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Create registryInductive 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.
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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