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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.
Reliable capacitive proximity sensors enclosed in a rectangular housing CQ - SICK
Capacitive proximity sensors can detect all types of material: powder-based, granulated, liquid, and solid – even through plastic walls.
SICK’s capacitive proximity sensors also feature high electromagnetic compatibility (EMC), which prevents incorrect switching.
CQ sensors, from SICK, feature rectangular housings that are suitable for all manner of installation conditions.
SICK’s capacitive proximity sensors also feature high electromagnetic compatibility (EMC), which prevents incorrect switching.
CQ sensors, from SICK, feature rectangular housings that are suitable for all manner of installation conditions.
Sensor for magnetic line guidance MLS – SICK
The MLS is a magnetic line guidance sensor for navigating automated guided vehicles and carts. Navigation is done by aligning the sensor to the center of the magnetic line. Sensor positions are transmitted to the vehicle control via a CANopen interface.
The sensor reliably differentiates between up to three lines. The vehicle can therefore maneuver through branches and line junctions with no problem. When selecting the magnetic band and the installation height, the MLS allows for a lot of freedom and is available in various variants with different detection ranges. This enables high flexibility when it comes to design and retrofitting. Magnetic marks for additional vehicle commands can be attached to the side next to the line.
The sensor reliably differentiates between up to three lines. The vehicle can therefore maneuver through branches and line junctions with no problem. When selecting the magnetic band and the installation height, the MLS allows for a lot of freedom and is available in various variants with different detection ranges. This enables high flexibility when it comes to design and retrofitting. Magnetic marks for additional vehicle commands can be attached to the side next to the line.
SicWave LBR level sensors - SICK
Simply brilliant level measurement in bulk materials with 80 GHz radar from SICK.
The LBR SicWave free-space radar makes continuous level measurements and works with all solids.
It is highly resistant to external interference, dust or deposits. Thanks to its non-contact 80 GHz radar technology, the LBR SicWave can be put into operation easily and is maintenance-free.
The LBR SicWave free-space radar makes continuous level measurements and works with all solids.
It is highly resistant to external interference, dust or deposits. Thanks to its non-contact 80 GHz radar technology, the LBR SicWave can be put into operation easily and is maintenance-free.
SicWave LFR level sensors - SICK
Simply brilliant level measurement in liquids with 80 GHz radar from SICK.
The LFR SicWave free-space radar makes continuous level measurements and works with all liquids.
The LFR SicWave free-space radar makes continuous level measurements and works with all liquids. It is highly resistant to external interference, foam or deposits. Thanks to its non-contact 80 GHz radar technology, the LFR SicWave can be put into operation easily and is maintenance-free.
The LFR SicWave free-space radar makes continuous level measurements and works with all liquids.
The LFR SicWave free-space radar makes continuous level measurements and works with all liquids. It is highly resistant to external interference, foam or deposits. Thanks to its non-contact 80 GHz radar technology, the LFR SicWave can be put into operation easily and is maintenance-free.
Smart light grid - SICK
The smart light grid product family includes smart area sensors, smart gate sensors and smart pick-to-light-sensor light grids.
At only 8 mm x 25 mm, they fit nearly anywhere and can be embedded inside walls, doors, conveyors, and machines. Slim and flat versions are available. They can be ordered in 120 to 1,400 mm lengths in a plastic or aluminum housing. Auto-muting, the teach-in button and an alignment aid ensure longer operating time.
At only 8 mm x 25 mm, they fit nearly anywhere and can be embedded inside walls, doors, conveyors, and machines. Slim and flat versions are available. They can be ordered in 120 to 1,400 mm lengths in a plastic or aluminum housing. Auto-muting, the teach-in button and an alignment aid ensure longer operating time.
Square photoelectric sensor EventCam - SICK
Why has there been a fault in the production process? Why has my scanner triggered? Want to find out the answers to these questions, without having to physically monitor the production process yourself?
If so, look no further than the SICK EventCam, which uses real video footage and images to help you identify the cause. The EventCam supplies an image or video of a defined time period, occurring immediately before or after a trigger signal. Information on the cause of protective field violations or why material was rejected ensure greater process transparency and increase system throughput.
The camera integrates seamlessly into SICK’s industrial sensor technology, and data can be transmitted directly via FTP to a server and stored inside the camera itself.
If so, look no further than the SICK EventCam, which uses real video footage and images to help you identify the cause. The EventCam supplies an image or video of a defined time period, occurring immediately before or after a trigger signal. Information on the cause of protective field violations or why material was rejected ensure greater process transparency and increase system throughput.
