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Inductive Proximity Sensor IMB – SICK
The rugged standard for use in harsh ambient conditions!
The inductive IMB proximity sensor from SICK is a byword for reliability in harsh working conditions, whether it is in contact with cooling lubricants or being used outdoors. With its extended sensing ranges, made highly precise thanks to the use of SICK ASIC technology, the IMB ensures reliable, stable processes.
The inductive IMB proximity sensor from SICK is a byword for reliability in harsh working conditions, whether it is in contact with cooling lubricants or being used outdoors. With its extended sensing ranges, made highly precise thanks to the use of SICK ASIC technology, the IMB ensures reliable, stable processes.
Inductive Proximity Sensors - SICK
There are millions of inductive sensors deployed in almost every area of factory automation. They detect metal objects contactless and are distinguished by a long operating life and extreme robustness. The inductive proximity sensors from Sick provide optimum precision and reliability using the most modern ASIC technology.
SICK can always provide the right solution to meet your requirements – from cylindrical and rectangular standard sensors with one, two or three set switching distances to special sensors for Ex-zone applications and harsh environments. It is the intelligent, reliable route to implementing industry-specific and customized solutions to any task involving automation.
SICK can always provide the right solution to meet your requirements – from cylindrical and rectangular standard sensors with one, two or three set switching distances to special sensors for Ex-zone applications and harsh environments. It is the intelligent, reliable route to implementing industry-specific and customized solutions to any task involving automation.
Inductive proximity sensors IQE - SICK
The economic standard for use in industrial environments.
The IQE sensors from SICK are the economic standard for all types of automation task. They combine compact design with precise detection, high reliability, and a good price-performance ratio. The sensors in the IQE product family from SICK are, therefore, ideal or a wide variety of price-sensitive automation tasks.
The IQE sensors from SICK are the economic standard for all types of automation task. They combine compact design with precise detection, high reliability, and a good price-performance ratio. The sensors in the IQE product family from SICK are, therefore, ideal or a wide variety of price-sensitive automation tasks.
Inductive sensor IQ40 – SICK
The new IQ40 inductive proximity sensors can be mounted in a matter of seconds, offers flexible adjustment options, and is easy to monitor.
The innovative pushlock system enables mounting without tools in one second flat and makes replacing sensors child’s play. Thanks to the rotating sensor head, the IQ40 sensors can be adapted to suit a whole range of applications. The four corner LEDs enable straightforward sensor status monitoring, whatever the mounting position. With state-of-the-art ASIC technology and SICK’s many years of experience behind it, the proximity sensor features an extensive ambient temperature range, excellent resistance to shocks and vibrations, plus electromagnetic compatibility. Even in extremely harsh environments with severe weather conditions, it operates reliably at all times.
The innovative pushlock system enables mounting without tools in one second flat and makes replacing sensors child’s play. Thanks to the rotating sensor head, the IQ40 sensors can be adapted to suit a whole range of applications. The four corner LEDs enable straightforward sensor status monitoring, whatever the mounting position. With state-of-the-art ASIC technology and SICK’s many years of experience behind it, the proximity sensor features an extensive ambient temperature range, excellent resistance to shocks and vibrations, plus electromagnetic compatibility. Even in extremely harsh environments with severe weather conditions, it operates reliably at all times.
Laser class 1 photoelectric proximity sensors W280L-2 - SICK
Great performance, simple operation!
The powerful photoelectric proximity sensor W280L-2 Long Range from SICK is characterized by its maximum sensing distance of up to 4 m combined with extremely simple operation. The sensing distance can be further extended to 18 m with the WLT280L-2 Long Range reflector version.
The powerful photoelectric proximity sensor W280L-2 Long Range from SICK is characterized by its maximum sensing distance of up to 4 m combined with extremely simple operation. The sensing distance can be further extended to 18 m with the WLT280L-2 Long Range reflector version.
Level sensor LFP cubic TDR– SICK
LFP Cubic – Flexible up to the probe tip!
The LFP Cubic from SICK is a level sensor that uses TDR technology (time domain reflectometry) and thus can be used in oil- and water-based liquids without calibration.
