PowerFlex 520-Series Adjustable Frequency AC Drive

PowerFlex 520-Series Adjustable Frequency AC Drive
Quick Start
PowerFlex 520-Series Adjustable Frequency AC Drive
PowerFlex 523 Catalog Number 25A
PowerFlex 525 Catalog Number 25B
This Quick Start guide summarizes the basic steps needed to install, start-up and program the PowerFlex 520-Series
Adjustable Frequency AC Drive. The information provided DOES NOT replace the User Manual and is intended for
qualified drive service personnel only. For detailed PowerFlex 520-Series information including EMC instructions,
application considerations and related precautions, see the PowerFlex 520-Series User Manual, publication 520-UM001.
Topic
Page
General Precautions
2
Mounting Considerations
3
Fuses and Circuit Breakers
6
Technical Specifications
8
Power Wiring
9
I/O Wiring
10
Control Terminal Block
11
Prepare For Drive Start-Up
15
Network Communication
33
Additional Resources
These documents contain additional information concerning related products from Rockwell Automation.
Title
PowerFlex 520-Series Adjustable Frequency AC Drive User Manual
PowerFlex 4-Class Human Interface Module (HIM) DSI Quick Reference
PowerFlex 525 Embedded EtherNet/IP Adapter User Manual
PowerFlex 25-COMM-D DeviceNet Adapter User Manual
PowerFlex 25-COMM-E2P EtherNet/IP Adapter User Manual
PowerFlex 25-COMM-P PROFIBUS DP Adapter User Manual
Dynamic Braking Resistor Calculator
Wiring and Grounding Guidelines for PWM AC Drives
Preventive Maintenance of Industrial Control and Drive System Equipment
Safety Guidelines for the Application, Installation and Maintenance of Solid State Control
Publication
520-UM001
22HIM-QR001
520COM-UM001
520COM-UM002
520COM-UM003
520COM-UM004
PFLEX-AT001
DRIVES-IN001
DRIVES-TD001
SGI-1.1
You can view or download publications at http://www.rockwellautomation.com/literature/. To order paper copies of
technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative.
PowerFlex 520-Series Adjustable Frequency AC Drive
ATTENTION:
• Before installing, configuring, operating or maintaining this product, read this document and the documents
listed in the Additional Resources section for installing, configuring, or operating equipment. Users should
familiarize themselves with installation and wiring instructions in addition to requirements of all applicable
codes, laws, and standards.
• Installation, adjustments, putting into service, use, assembly, disassembly, and maintenance shall be carried out by suitably
trained personnel in accordance with applicable code of practice.
• If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be
impaired.
• Solid state equipment has operational characteristics differing from those of electromechanical equipment. Safety Guidelines for
the Application, Installation and Maintenance of Solid State Controls, publication SGI-1.1, available from your local Rockwell
Automation sales office or online at http://www.rockwellautomation.com/literature describes some important differences
between solid state equipment and hard-wired electromechanical devices.
General Precautions
ATTENTION: The drive contains high voltage capacitors which take time to discharge after removal of mains supply. Before
working on drive, ensure isolation of mains supply from line inputs [R, S, T (L1, L2, L3)]. Wait three minutes for capacitors to
discharge to safe voltage levels. Failure to do so may result in personal injury or death.
Darkened display LEDs is not an indication that capacitors have discharged to safe voltage levels.
ATTENTION: Only qualified personnel familiar with adjustable frequency AC drives and associated machinery should plan or
implement the installation, start-up and subsequent maintenance of the system. Failure to comply may result in personal injury
and/or equipment damage.
ATTENTION: This drive contains ESD (Electrostatic Discharge) sensitive parts and assemblies. Static control precautions are
required when installing, testing, servicing or repairing this assembly. Component damage may result if ESD control procedures are
not followed. If you are not familiar with static control procedures, reference A-B publication 8000-4.5.2, “Guarding Against
Electrostatic Damage” or any other applicable ESD protection handbook.
ATTENTION: An incorrectly applied or installed drive can result in component damage or a reduction in product life. Wiring or
application errors, such as undersizing the motor, incorrect or inadequate AC supply, or excessive ambient temperatures may result
in malfunction of the system.
ATTENTION: The bus regulator function is extremely useful for preventing nuisance overvoltage faults resulting from aggressive
decelerations, overhauling loads, and eccentric loads. However, it can also cause either of the following two conditions to occur.
1. Fast positive changes in input voltage or imbalanced input voltages can cause uncommanded positive speed changes;
2. Actual deceleration times can be longer than commanded deceleration times
However, a “Stall Fault” is generated if the drive remains in this state for 1 minute. If this condition is unacceptable, the bus
regulator must be disabled (see parameter A550 [Bus Reg Enable]). In addition, installing a properly sized dynamic brake resistor
will provide equal or better performance in most cases.
ATTENTION: Risk of injury or equipment damage exists. Drive does not contain user-serviceable components. Do not disassemble
drive chassis.
2
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
Mounting Considerations
• Mount the drive upright on a flat, vertical and level surface.
Frame
Screw Size
Screw Torque
A
M5 (#10...24)
1.56...1.96 Nm (14...17 lb-in.)
B
M5 (#10...24)
1.56...1.96 Nm (14...17 lb-in.)
C
M5 (#10...24)
1.56...1.96 Nm (14...17 lb-in.)
D
M5 (#10...24)
2.45...2.94 Nm (22...26 lb-in.)
E
M8 (5/16 in.)
6.0...7.4 Nm (53...65 lb-in.)
• Protect the cooling fan by avoiding dust or metallic particles.
• Do not expose to a corrosive atmosphere.
• Protect from moisture and direct sunlight.
Minimum Mounting Clearances
See Dimensions and Weight on page 32 for mounting dimensions.
Vertical, Zero Stacking
No clearance between drives.
Vertical
50 mm
(2.0 in.)
Esc
Sel
50 mm
(2.0 in.)
25 mm
(1.0 in.)
Esc
Vertical with Control Module Fan Kit
Esc
Sel
50 mm
(2.0 in.)
50 mm
(2.0 in.)(1)
Esc
Sel
Esc
Sel
Esc
25 mm
(1.0 in.)
Sel
50 mm
(2.0 in.)
Esc
Sel
(2)
50 mm
(2.0 in.)(1)
Esc
Sel
Sel
50 mm
(2.0 in.)
50 mm
(2.0 in.)(1)
Esc
Sel
50 mm
(2.0 in.)
50 mm
(2.0 in.)(1)
Esc
50 mm
(2.0 in.)
Sel
50 mm
(2.0 in.)
50 mm
(2.0 in.)
50 mm
(2.0 in.)
Vertical, Zero Stacking with
Control Module Fan Kit
No clearance between drives.
(2)
Esc
Sel
Esc
Sel
25 mm
(1.0 in.)
50 mm
(2.0 in.)
Horizontal with Control Module Fan Kit
50 mm
(2.0 in.)
Horizontal, Zero Stacking with Control Module Fan Kit
No clearance between drives.
(1) For Frame E with Control Module Fan Kit only, clearance of 95 mm (3.7 in.) is required.
(2) For Frame E with Control Module Fan Kit only, clearance of 12 mm (0.5 in.) is required.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
3
PowerFlex 520-Series Adjustable Frequency AC Drive
Ambient Operating Temperatures
See Appendix B of the PowerFlex 520-Series User Manual, publication 520-UM001 for option kits.
Ambient Temperature
Maximum (No Derate)
Maximum (Derate)(4)
Maximum with Control Module
Fan Kit (Derate)(2) (5)
IP 20/Open Type
50 °C (122 °F)
60 °C (140 °F)
70 °C (158 °F)
IP 30/NEMA 1/UL Type 1
45 °C (113 °F)
55 °C (131 °F)
–
Mounting
Enclosure Rating(3)
Vertical
Vertical, Zero Stacking
IP 20/Open Type
IP 30/NEMA 1/UL Type 1
Minimum
-20 °C (-4 °F)
45 °C (113 °F)
55 °C (131 °F)
65 °C (149 °F)
40 °C (104 °F)
50 °C (122 °F)
–
Horizontal
with Control Module Fan Kit(1) (2)
IP 20/Open Type
50 °C (122 °F)
–
70 °C (158 °F)
Horizontal, Zero Stacking
with Control Module Fan Kit(1)(2)
IP 20/Open Type
45 °C (113 °F)
–
65 °C (149 °F)
(1)
(2)
(3)
(4)
(5)
Catalogs 25x-D1P4N104 and 25x-E0P9N104 cannot be mounted using either of the horizontal mounting methods.
Requires installation of the PowerFlex 520-Series Control Module Fan Kit, catalog number 25-FANx-70C.
IP 30/NEMA 1/UL Type 1 rating requires installation of the PowerFlex 520-Series IP 30/NEMA 1/UL Type 1 option kit, catalog number 25-JBAx.
For catalogs 25x-D1P4N104 and 25x-E0P9N104, the temperature listed under the Max. (Derate) column is reduced by 5 °C (9 °F) for all mounting methods.
For catalogs 25x-D1P4N104 and 25x-E0P9N104, the temperature listed under the Max. with Control Module Fan Kit (Derate) column is reduced by 10 °C (18 °F) for vertical and vertical with zero stacking
mounting methods only.
General Grounding Requirements
The drive Safety Ground – (PE) must be connected to system ground. Ground impedance must conform to the
requirements of national and local industrial safety regulations and/or electrical codes. The integrity of all ground
connections should be periodically checked.
Typical Grounding
Esc
Sel
R/L1
S/L2
T/L3
U/T1
V/T2
W/T3
SHLD
4
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
Ungrounded Distribution Systems
ATTENTION: PowerFlex 520-Series drives contain protective MOVs that are referenced to ground. These devices must be
disconnected if the drive is installed on an ungrounded or resistive grounded distribution system.
ATTENTION: Removing MOVs in drives with an embedded filter will also disconnect the filter capacitor from earth ground.
Disconnecting MOVs
To prevent drive damage, the MOVs connected to ground shall be disconnected if the drive is installed on an ungrounded
distribution system (IT mains) where the line-to-ground voltages on any phase could exceed 125% of the nominal line-toline voltage. To disconnect these devices, remove the jumper shown in the diagrams below.
1. Turn the screw counterclockwise to loosen.
2. Pull the jumper completely out of the drive chassis.
3. Tighten the screw to keep it in place.
Jumper Location (Typical)
Power Module
IMPORTANT
Tighten screw after jumper removal.
