Turck’s Robust Multiprotocol Ethernet Read/Write Head Starts Up in Less than 500 ms
Turck’s new HF read/write head with an integrated multiprotocol Ethernet interface adds an efficient solution with unique features in terms of startup time, communication and safety to the existing RFID portfolio.
Your Benefits:
- Cost and time efficient installation
- Plug and work in existing network topologies
- High degree of freedom for installation
Super Fast and Twice as Safe Thanks to S2 Redundancy
With a startup time of less than 500 milliseconds, the TNSLR-Q130-EN is ideal for highly dynamic applications such as tool changes in which every second counts.
Thanks to its multiprotocol interface the device communicates automatically in Profinet, Ethernet/IP or Modbus TCP networks. The integrated S2 system redundancy also enables redundant communication between two controllers in a Profinet network, which provides a considerable safety benefit. Another benefit is the extended temperature range of -40 to +70 °C, which makes the device also useful for use in cold chain logistics – also unique on the market.
User-friendly Installation and Operation
With its compact dimensions and a large range, Turck’s HF read/write head can be perfectly integrated in plant and machine concepts. The TNSLR RFID functionality and multiprotocol Ethernet interface are combined with QuickConnect capability in one device, thus considerably reducing the effort required for installation and wiring.
This provides users in different sectors with an efficient and flexible solution for their read and write requirements – starting with series machine building, transport and handling, to production lines and material handling, right through to fixed and autonomous mobile robotics (AMR).
Industries:
- Automotive
- Material handling
- Logistics
Key Functions:
- Combined read/write head and Ethernet interface in one device
- Extended temperature range of -40 to +70 °C
- Multiprotocol support (Ethernet/IP, Profinet and Modbus TCP)
- SU/Quick Connect and S2 system redundancy