- •TABLE OF CONTENTS
- •Important Comments
- •Legal Principles
- •Copyright
- •Personnel Qualification
- •Intended Use
- •Symbols
- •Font Conventions
- •Number Notation
- •Scope
- •Abbreviation
- •The WAGO-I/O-SYSTEM 750
- •System Description
- •Technical Data
- •Manufacturing Number
- •Storage, Consignment and Transport
- •Mechanical Setup
- •Installation Position
- •Total Expansion
- •Assembly onto Carrier Rail
- •Carrier rail properties
- •WAGO DIN Rail
- •Spacing
- •Plugging and Removal of the Components
- •Assembly Sequence
- •Internal Bus / Data Contacts
- •Power Contacts
- •Wire connection
- •Power Supply
- •Isolation
- •System Supply
- •Connection
- •Alignment
- •Field Supply
- •Connection
- •Fusing
- •Supplementary power supply regulations
- •Supply example
- •Power Supply Unit
- •Grounding
- •Grounding the DIN Rail
- •Framework Assembly
- •Insulated Assembly
- •Function Earth
- •Protective Earth
- •Shielding (screening)
- •General
- •Bus Conductors
- •Signal Conductors
- •WAGO Shield (Screen) Connecting System
- •Assembly Guidelines / Norms
- •Fieldbus Coupler/Controller
- •Fieldbus Coupler 750-306
- •Description
- •Hardware
- •View
- •Device Supply
- •Fieldbus Connection
- •Display Elements
- •Configuration Interface
- •Hardware Address (MAC ID)
- •Setting the Baud Rate
- •Operating System
- •Process Image
- •Data Exchange
- •Communication Interfaces
- •Memory Areas
- •Addressing
- •Fieldbus Specific
- •Configuration Software
- •Starting up DeviceNet Fieldbus Nodes
- •Connecting the PC and Fieldbus Node
- •Setting the MAC ID and Baud Rate
- •Configuration with Static Assembly
- •LED Display
- •Node Status
- •Blink Code
- •Fault Message via the Blink Code of the I/O LED
- •Supply Voltage Status
- •Technical Data
- •Fieldbus Controller 750-806
- •Description
- •Hardware
- •View
- •Device Supply
- •Fieldbus Connection
- •Display Elements
- •Configuration and Programming Interface
- •Operating Mode Switch
- •Hardware Address (MAC ID)
- •Setting the Baud Rate
- •Operating System
- •Start-up
- •PLC Cycle
- •Process Image
- •Data Exchange
- •Communication Interfaces
- •Memory Areas
- •Addressing
- •Fieldbus Specific
- •Absolute Addressing
- •Calculate Addresses
- •Address Range for I/O Module Data
- •Address Range for Fieldbus Variables
- •Address Range for Flags
- •Example for Absolute Addresses
- •Programming the PFC with WAGO-I/O-PRO 32
- •WAGO-I/O-PRO 32 Library Elements
- •IEC 61131-3 Program Transfer
- •Transmission via the Serial Interface
- •Transmission via the Fieldbus
- •Special DeviceNet Features of the Controller
- •Connection via the UCMM port
- •Offline Connection Set
- •DeviceNet Shutdown
- •Dynamic Assembly
- •Change MAC ID by SW
- •Heartbeat
- •Bit-Strobe
- •Configuration Software
- •Starting-up DeviceNet Fieldbus Nodes
- •Connecting the PC and Fieldbus Node
- •Setting the MAC ID and Baud Rate
- •Configuration with Static and Dynamic Assembly
- •LED Display
- •Node Status
- •Blink Code
- •Fault Message via the Blink Code of the I/O LED
- •Supply Voltage Status
- •Technical Data
- •I/O modules
- •DeviceNet
- •Description
- •Network Architecture
- •Transmission Media
- •Type of Cable
- •Cable Types
- •Maximum Bus Length
- •Cabling
- •Network Topology
- •Network Grounding
- •Interface Modules
- •Network Communication
- •Objects, Classes, Instances and Attributes
- •Module Characteristics
- •Communication Model
- •Message Groups
- •Message Types
- •I/O Messaging
- •Explicit Messaging
- •I/O Messaging Connections
- •Process data and Diagnostic Status
- •Process Image
