- •Table of Contents
- •Important comments
- •Legal disclaimers
- •Copyright
- •Personnel qualification
- •Intended use
- •Scope
- •Symbols
- •WAGO-I/O-SYSTEM 750
- •System Description
- •General
- •Coupler/Controller (1)
- •I/O Modules (2)
- •End Module (3)
- •Installation
- •Safety notes
- •Mechanical Installation
- •Electrical Installation
- •Wire Connection
- •Change fuse
- •Power supply
- •System supply voltage
- •Supply Voltage Field Side
- •Manufacturing Number
- •Technical Data
- •Fieldbus coupler/controller
- •Fieldbus coupler 750-319
- •Description
- •Software for the coupler
- •Hardware
- •View
- •Device supply
- •Fieldbus connection
- •Display elements
- •Configuration interface
- •Hardware address
- •Operating system
- •Data exchange
- •Starting-up LON fieldbus nodes
- •LED display
- •Blink code
- •Fieldbus status
- •Node status
- •Fault message via the blink code of the I/O LED
- •Supply voltage status
- •Fault behavior
- •Fieldbus failure
- •Internal bus fault
- •Technical Data
- •Fieldbus controller 750-819
- •Description
- •Software for the controller
- •Hardware
- •View
- •Device supply
- •Fieldbus connection
- •Display elements
- •Configuration and programming interface
- •Operating mode switch
- •Hardware address
- •Operating system
- •Start-up
- •PLC cycle
- •Process image
- •Data exchange
- •Memory areas
- •Addressing
- •Addressing the I/O modules
- •Addressing the PFC variables
- •Addressing the configuration variables
- •Starting-up LON fieldbus nodes
- •Programming the PFC with WAGO-I/O-PRO 32
- •LON library elements for WAGO-I/O-PRO 32
- •IEC 61131-3 Program transfer
- •Transmission via the serial interface
- •Transmission via the fieldbus
- •LED display
- •Blink code
- •Fieldbus status
- •Node status
- •Fault message via the blink code of the I/O LED
- •Supply voltage status
- •Fault behavior
- •Fieldbus failure
- •Internal bus fault
- •Technical Data
- •I/O modules
- •Digital Inputs
- •Digital Outputs
- •Analog Inputs
- •Analog Outputs
- •Speciality modules
- •Supply modules
- •Potential multiplication module
- •Binary spacer modules
- •Separation module/ end module
- •General Safty Information!
- •Information on the network architecture
- •Transmision media
- •Topology
- •Transceiver
- •Recommended bus and cable lengths
- •Bus shaped wiring
- •Free Wiring
- •Cable specifications
- •Network installation
- •Addressing
- •Configuration
- •Binding
- •Network communication
- •Data exchange via network variables
- •Standard types of network variables
- •Protocol
- •Channel access method
- •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
I/O modules • 221
Potential multiplication module – Review
4.7 Potential multiplication module
750-614 (Potential multiplication module, AC/DC 0V - 230V) page 222
Modular I/O System
LONWORKS®
222 • I/O modules
Potential multiplication module 750-614
4.7.1.1.1 Potential multiplication modules
750-614
13 |
14 |
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B |
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D |
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+ |
- |
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750-614 |
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Data contacts
0-230V
0V
Power jumper contacts
Technical Description:
The potential multiplication module allows additional + and - voltage connection points (up to 4 additional).
This eliminates the need for external terminal blocks.
Technical Data:
Item no.: |
750-614 |
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Voltage |
AC/DC 24 V - 230 V |
Current via contacts |
max. 10 A |
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Operating temperature |
0 °C ... + 55 °C |
Wire connection |
CAGE CLAMP ; 0,08 mm2 - 2,5 mm2, AWG 28 – 14, |
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8 – 9 mm Stripped length |
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Dimensions (mm) WxHxL |
12 x 64 x 100, (from upper edge of carrier rail) |
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Modular I/O System
LONWORKS®
I/O modules • 223
Binary spacer module - Review
4.8 Binary spacer modules
750-622 (Binary spacer modules)
page 223
Modular I/O System
LONWORKS®
224 • I/O modules
Binary spacer module 750-622
4.8.1.1.1 Binary spacer modules
750-622
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14 |
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Operating mode |
C |
B |
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Input/ |
D |
output |
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+ |
- |
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750-622 |
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Data width
Data contacts
Supply via power jumper contacts 24V
0V
Power jumper contacts
Technical Description:
The binary spacer module reserves digital addresses in the WAGO buscoupler.
The number of inputs or outputs can be selected by two DIP switches. 2, 4, 6 or 8 bits are possible (1, 2, 3 or 4-channel modules). A third DIP Switch selects inputs or outputs.
The configuration is indicated by means of 3 LEDs, which are lit, even if there is no voltage applied.
The binary spacer module also works as a 24 V supply module. Power must be connected to supply the modules following the binary spacer.
Modular I/O System
LONWORKS®
I/O modules • 225
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Binary spacer module 750-622 |
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Technical Data: |
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Item no.: |
750-622 |
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Number of inor outputs |
2, 4, 6 oder 8 |
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Nominal voltage |
DC 5 V intern |
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Input current (internal) |
10 mA max. |
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Voltage (field side) |
DC 24 V (-15%/+20%) |
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Current via power jumper con- |
10 A max. |
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tacts |
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Input current (field side) |
- |
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Isolation |
500 V System/Versorgung |
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Internal Bit width |
2, 4, 6 oder 8 |
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Configuration |
none, or via software with the consent of WAGO |
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Operating temperature |
0°C....+55°C |
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Wire connection |
CAGE CLAMP ; 0,08 mm2 - 2,5 mm2, AWG 28 – 14, |
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8 – 9 mm Stripped length |
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Dimensions (mm) WxHxL |
12 x 64* x 100 (*from upper edge of carrier rail) |
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The DIP switches and LEDs are used as follows. When the switch is OFF the LED is also OFF (dark LED symbol). When the switch is ON the LED lightens (light LED symbol).
ON
1 2 3 4 5
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Don’t care |
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OFF |
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Inputs |
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ON |
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Outputs |
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OFF |
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OFF |
2 Bit (1x 2 Bit) |
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ON |
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OFF |
4 Bit (2x 2 |
Bit) |
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OFF |
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ON |
6 Bit (3x 2 |
Bit) |
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ON |
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ON |
8 Bit (4x 2 |
Bit) |
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Examples:
ON |
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1 |
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5 |
6 |
Binary Outputs (3x 2 Channel output modules) |
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ON |
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1 |
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4 |
5 |
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4 |
Binary Inputs (2x 2 Channel output modules) |
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Modular I/O System
LONWORKS®