 1.4404 (316L) housing are especially resistant to chemicals and cleaning agents in washdown applications. With PinPoint LED and laser technology, metal inserts for mounting, large and bright indicator LEDs, user-friendly adjustment screws, IP67 and IP69K enclosure ratings, as well as the very latest ASIC technology from SICK, the G6 series far exceeds the current standard.
Photoelectric sensors rectangular array AS30 – SICK
More flexibility and efficient communication!
The AS30 array sensor from SICK operates on the proximity scanning principle. It detects even the slightest differences in grayscale values within the field-of-view.
Positioning of, for example, a paper web based on the web edge or a contrast line is only one of many possible applications. Widths, diameters, and gaps can also be detected. In reflector mode, the photoelectric sensors AS30 from SICK can even detect transparent materials.
The AS30 array sensor from SICK operates on the proximity scanning principle. It detects even the slightest differences in grayscale values within the field-of-view.
Positioning of, for example, a paper web based on the web edge or a contrast line is only one of many possible applications. Widths, diameters, and gaps can also be detected. In reflector mode, the photoelectric sensors AS30 from SICK can even detect transparent materials.
Photoelectric sensors rectangular for explosive atmospheres – SICK
Safe and reliable switching in Ex-areas.
The photoelectric sensors rectangular SICK Series have been developed for applications in explosive areas, in order to provide intrinsic safety.
The photoelectric sensors rectangular SICK Series have been developed for applications in explosive areas, in order to provide intrinsic safety.
Photoelectric sensors W10 - SICK
Easy to install. Easy to operate. The one photoelectric proximity sensor for all applications.
The W10 photoelectric proximity from SICK sensor’s ease of use, sturdy design and performance make it ideal for precise object detection in demanding environments.
The touchscreen display is intuitive to use, allowing parameters to be set quickly. Situation-dependent teach-ins allow convenient sensor adaptation to individual applications. The fact that various MultiMode functions and configurations, such as foreground and background suppression, are combined in a single sensor allows success in a wide range of applications.
The W10 photoelectric proximity from SICK sensor’s ease of use, sturdy design and performance make it ideal for precise object detection in demanding environments.
The touchscreen display is intuitive to use, allowing parameters to be set quickly. Situation-dependent teach-ins allow convenient sensor adaptation to individual applications. The fact that various MultiMode functions and configurations, such as foreground and background suppression, are combined in a single sensor allows success in a wide range of applications.
Photoelectric sensors W12 – SICK
The W12 photoelectric sensors from SICK offer reliable object detection in demanding industrial environments and are virtually universal in use. The rugged zinc die cast housing protects against mechanical and thermal influences. At the same time, the photoelectric sensors are resistant to optical interference such as ambient light. Thanks to laser, LED and infrared technology, the sensors are versatile in use. The local BluePilot user interface with teach-turn adjustment and IO-Link enable fast and intuitive commissioning.
Application-focused variants ensure a high detection reliability – even for transparent, uneven, reflective, high-contrast, perforating or depolarizing objects. Thanks to multifunctional variants, the photoelectric sensors are flexible in use and can be adapted to individual requirements.
Application-focused variants ensure a high detection reliability – even for transparent, uneven, reflective, high-contrast, perforating or depolarizing objects. Thanks to multifunctional variants, the photoelectric sensors are flexible in use and can be adapted to individual requirements.
Position sensors MPS-G – SICK
The precise position sensor for grippers and miniature cylinders.
SICK MPS-G position sensors continuously detect the position of the fingers of pneumatic grippers and the piston position of miniature cylinders using a direct, non-contact method. The magnetic distance measuring system with the compact design enables extremely precise position determination. The sensor supports countless wiring and control concepts.
SICK MPS-G position sensors continuously detect the position of the fingers of pneumatic grippers and the piston position of miniature cylinders using a direct, non-contact method. The magnetic distance measuring system with the compact design enables extremely precise position determination. The sensor supports countless wiring and control concepts.
PowerProx MultiTask photoelectric sensors - Sick
The powerful PowerProx MultiTask photoelectric sensors offer all of the advantages of time-of-flight technology in the world's smallest sensor housing to date, giving maximum flexibility when designing machines.
Objects being conveyed at high speed, small and flat objects, and jet-black or shiny objects can now be reliably detected at sensing ranges between 5 cm and 4 m. PowerProx also provides stable detection results over a large detection angle. The “Distance”, “Speed”, “Precision”, “Small”, “Micro”, and “WTT280L” versions are designed to be used in different applications. This means that PowerProx always offers perfect solution – for empty bay detection via rapid counting right through to use in handling and assembly.
Objects being conveyed at high speed, small and flat objects, and jet-black or shiny objects can now be reliably detected at sensing ranges between 5 cm and 4 m. PowerProx also provides stable detection results over a large detection angle. The “Distance”, “Speed”, “Precision”, “Small”, “Micro”, and “WTT280L” versions are designed to be used in different applications. This means that PowerProx always offers perfect solution – for empty bay detection via rapid counting right through to use in handling and assembly.
Pressure sensor PBT – SICK
A genuinely talented all-rounder!