- •Assembly Instances
- •Configuration / Parametering with the Object Model
- •EDS Files
- •Object Model
- •Identity Class (0x01):
- •Message Router (0x02):
- •DeviceNet Object (0x03):
- •Assembly Object (0x04):
- •Connection Object (0x05):
- •Acknowledge Handler Object (0x2B):
- •Coupler configuration object (0x64):
- •Discrete Output Point Object (0x66):
- •Analog Input Point Object (0x67):
- •Analog Output Point Object (0x68):
- •Supplement to the Object Model for Controller 750-806
- •Bit-Strobe
- •Dynamic Assembly
- •New Classes for the PFC Fieldbus Variables
- •Class 160 (0xA0) Input PLC Fieldbus Variable USINT
- •Class 161 (0xA1) Input Fieldbus Variable USINT
- •Class 162 (0xA2) Input Fieldbus Variable USINT
- •Class 163 (0xA3) Output Fieldbus Variable USINT
- •Class 164 (0xA4) Output Fieldbus Variable USINT
- •Class 165 (0xA5) Output Fieldbus Variable USINT
- •Class 166 (0xA6) Input Fieldbus Variable UINT
- •Class 167 (0xA7) Input Fieldbus Variable UINT
- •Class 168 (0xA8) Output Fieldbus Variable UINT
- •Class 169 (0xA9) Output Fieldbus Variable UINT
- •Class 170 (0xAA) Input Fieldbus Variable UDINT
- •Class 171 (0xAB) Input Fieldbus Variable UDINT
- •Class 172 (0xAC) Output Fieldbus Variable UDINT
- •Class 173 (0xAD) Output Fieldbus Variable UDINT
- •Class 100 (0x64) - Attribute 44/100/101
- •Identity Class 1 (0x01)
- •Connection Object (0x05)
- •Additional Assembly Instances 10 and 11
- •Application in Explosive Environments
- •Foreword
- •Protective Measures
- •Classification Meeting CENELEC and IEC
- •Divisions
- •Explosion Protection Group
- •Unit Categories
- •Temperature Classes
- •Types of Ignition Protection
- •Classifications Meeting the NEC 500
- •Divisions
- •Explosion Protection Groups
- •Temperature Classes
- •Identification
- •For Europe
- •For America
- •Installation Regulations
- •Glossary
- •Literature List
- •Index
146 • Application in Explosive Environments
Identification
6.5Identification
6.5.1For Europe
According to CENELEC and IEC
Explosion protection group |
Unit category |
Community symbol for explosion protected electrical components
II 3 G |
|
KEMA 01ATEX1024 X |
|
EEx nA II T4 |
Temperature class |
Approval body and/or number of the examination certificate
Explosion protection group
E = conforming with European standards Ex = explosion protected component
n = Type of ignition |
Extended identification |
ITEM-NO.:750-400
24V DC AWG 28-14 55°C max ambient
CL I DIV 2 Grp. A B C D op temp code T4A
LISTED 22ZA AND 22XM
-02----03 |
4246 |
1- |
2 |
210 |
|
Hansastr. 27 |
2DI 24V DC 3.0ms |
|
|
D-32423 Minden |
0.08-2.5mm2 |
0V 24V DI1
Di2
PATENTS PENDING
II 3 G
KEMA 01ATEX1024 X EEx nA II T4
Fig. 6-1: Example for lateral labeling of bus modules |
|
(750-400, 2 channel digital input module 24 V DC) |
g01xx03e |
WAGO-I/O-SYSTEM 750
DeviceNet
Application in Explosive Environments • 147
Identification
6.5.2 For America
According to NEC 500
Explosion protection group |
Area of application (zone) |
(condition of use category) |
|
Explosion group |
CL I DIV 2 |
|
|
Grp. ABCD |
|
||
(gas group) |
|
||
optemp code T4A |
Temperature class |
||
|
24V DC AWG 28-14 55°C max ambient
CL I DIV 2 Grp. A B C D op temp code T4A
LISTED 22ZA AND 22XM
-02----03 |
4246 |
0- |
2 |
410 |
|
|
ITEM-NO.:750-400 |
Hansastr. 27 |
2DI 24V DC 3.0ms |
|
|
D-32423 Minden |
0.08-2.5mm2 |
0V 24V DI1
Di2
PATENTS PENDING
II 3 G
KEMA 01ATEX1024 X EEx nA II T4
Fig. 6-2: Example for lateral labeling of bus modules |
|
(750-400, 2 channel digital input module 24 V DC) |
g01xx04e |
WAGO-I/O-SYSTEM 750
DeviceNet