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Industrial Ethernet II

Industrial Protocols and advanced Functions

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In this in-depth training course on Industrial Ethernet, special communication protocols in the field of control technology such as PTP, REP, PROFINET etc. are discussed in more detail and set up in a test network. Various auxiliary protocols such as QoS are used to guarantee real-time communication. Some troubleshooting exercises as well as the targeted installation and removal of systems during operation round off the exercises on industrial Ethernet.

Course Contents

  • Switching, VLANs and basic security
  • Working with macros
  • Spanning tree and ring concepts in use
  • Routing and rapid convergence
  • NAT level 2
  • Packet Filters on Layer 2 and 3
  • Quality of service and real-time communication
  • Time synchronization (NTP, PTP)
  • Network management and monitoring (syslog, SNMP, SSH, debugging etc.)
  • Alarm
  • Protocols in IE (PROFINET, ModBUS, Ethernet/IP)
  • Troubleshooting (Hardware, Disaster Recovery, Upgrades)
  • Troubleshooting in switching and routing (configuration errors)

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

  • High-quality color prints of the ExperTeach documentation
  • Exclusive folder in an elegant design
  • Document pouch in backpack shape
  • Elegant LAMY ballpoint pen
  • Practical notepad
Premium Print
The Premium Print Package can be added during the ordering process for € 150,- plus VAT (only for classroom participation).

Request in-house training now

Target Group

Network planners and operators who want to implement and operate Industrial Ethernet in their networks are the target group for this training. In a test network with Cisco Industrial Switches of the 2000 and 3000 series, typical configurations are created, systems are replaced and upgraded and errors are eliminated as part of troubleshooting. The focus here is on general, manufacturer-independent aspects of Industrial Ethernet.

Knowledge Prerequisites

Knowledge of LAN concepts and internetworking is a prerequisite for successful participation. Prior participation in the course Industrial Ethernet I - Design and Implementation is recommended.

1 Industrielle Varianten des Ethernets
1.1 Feldbussysteme und Verbreitung
1.2 Protokolle im industriellen Ethernet
1.2.1 Modbus
1.2.2 Profibus
1.2.3 Profinet
1.2.4 Discovery and Configuration Protocol (DCP)
1.2.5 EtherNet/IP
1.2.6 Datenübertragung nach IEC 60870
1.3 EtherCAT (Ethernet for Control Automation Technology)
1.3.1 Wireless ICS-Technologien
1.3.2 OPC – Open Platform Communications
1.3.3 OPC UA in der Industrie
1.4 Zeitsynchronisation mit NTP und PTP (IEEE 1588)
1.4.1 Uhren und Aufgaben
1.4.2 Korrektur des Offset
1.4.3 Delay-Request-Response, Teil 1
1.4.4 Delay-Request-Response, Teil 2
1.4.5 Peer-Delay
1.4.6 Transparent Clock Peer-to-Peer
1.4.7 Transparent Clock End-to-End
1.4.8 PTP Best Master Clock Algorithm (BMCA)
1.4.9 Netzwerkdesign für NTP und PTP
1.5 Audio Video Bridging (AVB) und Time-Sensitive Networking (TSN)
1.5.1 TSN in der Fabrikation
1.5.2 Beispiel: Profinet over TSN
   
2 Industrial Ethernet Switching und Routing
2.1 Spezielle Redundanzmechanismen
2.1.1 Auswahlkriterien für Ring-Konzepte, Spanning Tree oder LAG
2.1.2 Auswahlkriterien für industrielle Switches
2.2 Resilient Packet Ring (REP) von Cisco
2.3 Quality of Service (QoS)
2.4 Was ist Quality of Service?
2.4.1 Bausteine für QoS
2.4.2 Klassifizierung
2.4.3 Wer markiert die Frames?
2.4.4 Queueing als Werkzeug
2.4.5 Konfiguration von QoS auf den Access-Catalyst-Systemen
2.4.6 Show-Kommandos für QoS
2.4.7 Auto-QoS
2.4.8 Macros für Quality of Service (QoS)
2.4.9 Routing in der IP-Welt
2.4.10 Statisches Routing
2.4.11 Dynamisches Routing
2.4.12 Virtual Router Redundancy Protocol (VRRP)
2.5 IP Multicasting - Das Prinzip
2.5.1 IPv4-Multicast-Adressen
2.5.2 IGMP
2.5.3 IGMP Snooping
2.5.4 Multicast Routing
2.5.5 Shared Tree
2.5.6 Source Based Tree (SBT)
2.5.7 Multicast Routing
2.5.8 PIM–Sparse Mode
2.5.9 Konfiguration von PIM Sparse Mode
   
