Rockwell Automation PowerFlex 755 Configuration manual

Brand
Rockwell Automation
Model
PowerFlex 755
Type
Configuration manual

This manual is also suitable for

The Rockwell Automation PowerFlex 755 is a powerful AC drive designed to provide precise control of electric motors in various industrial applications. Its advanced features include:

  • High-performance control: Vector control technology delivers precise torque and speed regulation, resulting in improved machine performance and efficiency.

  • Application flexibility: Supports a wide range of motor types, including induction, permanent magnet, and synchronous reluctance motors, making it suitable for diverse applications.

  • Rugged design: Built to withstand harsh industrial environments, with features like conformal coating on circuit boards for enhanced protection against dust, moisture, and vibration.

The Rockwell Automation PowerFlex 755 is a powerful AC drive designed to provide precise control of electric motors in various industrial applications. Its advanced features include:

  • High-performance control: Vector control technology delivers precise torque and speed regulation, resulting in improved machine performance and efficiency.

  • Application flexibility: Supports a wide range of motor types, including induction, permanent magnet, and synchronous reluctance motors, making it suitable for diverse applications.

  • Rugged design: Built to withstand harsh industrial environments, with features like conformal coating on circuit boards for enhanced protection against dust, moisture, and vibration.

PowerFleDrives Configuration & Programming
PowerFlex 525 and PowerFlex 755 AC Drives
3 of 17
Drive Programming with the PowerFle 525 and 755
Contents
Lab Setup and Configuration Information ................................................................................................ 4
Lab Information ............................................................................................................................................. 4
Hardware Configuration ................................................................................................................................ 4
Computer/Host Settings ................................................................................................................................ 4
Application/Programming .............................................................................................................................. 5
Additional Equipment Required .................................................................................................................... 5
RSLinx Driver Configuration ...................................................................................................................... 5
RSLinx Enterprise Shortcut Configuration ................................................................................................. 5
Application Versions ...................................................................................................................................... 5
Photograph of Hardware ............................................................................................................................... 6
Basic Setup Diagram .................................................................................................................................... 8
Pre-Lab Configuration (if needed) ........................................................................................................... 11
Re-Open FTViewME Application ................................................................................................................ 13
Restore FTViewME Application .................................................................................................................. 13
Configure FT View ME Local Communications .......................................................................................... 14
Additional Information .............................................................................................................................. 17
4 of 17
Lab Setup and Configuration Information
Lab Information
Lab Name
PowerFlex Drives Configuration & Programming
Lab Description
Learn the basics of drive configuration and programming using the new
PowerFlex 525 compact AC drive and the PowerFlex 755 AC drive.
Attendees will configure these drives using the Human Interface Module
(HIM), Connected Components Workbench software and Studio 5000™
Logix Designer software. You will also try out AppView, a feature that
provides specific parameter groups for popular applications. The third lab
exercise shows how Premier Integration™ enhances the use of
PowerFlex AC drives with ControlLogix® and CompactLogix™ controllers
and other Allen-Bradley® products. In that exercise, you will see how to
save time and money during system development, operation, and
maintenance. If you have extra time, learn about the new Automatic
Device Configuration (ADC) feature for PowerFlex 750-Series and
PowerFlex 520-Series drives in Studio 5000.
Lab Creator
Moussa N. Seck
Date Created
09-11-2015
Updates:
Joe Wolf
02-04-2016, PowerFlex 755 updated to firmware version 12.001. Re-
open FT View section added.
Hardware Configuration
Qty
Demo Cat.# / Description
Communication
Location
Firmware
1
12P019A / PF525 Demo Box
1769-L18ERM-BB1B
CompactLogix 5370 PAC
192.168.1.10
28.011
1783-ETAP/A
Ethernet comm module
192.168.1.3
2.002
25B-V2P5N104
PowerFlex 525 AC drive
4.001
25-COMM-E2P
PowerFlex 520 dual port EtherNet
192.168.1.20
1
PN-39023/ PF755 DQ Demo Box
20G11-N-B-DM1AA6K32V8
PowerFlex 755 AC Drive
192.168.1.30
12.001
Computer/Host Settings
Files
WIN7-VM
192.168.1.1
5 of 17
Windows 7 Enterprise SP1 64-bit
Application/Programming
Location
Files
C:\Users\Labuser\Desktop\Lab Files\Premier Integration
PowerFlex_Lab.ACD
PowerFlex _Lab_ADC.ACD
PowerFlex _Lab.apa
PowerFlex _Lab.mer
RSlinx Backup.RSX
Additional Equipment Required
Qty
Items
2
1585J-M8TB-JM-0M3 : 0.3m Ethernet Patch cord
1
1585J-M8TB-JM-0M3 : 0.6m Ethernet Patch cord
1
1585J-M8TBJM-5 : 5m Ethernet Patch cord