The PBT is a universal electronic pressure transmitter used in general industrial applications for pressure measurement of liquid and gaseous fluids.
Suitable for standard measuring applications in machine and plant engineering, pressure control systems, hydraulics, pneumatics, etc., it supports a wide variety of configurations, and can thus provide the perfect match for individual customer requirements. Its precise and rugged measurement technology, compact dimensions, and quick and simple installation set the pressure sensor PBT, from SICK, apart as a genuinely talented all-rounder.
The PBT is a universal electronic pressure transmitter used in general industrial applications for pressure measurement of liquid and gaseous fluids.
Suitable for standard measuring applications in machine and plant engineering, pressure control systems, hydraulics, pneumatics, etc., it supports a wide variety of configurations, and can thus provide the perfect match for individual customer requirements. Its precise and rugged measurement technology, compact dimensions, and quick and simple installation set the pressure sensor PBT, from SICK, apart as a genuinely talented all-rounder.
Pressure sensor PFT – SICK
The flexible solution.
The PFT electronic pressure transmitter is used for the precision measurement of pressures in liquids and gases. Distinguished by its high-quality measurement technology, the device is well suited to solve demanding measurement tasks in industrial applications.
Designs with extended temperature range, enhanced measurement accuracy, or flush-mounted membrane open up a wide range of applications. Its vast configurability ensures the pressure sensor PFT from SICK can perfectly suit the most diverse customer requirements.
The PFT electronic pressure transmitter is used for the precision measurement of pressures in liquids and gases. Distinguished by its high-quality measurement technology, the device is well suited to solve demanding measurement tasks in industrial applications.
Designs with extended temperature range, enhanced measurement accuracy, or flush-mounted membrane open up a wide range of applications. Its vast configurability ensures the pressure sensor PFT from SICK can perfectly suit the most diverse customer requirements.
Pressure switch PBS Hygienic – SICK
The electronic pressure switch PBS Hygienic has been designed for use in the food and beverage industry.
The wetted parts are gap-free and have no dead spaces. Their high-quality stainless steel surfaces are smooth and easy to clean. The highly resistant stainless steel membrane is welded to the hygienic process connection without gaps or edges. The device is designed for CIP and SIP processes. This enables safe hygienic operation in conjunction with optimized system availability.
The wetted parts are gap-free and have no dead spaces. Their high-quality stainless steel surfaces are smooth and easy to clean. The highly resistant stainless steel membrane is welded to the hygienic process connection without gaps or edges. The device is designed for CIP and SIP processes. This enables safe hygienic operation in conjunction with optimized system availability.
Proximity inductive sensor IDF - SICK
Detecting double layers in film stack processes, e.g. in battery production, is a huge challenge. The new IDF double film sensors reliably detect whether a suction gripper has picked up one or several films and ensure that the unwanted double film is immediately sorted out.
Due to its small size, the sensor can be integrated directly into the gripper. In addition, in contrast to other solutions, the IDF does not need a receiver unit. It thus detects the films as soon as they are picked by the gripper, so only from one film side. This speeds up the process times.
Teaching-in different films is done in mere seconds, and can be performed either by teach-in via a cable or via IO-Link.
Due to its small size, the sensor can be integrated directly into the gripper. In addition, in contrast to other solutions, the IDF does not need a receiver unit. It thus detects the films as soon as they are picked by the gripper, so only from one film side. This speeds up the process times.
Teaching-in different films is done in mere seconds, and can be performed either by teach-in via a cable or via IO-Link.
Proximity inductive sensor IMA - SICK
Analog sensors with triple sensing range for use in industrial environments
The IMA inductive analog sensors give out a current or voltage signal which is in proportional relation to the distance from the sensor to the metal target.
They are therefore optimally suited for monitoring travel paths, positions or even differentiating between spaces and material variants. The proximity inductive sensors IMA, from SICK, are characterized by extremely large detection ranges up to 40 mm, high accuracy, precision and no blind areas.
The IMA inductive analog sensors give out a current or voltage signal which is in proportional relation to the distance from the sensor to the metal target.
They are therefore optimally suited for monitoring travel paths, positions or even differentiating between spaces and material variants. The proximity inductive sensors IMA, from SICK, are characterized by extremely large detection ranges up to 40 mm, high accuracy, precision and no blind areas.
Proximity inductive sensor IMC - SICK
The inductive, intelligent, and, thanks to IO-Link 1.1, communication-enabled IMC proximity sensors offer a whole host of new options to make handling applications easier and more reliable in every industry.
Up to four individual switching points or windows including the hysteresis can be set. Equipped with two freely programmable switching end stages, an IMC can therefore replace several conventional devices. Adjustable switch-on and switch-off delays help to reliably suppress unwanted switching pulses in harsh environments. The additional on-board functions, such as logic modules, temperature measurement, counters, or time measurement enable complex tasks to be completed with ease directly in the sensor.
Up to four individual switching points or windows including the hysteresis can be set. Equipped with two freely programmable switching end stages, an IMC can therefore replace several conventional devices. Adjustable switch-on and switch-off delays help to reliably suppress unwanted switching pulses in harsh environments. The additional on-board functions, such as logic modules, temperature measurement, counters, or time measurement enable complex tasks to be completed with ease directly in the sensor.