The LFP’s guided radar uses time-offlight technology to measure electromagnetic pulses. The time difference between the sent pulse and the reflected pulse is used to calculate the level, both as a continuous value (analog output) and a freely position able switching point (switching output). Due to its flexible probe that can be changed or cut, it is possible to integrate the sensor quickly into any application. The LFP Cubic can work in deposit-forming and foaming liquids. The sensor’s intuitive setup uses four buttons and a display to ensure quick and easy adaptation to the application.
In addition to the discrete and analog output signals, an IO-Link interface is available to transmit additional valuable process data to the control unit.
The LFP Cubic from SICK is a level sensor that uses TDR technology (time domain reflectometry) and thus can be used in oil- and water-based liquids without calibration.
The LFP’s guided radar uses time-offlight technology to measure electromagnetic pulses. The time difference between the sent pulse and the reflected pulse is used to calculate the level, both as a continuous value (analog output) and a freely position able switching point (switching output). Due to its flexible probe that can be changed or cut, it is possible to integrate the sensor quickly into any application. The LFP Cubic can work in deposit-forming and foaming liquids. The sensor’s intuitive setup uses four buttons and a display to ensure quick and easy adaptation to the application.
In addition to the discrete and analog output signals, an IO-Link interface is available to transmit additional valuable process data to the control unit.
Level sensor TDR for food & beverage industry - LFP Inox – SICK
The LFP from SICK is a hygienic level sensor for liquids using TDR technology – a process for determining the time of flight of electromagnetic waves.
The time difference between the sent pulse and the reflected pulse is used to generate a level signal, both as a continuous value (analog output) and a freely positionable switching point (switching output). The use of robust FDA-compliant materials like stainless steel in an EHEDG-certified design means that the LFP guarantees optimal, unrestricted cleaning, even for the highest hygiene requirements. Its modular connection system allows simple and flexible installation in any application. Thanks to high temperature and pressure resistance, unrestricted use is possible under CIP and SIP conditions. The communication capability via IO-Link to the superordinate control units rounds off the profile.
The time difference between the sent pulse and the reflected pulse is used to generate a level signal, both as a continuous value (analog output) and a freely positionable switching point (switching output). The use of robust FDA-compliant materials like stainless steel in an EHEDG-certified design means that the LFP guarantees optimal, unrestricted cleaning, even for the highest hygiene requirements. Its modular connection system allows simple and flexible installation in any application. Thanks to high temperature and pressure resistance, unrestricted use is possible under CIP and SIP conditions. The communication capability via IO-Link to the superordinate control units rounds off the profile.
Level sensors - Vibration LFV / LBV - SICK
Liquid and bulk solid measurement - continuous and up-to-date just like liquid levels.
For stocking, tank content, storage capacities or automated disposal, we offer modern technology for small and large measuring tasks. Laser, guided microwave (TDR), ultrasound, hydrostatic measurement up to the electromechanical option: measure liquid levels reliably with our measuring devices.
For stocking, tank content, storage capacities or automated disposal, we offer modern technology for small and large measuring tasks. Laser, guided microwave (TDR), ultrasound, hydrostatic measurement up to the electromechanical option: measure liquid levels reliably with our measuring devices.
Level sensors CFP Cubic – SICK
The level sensors CFP Cubic from SICK is a capacitive level sensor for taking continuous level, limit, and simultaneous temperature measurements. Thanks to intelligent MCiM technology (multi-capacitive intra-probe measuring), the CFP Cubic measures media over the entire length of the probe – irrespective of the container material and without the need for additional accessories.
Medium calibration is not necessary. The probe’s plastic surface prevents deposits and ensures high resistance to aggressive media. The sensor’s intuitive setup uses a guided menu to ensure quick and easy adaptation to the measuring task. IO-Link allows the process data to be integrated into an automation network.
Medium calibration is not necessary. The probe’s plastic surface prevents deposits and ensures high resistance to aggressive media. The sensor’s intuitive setup uses a guided menu to ensure quick and easy adaptation to the measuring task. IO-Link allows the process data to be integrated into an automation network.
Level sensors GRF18S - SICK
The GRF18S, from SICK, is a compact optical level switch which is characterized mainly by its extremely simple commissioning.
