![Moxa EDS-P510 — understanding Communication Redundancy in Industrial Networks [5/36]](/img/pdf.png)
Moxa EDS-P510 — understanding Communication Redundancy in Industrial Networks [5/36]
![Moxa EDS-P510 [5/36] Gigabit ethernet redundant ring capability 50 ms](/views2/1196347/page5/bg5.png)
Communication Redundancy Introduction to Communication Redundancy
1-2
Gigabit Ethernet Redundant Ring Capability (< 50 ms)
Ethernet has become the default data communications
medium for industrial automation applications. In fact,
Ethernet is often used to integrate video, voice, and
high-rate industrial application data transfers into one
network. Moxa switches come equipped with a redundant
Gigabit Ethernet protocol called Gigabit Turbo Ring. With
Gigabit Turbo Ring, if any segment of the network gets
disconnected, your automation system will be back to
normal in less than 300 ms (Turbo Ring) or 50 ms (Turbo
Ring V2).
NOTE
Port trunking and Turbo Ring can be enabled simultaneously to form a backbone. Doing so will increase the
bandwidth of the backbone, and also provide redundancy. For example, suppose that two physical ports, 1 and
2, are trunked to form trunk group Trk1, and then Trk1 is set as one Turbo Ring path. If port 1 gets
disconnected, the remaining trunked port, port 2, will share the traffic. If ports 1 and 2 are both disconnected,
the Turbo Ring will create a backup path within 300 ms.
Содержание
- User s manual p.1
- Communication redundancy p.1
- Www moxa com product p.1
- Fourth edition march 2015 p.1
- Trademarks p.2
- Technical support contact information p.2
- Disclaimer p.2
- Copyright notice p.2
- Communication redundancy p.2
- Www moxa com support p.2
- User s manual p.2
- Table of contents p.3
- Redundancy p.4
- Introduction to communication p.4
- Gigabit ethernet redundant ring capability 50 ms p.5
- Communication redundancy introduction to communication redundancy p.5
- Turbo ring p.6
- When the number of switches in the turbo ring is even p.7
- The turbo ring concept p.7
- Setting up turbo ring or turbo ring v2 p.7
- Determining the redundant path of a turbo ring ring p.7
- Communication redundancy turbo ring p.7
- Determining the redundant path of a turbo ring v2 ring p.8
- Communication redundancy turbo ring p.8
- Attention p.8
- When the number of switches in the turbo ring is odd p.8
- Ring coupling configuration p.8
- Ring coupling for a turbo ring v2 ring p.9
- Ring coupling for a turbo ring ring p.9
- Communication redundancy turbo ring p.9
- Attention p.9
- Turbo ring v2 p.10
- Dynamic ring coupling drc configuration applies only to p.10
- Dual ring for a turbo ring v2 ring p.11
- Dual ring configuration applies only to turbo ring v2 p.11
- Communication redundancy turbo ring p.11
- Attention p.11
- Dual homing configuration applies only to turbo ring v2 p.12
- Configuring turbo ring and turbo ring v2 p.12
- Configuring turbo ring p.12
- Communication redundancy turbo ring p.12
- Explanation of settings items p.13
- Explanation of current status items p.13
- Communication redundancy turbo ring p.13
- Communication redundancy turbo ring p.14
- Explanation of current status items p.15
- Configuring turbo ring v2 p.15
- Communication redundancy turbo ring p.15
- Explanation of settings items p.16
- Communication redundancy turbo ring p.16
- Communication redundancy turbo ring p.17
- Communication redundancy turbo ring p.18
- Explanation of ring status items p.19
- Configuring turbo ring v2 with dynamic ring coupling p.19
- Communication redundancy turbo ring p.19
- Explanation of drc status items p.20
- Communication redundancy turbo ring p.20
- Explanation of ring settings items p.20
- Turbo chain p.21
- The turbo chain concept p.22
- Setting up turbo chain p.22
- Communication redundancy turbo chain p.22
- Tail switch configuration p.23
- Member switch configuration p.23
- Head switch configuration p.23
- Explanation of current status items p.23
- Configuring turbo chain p.23
- Communication redundancy turbo chain p.23
- Explanation of settings items p.24
- Communication redundancy turbo chain p.24
- Communication redundancy turbo chain p.25
- Stp rstp mstp p.26
- Communication redundancy stp rstp mstp p.27
- What is stp p.27
- The stp rstp mstp concept p.27
- Stp requirements p.28
- How stp works p.28
- Communication redundancy stp rstp mstp p.28
- Stp reconfiguration p.29
- Stp configuration p.29
- Stp calculation p.29
- Differences between stp rstp and mstp p.29
- Communication redundancy stp rstp mstp p.29
- Stp example p.30
- Communication redundancy stp rstp mstp p.30
- Using stp on a network with multiple vlans p.31
- Configuring stp rstp p.31
- Communication redundancy stp rstp mstp p.31
- Communication redundancy stp rstp mstp p.32
- Configuring mstp p.33
- Communication redundancy stp rstp mstp p.33
- Communication redundancy stp rstp mstp p.34
- Communication redundancy stp rstp mstp p.35
- Configuration limits of stp rstp p.36
- Communication redundancy stp rstp mstp p.36
Похожие устройства
-
Moxa EDS-G512E-8PoE-4GSFP-TТехнические характеристики -
Moxa EDS-G512E-8PoE-4GSFP-TРуководство по созданию резервированных сетей -
Moxa EDS-G512E-8PoE-4GSFP-TРуководство по использованию командной строки -
Moxa EDS-G512E-8PoE-4GSFP-TРуководство по аппаратной части -
Moxa EDS-G512E-8PoE-4GSFP-TИнструкция по эксплуатации -
Moxa EDS-G512E-8PoE-4GSFPТехнические характеристики
-
Moxa EDS-G512E-8PoE-4GSFPРуководство по созданию резервированных сетей
-
Moxa EDS-G512E-8PoE-4GSFPРуководство по использованию командной строки
-
Moxa EDS-G512E-8PoE-4GSFPРуководство по аппаратной части
-
Moxa EDS-G512E-8PoE-4GSFPИнструкция по эксплуатации
-
Moxa EDS-P510A-8PoE-2GTXSFP-T .Технические характеристики -
Moxa EDS-P510A-8PoE-2GTXSFP-T .Руководство по созданию резервированных сетей
Explore the concept of communication redundancy in industrial automation. Learn how Gigabit Ethernet protocols enhance network reliability and minimize downtime.