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Cyber-Ring Ethernet Self-healing Technology |
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It is undoubted that the power of an Ethernet LAN (Local Area Network) is tremendous when applied to factory floor or industrial automation applications. However, you cannot just use commercial Ethernet switch there. Harsh environment will become a challenge to your switch, and, in many case, fault-tolerant network is also a must. To satisfy these, ICPDASˇ¦s Cyber-Ring technology provides you a rugged fault-tolerant, plug and play Ethernet solution.
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The ICP DASˇ¦s proprietary Cyber-Ring self-healing Ethernet technology can establishes industrial Ethernet with high reliability and fault-tolerant capability. It can employ a ring topology network of either copper or fiber optic cable. While standard STP typically requires 20s to 30s to reconfiguration network structure following a link failure, Cyber-Ring technology reduces this downtime to within half a second. Average experience indicates a typical fault recovery time is 300ms for Cyber-Ring fault-tolerant network. |
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High reliability and fault-tolerant
Real-time deterministic performance
Scalable and flexible ring topology
Cost-effective industrial redundant Ethernet solution
Plug and play |
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The recovery time of Cyber-Ring network consists of two parts, fault detected time and reconfiguration time. Recovery time of Cyber-Ring network is associated with the number of switches of the network and Cyber-Ring technology offers a variable preconfigured recovery time to support a wide range of number of switches. Typically, the recovery time of Cyber-Ring network with ten switches is less than 300ms.
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Fault Detected Time |
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Fault detected time is defined as the time from the occurrence of the fault until fault detected. There is a master switch of Cyber-Ring network checks the health condition of Cyber-Ring network periodically. If active path is not response after a preconfigured period of time the master assumes that active path is failure and invokes reconfiguration mechanism to redirect traffics to the backup path. |
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Reconfiguration Time |
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The reconfiguration time of Cyber-Ring network is less than 5ms per switch. For example, a Cyber-Ring fault-tolerant network that was comprised of ten switches, the expected worst case reconfiguration time was 50ms. When a fault is detected, the Cyber-Ring network will reconfigure to provide alternate traffic path of the ring within 50ms. |
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Network topology refers to the way in which the network of switches and other network nodes is connected. In a Cyber-Ring network, every switch or network node has two adjacent neighbors for communication purposes. Cyber-Ring supports a variety of ring network topologies including Single Ring, Ring Coupling and Double Ring Coupling with fault-tolerant capability. The following sections describe in more detail the benefit of those topologies.
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Single Ring |
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A Single Ring network topology with Cyber-Ring technology can satisfy the requirement for link-lose-backup in the industrial field application (refer to figure 1). In normal operation, traffic on the backup path is either blocked or ignored. If any network node or cable segment of active path is failure, Cyber-Ring will redirect traffics to the backup path automatically. After repair of the failed path, the network is again reconfigured to normal operation status. |
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Figure 1 |
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Ring Coupling |
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The Ring Coupling topology can connect separate Cyber-Ring network together (refer to figure 2). It is ideal for two-floor application scene. The Ring Coupling topology not only construct individual Cyber-Ring network for each floor but also provide backup path to each other. It is a cost-effective solution to coupling ring topology. |
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Figure 2 |
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Double Ring Coupling |
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Double Ring Coupling is the enhanced version of Ring Coupling topology (refer to figure 3). It improves the reliability of Ring Coupling topology. In Double Ring Coupling topology, there are two coupling points providing redundant coupling path of two rings. |
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Figure 3 |
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