Phase to Ground MOV Removal
R/L1
Three-Phase
AC Input S/L2
T/L3
Jumper
1
2
3
4
CE Conformity
See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for details on how to
comply with the Low Voltage (LV) and Electromagnetic Compatibility (EMC) Directives.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
5
PowerFlex 520-Series Adjustable Frequency AC Drive
Input Ratings
PowerFlex
PowerFlex
Voltage
523
525
Range
kVA
HP
kW
HP
kW
100...120V AC (-15%, +10%) – 1-Phase Input, 0...230V 3-Phase Output
25A-V1P6N104 –
0.25 0.2
0.25 0.2
1.6 85...132 0.8
25A-V2P5N104 25B-V2P5N104 0.5
0.4
0.5
0.4
2.5 85...132 1.3
25A-V4P8N104 25B-V4P8N104 1.0
0.75 1.0
0.75 4.8 85...132 2.5
25A-V6P0N104 25B-V6P0N104 1.5
1.1
1.5
1.1
6.0 85...132 3.2
200...240V AC (-15%, +10%) – 1-Phase Input, 0...230V 3-Phase Output
25A-A1P6N104 –
0.25 0.2
0.25 0.2
1.6 170...264 1.4
25A-A2P5N104 25B-A2P5N104 0.5
0.4
0.5
0.4
2.5 170...264 1.7
25A-A4P8N104 25B-A4P8N104 1.0
0.75 1.0
0.75 4.8 170...264 2.8
25A-A8P0N104 25B-A8P0N104 2.0
1.5
2.0
1.5
8.0 170...264 4.8
25A-A011N104 25B-A011N104 3.0
2.2
3.0
2.2
11.0 170...264 6.0
200...240V AC (-15%, +10%) – 1-Phase Input with EMC Filter, 0...230V 3-Phase Output
25A-A1P6N114 –
0.25 0.2
0.25 0.2
1.6 170...264 1.4
25A-A2P5N114 25B-A2P5N114 0.5
0.4
0.5
0.4
2.5 170...264 1.7
25A-A4P8N114 25B-A4P8N114 1.0
0.75 1.0
0.75 4.8 170...264 2.8
25A-A8P0N114 25B-A8P0N114 2.0
1.5
2.0
1.5
8.0 170...264 4.8
25A-A011N114 25B-A011N114 3.0
2.2
3.0
2.2
11.0 170...264 6.0
200...240V AC (-15%, +10%) – 3-Phase Input, 0...230V 3-Phase Output
25A-B1P6N104 –
0.25 0.2
0.25 0.2
1.6 170...264 0.9
25A-B2P5N104 25B-B2P5N104 0.5
0.4
0.5
0.4
2.5 170...264 1.2
25A-B5P0N104 25B-B5P0N104 1.0
0.75 1.0
0.75 5.0 170...264 2.7
25A-B8P0N104 25B-B8P0N104 2.0
1.5
2.0
1.5
8.0 170...264 4.3
25A-B011N104 25B-B011N104 3.0
2.2
3.0
2.2
11.0 170...264 6.3
25A-B017N104 25B-B017N104 5.0
4.0
5.0
4.0
17.5 170...264 9.6
25A-B024N104 25B-B024N104 7.5
5.5
7.5
5.5
24.0 170...264 12.2
25A-B032N104 25B-B032N104 10.0 7.5
10.0 7.5
32.2 170...264 15.9
25A-B048N104 25B-B048N104 15.0 11.0 10.0 7.5
48.3 170...264 20.1
25A-B062N104 25B-B062N104 20.0 15.0 15.0 11.0 62.1 170...264 25.6
380...480V AC (-15%, +10%) – 3-Phase Input, 0...460V 3-Phase Output
25A-D1P4N104 25B-D1P4N104 0.5
0.4
0.5
0.4
1.4 323...528 1.7
25A-D2P3N104 25B-D2P3N104 1.0
0.75 1.0
0.75 2.3 323...528 2.9
25A-D4P0N104 25B-D4P0N104 2.0
1.5
2.0
1.5
4.0 323...528 5.2
25A-D6P0N104 25B-D6P0N104 3.0
2.2
3.0
2.2
6.0 323...528 6.9
25A-D010N104 25B-D010N104 5.0
4.0
5.0
4.0
10.5 323...528 12.6
25A-D013N104 25B-D010N104 7.5
5.5
7.5
5.5
13.0 323...528 14.1
25A-D017N104 25B-D017N104 10.0 7.5
10.0 7.5
17.0 323...528 16.8
25A-D024N104 25B-D024N104 10.0 7.5
10.0 7.5
17.0 323...528 24.1
25A-D030N104 25B-D030N104 20.0 15.0 15.0 11.0 30.0 323...528 30.2
380...480V AC (-15%, +10%) – 3-Phase Input with EMC Filter, 0...460V 3-Phase Output
25A-D1P4N114 25B-D1P4N114 0.5
0.4
0.5
0.4
1.4 323...528 1.7
25A-D2P3N114 25B-D2P3N114 1.0
0.75 1.0
0.75 2.3 323...528 2.9
25A-D4P0N114 25B-D4P0N114 2.0
1.5
2.0
1.5
4.0 323...528 5.2
25A-D6P0N114 25B-D6P0N114 3.0
2.2
3.0
2.2
6.0 323...528 6.9
25A-D010N114 25B-D010N114 5.0
4.0
5.0
4.0
10.5 323...528 12.6
6
Branch Circuit Protection
Min. Enclosure
Volume (in.3)
Output Ratings
Normal Duty Heavy Duty
Amps
Catalog No.(1)
140M Motor
Protectors
IP 20 Open Type
Watts Loss
Fuses and Circuit Breakers
Fuse
Ratings
Max
Amps(2) Min/Max
Contactors
(3) (4) (5)
6.4
9.6
19.2
24.0
10/16
16/20
25/40
32/50
100-C09
100-C12
100-C23
100-C23
140M-C2E-B63
140M-C2E-C10
140M-D8E-C20
140M-F8E-C25
–
–
–
–
20.0
27.0
53.0
67.0
5.3
6.5
10.7
18.0
22.9
6/10
10/16
16/25
25/40
32/50
100-C09
100-C09
100-C12
100-C23
100-C37
140M-C2E-B63
140M-C2E-C10
140M-C2E-C16
140M-F8E-C25
140M-F8E-C25
–
–
–
–
–
20.0
29.0
50.0
81.0
111.0
5.3
6.5
10.7
18.0
22.9
6/10
10/16
16/25
25/40
32/50
100-C09
100-C09
100-C12
100-C23
100-C37
140M-C2E-B63
140M-C2E-C10
140M-C2E-C16
140M-F8E-C25
140M-F8E-C25
–
–
–
–
–
20.0
29.0
53.0
84.0
116.0
1.9
2.7
5.8
9.5
13.8
21.1
26.6
34.8
44.0
56.0
3/6
6/6
10/16
16/20
20/32
32/45
35/63
45/70
63/90
70/125
100-C09
100-C09
100-C09
100-C12
100-C23
100-C23
100-C37
100-C43
100-C60
100-C72
140M-C2E-B25
140M-C2E-B40
140M-C2E-B63
140M-C2E-C10
140M-C2E-C16
140M-F8E-C25
140M-F8E-C32
140M-F8E-C45
140M-F8E-C45
–
–
–
–
–
–
–
–
–
1416.0(7)
–
20.0
29.0
50.0
79.0
107.0
148.0
259.0
323.0
584.0
708.0
1.9
3.2
5.7
7.5
13.8
15.4
18.4
26.4
33.0
3/6
6/10
10/16
10/16
20/32
20/35
25/40
35/63
45/70
100-C09
100-C09
100-C09
100-C09
100-C23
100-C23
100-C23
100-C37
100-C43
140M-C2E-B25
140M-C2E-B40
140M-C2E-B63
140M-C2E-C10
140M-C2E-C16
140M-D8E-C20
140M-D8E-C20
140M-F8E-C32
140M-F8E-C45
–
–
–
–
–
–
–
656.7(7)
656.7(7)
27.0
37.0
80.0
86.0
129.0
170.0
221.0
221.0
387.0
1.9
3.2
5.7
7.5
13.8
3/6
6/10
10/16
10/16
20/32
100-C09
100-C09
100-C09
100-C09
100-C23
140M-C2E-B25
140M-C2E-B40
140M-C2E-B63
140M-C2E-C10
140M-C2E-C16
–
–
–
–
–
27.0
37.0
81.0
88.0
133.0
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
Input Ratings
PowerFlex
PowerFlex
Voltage
523
525
Range
HP
kW
HP
kW
25A-D013N114 25B-D013N114 7.5
5.5
7.5
5.5
13.0 323...528
25A-D017N114 25B-D017N114 10.0 7.5
10.0 7.5
17.0 323...528
25A-D024N114 25B-D024N114 15.0 11.0 15.0 11.0 24.0 323...528
25A-D030N114 25B-D030N114 20.0 15.0 15.0 11.0 30.0 323...528
25A-D037N114 25B-D037N114 25.0 18.5 20.0 15.0 37.0 323...528
25A-D043N114 25B-D043N114 30.0 22.0 25.0 18.5 43.0 323...528
525...600V AC (-15%, +10%) – 3-Phase Input, 0...575V 3-Phase Output
25A-E0P9N104 25B-E0P9N104 0.5
0.4
0.5
0.4
0.9 446...660
25A-E1P7N104 25B-E1P7N104 1.0
0.75 1.0
0.75 1.7 446...660
25A-E3P0N104 25B-E3P0N104 2.0
1.5
2.0
1.5
3.0 446...660
25A-E4P2N104 25B-E4P2N104 3.0
2.2
3.0
2.2
4.2 446...660
25A-E6P6N104 25B-E6P6N104 5.0
4.0
5.0
4.0
6.6 446...660
25A-E9P9N104 25B-E9P9N104 7.5
5.5
7.5
5.5
9.9 446...660
25A-E012N104 25B-E012N104 10.0 7.5
10.0 7.5
12.0 446...660
25A-E019N104 25B-E019N104 15.0 11.0 15.0 11.0 19.0 446...660
25A-E022N104 25B-E022N104 20.0 15.0 15.0 11.0 22.0 446...660
25A-E027N104 25B-E027N104 25.0 18.5 20.0 15.0 27.0 446...660
25A-E032N104 25B-E032N104 30.0 22.0 25.0 18.5 32.0 446...660
Branch Circuit Protection
140M Motor
Protectors
IP 20 Open Type
Watts Loss
Output Ratings
Normal Duty Heavy Duty
Amps
Catalog No.(1)
Min. Enclosure
Volume (in.3)
PowerFlex 520-Series Adjustable Frequency AC Drive
kVA
14.1
16.8
24.1
30.2
30.8
35.6
Max
Amps(2)
15.4
18.4
26.4
33.0
33.7
38.9
Fuse
Ratings
Min/Max
20/35
25/40
35/63
45/70
45/70
50/80
Contactors
100-C23
100-C23
100-C37
100-C43
100-C43
100-C60
140M-D8E-C20
140M-D8E-C20
140M-F8E-C32
140M-F8E-C45
140M-F8E-C45
140M-F8E-C45
–
–
656.7(7)
656.7(7)
–
–
175.0
230.0
313.0
402.0
602.0
697.0
1.4
2.6
4.3
6.1
9.1
12.8
15.4
27.4
31.2
28.2
33.4
1.2
2.3
3.8
5.3
8.0
11.2
13.5
24.0
27.3
24.7
29.2
3/6
3/6
6/10
10/16
10/20
16/25
20/32
32/50
35/63
35/50
40/63
100-C09
100-C09
100-C09
100-C09
100-C09
100-C16
100-C23
100-C30
100-C30
100-C30
100-C37
140M-C2E-B25
140M-C2E-B25
140M-C2E-B40
140M-D8E-B63
140M-D8E-C10
140M-D8E-C16(6)
140M-D8E-C16
140M-F8E-C25
140M-F8E-C32
140M-F8E-C32
140M-F8E-C32
–
–
–
–
–
–
–
656.7(7)
656.7(7)
1416.0(7)
1416.0(7)
22.0
32.0
50.0
65.0
95.0
138.0
164.0
290.0
336.0
466.0
562.0
(3) (4) (5)
(1)
(2)
(3)
(4)
(5)
Normal Duty (ND) and Heavy Duty (HD) ratings are available for this drive.
When the drive is controlling motors with lower amp ratings, refer to the drive nameplate for drive input current rating.
The AIC ratings of the Bulletin 140M Motor Protector Circuit Breakers may vary. See Bulletin 140M Motor Protection Circuit Breakers Application Ratings.
Bulletin 140M with adjustable current range should have the current trip set to the minimum range that the device will not trip.
Manual Self-Protected (Type E) Combination Motor Controller, UL listed for 480Y/277 and 600Y/347 AC input. Not UL listed for use on 480V or 600V Delta/Delta, corner ground, or high-resistance ground
systems.
(6) When used with the 140M circuit breaker, the 25A-E9P9104 must be installed in a ventilated or non-ventilated enclosure with the minimum size of 457.2 x 457.2 x 269.8 mm (18 x 18 x 10.62 in.).
(7) When using a Manual Self-Protected (Type E) Combination Motor Controller with this drive power rating, the drive must be installed in a ventilated or non-ventilated enclosure with the minimum volume
specified in this column. Application specific thermal considerations may require a larger enclosure.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
7
PowerFlex 520-Series Adjustable Frequency AC Drive
Technical Specifications
PowerFlex 523 Specifications
Input/Output Ratings
Output Frequency: 0...500 Hz (Programmable)
Efficiency: 97.5% (Typical)
Digital Control Inputs (Input Current = 6 mA)
SNK (Sink) Mode:
SRC (Source) Mode:
0...6V = ON
18...24V = ON
18...24V = OFF
0...6V = OFF
Approvals
TED 966X
LIS
UL
®
IN
TED 966X
LIS
UL508C
C
UL
CSA 22.2
®
IN
D CO T EQ
N
N223
D CO T EQ
N
LV Directive 2006/95/EC: EN 61800-5-1
EMC Directive 2004/108/EC: EN 61800-3:2004
AC156
KCC: Article 58-2 of Radio Waves Act, Clause 3
GOST-R: POCC US.ME92.H00040
Control Output
Analog Control Inputs
Fuses and Circuit Breakers
Recommended Fuse Type:
4-20 mA Analog: 250 Ω input impedance
Programmable Output, Form C
UL Class CC, J, T or Type BS88; 600V (550V) or equivalent.
0-10V DC Analog: 100 kΩ input impedance
Resistive Rating: 3.0 A @ 30V DC, 125V AC and 240V AC
Recommended Circuit Breakers: HMCP or equivalent.
External Pot: 1...10 kΩ, 2 W min.
Inductive Rating: 0.5 A @ 30V DC, 125V AC and 240V AC
Protective Features
Motor Protection: I2t overload protection – 150% for 60 s, 200% for 3 s (Provides Class 10 protection)
Overcurrent: 200% hardware limit, 300% instantaneous fault
Over Voltage: 100...120V AC Input – Trip occurs @ 405V DC bus voltage (equivalent to 150V AC incoming line)
200...240V AC Input – Trip occurs @ 405V DC bus voltage (equivalent to 290V AC incoming line)
380...480V AC Input – Trip occurs @ 810V DC bus voltage (equivalent to 575V AC incoming line)
525...600V AC Input – Trip occurs @ 1005V DC bus voltage (equivalent to 711V AC incoming line)
Under Voltage: 100...120V AC Input – Trip occurs @ 190V DC bus voltage (equivalent to 75V AC incoming line)
200...240V AC Input – Trip occurs @ 190V DC bus voltage (equivalent to 150V AC incoming line)
380...480V AC Input – Trip occurs @ 390V DC bus voltage (equivalent to 275V AC incoming line)
525...600V AC Input – If P038 = 3 “600V” trip occurs @ 487V DC bus voltage (344V AC incoming line);
– If P038 = 2 “480V” trip occurs @ 390V DC bus voltage (275V AC incoming line)
Control Ride Through: Minimum ride through is 0.5 s - typical value 2 s
Faultless Power Ride Through: 100 ms
PowerFlex 525 Specifications
Input/Output Ratings
Output Frequency: 0...500 Hz (Programmable)
Efficiency: 97.5% (Typical)
Approvals
TED 966X
LIS
UL
®
IN
D CO T EQ
N
TED 966X
LIS
UL508C
C
UL
®
IN
Bauart geprüft
CSA 22.2
N223
D CO T EQ
N
Functional
..