Proximity inductive sensor IME - SICK
The economic standard for use in industrial environments.
SICK´S inductive sensors offer precise detection, less downtime and a long service life. The proximity inductive IME sensors, from SICK, pack high technology into the smallest of spaces. The integrated ASIC chip enables digital adjustment after the end of the manufacturing process.
The saving of values in the ASIC ensures highly precise switching points and very high repeatability of values – for any number of production runs. IM sensors are completely encapsulated with hotmelt molding, which greatly increases shock and vibration resistance. The customer benefits from high positioning accuracy in the machine and long-term reliability.
SICK´S inductive sensors offer precise detection, less downtime and a long service life. The proximity inductive IME sensors, from SICK, pack high technology into the smallest of spaces. The integrated ASIC chip enables digital adjustment after the end of the manufacturing process.
The saving of values in the ASIC ensures highly precise switching points and very high repeatability of values – for any number of production runs. IM sensors are completely encapsulated with hotmelt molding, which greatly increases shock and vibration resistance. The customer benefits from high positioning accuracy in the machine and long-term reliability.
Proximity inductive sensor IMF - SICK
The economic standard for use in the food industry.
The IMF inductive proximity sensor is the new standard for reliability in the food industry. With its extended sensing ranges, made highly precise thanks to the use of SICK ASIC technology, the IMF ensures reliable, stable processes.
What's more, its wide-ranging specification limits allow the proximity inductive sensor IMF, from SICK, to be used in all areas of food production: a huge benefit when it comes to product selection and warehousing. The optical adjustment indicator saves time during commissioning and helps cut down on errors. Communication via IO-Link is also possible, creating more flexibility and adding more functions for automation applications. With an extensive standard product portfolio available, even special devices can be put into action quickly and easily.
The IMF inductive proximity sensor is the new standard for reliability in the food industry. With its extended sensing ranges, made highly precise thanks to the use of SICK ASIC technology, the IMF ensures reliable, stable processes.
What's more, its wide-ranging specification limits allow the proximity inductive sensor IMF, from SICK, to be used in all areas of food production: a huge benefit when it comes to product selection and warehousing. The optical adjustment indicator saves time during commissioning and helps cut down on errors. Communication via IO-Link is also possible, creating more flexibility and adding more functions for automation applications. With an extensive standard product portfolio available, even special devices can be put into action quickly and easily.
Proximity inductive sensor IMP - SICK
The inductive, high-pressure-resistant IMP sensors are perfectly suited for the query of end positions in hydraulic cylinders. The use of state-of-the-art ASIC and manufacturing technologies from SICK sets new standards in installation size, service life and load capability for the sensors.
Due to the stable stainless-steel housing and an active high-performance ceramic surface, they are pressure-resistant up to 500 bars. Above-average system throughput is a matter of course for the range of models M5, M8, M12 and M14 thanks to 1 million tested pressure cycles.
Due to the stable stainless-steel housing and an active high-performance ceramic surface, they are pressure-resistant up to 500 bars. Above-average system throughput is a matter of course for the range of models M5, M8, M12 and M14 thanks to 1 million tested pressure cycles.
Proximity inductive sensor IMR - SICK
The IMR inductive proximity sensors are not the least bothered by magnetic interference fields or weld spatter, such as arise in resistance welding applications. IMR sensors are made without a ferrite core, which makes them magnetic field resistant, and also have a very high electromagnetic compatibility.
Thanks to the rugged non-stick coating made from PTFE, these sensors provide very good protection against flying sparks and slag deposits, thereby guaranteeing a high operational safety. Since IMR sensors operate on the reduction factor 1 principle, they can detect all metals within the same sensing range. The very high sensing ranges of up to 75 mm help reduce mechanical damage to the sensors and therefore sensor failures, and increase plant availability.
Thanks to the rugged non-stick coating made from PTFE, these sensors provide very good protection against flying sparks and slag deposits, thereby guaranteeing a high operational safety. Since IMR sensors operate on the reduction factor 1 principle, they can detect all metals within the same sensing range. The very high sensing ranges of up to 75 mm help reduce mechanical damage to the sensors and therefore sensor failures, and increase plant availability.
Proximity inductive sensor SAM - SICK
The SAM proximity inductive sensor is the simple and intelligent way of speed monitoring with an additional IO-Link interface. SAM can be used as a classic speed monitor or innovative acceleration monitor with a revolutionary speed-independent monitoring function.
The proximity inductive sensor SAM, from SICK, checks if an adjustable speed or acceleration threshold is crossed and provides a switching signal. SAM is setting new standards and revolutionizing commissioning tasks and fields of application thanks to its fast response time, monitored range of up to 12,000 pulses per minute and intelligent start-up delay.
The proximity inductive sensor SAM, from SICK, checks if an adjustable speed or acceleration threshold is crossed and provides a switching signal. SAM is setting new standards and revolutionizing commissioning tasks and fields of application thanks to its fast response time, monitored range of up to 12,000 pulses per minute and intelligent start-up delay.
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