RSLinx Driver Configuration
Topic Name
Path to Hardware
AB_ETHIP-1
192.168.1.3 (ETAP)
192.168.1.10 (controller)
192.168.1.20 (PF525 drive, 25-COMM-E2P communication adapter)
192.162.1.30 (PF755 drive, Embedded port)
RSLinx Enterprise Shortcut Configuration
Topic Name
Path to Hardware
CLX
WIN8-VM > Ethernet > 192.168.1.10
Application Versions
Vendor
Software
Version
Service Pack
RA
RSLinx Classic Gateway
3.74.00
CPR9 SR7.4
RA
Studio 5000 Logix Designer
28.00.00
CPR9 SR
RA
FactoryTalk View Studio
8.10.00
CPR9 SR7.1
RA
RSLinx Enterprise
5.74.00
CPR9 SR7.4
RA
Connected Components Workbench
8.01.00
RA
PF525 Drive Add-On Profile
1.04.33
RA
PF755 Drive Add-on Profile
4.08.00
RA
Wizards
3.14.3
6 of 17
Photograph of Hardware
PowerFlex 525 Demo Box
7 of 17
PowerFlex 755 DHQ Demo Box
8 of 17
Basic Setup Diagram
Network Setup
Set IP Address of PowerFlex 755 to 192.168.1.30 by setting the IP address switches.
Hundreds – 0
Tens – 3
Ones 0
Ethernet Connections
1
PC L18ERM Port 1 (front)
2
L18ERM Port 2 (rear) ETAP Port 1 (front)
3
ETAP Port 2 (rear)
PF525, 25-COMM-E2P Ethernet Port 1
4
ETAP Device Port (front)
PF755, Embedded Ethernet Port
9 of 17
The lab script will describe setting the PowerFlex 525 IP Address using the 25-COMM-E2P option module
parameters. In order to accomplish this the E2P last octet IP address switches should be set to ‘000’ or
the factory default ‘999.
After changing switch settings it will be necessary to power cycle the drive to save the settings.
Hundreds – 0 or 9
Tens – 0 or 9
Ones 0 or 9
10 of 17
PowerFlex AC Drive Demos
1. Before pulling in power to the PowerFlex 525 demo box, make sure the voltage selector switch is
in the correct position for the respective input power voltage.
2. Verify the Safe-Torque-Off input is pulled out on both PowerFlex 525 & PowerFlex 755.
3. Refer to the Network Setup section to verify the Ethernet connections.
4. Energize the demo boxes and drives by turning on the demo box power and drive power switches
to the ON position.
PF525 PF755
5. Verify communications between the computer and the controller (192.168.1.10) and drive
(192.168.1.20) by using the RSWho feature within RSLinx and the AB-ETH-1 drive
11 of 17
Pre-Lab Configuration
For the Disable Safe Speed Monitoring configuration steps, you will need to modify your network setup
to match the following.
Disable Safe Speed Monitoring
1. You may need to consult an instructor for help, to complete this step. If the Safe Speed Monitoring
module is installed and enabled in the PowerFlex 755 demo, the safety mode needs to be Disabled
prior to conducting the lab. If the safety mode has not been Disabled, the drive will not operate
according to the lab procedure. To do this complete the following steps:
a. Use Connected Components Workbench (CCW) to connect to the drive.
b. Navigate to the Safe Speed Monitoring module parameters via CCW, by clicking on the port
6-Safe Speed Montr tab and then clicking Parameters.
12 of 17
c. Navigate to parameter #6 Operating Mode and change it to Program. Press Enter.
d. Navigate to parameter #21 Safety Mode and change it to Disable. Press Enter.
e. Return to parameter #6Operating Mode and change it to Run. Press Enter.
13 of 17
Re-Open FTViewME Application
If you are using the pre-configured VMWare image, but the FTViewME Application closed, follow these
steps to re-open the file.
2. Double-click on the file PowerFelx_Lab.mer in the Lab Files folder. This screen should appear.
3. Click Run Application. You should see the first screen of the HMI.
Restore FTViewME Application
If you are not using a pre-configured VMWare image, you may need to restore the FTViewME application
and then configure local communications prior to conducting the lab.
14 of 17
1. Double-click on file PowerFlex_Lab.apa in the Lab Files folder.
The Application Manager window opens.
(Replace C:\Application Name.apa in the image above with the location and file you wish to
restore.)
C:\Users\Labuser\Desktop\Lab Files\Premier Integration\PowerFlex_Lab.apa
2. Click Next.
3. Make sure the Application Name is set to ‘PowerFlex_Lab.
4. Click Finish.
Configure FT View ME Local Communications
1. Launch FactoryTalk View Studio, double-click on the desktop icon.
The Application Type Selection window opens.
15 of 17
2. Select Machine Edition application type and click Continue.
3. Select the Existing tab
4. Select the PoweFlex_Lab application file and click Open.
The FactoryTalk View Studio - Machine Edition window opens.
5. Expand RSLinx Enterprise in the Explorer window
16 of 17
Double-click on Communications Setup.
6. If a dialog box appears, select ‘Create New…’ and click OK.
The Communications Setup window opens.
7. Select the Design (Local) tab...
(1) Select the Device Shortcut ‘CLX’.
(2) Expand the [+] EtherNet driver, navigate to the controller (L18).
(3) Click Apply to save your Device Shortcut.
8. RSLinx Enterprise will open a window to inform you of the -Old and New shortcut changes. Click
Yes to accept the changes made to the communication path.
9. Click Copy from Design to Runtime to save communication during runtime.
10. Now click OK.
17 of 17
Additional Information
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Rockwell Automation PowerFlex 755 Configuration manual

Brand
Rockwell Automation
Model
PowerFlex 755
Type
Configuration manual
This manual is also suitable for

The Rockwell Automation PowerFlex 755 is a powerful AC drive designed to provide precise control of electric motors in various industrial applications. Its advanced features include:

  • High-performance control: Vector control technology delivers precise torque and speed regulation, resulting in improved machine performance and efficiency.

  • Application flexibility: Supports a wide range of motor types, including induction, permanent magnet, and synchronous reluctance motors, making it suitable for diverse applications.

  • Rugged design: Built to withstand harsh industrial environments, with features like conformal coating on circuit boards for enhanced protection against dust, moisture, and vibration.

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