TUV
Rheinland
Safety
Type approved
LV Directive 2006/95/EC: EN 61800-5-1
EMC Directive 2004/108/EC: EN 61800-3:2004
AC156
KCC: Article 58-2 of Radio Waves Act, Clause 3
GOST-R: POCC US.ME92.H00040
II (2) G D
Digital Control Inputs (Input Current = 6 mA)
Analog Control Inputs
Fuses and Circuit Breakers
Recommended Fuse Type:
4-20 mA Analog: 250 Ω input impedance
SNK (Sink) Mode:
SRC (Source) Mode:
UL Class J, T or Type BS88; 600V (550V) or equivalent.
0-10V DC Analog: 100 kΩ input impedance
0...6V = ON
18...24V = ON
Recommended Circuit Breakers: HMCP or equivalent.
External Pot: 1...10 kΩ, 2 W min.
18...24V = OFF
0...6V = OFF
Control Output
Programmable Output, Form A and Form B
Opto Outputs
Analog Outputs (10-bit)
Resistive Rating: 3.0 A @ 30V DC, 125V AC and 240V AC
30V DC, 50 mA
0-10V: 1 kΩ min.
Inductive Rating: 0.5 A @ 30V DC, 125V AC and 240V AC
Non-inductive
4-20 mA: 525 Ω max.
Protective Features
Motor Protection: I2t overload protection – 150% for 60 s, 200% for 3 s (Provides Class 10 protection)
Overcurrent: 200% hardware limit, 300% instantaneous fault
Over Voltage: 100...120V AC Input – Trip occurs @ 405V DC bus voltage (equivalent to 150V AC incoming line)
200...240V AC Input – Trip occurs @ 405V DC bus voltage (equivalent to 290V AC incoming line)
380...480V AC Input – Trip occurs @ 810V DC bus voltage (equivalent to 575V AC incoming line)
525...600V AC Input – Trip occurs @ 1005V DC bus voltage (equivalent to 711V AC incoming line)
Under Voltage: 100...120V AC Input – Trip occurs @ 190V DC bus voltage (equivalent to 75V AC incoming line)
200...240V AC Input – Trip occurs @ 190V DC bus voltage (equivalent to 150V AC incoming line)
380...480V AC Input – Trip occurs @ 390V DC bus voltage (equivalent to 275V AC incoming line)
525...600V AC Input – If P038 = 3 “600V” trip occurs @ 487V DC bus voltage (344V AC incoming line);
– If P038 = 2 “480V” trip occurs @ 390V DC bus voltage (275V AC incoming line)
Control Ride Through: Minimum ride through is 0.5 s – typical value 2 s
Faultless Power Ride Through: 100 ms
8
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
Power Wiring
Recommended Shielded Wire
Location
Standard (Option 1)
Rating/Type
Description
600V, 90 °C (194 °F) XHHW2/RHW-2
• Four tinned copper conductors with XLPE insulation.
Anixter B209500-B209507, Belden 29501-29507, or equivalent • Copper braid/aluminum foil combination shield and tinned copper drain wire.
• PVC jacket.
Standard (Option 2)
Tray rated 600V, 90 °C (194 °F)
• Three tinned copper conductors with XLPE insulation.
• 5 mil single helical copper tape (25% overlap min.) with three bare copper grounds
RHH/RHW-2 Anixter OLF-7xxxxx or equivalent
in contact with shield.
• PVC jacket.
Class I & II; Division I & II Tray rated 600V, 90 °C (194 °F)
• Three bare copper conductors with XLPE insulation and impervious corrugated
continuously welded aluminum armor.
RHH/RHW-2 Anixter 7V-7xxxx-3G or equivalent
• Black sunlight resistant PVC jacket overall.
• Three copper grounds on #10 AWG and smaller.
Power Terminal Block Diagrams and Wiring Specifications
Frame A...D
R/L1 S/L2 T/L3 U/T1 V/T2 W/T3
DC- DC+ BRBR+
Terminal
Description
R/L1, S/L2
1-Phase Input Line Voltage Connection
R/L1, S/L2, T/L3
3-Phase Input Line Voltage Connection
U/T1, V/T2, W/T3
Motor Phase
Connection =
DC+, DC-
DC Bus Connection (except for 110V 1-Phase)
BR+, BR-
Dynamic Brake Resistor Connection
Safety Ground – PE
Frame E
R/L1
Switch any two motor leads to change
forward direction.
S/L2
T/L3
U/T1
V/T2
DC-
W/T3
DC+
BR+
BR-
Frame
Maximum Wire Size(1)
Minimum Wire Size(1)
Torque
A
5.3 mm2 (10 AWG)
0.8 mm2 (18 AWG)
1.76...2.16 Nm (15.6...19.1 lb-in.)
B
8.4 mm2 (8 AWG)
2.1 mm2 (14 AWG)
1.76...2.16 Nm (15.6...19.1 lb-in.)
C
8.4 mm2 (8 AWG)
2.1 mm2 (14 AWG)
1.76...2.16 Nm (15.6...19.1 lb-in.)
D
13.3 mm2 (6 AWG)
5.3 mm2 (10 AWG)
1.76...2.16 Nm (15.6...19.1 lb-in.)
E
26.7 mm2
(3 AWG)
2
8.4 mm (8 AWG)
3.09...3.77 Nm (27.3...33.4 lb-in.)
(1) Maximum/minimum sizes that the terminal block will accept – these are not recommendations.
Input Power Conditions
Input Power Condition
Low Line Impedance (less than 1% line reactance)
Greater than 120 kVA supply transformer
Line has power factor correction capacitors
Line has frequent power interruptions
Line has intermittent noise spikes in excess of 6000V (lightning)
Phase to ground voltage exceeds 125% of normal line to line voltage
Ungrounded distribution system
240V open delta configuration (stinger leg)(1)
Corrective Action
• Install Line Reactor(2)
• or Isolation Transformer
• Install Line Reactor(2)
• or Isolation Transformer
• Remove MOV jumper to ground.
• or Install Isolation Transformer with grounded secondary if necessary.
Install Line Reactor(2)
(1) For drives applied on an open delta with a middle phase grounded neutral system, the phase opposite the phase that is tapped in the middle to the neutral or earth is referred to as the “stinger leg,” “high
leg,” “red leg,” etc. This leg should be identified throughout the system with red or orange tape on the wire at each connection point. The stinger leg should be connected to the center Phase B on the
reactor. See Appendix B of the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for specific line reactor part numbers.
(2) See Appendix B of the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for accessory ordering information.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
9
PowerFlex 520-Series Adjustable Frequency AC Drive
I/O Wiring
Recommended Signal Wire
Signal Type/ Where Used
Analog I/O & PTC
Remote Pot
Encoder/Pulse I/O
Belden Wire Type (or equivalent)(1)
Description
Minimum Insulation Rating
2 (18 AWG), twisted pair, 100% shield with drain(2)
8760/9460
0.750 mm
8770
0.750 mm2
(18 AWG), 3 conductor, shielded
9728/9730
0.196 mm2
(24 AWG), individually shielded pairs
300V,
60 °C (140 °F)
(1) Stranded or solid wire.
(2) If the wires are short and contained within a cabinet which has no sensitive circuits, the use of shielded wire may not be necessary, but is always recommended.
Recommended Control Wire for Digital I/O
Type
Wire Type(s)
Description
Minimum Insulation Rating
Unshielded
Per US NEC or applicable national or local code
–
300V,
60 °C (140 °F)
Unshielded
Multi-conductor shielded cable such as Belden 8770 (or equivalent)
2
0.750 mm (18 AWG), 3 conductor, shielded.
Control I/O Terminal Block Wire Specifications
Frame
A...E
Maximum Wire Size(1)
2
1.3 mm (16 AWG)
Minimum Wire Size(1)
2
1.3 mm (16 AWG)
Torque
0.71...0.86 Nm (6.2...7.6 lb-in.)
(1) Maximum/minimum sizes that the terminal block will accept – these are not recommendations.
See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for
recommendations on maximum power and control cable length.
10
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
Control Terminal Block
PowerFlex 523 Control I/O Wiring Block Diagram
(1)
01
02
03
SNK
SRC
04
05
06
+24V
Relay N.O.
Relay Common
Relay N.C.
11
R1
+10V
R2
12
13
R3
14
15
C1
C2
Digital In
DigIn TermBlk 05 Sel
J8
SNK
SRC
R1
R2
R3
01
11
02
12
J7
Pulse In
Typical
SNK wiring
Digital Common
DigIn TermBlk 05/Pulse
DigIn TermBlk 06
+24V DC
+10V DC
0-10V Input
Analog Common
4-20mA Input
Pot must be
1...10 k ohm
2 W min.
RJ45 Shield
Comm Common
RS485
(DSI)
81
Digital
Input
03
13
Stop
DigIn TermBlk 02/(2)
Start/Run FWD
DigIn TermBlk 03/
Direction/Run REV
Typical
SRC wiring
04
14
05
15
06
C1
C2
(1)
IMPORTANT
I/O Terminal 01 is always a stop input. The stopping mode is determined by the drive setting.
The drive is shipped with a jumper installed between I/O Terminals 01 and 11. Remove this jumper when using I/O
Terminal 01 as a stop or enable input.
(2) Two wire control shown. For three wire control use a momentary input
on I/O Terminal 02 to command a start. Use a maintained input
for I/O Terminal 03 to change direction.
(3) Only one analog frequency source may be connected at a time. If more than one reference is connected at the same time, an undetermined frequency reference will result.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
11
PowerFlex 520-Series Adjustable Frequency AC Drive
PowerFlex 523 Control I/O Terminal Designations
No.
R1
R2
R3
01
Signal
Relay N.O.
Relay Common
Relay N.C.
Stop
Default
Fault
Fault
Motor Running
Coast
Description
Normally open contact for output relay.
Common for output relay.
Normally closed contact for output relay.
Three wire stop. However, it functions as a stop under all input modes and cannot be disabled.
02
Run FWD
06
11
12
DigIn TermBlk 02/
Start/Run FWD
DigIn TermBlk 03/
Dir/Run REV
Digital Common
DigIn TermBlk 05/
Pulse In
DigIn TermBlk 06
+24V DC
+10V DC
Preset Freq
–
–
13
0-10V In(1)
Not Active
Used to initiate motion and also can be used as a programmable digital input. It can be programmed with t062 [DigIn
TermBlk 02] as three wire (Start/Dir with Stop) or two wire (Run FWD/Run REV) control. Current consumption is 6 mA.
Used to initiate motion and also can be used as a programmable digital input. It can be programmed with t063 [DigIn
TermBlk 03] as three wire (Start/Dir with Stop) or two wire (Run FWD/Run REV) control. Current consumption is 6 mA.
Return for digital I/O. Electrically isolated (along with the digital I/O) from the rest of the drive.
Program with t065 [DigIn TermBlk 05]. Also functions as a Pulse Train input for reference or speed feedback. The
maximum frequency is 100 kHz. Current consumption is 6 mA.
Program with t066 [DigIn TermBlk 06]. Current consumption is 6 mA.
Referenced to Digital Common. Drive supplied power for digital inputs. Maximum output current is 100 mA.
Referenced to Analog Common. Drive supplied power for 0...10V external potentiometer.
Maximum output current is 15 mA.
For external 0-10V (unipolar) input supply or potentiometer wiper.
Input impedance: Voltage source = 100 kW
Allowable potentiometer resistance range = 1...10 kW
14
15
Analog Common
4-20mA In(1)
–
Not Active
Return for the analog I/O. Electrically isolated (along with the analog I/O) from the rest of the drive.
For external 4-20 mA input supply.
Input impedance = 250 W
C1
C1
–
C2
C2
–
This terminal is tied to the RJ-45 port shield. Tie this terminal to a clean ground in order to improve noise immunity
when using external communication peripherals.
This is the signal common for the communication signals.
03
04
05
Run REV
–
Preset Freq
(1) Only one analog frequency source may be connected at a time. If more than one reference is connected at the same time, an undetermined frequency reference will result.
12
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
Parameter
t076
t081
P045
P045, P046,
P048, P050,
A544, t062
t063
t063
–
t065
t066
–
P047, P049
P047, P049,
t062, t063,
t065, t066,
t093, A459,
A471
–
P047, P049,
t062, t063,
t065, t066,
A459, A471
–
–
PowerFlex 520-Series Adjustable Frequency AC Drive
PowerFlex 525 Control I/O Wiring Block Diagram
Safety 1
Safety 2
Safety +24V
01
S1
Safe-Torque-Off
02
S2
03
S+
SNK
SRC
04
05
06
07
08
+24V
Relay 1 N.O.
Relay 1 Common
Relay 2 Common
Relay 2 N.C.