3 Spezielle Konzepte im industriellen Ethernet
3.1 Alarme
3.2 Einfache Konfiguration durch Macros
3.3 Externer Speicher (Flash)
3.4 Hardware austauschen
3.4.1 Persistent DHCP
3.4.2 Externer Speicher (Flash)
3.4.3 Software Update
   
4 Troubleshooting im industriellen Ethernet
4.1 Monitoring und Troubleshooting
4.1.1 Netzwerkdokumentation
4.2 Die systematische Fehlereingrenzung
4.2.1 Troubleshooting-Modelle
4.3 Hardware-Troubleshooting
4.3.1 Boot-Probleme
4.3.2 Crashinfo
4.4 Monitoring und Debugging
4.5 Übergeordnetes NMS: Beispiel TIA Portal
4.6 Ethernet Troubleshooting
4.6.1 Duplex Mismatch
4.6.2 Time Domain Reflectometry (TDR)
4.6.3 Digital Optical Monitoring (DOM)
4.6.4 Error-Disable
   
A Befehle

Classroom training

Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!

Online training

You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.

Tailor-made courses

You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.
Request in-house training now
PDF SymbolYou can find the complete description of this course with dates and prices ready for download at as PDF.

In this in-depth training course on Industrial Ethernet, special communication protocols in the field of control technology such as PTP, REP, PROFINET etc. are discussed in more detail and set up in a test network. Various auxiliary protocols such as QoS are used to guarantee real-time communication. Some troubleshooting exercises as well as the targeted installation and removal of systems during operation round off the exercises on industrial Ethernet.

Course Contents

  • Switching, VLANs and basic security
  • Working with macros
  • Spanning tree and ring concepts in use
  • Routing and rapid convergence
  • NAT level 2
  • Packet Filters on Layer 2 and 3
  • Quality of service and real-time communication
  • Time synchronization (NTP, PTP)
  • Network management and monitoring (syslog, SNMP, SSH, debugging etc.)
  • Alarm
  • Protocols in IE (PROFINET, ModBUS, Ethernet/IP)
  • Troubleshooting (Hardware, Disaster Recovery, Upgrades)
  • Troubleshooting in switching and routing (configuration errors)

The detailed digital documentation package, consisting of an e-book and PDF, is included in the price of the course.

Premium Course Documents

In addition to the digital documentation package, the exclusive Premium Print Package is also available to you.

  • High-quality color prints of the ExperTeach documentation
  • Exclusive folder in an elegant design
  • Document pouch in backpack shape
  • Elegant LAMY ballpoint pen
  • Practical notepad
Premium Print
The Premium Print Package can be added during the ordering process for € 150,- plus VAT (only for classroom participation).

Request in-house training now

Target Group

Network planners and operators who want to implement and operate Industrial Ethernet in their networks are the target group for this training. In a test network with Cisco Industrial Switches of the 2000 and 3000 series, typical configurations are created, systems are replaced and upgraded and errors are eliminated as part of troubleshooting. The focus here is on general, manufacturer-independent aspects of Industrial Ethernet.

Knowledge Prerequisites

Knowledge of LAN concepts and internetworking is a prerequisite for successful participation. Prior participation in the course Industrial Ethernet I - Design and Implementation is recommended.

