Redundant Network Access – RNA
Redundant network structures increase network availability, but usually also result in short-term delays in data transfer when a connection is switched to a different network path in the event of a failure.
With Redundant Network Access (RNA) that at Siemens Industry stands for hardware and software that supports both the redundancy protocol PRP (Parallel Redundancy Protocol) as well as HSR (High Availability Seamless Redundancy Protocol), there are no longer any frame delays:
PRP redundancy protocol
Via two separate networks and with the PRP method in accordance with the IEC 62439-3 standard, it is possible to design a network structure which always guarantees a transfer of one of the two frames in the event of an error in one of the two networks. In this way, the transfer of the frame is always ensured without a delay in the case of an error.
Seamless redundant communication with the PRP method
The PRP redundancy method can be used both in manufacturing and process automation applications with very high availability requirements and in substation applications for electrical energy distribution, such as in medium- and high-voltage switch gear.
HSR redundancy protocol
In ring-shaped network structures, seamless data transfer for plants requiring high availability (for example, process automation) is implemented using the HSR method (High Availability Seamless Redundancy Protocol according to IEC 62439-3). The SCALANCE X204RNA devices with HSR functionality can also be used for the single and redundant transition from HSR to PRP network structures.
Seamless redundant communication with the HSR method
The transfer of the frames without any delay is therefore always ensured even if a fault occurs – and even in environments prone to strong interference. This makes the learning of communications paths (reconfiguration time) as is required with most of the other methods unnecessary.
RNA network solutions with Parallel Redundancy Protocol provide
Very high plant availability as a result of parallel data transfer via separate network structures
No frame delays during reconfiguration of one of the two network structures
High flexibility in network design because network structures can be executed as line, tree, star and ring structures
Fast commissioning without mandatory configuration