The camera integrates seamlessly into SICK’s industrial sensor technology, and data can be transmitted directly via FTP to a server and stored inside the camera itself.
Switching automation light grids - SICK
Switching light grids from SICK for a variety of applications.
Switching light grids from SICK are equipped with various technologies and can be used in a variety of applications: the detection and counting of irregular objects, presence and protrusion monitoring, and all this in very different installation situations or environmental conditions. Whether the application requires small beam separations, high ambient light immunity, large ranges, varying monitoring heights or very thin housing dimensions, the switching light grids will meet your requirements.
Switching light grids from SICK are equipped with various technologies and can be used in a variety of applications: the detection and counting of irregular objects, presence and protrusion monitoring, and all this in very different installation situations or environmental conditions. Whether the application requires small beam separations, high ambient light immunity, large ranges, varying monitoring heights or very thin housing dimensions, the switching light grids will meet your requirements.
Switching automation light grids FlexChain - SICK
The flexible and efficient detection system in one chain.
The FlexChain is a flexibly configurable light grid thanks to the sequential connection of several sensors. There is no need for long connection cables or complex wiring.
By pressing a button on the FlexChain Host, the sensors can be addressed and taught-in automatically, meaning the system is immediately ready for use. Different sensor technologies can be combined and freely arranged: Through-beam photoelectric sensors, photoelectric sensors. The raw sensor data is evaluated via the FlexChain Host with integrated logic modules or forwarded directly via IO-Link, CANopen, RS-485 or I/O signals. Detailed diagnostic information ensures optimum process stability and measurement certainty during operation.
The FlexChain is a flexibly configurable light grid thanks to the sequential connection of several sensors. There is no need for long connection cables or complex wiring.
By pressing a button on the FlexChain Host, the sensors can be addressed and taught-in automatically, meaning the system is immediately ready for use. Different sensor technologies can be combined and freely arranged: Through-beam photoelectric sensors, photoelectric sensors. The raw sensor data is evaluated via the FlexChain Host with integrated logic modules or forwarded directly via IO-Link, CANopen, RS-485 or I/O signals. Detailed diagnostic information ensures optimum process stability and measurement certainty during operation.
Switching automation light grids SLG-2– SICK
The SLG-2 is an automation light grid for various detection and measuring tasks. It features two optics variants: One with frontal and one with side light emission. They allow for the narrow light grid housing to be integrated into almost any application.
The SLG-2 has no blind zones and is available with detection heights from 100 mm to 2,400 mm.
Thanks to the 9x cross-beam function, the light grid achieves very high resolution and reliably detects even very thin objects. The Smart Tasks and the powerful IO-Link COM3 interface make processing of measurement data in the device possible. The detailed diagnostic information of the SLG-2 can be used for condition-based device maintenance.
The SLG-2 has no blind zones and is available with detection heights from 100 mm to 2,400 mm.
Thanks to the 9x cross-beam function, the light grid achieves very high resolution and reliably detects even very thin objects. The Smart Tasks and the powerful IO-Link COM3 interface make processing of measurement data in the device possible. The detailed diagnostic information of the SLG-2 can be used for condition-based device maintenance.
Temperature sensor TBS – SICK
The TBS temperature switch is easy to use and has a rugged design. It is designed for temperature measurement and monitoring of operating liquids, such as hydraulic oils, coolant lubricants and cleaning liquids in machine building and manufacturing.
With up to two binary outputs and one analog output, it can be used in many applications. A large, well legible display and three pushbuttons facilitate setup. The intuitive menu navigation and display use familiar and standardized features and programming. The switching state of the binary outputs is displayed by highly visible LEDs. During installation, the TBS is uniquely flexible due to its two rotation locations. It is possible to rotate the display and the process connection independently of the sensor body, ensuring both clean cable layout and that the display is facing the user. Temperature measurement is done using a Pt1000 element that is located in the tip of the stainless steel probe.
With up to two binary outputs and one analog output, it can be used in many applications. A large, well legible display and three pushbuttons facilitate setup. The intuitive menu navigation and display use familiar and standardized features and programming. The switching state of the binary outputs is displayed by highly visible LEDs. During installation, the TBS is uniquely flexible due to its two rotation locations. It is possible to rotate the display and the process connection independently of the sensor body, ensuring both clean cable layout and that the display is facing the user. Temperature measurement is done using a Pt1000 element that is located in the tip of the stainless steel probe.
Temperature sensor TBT – SICK
The TBT is a universal purpose Pt100 resistance thermometer with a splash-proof die-cast aluminum housing for the temperature measurement in liquids and gases. It can be adapted to specific applications through its various available process connections and insertion lengths.
