Rapid inductive position measuring systems
Inductive sensors
Measuring frequency > 10 kHz Compact, flat housing Continuous condition monitoring
The fast BIR inductive position measuring system enables measuring rates of more than 10 kHz. It combines a large, adjustable measuring range with high signal stability in a particularly compact, flat housing featuring small blind zones.
Designed for rising industrial requirements, the system includes internal condition monitoring sensors and can be integrated as part of Balluff’s Smart Automation and Manufacturing System (SAMS)—ready for the IIoT and the factory of the future.
New inductive position measuring system
Particularly fast, compact and precise.
What are the key features of Balluff rapid inductive position measuring systems?
These systems are built for high-speed, precise positioning with flexible interfaces and built-in condition monitoring.
Features
- Easy to integrate thanks to compact design with small blind zones
- Excellent price-performance ratio
- High measuring frequency > 10 kHz
- High resolution, repeatability and linearity
- Flexible interfaces (analog, IO-Link, SSI)
- Continuous condition monitoring
Short definition
A rapid inductive position measuring system provides fast, continuous position feedback without contact, helping machines maintain precision even at very high dynamic speeds.
Good fit when: you need fast position feedback, stable signals, and an interface that matches your controller or IO architecture.
Which series are available (and how do I compare them)?
Use the series overview below to choose your signal type and verify connector details, measuring length options, and temperature capability.
Technical features Filter
Interface
Analog 0–10 V Analog 4–20 mA IO-Link SSI
Measuring length
100–600 mm
Connection
M12x1, 4-pin M12x1, 5-pin M12x1, 8-pin
Selection tip: pick the interface first (PLC/drive requirements), then confirm connector pin count and measuring length.
| Series |
Connection |
Measuring length |
Ambient temp. max. |
| Signal transmission via analog output signals 0…10 V (easy handling)
S-BIR ALA
|
Connector, M12x1, 5-pin |
100, 200, 300, 400, 500, 600 mm |
85 °C |
| Signal transmission via analog output signals 4…20 mA (high EMC immunity)
S-BIR ALE
|
Connector, M12x1, 5-pin |
100, 200, 300, 400, 500, 600 mm |
85 °C |
| Signal transmission via IO-Link
S-BIR IO
|
Connector, M12x1, 4-pin |
100, 200, 300, 400, 500, 600 mm |
85 °C |
| Signal transmission via synchronous serial interface (SSI)
S-BIR SSI
|
Connector, M12x1, 8-pin |
100, 200, 300, 400, 500, 600 mm |
85 °C |
Selection guidance: align the interface with your control architecture (analog, IO-Link, SSI), then choose measuring length and confirm connection pin count.
Where are rapid inductive position measuring systems used?
They are used wherever fast, precise position feedback is required and stable signals are critical for high-performance automation.
Typical applications
- High-speed automation axes requiring fast position feedback
- Machines where compact sensors with small blind zones simplify integration
- Systems needing flexible interfaces (analog, IO-Link, SSI)
- Smart manufacturing setups leveraging continuous condition monitoring
Why teams choose BIR
- Speed: measuring frequency > 10 kHz
- Precision: high resolution, repeatability and linearity
- Integration: compact, flat design with small blind zones
- Visibility: continuous condition monitoring for smarter maintenance
FAQ: Balluff rapid inductive position measuring systems
Quick answers to help you select the right interface and mechanical configuration.
The BIR system supports measuring rates of more than 10 kHz, providing very fast position feedback for dynamic applications.
Systems are available with analog (0–10 V or 4–20 mA), IO-Link, and SSI interfaces—choose based on your controller and wiring standards.
Small blind zones help maximize usable measuring range near the ends, making integration easier—especially in compact machine designs.
Yes. The system supports continuous condition monitoring via internal sensors, supporting modern IIoT and smart maintenance strategies.
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