11
R1
+10V
12
R2
13
R5
14
R6
15
0-10V
16
0/4-20 mA
17
18
30V DC
50 mA
Non-inductive
19
(1)
Stop
DigIn TermBlk 02/(2)
Start/Run FWD
DigIn TermBlk 03/
Direction/Run REV
DigIn TermBlk 05
DigIn TermBlk 06
DigIn TermBlk 07/Pulse
DigIn TermBlk 08
+24V DC
+10V DC
0-10V (or ±10V) Input
Analog Common
R1
R2
S1
R5
S2
Analog Output
Opto Output 1
Opto Common
Comm Common
SRC
01
11
RJ45 Shield
J5
SNK
Digital
Input
R6
S+
24V
(3)
Common
Opto Output 2
Digital In
DigIn TermBlk 07 Sel
Analog Out
0-10V
Pot must be
1...10 k ohm
2 W min.
4-20mA Input
C2
J9
Pulse In
Typical
SNK wiring
Digital Common
C1
J10
0/4-20mA
Typical
SRC wiring
12
02
13
03
14
04
15
05
16
06
17
07
18
08
C1
C2
19
(1)
IMPORTANT
I/O Terminal 01 is always a stop input. The stopping mode is determined by the drive setting.
The drive is shipped with a jumper installed between I/O Terminals 01 and 11. Remove this jumper when using I/O
Terminal 01 as a stop or enable input.
(2) Two wire control shown. For three wire control use a momentary input
on I/O Terminal 02 to command a start. Use a maintained input
for I/O Terminal 03 to change direction.
(3) Only one analog frequency source may be connected at a time. If more than one reference is connected at the same time, an undetermined frequency reference will result.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
13
PowerFlex 520-Series Adjustable Frequency AC Drive
PowerFlex 525 Control I/O Terminal Designations
No.
R1
R2
R5
R6
01
02
Signal
Relay 1 N.O.
Relay 1 Common
Relay 2 Common
Relay 2 N.C.
Stop
DigIn TermBlk 02/
Start/Run FWD
Default
Fault
Fault
Motor Running
Motor Running
Coast
Run FWD
Description
Normally open contact for output relay.
Common for output relay.
Common for output relay.
Normally closed contact for output relay.
Three wire stop. However, it functions as a stop under all input modes and cannot be disabled.
Used to initiate motion and also can be used as a programmable digital input. It can be programmed with t062 [DigIn
TermBlk 02] as three wire (Start/Dir with Stop) or two wire (Run FWD/Run REV) control. Current consumption is 6 mA.
03
DigIn TermBlk 03/
Dir/Run REV
Digital Common
DigIn TermBlk 05
DigIn TermBlk 06
DigIn TermBlk 07/
Pulse In
Run REV
Used to initiate motion and also can be used as a programmable digital input. It can be programmed with t062 [DigIn
TermBlk 02] as three wire (Start/Dir with Stop) or two wire (Run FWD/Run REV) control. Current consumption is 6 mA.
Return for digital I/O. Electrically isolated (along with the digital I/O) from the rest of the drive.
Program with t065 [DigIn TermBlk 05]. Current consumption is 6 mA.
Program with t066 [DigIn TermBlk 06]. Current consumption is 6 mA.
Program with t067 [DigIn TermBlk 07]. Also functions as a Pulse Train input for reference or speed feedback. The
maximum frequency is 100 kHz. Current consumption is 6 mA.
04
05
06
07
08
C1
DigIn TermBlk 08
C1
–
–Preset Freq
–Preset Freq
Start Source 2
+ Speed
Reference2
Jog Forward
–
C2
S1
S2
S+
11
12
C2
Safety 1
Safety 2
Safety +24V
+24V DC
+10V DC
–
–
–
–
–
–
13
±10V In
Not Active
14
15
Analog Common
4-20mA In
–
Not Active
16
Analog Output
OutFreq 0-10
17
Opto Output 1
18
Opto Output 2
19
Opto Common
14
Program with t068 [DigIn TermBlk 08]. Current consumption is 6 mA.
This terminal is tied to the RJ-45 port shield. Tie this terminal to a clean ground in order to improve noise immunity
when using external communication peripherals.
This is the signal common for the communication signals.
Safety input 1. Current consumption is 6 mA.
Safety input 2. Current consumption is 6 mA.
+24V supply for safety circuit. Internally tied to the +24V DC source (Pin 11).
Referenced to Digital Common. Drive supplied power for digital inputs. Maximum output current is 100 mA.
Referenced to Analog Common. Drive supplied power for 0...10V external potentiometer.
Maximum output current is 15 mA.
For external 0-10V (unipolar) or ±10V (bipolar) input supply or potentiometer wiper.
Input impedance: Voltage source = 100 kW
Allowable potentiometer resistance range = 1...10 kW
Return for the analog I/O. Electrically isolated (along with the analog I/O) from the rest of the drive.
For external 4-20 mA input supply.
Input impedance = 250 W
The default analog output is 0-10V. To convert a current value, change the Analog Output jumper to 0-20 mA. Program
with t088 [Analog Out Sel]. Maximum analog value can be scaled with t089 [Analog Out High].
Maximum Load: 4-20 mA = 525 W (10.5V)
0-10V = 1 kW (10 mA)
Motor Running Program with t069 [Opto Out1 Sel].
Each Opto-Output is rated 30V DC 50 mA (Non-inductive).
At Frequency
Program with t072 [Opto Out1 Sel].
Each Opto-Output is rated 30V DC 50 mA (Non-inductive).
–
The emitters of the Optocoupler Outputs (1 and 2) are tied together at Optocoupler Common. Electrically isolated from
the rest of the drive.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
Parameter
t076
t081
P045
P045, P046,
P048, P050,
A544, t062
t063
–
t065
t066
t067
t068
–
–
–
–
–
–
P047, P049
P047, P049,
t062, t063,
t065, t066,
t093, A459,
A471
–
P047, P049,
t062, t063,
t065, t066,
A459, A471
t088, t089
t069, t070,
t075
t072, t073,
t075
–
PowerFlex 520-Series Adjustable Frequency AC Drive
Prepare For Drive Start-Up
ATTENTION: Power must be applied to the drive to perform the following start-up procedures. Some of the voltages present are at
incoming line potential. To avoid electric shock hazard or damage to equipment, only qualified service personnel should perform
the following procedure. Thoroughly read and understand the procedure before beginning. If an event does not occur while
performing this procedure, Do Not Proceed. Remove All Power including user supplied control voltages. User supplied voltages
may exist even when main AC power is not applied to the drive. Correct the malfunction before continuing.
Before Applying Power to the Drive
1. Disconnect and lock out power to the machine.
2. Verify that AC line power at the disconnect device is within the rated value of the drive.
3. If replacing a drive, verify the current drive’s catalog number. Verify all options installed on the drive.
4. Verify that any digital control power is 24 volts.
5. Inspect grounding, wiring, connections, and environmental compatibility.
6. Verify that the Sink (SNK)/Source (SRC) jumper is set to match your control wiring scheme. See the PowerFlex 523
Control I/O Wiring Block Diagram on page 11 and PowerFlex 525 Control I/O Wiring Block Diagram on page 13
for location.
IMPORTANT
The default control scheme is Source (SRC). The Stop terminal is jumpered to allow starting from the keypad or comms. If
the control scheme is changed to Sink (SNK), the jumper must be removed from I/O Terminals 01 and 11 and installed
between I/O Terminals 01 and 04.
7. Wire I/O as required for the application.
8. Wire the power input and output terminals.
9. Confirm that all inputs are connected to the correct terminals and are secure.
10. Collect and record motor nameplate and encoder or feedback device information. Verify motor connections.
• Is the motor uncoupled?
• What direction will the motor need to turn for the application?
11. Verify the input voltage to the drive. Verify if the drive is on a grounded system. Ensure the MOV jumpers are in the
correct position. See Ungrounded Distribution Systems on page 5 for more information on MOVs.
12. Apply power and reset the drive and communication adapters to factory default settings. To reset the drive, see
parameter P053 [Reset to Defalts]. To reset the communication adapters, see the user manual of the adapter for more
information.
13. Configure the basic program parameters related to the motor. See Smart Start-Up with Basic Program Group
Parameters on page 20 for more information.
14. Complete the autotune procedure for the drive. See parameter P040 [Autotune] for more information.
15. If you are replacing a drive and have a backup of the parameter settings obtained using the USB utility application,
use the USB utility application to apply the backup to the new drive. See the PowerFlex 520-Series Adjustable
Frequency AC Drive User Manual, publication 520-UM001 for more information on using the USB utility
application.
Otherwise, set the necessary parameters for your application using the LCD keypad interface, Connected
Components Workbench, or RSLogix or Logix Designer if using an Add-on Profile through EtherNet/IP.
• Configure the communication parameters needed for the application (node number, IP address, Datalinks in and
out, communication rate, speed reference, start source, and so on). Record these settings for your reference.
• Configure the other drive parameters needed for the drive analog and digital I/O to work correctly. Verify the
operation. Record these settings for your reference.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
15
PowerFlex 520-Series Adjustable Frequency AC Drive
Start, Stop, Direction, and Speed Control
Factory default parameter values allow the drive to be controlled from the keypad. No programming is required to start,
stop, change direction, and control speed directly from the keypad.
IMPORTANT
To disable reverse operation, see A544 [Reverse Disable].
See Fault Codes on page 29 for an explanation of the fault codes.
Display, Control, and Navigation Keys
PowerFlex 523
FWD
➌
Esc
Sel
PowerFlex 525
FWD
➊
ENET LINK
EtherNet/IP
Esc
Key
➋
➌
Sel
Name
Up Arrow
Down Arrow
Description
Scroll through user-selectable display parameters
or groups.
Increment values.
Escape
Display
No. Display State
➊
ENET
Description
Off
Adapter is not connected to
the network.
Steady
Adapter is connected to the
network and drive is
controlled through Ethernet.
Flashing Adapter is connected to the
network but drive is not
controlled through Ethernet.
➋
LINK
Off
Adapter is not connected to
the network.
Steady
Adapter is connected to the
network but not transmitting
data.
Flashing Adapter is connected to the
network and transmitting
data.
No. LED
LED State
Description
➌
Flashing Red
Indicates drive is faulted.
FAULT
Description
Used to reverse direction of the drive. Default is
active.
Controlled by parameters P046, P048, and P050
[Start Source x] and A544 [Reverse Disable].
Back one step in programming menu.
Cancel a change to a parameter value and exit
Program Mode.
Start
Used to start the drive. Default is active.
Controlled by parameters P046, P048, and P050
[Start Source x].
Select
Advance one step in programming menu.
Select a digit when viewing parameter value.
Stop
Enter
Advance one step in programming menu.
Save a change to a parameter value.
Sel
Key
PowerFlex 525 Embedded EtherNet/IP Indicators
Name
Reverse
Esc
16
Menu Parameter Group and Description
Basic Display
Commonly viewed drive operating conditions.
Basic Program
Commonly used programmable functions.
Terminal Blocks
Programmable terminal functions.
Communications
Programmable communication functions.
Logic (PowerFlex 525 only)
Programmable logic functions.
Advanced Display
Advanced drive operating conditions.
Advanced Program
Remaining programmable functions.
Network
Network functions that are shown only when a comm
card is used.
Modified
Functions from the other groups with values changed
from default.
Fault and Diagnostic
Consists of list of codes for specific fault conditions.
AppView and CustomView
Functions from the other groups organized for specific
applications.
Used to stop the drive or clear a fault.
This key is always active.
Controlled by parameter P045 [Stop Mode].
Potentiometer Used to control speed of drive. Default is active.
Controlled by parameters P047, P049, and P051
[Speed Referencex].
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
Viewing and Editing Parameters
The following is an example of basic integral keypad and display functions. This example provides basic navigation
instructions and illustrates how to program a parameter.
Step
1
2
Key
When power is applied, the last user-selected Basic Display Group parameter number is briefly displayed
with flashing characters. The display then defaults to that parameter’s current value. (Example shows
the value of b001 [Output Freq] with the drive stopped.)
Example Display
–
FWD
HERTZ
Press Esc to display the Basic Display Group parameter number shown on power-up. The parameter
number will flash.
FWD
Esc
3
Press Esc to enter the parameter group list. The parameter group letter will flash.
FWD
Esc
4
Press the Up Arrow or Down Arrow to scroll through the group list (b, P, t, C, L, d, A, f and Gx).
or
5
FWD
Press Enter or Sel to enter a group. The right digit of the last viewed parameter in that group will flash.
FWD
or
6
Sel
Press the Up Arrow or Down Arrow to scroll through the parameter list.
or
7
8
Press Enter to view the value of the parameter.
Or
Press Esc to return to the parameter list.
VOLTS
FWD
Press Enter or Sel to enter Program Mode and edit the value. The right digit will flash and the word
Program on the LCD display will light up.
VOLTS
FWD
or
9
FWD
Sel
PROGRAM
Press the Up Arrow or Down Arrow to change the parameter value.
or
VOLTS
FWD
PROGRAM
10 If desired, press Sel to move from digit to digit or bit to bit. The digit or bit that you can change will flash.
VOLTS
Sel
FWD
PROGRAM
11 Press Esc to cancel a change and exit Program Mode.
Or
Press Enter to save a change and exit Program Mode.
The digit will stop flashing and the word Program on the LCD display will turn off.
