Owner's manual
Table Of Contents
- Front Cover
- Important User Information
- Summary of Changes
- Table of Contents
- Introduction
- About the Drive
- Identifying the Drive by Cabinet Assembly ID Number
- LiquiFlo 2.0 Drive Component Locations
- Identifying the Power Module by Model Number
- AC Line I/O Board Description (Frame 3 Only)
- Standard I/O Board Description (Frame 3 Only)
- Combined I/O Board Description (Frame 4 Only)
- DPI Communication Ports
- Optional Equipment
- Planning the Installation
- Mounting The Power Module and Grounding the Drive
- Installing Input and Output Power Wiring
- Completing the Installation
- Using the Start-up Routines
- Programming Basics
- Parameter Descriptions
- Troubleshooting the Drive
- Verify that the DC Bus Capacitors are Discharged Before Servicing the Drive
- Determining Drive Status Using the Status LEDs
- About Alarms
- About Faults
- Diagnostic Parameters
- Common Symptoms and Corrective Actions
- Replacement Parts
- Board Replacement, Firmware Setup Procedures
- Troubleshooting the Drive Using the OIM
- Checking the Power Modules with Input Power Off
- Technical Specifications
- Using the OIM
- Installing and Removing the OIM
- Display Description
- OIM Menu Structure
- Powering Up and Adjusting the OIM
- Selecting a Device in the System
- Using the OIM to Program the Drive
- Monitoring the Drive Using the Process Display Screen on the OIM
- Displaying and Changing the OIM Reference
- Customizing the Process Display Screen
- Customizing the Function Keys
- Controlling the Drive From the OIM
- LiquiFlo 2.0 Drive Frame 3 Wiring Diagrams
- LiquiFlo 2.0 Drive Frame 4 Wiring Diagrams
- Index
- Back Cover

Rockwell Automation Publication D2-3518-3 - May 2013 157
Chapter 9
requests manual control (that is, Auto/Man F-Key is pressed) and then gives
control up (presses Auto/Man F-Key again), then the Auto/Manual digital input
must be opened and closed again to regain control of the manual reference.
If this input is open, then the terminal block does not request manual control of
the reference. If no control device (including the terminal block) is currently
requesting manual control of the reference, then the drive uses the normal
reference selection mechanisms.
19 = Local
20 = Acc2 & Dec2: A single input function is used to select between Accel Time
1/Decel Time 1 and Accel Time 2/Decel Time2.
If the function is open, the drive uses Accel Time 1 as the acceleration rate and
Decel Time 1 as the deceleration rate. If the function is closed, the drive uses
Accel Time 2 as the acceleration rate and Decel Time 2 as the deceleration rate.
21, 22 = Accel 2, Decel 2: One input function (called Accel 2) selects between
Accel Time 1 and Accel Time 2, and another input function (called Decel 2)
selects between Decel Time 1 and Decel Time 2. The open state of the function
selects Accel Time 1 or Decel Time 1, and the closed state selects Accel Time 2 or
Decel Time 2.
23, 24 = MOP Increment, MOP Decrement: The MOP is a reference setpoint
(called the MOP Value) that can be incremented and decremented by external
devices. These input functions are used to increment and decrement the Motor
Operated Potentiometer (MOP) value inside the drive. The MOP value is
retained through a power cycle. The current MOP value is visible in inverter
parameter MOP Frequency (11).
• While the MOP Increment input is closed, the MOP value increases at
rate contained in MOP Rate (195). Units for rate are Hz per second.
• While the MOP Decrement input is closed, MOP value decreases at rate
contained in MOP Rate (195). Units for rate are Hz per second.
• If both the MOP Increment and MOP Decrement inputs are closed, the
MOP value stays the same.
• In order for the drive to use the MOP value as the current speed reference,
either Speed Ref A Sel must be set to MOP.
25 = Excl Link: The state of this input is passed through to the Input x Link
function of a digital output. See inverter parameters 380...387.
26 = PI Enable: If this input function is closed, the operation of the Process PI
loop is enabled.
If this input function is open, the operation of the Process PI loop is disabled.
27 = PI Hold: If this input function is closed, the integrator for the Process PI
loop is held at the current value; that is, it does not increase.