EtherNet/IP
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9
9.
E
THER
N
ET
/IP
9.1
General information
The EtherNet/IP™ is an industrial Ethernet network solution available for manufacturing
automation. The CIP™ (Common Industrial Protocol) encompasses a comprehensive suite of
messages and services for a variety of manufacturing automation applications, including control,
safety, synchronization, motion, configuration and information. The CIP provides users with a
unified communication architecture throughout the manufacturing enterprise.
More information on the EtherNet/IP can be found at
www.odva.org
.
9.1.1
Overview
The EtherNet/IP (Ethernet/Industrial Protocol) is a communication system suitable for use in
industrial environments. The EtherNet/IP allows industrial devices to exchange time-critical
application information. These devices include simple I/O devices such as sensors/actuators, as
well as complex control devices such as robots, programmable logic controllers, welders, and
process controllers.
The EtherNet/IP uses CIP (Control and Information Protocol), the common network, transport and
application layers also shared by ControlNet and EtherNet/IP. The EtherNet/IP then makes use of
standard Ethernet and TCP/IP technology to transport CIP communications packets. The result is a
common, open application layer on top of open and highly popular Ethernet and TCP/IP protocols.
The EtherNet/IP Messaging Forms:
•
Unconnected Messaging is used for connection establishment and for infrequent, low prior-
ity messages.
•
Connected Messaging utilizes resources which are dedicated in advance to a particular pur-
pose such as real-time I/O data transfer. EtherNet/IP Messaging Connections.
•
Explicit Messaging Connections are general purpose point-to-point connections. Messages
are sent through the TCP protocol.
•
Implicit (I/O Data) Connections are established to move application specific I/O Data at regu-
lar intervals. They are often set up as one-to-many relationships in order to take full advan-
tage of the producer-consumer multicast model. Implicit messages are sent through the
UDP protocol.
9.1.2
AC/DC Drive Profile
The option boards implement CIP AC/DC drive profile.
In order to provide interoperability between devices from different manufacturers, there must be a
defined "standard" in which those devices:
•
Exhibit the same behaviour
•
Produce and/or consume the same basic set of I/O data
•
Contain the same basic set of configurable attributes. The formal definition of this
information is known as a device profile.
9.1.3
EDS file
You can provide configuration support for your device by using a specially formatted ASCII file, re-
ferred to as the EDS (Electronic Data Sheet). An EDS provides information about the device config-
uration.
Summary of Contents for optea
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