VOLTS
FWD
Esc
or
or
VOLTS
FWD
12 Press Esc to return to the parameter list. Continue to press Esc to back out of the programming menu.
If pressing Esc does not change the display, then b001 [Output Freq] is displayed. Press Enter or Sel to
enter the group list again.
FWD
Esc
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
17
PowerFlex 520-Series Adjustable Frequency AC Drive
Basic Display Group Parameters
See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for detailed
descriptions of the parameters listed here, as well as the full list of available parameters.
No.
b001
b002
b003
b004
b005
b006
Parameter
Min/Max
[Output Freq]
0.00/[Maximum Freq]
Output frequency present at T1, T2 & T3 (U, V & W). Does not include slip frequency.
[Commanded Freq]
0.00/[Maximum Freq]
Value of the active frequency command even if the drive is not running.
Important: The frequency command can come from a number of sources.
[Output Current]
0.00/(Drive Rated Amps x 2)
Output current present at T1, T2 & T3 (U, V & W).
[Output Voltage]
0.0/Drive Rated Volts
Output voltage present at T1, T2 & T3 (U, V & W).
[DC Bus Voltage]
0/1200VDC
Filtered DC bus voltage level of the drive.
[Drive Status]
00000/11111
Present operating condition of the drive.
Display/Options
0.01 Hz
0.01 Hz
0.01 A
0.1V
1VDC
Digit 4
Digit 3
Digit 2
Digit 5
SafetyActive(1) Decelerating Accelerating Forward
Digit 1
Running
(1) Setting is specific to PowerFlex 525 drives only.
b007,
b008,
b009
b010
b0012
b013
[Fault x Code]
F0/F127
A code that represents a drive fault. Codes appear in these parameters in the order they occur (b007
[Fault 1 Code] = the most recent fault). Repetitive faults are only recorded once.
See Fault and Diagnostic Group for more information.
[Process Display]
0/9999
Output frequency scaled by [Process Disp Hi] and [Process Disp Lo].
[Control Source]
0000/2165
Active source of the Start Command and Frequency Command. Normally defined by the settings of
P046, P048, P050 [Start Source x] and P047, P049, P051 [Speed Referencex].
[Contrl In Status]
0000/1111
State of the digital terminal blocks 1...3 and DB transistor.
Important: Actual control commands may come from a source other than the control terminal block.
F0
1
Digit 4, 3, & 2
Freq Command Source
Digit 1
Start Command Source
Digit 3
Digit 2
Digit 1
Digit 4
DB Trans On(1) DigIn TBlk 3 DigIn TBlk 2 DigIn TBlk 1
(1) Setting is specific to PowerFlex 525 drives only.
b014
[Dig In Status]
State of the programmable digital inputs.
0000/1111
b015
[Output RPM]
0/24000 rpm
Current output frequency in rpm. Scale is based on P035 [Motor NP Poles].
[Output Speed]
0.0/100.0%
Current output frequency in %. Scale is 0% at 0.00 Hz to 100% at P044 [Maximum Freq].
[Output Power]
0.00/(Drive Rated Power x 2)
Output power present at T1, T2 & T3 (U, V & W).
[Power Saved]
0.00/655.35 kW
Instantaneous power savings of using this drive compared to an across the line starter.
[Elapsed Run time]
0/65535 x 10 hr
Accumulated time drive is outputting power. Time is displayed in 10 hour increments.
[Average Power]
0.00/(Drive Rated Power x 2)
Average power used by the motor since the last reset of the meters.
[Elapsed kWh]
0.0/100.0 kWh
Accumulated output energy of the drive. When the maximum value of this parameter is reached, it
resets to zero and b022 [Elapsed MWh] is incremented.
Digit 4
Digit 3
Digit 2
Digit 1
DigIn TBlk 8(1) DigIn TBlk 7(1) DigIn TBlk 6 DigIn TBlk 5
(1) Setting is specific to PowerFlex 525 drives only.
b016
b017
b018
b019
b020
b021
18
1 rpm
0.1%
0.01 kW
0.01 kW
1 = 10 hr
0.01 kW
0.1 kWh
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
No.
b022
b023
b024
b025
b026
b027
b028
b029
Parameter
Min/Max
[Elapsed MWh]
0.0/6553.5 MWh
Accumulated output energy of the drive.
[Energy Saved]
0.0/6553.5 kWh
Total energy savings of using this drive compared to an across the line starter since the last reset of the
meters.
[Accum kWh Sav]
0.0/6553.5 kWh
Total approximate accumulated energy savings of the drive compared to using an across the line
starter.
[Accum Cost Sav]
0.0/6553.5
Total approximate accumulated cost savings of the drive compared to using an across the line starter.
[Accum Cost Sav] = [Average kWh cost] x [Accum kWh Sav]
[Accum CO2 Sav]
0.0/6553.5 kg
Total approximate accumulated CO2 savings of the drive compared to using an across the line starter.
[Drive Temp]
0/120 °C
Present operating temperature of the drive heatsink (inside module).
[Control Temp]
0/120 °C
Present operating temperature of the drive control.
[Control SW Ver]
0.000/65.535
Current drive firmware version.
Display/Options
0.1 MWh
0.1 kWh
0.1 = 10 kWh
0.1
0.1 kg
1 °C
1 °C
0.001
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
19
PowerFlex 520-Series Adjustable Frequency AC Drive
Smart Start-Up with Basic Program Group Parameters
The PowerFlex 520-series drive is designed so that start-up is simple and efficient. The Basic Program group contains the
most commonly used parameters. See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication
520-UM001 for detailed descriptions of the parameters listed here, as well as the full list of available parameters.
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
Min/Max
P030
[Language]
1/15
Selects the language displayed.
Important: The setting takes effect after the drive is power cycled.
PF 525
P031
[Motor NP Volts]
P032
Sets the motor nameplate rated volts.
[Motor NP Hertz]
Sets the motor nameplate rated frequency.
P033
P034
P035
P036
P037
PF 525
P038
P039
Display/Options
1 = English
2 = Français
3 = Español
4 = Italiano
5 = Deutsch
6 = Reserved
7 = Português
8 = Reserved
9 = Reserved
10 = Reserved
11 = Reserved
12 = Polish
13 = Reserved
14 = Turkish
15 = Czech
1V
Default
1
15/500 Hz
0.1 A
60 Hz
0.0/(Drive Rated Amps x 2)
0.1 A
Based on Drive Rating
0.0/(Drive Rated Amps x 2)
0.1 A
Drive Rated Amps
2/40
1
4
0/24000 rpm
1 rpm
1750 rpm
0.01 kW
Drive Rated Power
2 = “480V”
3 = “600V”
3
0 = “V/Hz”
1 = “SVC”
2 = “Economize”
3 = “Vector”(1)
0 = “Ready/Idle”
1 = “Static Tune”
2 = “Rotate Tune”
0.01 s
1
0.01 s
10.00 s
10V (for 200V Drives), 20V (for 400V Drives),
25V (for 600V Drives) / Drive Rated Volts
[Motor OL Current]
Sets the motor nameplate overload current.
[Motor NP FLA]
Sets the motor nameplate FLA.
[Motor NP Poles]
Sets the number of poles in the motor.
[Motor NP RPM]
Sets the rated nameplate rpm of motor.
[Motor NP Power]
0.00/Drive Rated Power
Sets the motor nameplate power. Used in PM regulator.
[Voltage Class]
2/3
Sets the voltage class of 600V drives. Only applicable to 600V drives.
[Torque Perf Mode]
Selects the motor control mode.
0/3
(1) Setting is specific to PowerFlex 525 drives only.
P040
[Autotune]
0/2
Enables a static (not spinning) or dynamic (motor spinning) autotune.
P041
[Accel Time 1]
0.00/600.00 s
Sets the time for the drive to accel from 0 Hz to
[Maximum Freq].
[Decel Time 1]
0.00/600.00 s
Sets the time for the drive to decel from [Maximum
Freq] to 0 Hz.
P042
20
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
Based on Drive Rating
0
10.00 s
PowerFlex 520-Series Adjustable Frequency AC Drive
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
P043
[Minimum Freq]
Sets the lowest frequency the drive outputs.
PF 525
Min/Max
0.00/500.00 Hz
Display/Options
0.01 Hz
Default
0.00 Hz
0.00/500.00 Hz
0.01 Hz
60.00 Hz
0 = “Ramp, CF”(1)
1 = “Coast, CF”(1)
2 = “DC Brake, CF”(1)
3 = “DCBrkAuto,CF”(1)
4 = “Ramp”
5 = “Coast”
6 = “DC Brake”
7 = “DC BrakeAuto”
8 = “Ramp+EM B,CF”(1)
9 = “Ramp+EM Brk”
10 = “PointStp,CF”(1)
11 = “PointStop”
1 = “Keypad”(1)
2 = “DigIn TrmBlk”(2)
3 = “Serial/DSI”
4 = “Network Opt”
5 = “Ethernet/IP”(3)
0
1 = “Drive Pot”
2 = “Keypad Freq”
3 = “Serial/DSI”
4 = “Network Opt”
5 = “0-10V Input”
6 = “4-20mA Input”
7 = “Preset Freq”
8 = “Anlg In Mult”(1)
9 = “MOP”
10 = “Pulse Input”
11 = “PID1 Output”
12 = “PID2 Output”(1)
13 = “Step Logic”(1)
14 = “Encoder”(1)
15 = “Ethernet/IP”(1)
16 = “Positioning”(1)
0.01
P047 = 1
P049 = 5
P051 = 3 (PowerFlex 523)
15 (PowerFlex 525)
0 = “Ready/Idle”
1 = “Param Reset”
2 = “Factory Rset”
3 = “Power Reset”
0
P044
[Maximum Freq]
Sets the highest frequency the drive outputs.
P045
[Stop Mode]
0/11
Stop command for normal stop.
Important: I/O Terminal 01 is always a stop input. The stopping mode is determined by the drive setting.
Important: The drive is shipped with a jumper installed between I/O Terminals 01 and 11. Remove this
jumper when using I/O Terminal 01 as a stop or enable input.
(1) Stop input also clears active fault.
P046,
P048,
P050
[Start Source x]
1/5
Sets the default control scheme used to start the drive unless overriden by P048 [Start Source 2] or P050
[Start Source 3].
(1) When active, the Reverse key is also active unless disabled by A544 [Reverse Disable].
(2) If “DigIn TrmBlk” is selected, ensure that the digital inputs are properly configured.
(3) Setting is specific to PowerFlex 525 drives only.
P047,
P049,
P051
[Speed Referencex]
1/16
Sets the default speed command of the drive unless overridden by P049 [Speed Reference2] or P051
[Speed Reference3].
(1) Setting is specific to PowerFlex 525 drives only.
P052
P053
[Average kWh Cost]
0.00/655.35
Sets the average cost per kWh.
[Reset To Defalts]
0/3
Resets parameters to their factory defaults values.
After a Reset command, the value of this parameter returns to zero.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
P046 = 1
P048 = 2
P050 = 3 (PowerFlex 523)
5 (PowerFlex 525)
0.00
21
PowerFlex 520-Series Adjustable Frequency AC Drive
Advanced Program Group Parameters
See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for detailed
descriptions of the parameters listed here, as well as the full list of available parameters.
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
Min/Max
A410... [Preset Freq x]
0.00/500.00 Hz
A417
Sets the frequency of the drive outputs to the programmed value when selected.
PF 525
Display/Options
0.01 Hz
0.01 Hz
Default
Preset Freq 0 = 0.00 Hz
Preset Freq 1 = 5.00 Hz
Preset Freq 2 = 10.00 Hz
Preset Freq 3 = 20.00 Hz
Preset Freq 4 = 30.00 Hz
Preset Freq 5 = 40.00 Hz
Preset Freq 6 = 50.00 Hz
Preset Freq 7...15 = 60.00 Hz
60.00 Hz
0.01 Hz
60.00 Hz
0 = “Zero MOP Ref”
1 = “Save MOP Ref”
1 = “Save MOP Ref”
0 = “No preload”
1 = “Preload”
0 = “No preload”
0.1 s
10.0 s
0.01 Hz
10.00 Hz
0.01 s
10.00 s
0.01 Hz
5.00 Hz
0.1 s
0.0 s
0.01 A
Drive Rated Amps x 0.05
0.1 s
0.0 s
0 = “Disabled”
1 = “Norml RA Res”
2 = “NoProtection”
3...99 = “3...99% DutyCycle”
0 = “Disabled”
A418...
A425
PF 525
A426
A427
A428
A429
A430
A431
A432
A433
A434
A435
A436
A437
22
[Keypad Freq]
0.00/500.00 Hz
Provides the drive frequency command using the built-in keypad navigation. When P047, P049 or P051
[Speed Referencex] selects 2 “Keypad Freq”, the value set in this parameter controls the frequency of the
drive. The value of this parameter can also be changed when navigating with the keypad by pressing the
Up or Down arrow keys.
[MOP Freq]
0.00/500.00 Hz
Provides the drive frequency command using the built-in Motor Operated Potentiometer (MOP).
Important: Frequency is not written to non-volatile storage until drive is powered-down. If both MOP Up
and MOP Down are applied at the same time, the inputs are ignored and the frequency is unchanged.
[MOP Reset Sel]
0/1
Determines if the current MOP reference command is saved on power down.
[MOP Preload]
0/1
Determines the operation of the MOP function.
