More barrel length options + longer sensing range
The improved M08 lineup of inductive sensors now offers better functionality over previous versions. Flush and non-flush options are ideal for a wider range of applications. The sensor’s fully re-developed electronics ensure you will always find a model in the right size.
- Wide range of variants for application flexibility
- Maximum mechanical stability for long service life
- Rapid commissioning and troubleshooting
- Longer sensing distances
- Generous warranty for peace of mind
Turck’s inductive sensors are used in some of the harshest industrial environments and
applications such as welding, stamping, and mobile vehicle manufacturing.
Inductive Sensors for Welding
High temps? Molten metal? Weld slag? Don’t let your sensors fail you. Inductive sensors used for detection and error-proofing during welding need to be able to stand up to extremely harsh environments or have to be continually replaced, which adds maintenance time and cost. » Download the Application Note to learn how to reduce sensor failure in welding applications.
Get the Guide: Inductive sensors that withstand welding applications Improve automation in weld cells – choose the correct inductive sensor for the application to reduce failure Missing Nuts? Splatter build-up? Don’t let your inductive sensors fail you. Reliably detect the presence or absence of a nut welded to metal parts and materials and reduce defects or costly production mistakes. Turck’s rugged inductive weld nut sensors provide a long service life – even in harsh welding applications.
and downtime. Not all sensors are built to withstand this tough environment.
» Download the Sensor Welding Guide to learn more about Turck’s wide range of solutions.
• Easily detect nuts or collars from M5 to M20, or up to 24 mm diameter
• An economical alternative to more expensive optical or vision-based systems
• Low-profile designs available for compact applications
Watch the video to learn more...
Inductive Sensors for Stamping
Get Simple Tips to Improve Die Protection Effective die protection can prevent damage and reduce costs. There are several methods of die protection, but for high-speed, non-contact applications, one method makes more sense.
Get the Guide: Proper Die Protection Saves Money
» Download the Application Note to find out how you can reduce costly damage and defective stamped parts.
The number one reason for unexpected downtime or non-conforming parts in metal stamping applications is a die crash. Eliminate die crashes, reduce needed repairs and improve press time and production scheduling with rugged inductive sensors from Turck.
» Get the How to Guide for best practices that will save you downtime and die repairs.
Custom Inductive Sensors
Custom Sensors that Make Sense for Today's Machine Designs
Sometimes off-the-shelf sensing solutions aren’t the right solution. Take advantage of our inhouse
design, engineering and manufacturing expertise right here in the US, backed by global support.
You’ll save time and resources when you work with the team at Turck.
» Download the brochure to learn more.
For Turck's new range of 8 mm barrel inductive proximity sensors, the technology of the ferrite core sensors has evolved, increasing the sensing range by up to 50 percent.
- This allows flush mounted solutions to be offered with an extended sensing range of 3 mm (as well as with the conventional sensing range of 2 mm).
- The non-flush sensors are likewise available with a 3 or 5 mm sensing range.
- Newly developed sensor electronics make it possible for Turck to produce devices with an ultra-short 15 mm design.
Modular construction includes over 100 variants (enabling creativity in design)
- Flush or non-flush mounting
- Four thread lengths: 15, 22, 30 40 mm
- M8 or M12 connector, 2 or 7 m cable length
- Can be ordered with a 3- or 4-wire connection as NC or changeover contacts
- Normally closed or complementary output function with PNP or NPN transistor stage
The sensors with a cable outlet are provided with a cable suitable for E-chain use, and a semi-transparent LED ring at the sensor end, which shows the sensing state from any viewing angle.
The sensors are IP67 rated, and have an operating temperature of -25 °C to 70 °C.