The TBT is available with various connection threads, with or without compression fittings. Wetted parts are made from high-grade stainless steel 1.4571. Besides its Pt100 output signal, the TBT is available with an integrated transmitter with output signal 4 mA ... 20 mA.
The TBT is available with various connection threads, with or without compression fittings. Wetted parts are made from high-grade stainless steel 1.4571. Besides its Pt100 output signal, the TBT is available with an integrated transmitter with output signal 4 mA ... 20 mA.
Temperature sensor TSP - SICK
The TSP is a universal purpose platinum insertion thermometer for the temperature measurement in liquids and gases. It can be adapted to specific applications through its available connection threads and insertion lengths.
Wetted parts are made from stainless steel 1.4305. The platinum resistor (Pt100 or Pt1000, accuracy class B according to IEC 60751) is located inside the tip of the probe. It is electrically connected by an M12 x 1 circular connector. Therefore, the device is compact and well suited for narrow installation spaces.
Wetted parts are made from stainless steel 1.4305. The platinum resistor (Pt100 or Pt1000, accuracy class B according to IEC 60751) is located inside the tip of the probe. It is electrically connected by an M12 x 1 circular connector. Therefore, the device is compact and well suited for narrow installation spaces.
Temperature sensor with IO-Link dTRANS T1000 - Jumo
The temperature sensor is used for temperature measurement and monitoring. The effect of the temperature on a resistance RTD temperature probe generates a signal, which is amplified, digitalized and processed. The temperature sensor is equipped with an IO-Link interface as per specification 1.1. IO-Link supports bidirectional communication and is used to exchange the process data, parameters, diagnostic information and status messages.
Temperature switch-digital TDD - Kobold
Kobold temperature switches of model TDD are used for economical measurement and monitoring of temperature. They are suited for applications where temperature must be monitored with a high degree of switching accuracy.
A semiconductor, which outputs a digital signal to the evaluating electronics in 0.5 °C steps, serves as sensor element. The current measured value is displayed on a 3-digit LED display. Two switch points, on-/off-switching delay and hysteresis are adjustable within the measuring range.
A semiconductor, which outputs a digital signal to the evaluating electronics in 0.5 °C steps, serves as sensor element. The current measured value is displayed on a 3-digit LED display. Two switch points, on-/off-switching delay and hysteresis are adjustable within the measuring range.
Ultrasonic flowmeter FFU - SICK
Non-contact flow measurement!
The non-contact FFU ultrasonic flowmeter detects the flow volume of conductive and non-conductive liquids. Swimming against the current requires more strength than with the current – this is the simple fact on which ultrasonic flow measurement according to the phase difference process is based.
The non-contact FFU ultrasonic flowmeter detects the flow volume of conductive and non-conductive liquids. Swimming against the current requires more strength than with the current – this is the simple fact on which ultrasonic flow measurement according to the phase difference process is based.
Ultrasonic level sensor UP56 – SICK
Tough, non-contact, pressure-resistant.
The product family UP56 of ultrasonic level sensors is the ideal solution for demanding applications. The teflon-protected transducer handles overpressure up to 6 bar (87 psi) and is resistant against numerous difficult fluids.
Wetted parts can be chosen either as stainless steel or PVDF, thus making the ultrasonic level sensor UP56, da SICK, the perfect solution for measurement in aggressive, viscous, or abrasive liquids, or bulk solids. By combining two output signals in one device, new cost-effective solutions can be created for measurement and integration into the system. With two switching outputs, the level sensor UP56 can measure dry running and overflow in one device.
The product family UP56 of ultrasonic level sensors is the ideal solution for demanding applications. The teflon-protected transducer handles overpressure up to 6 bar (87 psi) and is resistant against numerous difficult fluids.
Wetted parts can be chosen either as stainless steel or PVDF, thus making the ultrasonic level sensor UP56, da SICK, the perfect solution for measurement in aggressive, viscous, or abrasive liquids, or bulk solids. By combining two output signals in one device, new cost-effective solutions can be created for measurement and integration into the system. With two switching outputs, the level sensor UP56 can measure dry running and overflow in one device.
Universal pressure sensor PBS - SICK
The SICK pressure switch PBS is designed for pressure monitoring and measurement in liquid and gaseous media.
It is pressure switch, transmitter and display in one and the same device. In its standard configuration it has two switching outputs. In addition, there are configurations available with one or two switching points and an analog output signal.
It is pressure switch, transmitter and display in one and the same device. In its standard configuration it has two switching outputs. In addition, there are configurations available with one or two switching points and an analog output signal.
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