[MOP Time]
0.1/600.0 s
Sets the rate of change of the MOP reference.
[Jog Frequency]
0.00/[Maximum Freq]
Sets the output frequency when a jog command is issued.
[Jog Accel/Decel]
0.01/600.00 s
Sets the acceleration and deceleration time used when in jog mode.
[Purge Frequency]
0.00/500.00 Hz
Provides a fixed frequency command value when t062, t063, t065-t068 [DigIn TermBlk xx] is set to 40
“Purge”.
[DC Brake Time]
0.0/99.9 s
Sets the length of time that DC brake current is “injected” into the motor.
[DC Brake Level]
0.00/(Drive Rated Amps x 1.80)
Defines the maximum DC brake current, in amps, applied to the motor when P045 [Stop Mode] is set to
either 4 “Ramp” or 6 “DC Brake”.
ATTENTION: If a hazard of injury due to movement of equipment or material exists, an auxiliary
mechanical braking device must be used. This feature should not be used with synchronous motors.
Motors may be demagnetized during braking.
[DC Brk Time@Strt]
0.0/99.9 s
Sets the length of time that DC brake current is “injected” into the motor after a valid start command is
received.
[DB Resistor Sel]
0/99
Enables/disables external dynamic braking and selects the level of resistor protection.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
PF 525
No.
A438
A439
A440
A441
PF 525
A442,
A444,
A446
A443,
A445,
A447
A448,
A450
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
Parameter
Min/Max
[DB Threshold]
10.0/110.0%
Sets the DC bus voltage threshold for Dynamic Brake operation. If DC bus voltage rises above this level,
Dynamic Brake turns on. Lower values makes the dynamic braking function more responsive but may
result in nuisance Dynamic Brake activation.
ATTENTION: Equipment damage may result if this parameter is set to a value that causes the dynamic
braking resistor to dissipate excessive power. Parameter settings less than 100% should be carefully
evaluated to ensure that the Dynamic Brake resistor's wattage rating is not exceeded. In general, values
less than 90% are not needed. This parameter's setting is especially important if parameter A437 [DB
Resistor Sel] is set to 2 “NoProtection”.
[S Curve %]
0/100%
Enables a fixed shape S-Curve that is applied to the acceleration and deceleration ramps (including jog).
S-Curve Time = (Accel or Decel Time) x (S-Curve Setting in percentage)
[PWM Frequency]
2.0/16.0 kHz
Sets the carrier frequency for the PWM output waveform. The chart below provides derating guidelines
based on the PWM frequency setting.
Important: Ignoring derating guidelines can cause reduced drive performance. The drive may
automatically reduce the PWM carrier frequency at low output speeds, unless prevented from doing so by
A540 [Var PWM Disable].
[Droop Hertz@ FLA]
0.0/10.0 Hz
Reduces the frequency based on current. This frequency is subtracted from the commanded output
frequency. Generally Slip and Droop would not both be used, but if both are enabled they simply subtract
from each other. Typically used in load sharing schemes.
[Accel Time x]
0.01 s
Time for the drive to ramp from 0.0 Hz to P044 [Maximum Freq] if Accel Time x is selected.
Accel Rate = [Maximum Freq] / [Accel Time]
[Decel Time x]
0.00/600.00 s
Time for the drive to ramp from P044 [Maximum Freq] to 0.0 Hz if Decel Time x is selected.
Decel Rate = [Maximum Freq] / [Decel Time]
[Skip Frequency x]
0.0/500.0 Hz
Works in conjunction with A449, A451, A453 and A455 [Skip Freq Band x] creating a range of frequencies
at which the drive does not operate continuously
Display/Options
0.1%
Default
100.0%
1%
0%
0.1 kHz
4.0 kHz
0.1 Hz
0.0 Hz
0.00/600.00 s
10.00 s
0.01 s
10.00 s
0.1 Hz
0.0 Hz (Disabled)
[Skip Freq Band x]
0.0/30.0 Hz
Determines the band around A448, A450, A452 and A454 [Skip Frequency x].
0.1 Hz
0.0 Hz
[PID x Trim Hi]
0.0/500.0 Hz
Scales the upper value of the trim frequency when trim is active.
0.1 Hz
60.0 Hz
[PID x Trim Lo]
0.0/500.0 Hz
Scales the lower value of the trim frequency when trim is active.
0.1 Hz
0.0 Hz
A452,
A454
PF 525
A449,
A451
A453,
A455
PF 525
A456
A468
PF 525
A457
A469
PF 525
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
23
PowerFlex 520-Series Adjustable Frequency AC Drive
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
A458
[PID x Trim Sel]
Sets the PID output as trim to the source reference.
PF 525
Min/Max
0/13
Display/Options
0 = “Disabled”
1 = “TrimOn Pot”
2 = “TrimOn Keypd”
3 = “TrimOn DSI”
4 = “TrimOn NetOp”
5 = “TrimOn 0-10V”
6 = “TrimOn 4-20”
7 = “TrimOn Prset”
8 = “TrimOn AnMlt”(1)
9 = “TrimOn MOP”
10 = “TrimOn Pulse”
11 = “TrimOn Slgic”(1)
12 = “TrimOn Encdr”(1)
13 = “TrimOn ENet”(1)
0 = “PID Setpoint”
1 = “Drive Pot”
2 = “Keypad Freq”
3 = “Serial/DSI”
4 = “Network Opt”
5 = “0-10V Input”
6 = “4-20mA Input”
7 = “Preset Freq”
8 = “AnlgIn Multi”(1)
9 = “MOP Freq”
10 = “Pulse Input”
11 = “Step Logic”(1)
12 = “Encoder”(1)
13 = “EtherNet/IP”(1)
0 = “0-10V Input”
1 = “4-20mA Input”
2 = “Serial/DSI”
3 = “Network Opt”
4 = “Pulse Input”
5 = “Encoder”(1)
6 = “EtherNet/IP”(1)
0.01
Default
0 = “Disabled”
[PID x Integ Time]
0.0/999.9 s
Sets the value for the PID integral component when PID mode is enabled.
0.1 s
2.0 s
[PID x Diff Rate]
0.00/99.99
Sets the value (in 1/second) for the PID differential component when PID mode is enabled.
0.01
0.00
[PID x Setpoint]
0.0/100.0%
Provides an internal fixed value for process setpoint when PID mode is enabled.
0.1%
0.0%
[PID x Deadband]
Sets the lower limit of the PID output.
0.1%
0.0%
(1) Setting is specific to PowerFlex 525 drives only.
A470
PF 525
A459
[PID x Ref Sel]
Selects the source of the PID reference.
0/13
(1) Setting is specific to PowerFlex 525 drives only.
A471
PF 525
A460
[PID x Fdback Sel]
Selects the source of the PID feedback.
0/6
A472
(1) Setting is specific to PowerFlex 525 drives only.
PF 525
A461
[PID x Prop Gain]
0.00/99.99
Sets the value for the PID proportional component when the PID mode is enabled.
0 = “PID Setpoint”
0 = “0-10V Input”
0.01
A473
PF 525
A462
A474
PF 525
A463
A475
PF 525
A464
A476
PF 525
A465
0.0/10.0%
A477
PF 525
24
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
Min/Max
A466
[PID x Preload]
0.0/500.0 Hz
Sets the value used to preload the integral component on start or enable.
A478
PF 525
Display/Options
0.1 Hz
Default
0.0 Hz
0 = “Normal”
1 = “Inverted”
0 = “Normal”
0.01
0.00
0.01
0.00
1
400
0.1 A
Drive Rated Amps x 1.1
(Normal Duty); Drive Rated
Amps x 1.5 (Heavy Duty)
0.1 A
Drive Rated Amps x 1.1
0.1 A
0.0 A (Disabled)
[Shear Pin x Time]
0.00/30.00 s
Sets the continuous time the drive must be at or above the value set in A486, A488 [Shear Pinx Level]
before a shear pin fault occurs.
0.01 s
0.00 s
[Load Loss Level]
0.0/Drive Rated Amps
Provides a software trip (Load Loss fault) when the current drops below this level for the time specified in
A491 [Load Loss Time].
[Load Loss Time]
0/9999 s
Sets the required time for the current to be below A490 [Load Loss Level] before a Load Loss fault occurs
[Stall Fault Time]
0/5
Sets the time that the drive remains in stall mode before a fault is issued.
0.1 A
0.0 A
1s
0s
0 = “60 Seconds”
1 = “120 Seconds”
2 = “240 Seconds”
3 = “360 Seconds”
4 = “480 Seconds”
5 = “Flt Disabled”
0 = “No Derate”
1 = “Min. Derate”
2 = “Max. Derate”
0 = “60 Seconds”
0 = “Reset”
1 = “Save”
0 = “Reset
0 = “Disabled”
1 = “Reduce CLim”
2 = “Reduce PWM”
3 = “Both-PWM 1st”
0.1VAC
3 = “Both-PWM 1st”
0.01 A
Based on Drive Rating
PF 525
A467
[PID x Invert Err]
Changes the sign of the PID error.
0/1
A479
PF 525
A481
A482
A483
A484
A485
PF 525
A486
A488
[Process Disp Lo]
0.00/99.99
Sets the value displayed in b010 [Process Display] when the drive is running at P043 [Minimum Freq].
[Process Disp Hi]
0.00/99.99
Sets the value displayed in b010 [Process Display] when the drive is running at P044 [Maximum Freq].
[Testpoint Sel]
0/FFFF
Used by Rockwell Automation field service personnel.
[Current Limit 1]
0.0/Drive Rated Amps x 1.5 (Normal Duty); Drive
Rated Amps x 1.8 (Heavy Duty)
Maximum output current allowed before current limiting occurs.
[Current Limit 2]
0.0/Drive Rated Amps x 1.5 (Normal Duty); Drive
Rated Amps x 1.8 (Heavy Duty)
Maximum output current allowed before current limiting occurs.
[Shear Pinx Level]
0.0/(Drive Rated Amps x 2)
Sets the value of current at which the shear pin fault occurs after the time set in A487, A489 [Shear Pin x
Time]. Setting the value at 0.0 A disables this function.
PF 525
A487
A489
PF 525
A490
PF 525
A491
PF 525
A492
A493
A494
A495
A496
A497
[Motor OL Select]
0/2
Drive provides Class 10 overload protection. Settings 0...2 select the derating factor for the I2t overload
function.
[Motor OL Ret]
0/1
Selects whether the motor overload counter is saved on power-down or reset on power-up.
[Drive OL Mode]
0/3
Determines how the drive handles overload conditions that would otherwise cause the drive to fault.
[IR Voltage Drop]
0.0/600.0VAC
Value of volts dropped across the resistance of the motor stator (autotune) for induction motor.
[Flux Current Ref]
0.00/(Drive Rated Amps x 1.4)
This is the current necessary for full motor flux. The value should be set to the full speed no-load current of
the motor.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
0 = “No Derate”
Based on Drive Rating
25
PowerFlex 520-Series Adjustable Frequency AC Drive
PF 525
No.
A498
PF 525
A499
PF 525
A500
PF 525
A509
PF 525
A510,
A512,
A514
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
Parameter
Min/Max
[Motor Rr]
0.00/655.35 ohm
Rotor resistance of induction motor.
[Motor Lm]
0.0/6553.5 mH
Mutual Inductance of induction motor.
[Motor Lx]
0.0/6553.5 mH
Leakage Inductance of induction motor.
[Speed Reg Sel]
0/1
Determines if PI gain of the “Vector” control mode speed regulator is set automatically or manually.
Parameters A521...A526 are set automatically by this parameter.
[Freq x]
0.00/200.00%
Sets the “Vector” control mode frequency.
Display/Options
0.01 ohm
Default
Based on Drive Rating
0.1 mH
Based on Drive Rating
0.1 mH
Based on Drive Rating
0 = “Automatic”
1 = “Manual”
0 = “Automatic”
0.01%
Freq 1 = 8.33%
Freq 2 = 15.00%
Freq 3 = 20.00%
[Freq x BW]
0/40 Hz
Speed control loop bandwidth for “Vector” control mode.
1 Hz
10 Hz
[Freq x Kp]
0.0/500.0%
Sets P-gain of “Vector” control mode when in frequency region 1, 2 or 3 for faster speed response during
dynamic-state where motor is still accelerating. If A509 [Speed Reg Sel] is set to 1 “Manual”, these
parameters can be changed.
[Freq x Ki]
0.000/10.000 s
Sets I-gain of “Vector” control mode when in frequency region 1, 2 or 3 for faster speed response during
steady-state where motor is at its rated speed. If A509 [Speed Reg Sel] is set to 1 “Manual”, these
parameters can be changed.
[Boost Select]
0/14
Sets the boost voltage (% of P031 [Motor NP Volts]) and redefines the V/Hz curve. Only used for V/Hz and
SVC control modes.