The proven technology of the energetic photoelectric proximity sensor from SICK is the foundation for the sensor. This allows for easy, rugged and reliable sensor construction. Thanks to the use of high-quality materials such as stainless steel 1.4404 and polysulfone as well as the housing design in enclosure rating IP69, the GRF18S guarantees high process reliability, even under harsh ambient conditions outside the tank. Quick and problem-free commissioning, without medium calibration, reduces not only commissioning costs, but also maintenance. Due to the optical technology, the GRF18S is particularly well-suited for water-based media.
The proven technology of the energetic photoelectric proximity sensor from SICK is the foundation for the sensor. This allows for easy, rugged and reliable sensor construction. Thanks to the use of high-quality materials such as stainless steel 1.4404 and polysulfone as well as the housing design in enclosure rating IP69, the GRF18S guarantees high process reliability, even under harsh ambient conditions outside the tank. Quick and problem-free commissioning, without medium calibration, reduces not only commissioning costs, but also maintenance. Due to the optical technology, the GRF18S is particularly well-suited for water-based media.
Level sensors LFC - SICK
The LFC capacitive level from SICK switch is a flexible, simple and cost-effective solution for point level measurement in fluid media.
When measuring containers or for dry-run protection in piping, the LFC from SICK features particularly high performance. The level switch is easy to install and is characterized by a compact design and long service life. It is also very easy to clean. The sensor can be parameterized for almost any media by means of IO-Link. Its EHEDG and 3-A certified hygienic design and the option of using it at process temperatures up to +135 °C also make it very suitable for CIP and SIP applications. The LFC can easily display or blank foam and deposits.
When measuring containers or for dry-run protection in piping, the LFC from SICK features particularly high performance. The level switch is easy to install and is characterized by a compact design and long service life. It is also very easy to clean. The sensor can be parameterized for almost any media by means of IO-Link. Its EHEDG and 3-A certified hygienic design and the option of using it at process temperatures up to +135 °C also make it very suitable for CIP and SIP applications. The LFC can easily display or blank foam and deposits.
Luminescence sensors LUT - SICK
The bright idea for fluorescent material!
Luminescence sensors from SICK detect visible and non-visible marks that illuminate when using ultraviolet (UV) light.
Fluorescent material and marks are reliably detected independently of their pattern, colors or surface conditions on any material. Luminescence sensors LUT from SICK emit UV light with a wave length of approximately 375 nm. Fluorescent substances convert the UV light into long-wave visible light, which is then received and evaluated by the luminescence sensor.
Luminescence sensors from SICK detect visible and non-visible marks that illuminate when using ultraviolet (UV) light.
Fluorescent material and marks are reliably detected independently of their pattern, colors or surface conditions on any material. Luminescence sensors LUT from SICK emit UV light with a wave length of approximately 375 nm. Fluorescent substances convert the UV light into long-wave visible light, which is then received and evaluated by the luminescence sensor.
Magnetic cylinder sensor - MZT7/RZT7 - SICK
Maximize what matters!
The perfect cylinder sensor for standard applications.
The MZT7/RZT7 magnetic cylinder sensor from SICK with GMR technology enables quick, precise and contactless sensing of the piston’s position in compact pneumatic cylinders. It is easy to mount, can be used in numerous applications and offers an outstanding price-performance ratio.
The perfect cylinder sensor for standard applications.
The MZT7/RZT7 magnetic cylinder sensor from SICK with GMR technology enables quick, precise and contactless sensing of the piston’s position in compact pneumatic cylinders. It is easy to mount, can be used in numerous applications and offers an outstanding price-performance ratio.
Magnetic cylinder sensors MZ2Q - SICK
On pneumatic cylinders, grippers, or carriages, the MZ2Q magnetic cylinder sensors from SICK are able to detect two end positions or intermediate positions with just one sensor. This is achieved by using two individually adjustable switching points in one sensor housing.
This is much easier, quicker, and more cost-effective than conventional solutions, since only one slot is used. As a result, mounting and cabling overheads are halved and applications can be solved efficiently.
This is much easier, quicker, and more cost-effective than conventional solutions, since only one slot is used. As a result, mounting and cabling overheads are halved and applications can be solved efficiently.