1 Industrielle Varianten des Ethernets
1.1 Feldbussysteme und Verbreitung
1.2 Protokolle im industriellen Ethernet
1.2.1 Modbus
1.2.2 Profibus
1.2.3 Profinet
1.2.4 Discovery and Configuration Protocol (DCP)
1.2.5 EtherNet/IP
1.2.6 Datenübertragung nach IEC 60870
1.3 EtherCAT (Ethernet for Control Automation Technology)
1.3.1 Wireless ICS-Technologien
1.3.2 OPC – Open Platform Communications
1.3.3 OPC UA in der Industrie
1.4 Zeitsynchronisation mit NTP und PTP (IEEE 1588)
1.4.1 Uhren und Aufgaben
1.4.2 Korrektur des Offset
1.4.3 Delay-Request-Response, Teil 1
1.4.4 Delay-Request-Response, Teil 2
1.4.5 Peer-Delay
1.4.6 Transparent Clock Peer-to-Peer
1.4.7 Transparent Clock End-to-End
1.4.8 PTP Best Master Clock Algorithm (BMCA)
1.4.9 Netzwerkdesign für NTP und PTP
1.5 Audio Video Bridging (AVB) und Time-Sensitive Networking (TSN)
1.5.1 TSN in der Fabrikation
1.5.2 Beispiel: Profinet over TSN
   
2 Industrial Ethernet Switching und Routing
2.1 Spezielle Redundanzmechanismen
2.1.1 Auswahlkriterien für Ring-Konzepte, Spanning Tree oder LAG
2.1.2 Auswahlkriterien für industrielle Switches
2.2 Resilient Packet Ring (REP) von Cisco
2.3 Quality of Service (QoS)
2.4 Was ist Quality of Service?
2.4.1 Bausteine für QoS
2.4.2 Klassifizierung
2.4.3 Wer markiert die Frames?
2.4.4 Queueing als Werkzeug
2.4.5 Konfiguration von QoS auf den Access-Catalyst-Systemen
2.4.6 Show-Kommandos für QoS
2.4.7 Auto-QoS
2.4.8 Macros für Quality of Service (QoS)
2.4.9 Routing in der IP-Welt
2.4.10 Statisches Routing
2.4.11 Dynamisches Routing
2.4.12 Virtual Router Redundancy Protocol (VRRP)
2.5 IP Multicasting - Das Prinzip
2.5.1 IPv4-Multicast-Adressen
2.5.2 IGMP
2.5.3 IGMP Snooping
2.5.4 Multicast Routing
2.5.5 Shared Tree
2.5.6 Source Based Tree (SBT)
2.5.7 Multicast Routing
2.5.8 PIM–Sparse Mode
2.5.9 Konfiguration von PIM Sparse Mode
   
3 Spezielle Konzepte im industriellen Ethernet
3.1 Alarme
3.2 Einfache Konfiguration durch Macros
3.3 Externer Speicher (Flash)
3.4 Hardware austauschen
3.4.1 Persistent DHCP
3.4.2 Externer Speicher (Flash)
3.4.3 Software Update
   
4 Troubleshooting im industriellen Ethernet
4.1 Monitoring und Troubleshooting
4.1.1 Netzwerkdokumentation
4.2 Die systematische Fehlereingrenzung
4.2.1 Troubleshooting-Modelle
4.3 Hardware-Troubleshooting
4.3.1 Boot-Probleme
4.3.2 Crashinfo
4.4 Monitoring und Debugging
4.5 Übergeordnetes NMS: Beispiel TIA Portal
4.6 Ethernet Troubleshooting
4.6.1 Duplex Mismatch
4.6.2 Time Domain Reflectometry (TDR)
4.6.3 Digital Optical Monitoring (DOM)
4.6.4 Error-Disable
   
A Befehle

Classroom training

Do you prefer the classic training method? A course in one of our Training Centers, with a competent trainer and the direct exchange between all course participants? Then you should book one of our classroom training dates!

Online training

You wish to attend a course in online mode? We offer you online course dates for this course topic. To attend these seminars, you need to have a PC with Internet access (minimum data rate 1Mbps), a headset when working via VoIP and optionally a camera. For further information and technical recommendations, please refer to.

Tailor-made courses

You need a special course for your team? In addition to our standard offer, we will also support you in creating your customized courses, which precisely meet your individual demands. We will be glad to consult you and create an individual offer for you.
Request in-house training now

PDF SymbolYou can find the complete description of this course with dates and prices ready for download at as PDF.
ExperTeach Identifier: IND2
Duration & Prices
Prices excl. V.A.T.
Classes in Germany
2 days
€ 1,595
Online training
2 days
€ 1,595
+ Premium Print Package (Optional)
€ 150
Dates