0.1%
100.0%
0.001 s
0.100 s
0 = “Custom V/Hz”
1 = “30.0, VT”
2 = “35.0, VT”
3 = “40.0, VT”
4 = “45.0, VT”
5 = “0.0, no IR”
6 = “0.0”
7 = “2.5, CT”
8 = “5.0, CT”
9 = “7.5, CT”
10 = “10.0, CT”
11 = “12.5, CT”
12 = “15.0, CT”
13 = “17.5, CT”
14 = “20.0, CT”
0.1%
6 = “0.0” (For 400V and
600V drives, 5 HP and above)
7 = “2.5, CT” (For 200V
drives, 5 HP and above)
8 = “5.0, CT” (For drives
below 5 HP)
0.1%
25.0%
0.1 Hz
15.0 Hz
1V AC
Drive Rated Volts
PF 525
A511,
A513,
A515
PF 525
A521,
A523,
A525
PF 525
A522,
A524,
A526
PF 525
A530
A531
A532
A533
A534
26
[Start Boost]
0.0/25.0%
Sets the boost voltage (% of P031 [Motor NP Volts]) and redefines the V/Hz curve when A530 [Boost
Select] = 0 “Custom V/Hz” and P039 [Torque Perf Mode] = 0 “V/Hz”.
[Break Voltage]
0.0/100.0%
Sets the voltage (in percent of [Base Frequency]) at the A533 [Break Frequency] if A530 [Boost Select] is
set to 0 “Custom V/Hz”.
[Break Frequency]
0.0/500.0 Hz
Sets the frequency where A532 [Break Voltage] is applied if A530 [Boost Select] is set to 0 “Custom V/Hz”.
[Maximum Voltage]
Min = 10V AC (on 230V AC Drives); 20V AC (on 460V
AC Drives); 25V AC (on 600V AC Drives)
Max = 255V AC (on 230V AC Drives); 510V AC (on
460V AC Drives); 637.5V AC (on 600V AC Drives)
Sets the highest voltage the drive outputs.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
2.5%
PowerFlex 520-Series Adjustable Frequency AC Drive
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
Min/Max
A535
[Motor Fdbk Type]
0/5
Selects the encoder type.
PF 525
ATTENTION: The loss of analog input, encoder or other feedback may cause unintended speed or motion.
Take appropriate precautions to guard against possible unintended speed or motion.
PF 525
A536
PF 525
A537
A538
PF 525
A539
PF 525
A540
A541
A542
A543
A544
A545
A546
A547
A548
A549
A550
[Encoder PPR]
1/20000 PPR
Specifies the encoder Pulses Per Revolution (PPR) when an encoder is used.
[Pulse In Scale]
0/20000
Sets the scale factor/gain for the Pulse Input when t065 or t067 [DigIn TermBlk xx] is set to 52 “Pulse Train”,
or A535 [Motor Fdbk Type] is set to 1 “Pulse Train”.
Input frequency (Hz) / Pulse in Scale = Output frequency (Hz)
[Ki Speed Loop]
0.0/400.0
Sets the I-gain used in the PI calculation of the speed loop when feedback is used.
[Kp Speed Loop]
0.0/200.0
Sets the P-gain used in the PI calculation of the speed loop when feedback is used.
[Var PWM Disable]
0/1
Enables/disables a feature that varies the carrier frequency for the PWM output waveform defined by A440
[PWM Frequency].
[Auto Rstrt Tries]
0/9
Sets the maximum number of times the drive attempts to reset a fault and restart.
ATTENTION: Equipment damage and/or personal injury may result if this parameter is used in an
inappropriate application. Do not use this function without considering applicable local, national and
international codes, standards, regulations or industry guidelines.
[Auto Rstrt Delay]
0.0/120.0 s
Sets the time between restart attempts if A541 [Auto Rstrt Tries] is not zero.
[Start At PowerUp]
0/1
Enables/disables drive start on power up without a Start command being cycled. Requires a digital input
configured for Run or Start and a valid start contact.
ATTENTION: Equipment damage and/or personal injury may result if this parameter is used in an
inappropriate application. Do not use this function without considering applicable local, national and
international codes, standards, regulations or industry guidelines.
[Reverse Disable]
0/1
Enables/disables the function that allows the direction of motor rotation to be changed.
[Flying Start En]
0/1
Sets the condition that allows the drive to reconnect to a spinning motor at actual RPM.
[FlyStrt CurLimit]
30/200%
Used to determine when the drive has matched the motor frequency if flying start is enabled.
[Compensation]
0/3
Enables/disables correction options that may improve problems with motor instability.
[Power Loss Mode]
0/1
Sets the reaction to a loss of input power.
[Half Bus Enable]
0/1
Enables/disables the power ride through function which allows the drive to maintain power to the motor
at 50% drive input voltage during short-term power sag conditions.
ATTENTION: To guard against drive damage, a minimum line impedance must be provided to limit inrush
current when the power line recovers. The input impedance should be equal or greater than the equivalent
of a 5% transformer with a VA rating 6 times the drive's input VA rating if Half Bus is enabled.
[Bus Reg Enable]
0/1
Enables/disables the bus regulator.
Display/Options
0 = “None”
1 = “Pulse Train”
2 = “Single Chan”
3 = “Single Check”
4 = “Quadrature”
5 = “Quad Check”
1 PPR
Default
0 = “None”
1
64
0.1
2.0
0.1
5.0
0 = “Enabled”
1 = “Disabled”
0 = “Enabled”
1
0
0.1 s
1.0 s
0 = “Enabled”
1 = “Disabled”
0 = “Disabled”
0 = “Rev Enabled”
1 = “Rev Disabled”
0 = “Rev Enabled”
0 = “Enabled”
1 = “Disabled”
0 = “Disabled”
1%
150%
0 = “Disabled”
1 = “Electrical”
2 = “Mechanical”
3 = “Both”
0 = “Coast”
1 = “Decel”
1 = “Electrical”
0 = “Disabled”
1 = “Enabled”
0 = “Disabled”
0 = “Disabled”
1 = “Enabled”
1 = “Enabled”
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
1024 PPR
0 = “Coast”
27
PowerFlex 520-Series Adjustable Frequency AC Drive
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
No.
Parameter
A551
[Fault Clear]
Resets a fault and clears the fault queue.
PF 525
A552
A553
Min/Max
0/2
[Program Lock]
0000/9999
Protects parameters against change by unauthorized personnel with a 4-digit password.
[Program Lock Mod]
0/3
Determines the lock mode used in parameter A552 [Program Lock]. When set to 2 or 3, A552 [Program
Lock] is added to the custom group to allow unlocking of parameters.
A554
[Drv Ambient Sel]
0/4
Sets the maximum expected ambient of the drive when used above 50 °C. When ambient temperature is
above 50 °C, the drive will apply necessary current derating.
A555
[Reset Meters]
0/2
Resets the values stored in the parameters that track fault times and energy usage.
A556
[Text Scroll]
0/3
Sets the scrolling speed of the text in the LCD display.
A557
[Out Phas Loss En]
0/1
Enable/disable output phase loss detection.
ATTENTION: Equipment damage and/or personal injury may result if this parameter is used in an
inappropriate application. Do not use this function without considering applicable local, national and
international codes, standards, regulations or industry guidelines.
[Positioning Mode]
0/4
Defines the positioning transition mode used for the position steps.
A558
PF 525
A559
PF 525
A560
PF 525
A561
PF 525
A562
PF 525
A563
[Counts Per Unit]
1/32000
Sets the number of encoder counts equal to one user-defined unit.
[Enh Control Word]
0000 0000/1111 1111
Allows control of positioning and other functions through parameter control for use over comms. The
functions replicate the digital input options and function in the same way.
[Home Save]
0/1
Determines whether the current position is saved on power down.
[Find Home Freq]
0.1/500.0 Hz
Sets the maximum frequency the drive uses when “Find Home” is issued.
[Find Home Dir]
0/1
Sets the direction the drive commands when “Find Home” is issued.
Display/Options
0 = “Ready/Idle”
1 = “Reset Fault”
2 = “Clear Buffer”
1111
Default
0 = “Ready/Idle”
0 = “Full Lock”
1 = “Keypad Lock”
2 = “Custom Only”
3 = “KeyPd Custom”
0 = “Normal”
1 = “55C”
2 = “60C”
3 = “65C +Fan Kit”
4 = “70C +Fan Kit”
0 = “Ready/Idle”
1 = “Reset Meters”
2 = “Reset Time”
0 = “Off”
1 = “Low Speed”
2 = “Mid Speed”
3 = “High Speed”
0 = “Disabled”
1 = “Enabled”
0 = “Full Lock”
0 = “Time Steps”
1 = “Preset Input”
2 = “Step Logic”
3 = “Preset StpL”
4 = “StpLogic-Lst”
1
0 = “Time Steps”
Digit 8
Digit 7
Logic In 2
Logic In 1
Digit 6
Digit 5
Traverse Dis Sync Enable
Digit 4
Digit 3
Pos Redefine Hold Step
Digit 2
Digit 1
Find Home Home Limit
0 = “Home Reset”
1 = “Home Saved”
0000 0000
0000
0 = “Normal”
0 = “Ready/Idle”
2 = “Mid Speed”
0 = “Disabled”
4096
0 = “Home Reset”
0.1 Hz
10.0 Hz
0 = “Forward”
1 = “Reverse”
0 = “Forward”
1
100
1
8
PF 525
A564
PF 525
A565
PF 525
28
[Encoder Pos Tol]
1/50000
Sets the “At Position” and the “At Home’ tolerance around the encoder count. The value is added to and
subtracted from the target encoder unit value to create the tolerance range.
[Pos Reg Filter]
0/15
Sets the error signal filter in the position regulator.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
PF 525
No.
A566
PF 525
A567
A568
A569
A570
A571
A572
= Stop drive before changing this parameter.
= Parameter is specific to PowerFlex 525 drives only.
Parameter
Min/Max
[Pos Reg Gain]
0.0/200.0
Sets the gain adjustment for the position regulator.
[Max Traverse]
0.00/300.00 Hz
Sets the amplitude of triangle wave speed modulation.
[Traverse Inc]
0.00/300.00 s
Sets the time required for the Traverse function to accelerate from the minimum to the maximum traverse
frequency. See the diagram at A567 [Max Traverse].
[Traverse Dec]
0.00/300.00 s
Sets the time required for the Traverse function to decelerate from the maximum to the minimum traverse
frequency. See the diagram at A567 [Max Traverse].
[P Jump]
0.00/300.00 Hz
Sets the frequency amplitude that is added to or subtracted from the commanded frequency. See the
diagram at A567 [Max Traverse].
[Sync Time]
0.0/3200.0 s
Enables the function that holds the drive at the current frequency even if the commanded frequency
changes. Used with t062, t063, t065-t068 [DigIn TermBlk xx] 32 “Sync Enable”.
[Speed Ratio]
0.01/99.99
Scales the drive speed command.
A573
[Mtr Options Cfg]
Sets the configuration of the motor option.
00/11
Display/Options
0.1
Default
3.0
0.01 Hz
0.00 Hz
0.01 s
0.00 s
0.01 s
0.00 s
0.01 Hz
0.00 Hz
0.1 s
0.0 s
0.01
1.00
Digit 2
ZeroSpd Slip
Digit 1
Jerk Select
11
Fault Codes
No.
F000
F002
Fault
No Fault
Auxiliary Input
F003
Power Loss
F004
F005
UnderVoltage
OverVoltage
F006
Motor Stalled
F007
Motor Overload
F008
Heatsink OvrTmp
F009
CC OvrTmp
F012
F013
F015(1)
HW OverCurrent
Ground Fault
Load Loss
F021
Output Ph Loss
F029
Analog In Loss
Action
–
• Check remote wiring.
• Verify communications programming for intentional fault.
• Monitor the incoming AC line for low voltage or line power interruption.
• Check input fuses.
• Reduce load.
Monitor the incoming AC line for low voltage or line power interruption.
Monitor the AC line for high line voltage or transient conditions. Bus overvoltage can also be caused by motor regeneration. Extend the decel time
or install dynamic brake option.
• Increase P041, A442, A444, A446 [Accel Time x] or reduce load so drive output current does not exceed the current set by parameter A484,
A485 [Current Limit x] for too long.
• Check for overhauling load.
• An excessive motor load exists. Reduce load so drive output current does not exceed the current set by parameter P033 [Motor OL Current].
• Verify A530 [Boost Select] setting.
• Check for blocked or dirty heat sink fins. Verify that ambient temperature has not exceeded the rated ambient temperature.
• Check fan.
• Check product ambient temperature.
• Check for airflow obstruction.
• Check for dirt or debris.
• Check fan.
Check programming. Check for excess load, improper A530 [Boost Select] setting, DC brake volts set too high or other causes of excess current.
Check the motor and external wiring to the drive output terminals for a grounded condition.
• Verify connections between motor and load.
• Verify level and time requirements.
• Verify motor wiring.
• Verify motor.
• Check for broken/loose connections at inputs.
• Check parameters.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
29
PowerFlex 520-Series Adjustable Frequency AC Drive
No.
F033
F038
F039
F040
F041
F042
F043
F048
Fault
Auto Rstrt Tries
Phase U to Gnd
Phase V to Gnd
Phase W to Gnd
Phase UV Short
Phase UW Short
Phase VW Short
Params Defaulted
F059(1)
F063
Safety Open
SW OverCurrent
F064
F070
Drive Overload
Power Unit
F071
DSI Net Loss
F072
Opt Net Loss
F073(1)
EN Net Loss
F080
F081
Autotune Failure
DSI Comm Loss
F082
Opt Comm Loss
F083(1)
EN Comm Loss
F091(1)
Encoder Loss
F094
F100
F101
F105
F106
Function Loss
Parameter Chksum
External Storage
C Connect Err
Incompat C-P
F107
Replaced C-P
30
Action
Correct the cause of the fault and manually clear.