Magnetic proximity sensor for MIS tag identification - SICK
The MIS is a magnetic-coded identification sensor that is used to identify magnetic-coded tags. The MIS is used in conjunction with magnetic-coded tags and optionally a mounting bracket from SICK. The tag number can either be output via an analog voltage, a current output or via IO-Link. The analog output is configured by default with a 16-step division so that 15 magnetic-coded tags can be differentiated.
Magnetic sensor for C-slot cylinders MZCG - SICK
The SICK'S MZCG magnetic cylinder sensor detects the piston position in pneumatic grippers and pneumatic miniature cylinders. Thanks to its very small design, the MZCG is particularly well-suited for the C-slots of very small pneumatic actuators such as are used in handling and assembly, robotics or the electronics industry.
The sensor is simply inserted in the C-slot and can be quickly and safely fastened on the cylinder. The MZCG fits in a wide range of C-slots of various manufacturers due to its universal housing design. This reduces storage costs, enables flexible machine design and easier service.
The sensor is simply inserted in the C-slot and can be quickly and safely fastened on the cylinder. The MZCG fits in a wide range of C-slots of various manufacturers due to its universal housing design. This reduces storage costs, enables flexible machine design and easier service.
Magnetic sensors MME - SICK
Magnetic proximity sensors, from SICK, in common M8, M12, and M18 cylindrical housing.
MM magnetic proximity sensors provide long sensing ranges that can reliably detect magnetic objects.
Magnetic proximity sensors, from SICK, are resistant to dust, heat, vibrations and other harsh environments. The MM magnetic sensors are enclosed in a cylindrical housing and are available in sizes MM08, MM12 and MM18.
MM magnetic proximity sensors provide long sensing ranges that can reliably detect magnetic objects.
Magnetic proximity sensors, from SICK, are resistant to dust, heat, vibrations and other harsh environments. The MM magnetic sensors are enclosed in a cylindrical housing and are available in sizes MM08, MM12 and MM18.
Magnetic sensors MQB - SICK
The MQB magnetic proximity sensors from SICK reliably detect permanent magnets through non-magnetic materials such as stainless steel, aluminum, plastic or wood.
The MQB sensors from SICK, feature a square, compact plastic housing that makes them easy to install. These sensors are resistant to dust, heat and vibration, making them ideal for use in harsh environments.
The MQB sensors from SICK, feature a square, compact plastic housing that makes them easy to install. These sensors are resistant to dust, heat and vibration, making them ideal for use in harsh environments.
Measuring automation light grids - SICK
Measuring automation light grids are ideal for more complex applications. They come in several different beam separation options, a range of detection heights and output configurations. These light grids can be used for material handling on conveyors, automated storage and retrieval system applications, order fulfilment, and more. For example, in pallet verification applications, maximum height and pallet overhang can be measured. This data can be forwarded to the PLC via bus systems.
Measuring light grid MLG-2 Pro - SICK
Maximum performance in terms of response time, resolution, and object detection.
SICK's optical measurement barriers come with a choice of beam separation, detection heights, and different output configurations.
These optical barriers can be used in material handling on conveyors, automatic storage and retrieval applications, order fulfillment and more. For example, in pallet verification applications, the maximum height and protrusions can be measured. This data can be routed to the PLC via communication buses.
SICK's optical measurement barriers come with a choice of beam separation, detection heights, and different output configurations.
These optical barriers can be used in material handling on conveyors, automatic storage and retrieval applications, order fulfillment and more. For example, in pallet verification applications, the maximum height and protrusions can be measured. This data can be routed to the PLC via communication buses.
Mini contrast sensor KTM - SICK
Top performance for universal, space-saving use in the packaging industry even under harsh conditions: The new KTM prime contrast sensor from SICK features a high grayscale resolution and is integrated into a small, tried-and-tested housing that is also available in stainless steel.
The optimized OES4 ASIC technology and a response time of 35 µs ensure reliable and accurate detection of contrast marks, even on glossy materials. The various teach-in methods (dynamic, static, and switching threshold near the marks) ensure greater flexibility during commissioning. The integrated IO-Link interface can be used to access the parameter settings. This speeds up and simplifies format changes. The KTM reliably detects marks even in conditions with weak contrast ratios and is therefore ideal for use in a wide range of applications, in the stainless-steel version, it can even be used in harsh environments during intensive cleaning.
