Field wiring connections, Grounding the module, System wiring guidelines – Rockwell Automation 1769-OF2 Compact (Series B or Later) Analog Output Module User Manual
Page 9
Compact™ 1769-OF2 (Series B or Later) Analog Output Module 9
Publication 1769-IN049A-EN-P
Field Wiring Connections
Grounding the Module
This product is intended to be mounted to a well-grounded mounting
surface such as a metal panel. Additional grounding connections from the
module’s mounting tabs or DIN rail (if used), are not required unless the
mounting surface cannot be grounded. Refer to Industrial Automation
Wiring and Grounding Guidelines, Allen-Bradley publication 1770-4.1, for
additional information.
System Wiring Guidelines
Consider the following when wiring your system:
• All module commons (ANLG COM) are connected in the analog module.
The analog common (ANLG COM) is not connected to earth ground
inside the module.
• Do not use the analog module’s NC terminals as connection points.
• Channels are not isolated from each other.
• Use Belden™ 8761, or equivalent, shielded wire.
• Under normal conditions, the drain wire and shield junction must be
connected to earth ground, via a panel or DIN rail mounting screw at
the analog I/O module end. Keep the shield connection to ground as
short as possible.
(1)
• To ensure optimum accuracy, limit overall cable impedance by keeping
your cable as short as possible. Locate the I/O system as close to your
sensors or actuators as your application will permit.
• Voltage outputs (Vout 0+ and Vout 1+) of the 1769-OF2 module are
referenced to ANLG COM. Load resistance for a voltage output channel
must be equal to or greater than 1K
Ω
.
• Current outputs (Iout 0+ and Iout 1+) of the 1769-OF2 module source
current that returns to ANLG COM. Load resistance for a current output
channel must remain between 0 and 500
Ω
.
(1) In environments where high frequency noise may be present, it may be necessary to ground the shield via a
0.1µF capacitor at the load end and also ground the module end without a capacitor.