Network Redundancy

Network Redundancy
Network redundancy is a method to ensure network availability, providing failover when a device or network path fails or becomes unavailable.
Redundancy is usually achieved by installing additional or alternative network devices, communication media or equipment within the network infrastructure.
- network redudancy is commonly implemented in critical communication networks to ensure data reliability
- when a failure occurs on the primary path, the operation is carried out on the alternative (redundant) path
- it allows to reduce the downtime of the network, thus maximize availability
- besides preventing data losses, it also allows to perform maintenance tasks while the system is running

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Network Redundancy
- HSR — High-availability Seamless Redundancy
- PRP — Parallel Redundancy Protocol
- Ethernet
- MAC — Medium Access Control
- VLAN — Virtual Local Area Network
- IEC 62439–3
- Network Redundancy
HSR (High-availability Seamless Redundancy) is a redundancy protocol for Ethernet networks requiring short reaction times and high availability, as for example protection systems at electrical substations.
Unlike common redundancy protocols like RSTP, HSR reacts to any network component failures seamlessly (without recovery time) and is invisible to the application.
PRP (Parallel Redundancy Protocol) is a redundancy protocol for Ethernet based networks requiring high availability and a short switchover time, as for example protection systems at electrical substations.
Unlike common redundancy protocols like RSTP, PRP reacts to any network component failures seamlessly (without recovery time) and is invisible to the application.
Ethernet is a family of wired computer networking technologies commonly used in local area networks (LAN) and also wide area networks (WAN).
Over time, Ethernet has largely replaced competing wired LAN technologies by providing higher bit rates, a greater number of nodes, and longer link distances and decent backward compatibility.
The Medium Access Control (MAC) sublayer provides flow control and multiplexing for the transmission medium to control the hardware that interacts with the wired, optic and also wireless transmission media in the IEEE 802 LAN/MAN data link layer.
The MAC is accompanied by the LLC sublayer, which provides flow control and multiplexing for the logical link (i.e. EtherType, 802.1Q VLAN tag etc.)
A Virtual Local Area Network (VLAN) is a is a subnetwork which can group together collections of devices that are connected to separate physical LANs.
VLANs allow network administrators to partition a single switched network in order to keep network applications separate despite being connected to the same physical network, without requiring new cabling or major changes in the current network infrastructure.
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Network redundancy is a method to ensure network availability, providing failover when a device or network path fails or becomes unavailable.
Redundancy is usually achieved by installing additional or alternative network devices, communication media or equipment within the network infrastructure
Network Redundancy & iGrid
Redundancy has been a key element in many iGrid projects, which is why all of our devices support various redundant schemes and networks, including PRP, HSR and RSTP.
iRTU/iGW‑S#01 devices can acts as HSR DANH and RedBox (Redundancy Box)

iControl SCADA
High-performance SCADA for the visualization and control of substation data. It is able to run either in client/server or standalone modes, providing advanced functionalities such as hot-standby redundancy, automatic line coloring, events notification (via e‑mail and sms), SQL logging, and reports generation.

iGW‑S Substation Gateway
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