The optimized OES4 ASIC technology and a response time of 35 µs ensure reliable and accurate detection of contrast marks, even on glossy materials. The various teach-in methods (dynamic, static, and switching threshold near the marks) ensure greater flexibility during commissioning. The integrated IO-Link interface can be used to access the parameter settings. This speeds up and simplifies format changes. The KTM reliably detects marks even in conditions with weak contrast ratios and is therefore ideal for use in a wide range of applications, in the stainless-steel version, it can even be used in harsh environments during intensive cleaning.
MZC1 magnetic cylinder sensor - SICK
The MZC1 magnetic cylinder sensor from SICK is the flexible solution for detecting the piston position in pneumatic actuators. The MZC1 can be mounted directly into all cylinders with standard C-slots.
Sick also has an extensive range of adapters which enable the MZC1 to be used with other cylinder types. The MZC1 is characterized by its simple mounting principle: Insert the sensor into the slot and rotate the fixing screw a quarter turn to fix it securely to the cylinder. Furthermore, the MZC1 is available in a range of variants up to an enclosure rating of IP69K. This ensures the sensor has a long service life and reduces maintenance costs.
Sick also has an extensive range of adapters which enable the MZC1 to be used with other cylinder types. The MZC1 is characterized by its simple mounting principle: Insert the sensor into the slot and rotate the fixing screw a quarter turn to fix it securely to the cylinder. Furthermore, the MZC1 is available in a range of variants up to an enclosure rating of IP69K. This ensures the sensor has a long service life and reduces maintenance costs.
MZT8 magnetic cylinder sensor - SICK
The MZT8 magnetic cylinder sensor from SICK is the flexible solution for detecting the piston position in pneumatic actuators. The sensor can be inserted into cylinders very easily and, with the screw-and-washer assembly, tightened with just a quarter turn of a screwdriver or Allen key.
It is not only the perfect fit in the slot that makes the MZT8 ideal for use in pneumatic cylinders with T-slots. Patented GMR technology and the SICK ASIC ensure that the sensor only needs one attempt to deliver precise switching. Multiple switching operations are suppressed, which results in increased machine performance. The MZT8 is available in a range of variants up to an enclosure rating of IP69K and with a temperature resistance of up to 100 °C. This ensures the sensor has a long service life and reduces maintenance costs.
It is not only the perfect fit in the slot that makes the MZT8 ideal for use in pneumatic cylinders with T-slots. Patented GMR technology and the SICK ASIC ensure that the sensor only needs one attempt to deliver precise switching. Multiple switching operations are suppressed, which results in increased machine performance. The MZT8 is available in a range of variants up to an enclosure rating of IP69K and with a temperature resistance of up to 100 °C. This ensures the sensor has a long service life and reduces maintenance costs.
Optical light for roller conveyors - SICK
Flexible conveyor belt sensor for detecting irregular leading edges.
The Roller Sensor Bar conveyor sensor is designed to be mounted between rollers and is an elegant, simple solution for reliable detection of objects with irregular leading edges.
Sensing performance is optimized through the ability to configure length and beam spacing to the mm. By mounting the Roller Sensor Bar between the rollers, object catch points can be removed thereby decreasing conveyor downtime due to jams. The spring-loaded assembly of the Roller Sensor Bar, which can be mounted in the factory rather than in the field, decreases installation costs by more than half. Commissioning costs are reduced by eliminating the need to teach and align the sensor.
The Roller Sensor Bar conveyor sensor is designed to be mounted between rollers and is an elegant, simple solution for reliable detection of objects with irregular leading edges.
Sensing performance is optimized through the ability to configure length and beam spacing to the mm. By mounting the Roller Sensor Bar between the rollers, object catch points can be removed thereby decreasing conveyor downtime due to jams. The spring-loaded assembly of the Roller Sensor Bar, which can be mounted in the factory rather than in the field, decreases installation costs by more than half. Commissioning costs are reduced by eliminating the need to teach and align the sensor.
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