• Check the wiring between the drive and motor.
• Check motor for grounded phase.
• Replace drive if fault cannot be cleared.
• Check the motor and drive output terminal wiring for a shorted condition.
• Replace drive if fault cannot be cleared.
• Clear the fault or cycle power to the drive.
• Program the drive parameters as needed.
Check safety input signals. If not using safety, verify and tighten jumper for I/O terminals S1, S2 and S+.
• Verify connections between motor and load.
• Verify level and time requirements.
Reduce load or extend Accel Time.
• Check maximum ambient temperature has not been exceeded.
• Cycle power.
• Replace drive if fault cannot be cleared.
• Cycle power.
• Check communications cabling.
• Check Modbus or DSI setting.
• Check Modbus or DSI status.
• Cycle power.
• Check communications cabling.
• Check network adapter setting.
• Check external network status.
• Cycle power.
• Check communications cabling.
• Check EtherNet/IP setting.
• Check external network status.
Restart procedure.
• Cycle power.
• Check communications cabling.
• Check Modbus or DSI setting.
• Check Modbus or DSI status.
• Modify using C125 [Comm Loss Action].
• Connecting I/O terminals C1 and C2 to ground may improve noise immunity.
• Replace wiring, Modbus master device, or control module.
• Cycle power.
• Reinstall option card in drive.
• Modify using C125 [Comm Loss Action].
• Replace wiring, port expander, option card, or control module.
• Cycle power.
• Check EtherNet/IP setting.
• Check drive’s Ethernet settings and diagnostic parameters.
• Modify using C125 [Comm Loss Action].
• Replace wiring, Ethernet switch, or control module.
• Check Wiring.
• If P047, P049, P051 [Speed Referencex] = 16 “Positioning” and A535 [Motor Fdbk Type] = 5 “Quad Check”, swap the Encoder channel inputs or
swap any two motor leads.
• Replace encoder.
Close input to the terminal and cycle power.
Set P053 [Reset To Defalts] to 2 “Factory Rset”.
Set P053 [Reset To Defalts] to 2 “Factory Rset”.
Clear fault and verify all parameter settings. Do not remove or install the control module while power is applied.
• Change to a different power module.
• Change to a PowerFlex 523 control module.
• Change to a different power module.
• Replace control module if changing power module does not work.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
No.
F109
F110
Fault
Mismatch C-P
Keypad Membrane
F111(1)
Safety Hardware
F114
uC Failure
F122
I/O Board Fail
F125
F126
Flash Update Req
NonRecoverablErr
F127
DSIFlashUpdatReq
Action
Set P053 [Reset To Defalts] to 3 “Power Reset”.
• Cycle power.
• Replace control module if fault cannot be cleared.
• Check safety input signals. If not using safety, verify and tighten jumper for I/O terminals S1, S2 and S+.
• Replace control module if fault cannot be cleared.
• Cycle power.
• Replace control module if fault cannot be cleared.
• Cycle power.
• Replace drive or control module if fault cannot be cleared.
Perform a firmware flash update operation to attempt to load a valid set of firmware.
• Clear fault or cycle power to the drive.
• Replace drive or control module if fault cannot be cleared.
Perform a firmware flash update operation using DSI communications to attempt to load a valid set of firmware.
(1) This fault is not applicable to PowerFlex 523 drives.
Drive Ratings
PowerFlex 523 Frames – Ratings are in kW and (HP).
3-Phase
380...480V
3-Phase
380...480V
w/ Filter
3-Phase
525...600V
Frame
1-Phase
200...240V
w/ Filter
1-Phase
100...120V
A
0.2...0.4 (0.25...0.5) 0.2...0.75 (0.25...1.0) 0.2...0.75 (0.25...1.0) 0.2...2.2 (0.25...3.0)
0.4...2.2 (0.5...3.0)
0.4...2.2 (0.5...3.0)
0.4...2.2 (0.5...3.0)
B
0.75...1.1 (1.0...1.5) 1.5...2.2 (2.0...3.0)
1.5...2.2 (2.0...3.0)
4.0 (5.0)
4.0 (5.0)
4.0 (5.0)
4.0 (5.0)
C
–
–
–
5.5 (7.5)
5.5...7.5 (7.5...10.0)
5.5...7.5 (7.5...10.0)
5.5...7.5 (7.5...10.0)
D
–
–
–
7.5 (10.0)
11.0...15.0 (15.0...20.0) 11.0...15.0 (15.0...20.0) 11.0...15.0 (15.0...20.0)
E
–
–
–
11.0...15.0 (15.0...20.0) –
18.5...22.0 (25.0...30.0) 18.5...22.0 (25.0...30.0)
1-Phase
200...240V
3-Phase
200...240V
Frame
PowerFlex 525 Frames – Ratings are in kW and (HP).
1-Phase
100...120V
1-Phase
200...240V
1-Phase
200...240V
w/ Filter
3-Phase
200...240V
3-Phase
380...480V
3-Phase
380...480V
w/ Filter
3-Phase
525...600V
A
0.4 (0.5)
0.4...0.75 (0.5...1.0)
0.4...0.75 (0.5...1.0)
0.4...2.2 (0.5...3.0)
0.4...2.2 (0.5...3.0)
0.4...2.2 (0.5...3.0)
0.4...2.2 (0.5...3.0)
B
0.75...1.1 (1.0...1.5)
1.5...2.2 (2.0...3.0)
1.5...2.2 (2.0...3.0)
4.0 (5.0)
4.0 (5.0)
4.0 (5.0)
4.0 (5.0)
C
–
–
–
5.5 (7.5)
5.5...7.5 (7.5...10.0)
5.5...7.5 (7.5...10.0)
5.5...7.5 (7.5...10.0)
D
–
–
–
7.5 (10.0)
11.0...15.0 (15.0...20.0) 11.0...15.0 (15.0...20.0) 11.0...15.0 (15.0...20.0)
E
–
–
–
11.0...15.0 (15.0...20.0) –
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
18.5...22.0 (25.0...30.0) 18.5...22.0 (25.0...30.0)
31
PowerFlex 520-Series Adjustable Frequency AC Drive
Dimensions and Weight
IP 20/Open Type – Dimensions are in mm and (in.). Weights are in kg and (lb).
C
A
D
Esc
B
Sel
E
Frame Size
A
B
C
D
E
A
72.0 (2.83)
87.0 (3.43)
109.0 (4.29)
130.0 (5.12)
185.0 (7.28)
B
152.0 (5.98)
180.0 (7.09)
220.0 (8.66)
260.0 (10.24)
300.0 (11.81)
C
172.0 (6.77)
172.0 (6.77)
184.0 (7.24)
212.0 (8.35)
279.0 (10.98)
D
57.5 (2.26)
72.5 (2.85)
90.5 (3.56)
116.0 (4.57)
160.0 (6.30)
E
140.0 (5.51)
168.0 (6.61)
207.0 (8.15)
247.0 (9.72)
280.0 (11.02)
Weight
1.1 (2.4)
1.6 (3.5)
2.3 (5.0)
3.9 (8.6)
12.9 (28.4)
EMC Line Filter – Dimensions are in mm and (in.).
Frame A...D
D
Frame E
A
ø5.5
(ø0.22)
B
F
E
C
D
A
B
F
H
E
E
L1 L2 L3
BLACK BLACK BLACK
G
ø5.5
(ø0.22)
H
YELLOW
&
GREEN
C
E
I
F
G
I
H
F
Frame Size(1)
A
B
C
D
E
A
55.0 (2.17)
70.0 (2.76)
70.0 (2.76)
80.0 (3.15)
80.0 (3.15)
B
72.0 (2.83)
87.0 (3.43)
109.0 (4.29)
130.0 (5.12)
155.0 (6.10)
C
234.0 (9.21)
270.0 (10.63)
275.0 (10.83)
310.0 (12.20)
390.0 (15.35)
D
30.0 (1.18)
35.0 (1.38)
37.0 (1.46)
33.0 (1.30)
33.0 (1.30)
E
223.0 (8.78)
258.0 (10.16)
263.0 (10.35)
298.0 (11.73)
375.0 (14.76)
F
54.0 (2.13)
58.0 (2.28)
76.0 (2.99)
90.0 (3.54)
110.0 (4.33)
G
20.0 (0.79)
25.0 (0.98)
25.0 (0.98)
33.0 (1.30)
33.0 (1.30)
(1) See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication 520-UM001 for instructions on complying with the EMC Directive.
32
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
H
23.0 (0.91)
24.0 (0.94)
28.0 (1.10)
28.0 (1.10)
28.0 (1.10)
I
5.5 (0.22)
5.5 (0.22)
5.5 (0.22)
5.5 (0.22)
5.5 (0.22)
PowerFlex 520-Series Adjustable Frequency AC Drive
Network Communication
PowerFlex 520-Series RS784 (DSI) Protocol
This section contains only basic information to setup the PowerFlex 520-series RS485 (DSI) protocol connection with
your PowerFlex 520-series drive. See the PowerFlex 520-Series Adjustable Frequency AC Drive User Manual, publication
520-UM001 for more information.
PowerFlex 520-series drives support the RS485 (DSI) protocol to allow efficient operation with Rockwell Automation
peripherals. In addition, some Modbus functions are supported to allow simple networking. PowerFlex 520-series drives
can be multi-dropped on an RS485 network using Modbus protocol in RTU mode.
PowerFlex 520-Series Drive Network
Controller
PowerFlex 520-Series Drives
Esc
Esc
Sel
Esc
Sel
Esc
Sel
Sel
Network Wiring
Network wiring consists of a shielded 2-conductor cable that is daisy-chained from node to node.
ATTENTION: Never attempt to connect a Power over Ethernet (PoE) cable to the RS485 port. Doing so may damage the circuitry.
Network Wiring Diagram Example
PowerFlex 525
Node 1
Master
TxRxD+
TxRxD-
120 ohm resistor
TxRxD+
4
Shield
X
RS485
(DSI)
5
X
PowerFlex 525
Node “n”
TxRxD+
4
TxRxDShield
C1 C2
AK-U0-RJ45-TB2P
TxRxD+
TxRxD-
IMPORTANT
4
TxRxD-
5
Shield
PowerFlex 523
Node 2
120 ohm resistor
FRONT
5
PIN 1
X
RS485
(DSI)
PIN 8
C1 C2
TxRxD+
TxRxD-
R/L1 S/L2 T/L3 U/T1 V/T2 W/T3
R/L1 S/L2 T/L3 U/T1 V/T2 W/T3
DC- DC+ BRBR+
DC- DC+ BRBR+
The shield is connected at ONLY ONE end of each cable segment.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
33
PowerFlex 520-Series Adjustable Frequency AC Drive
The following PowerFlex 520-series drive parameters are used to configure the drive to operate on a DSI network.
Configuring Parameters for DSI Network
Parameter
Description
P046 [Start Source 1]
Set to 3 “Serial/DSI” if Start is controlled from the network
P047 [Speed Reference1]
Set to 3 “Serial/DSI” if Speed Reference is controlled from the network.
C123 [RS485 Data Rate]
Sets the data rate for the RS485 (DSI) port. All nodes on the network must be set to the same data rate.
C124 [RS485 Node Addr]
Sets the node address for the drive on the network. Each device on the network requires a unique node address.
C125 [Comm Loss Action]
Selects the drive’s response to communication problems.
C126 [Comm Loss Time]
Sets the time that the drive will remain in communication loss before the drive implements C125 [Comm Loss Action].
C127 [Comm Format]
Sets the transmission mode, data bits, parity, and stop bits for the RS485 (DSI) port. All nodes on the network must be set to the same setting.
C128 [Comm Write Mode]
Set to 0 “Save” when programming drive.
Set to 1 “RAM only” to only write to volatile memory.
PowerFlex 525 Embedded EtherNet/IP
This section contains only basic information to setup an EtherNet/IP connection with your PowerFlex 525 drive. For
comprehensive information about EtherNet/IP (single and dual-port) and how to use it, see the following publications:
• PowerFlex 525 Embedded EtherNet/IP Adapter User Manual, publication 520COM-UM001.
• PowerFlex 25-COMM-E2P Dual-Port EtherNet/IP Adapter User Manual, publication 520COM-UM003.
Connecting the Adapter to the Network
ATTENTION: Risk of injury or death exists. The PowerFlex drive may contain high voltages that can cause injury or death. Remove
power from the drive, and then verify power has been discharged before connecting the embedded EtherNet/IP adapter to the
network.
1. Remove power from the drive.
2. Remove the drive control module cover.
3. Use static control precautions.
4. Connect one end of an Ethernet cable to the EtherNet/IP network.
1769-L36ERM CompactLogix controller
with embedded EtherNet/IP bridge
PowerFlex 525 with embedded
EtherNet/IP adapter (Frame A shown)
Esc
Ethernet switch
Sel
00:00:BC:2E:69:F6
1 (Front)
(Front)
2 (Rear)
5. Route the other end of the Ethernet cable through the bottom of the PowerFlex 525 drive, and insert the cable’s plug
into the embedded EtherNet/IP adapter’s mating socket.
34
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
PowerFlex 520-Series Adjustable Frequency AC Drive
Drive and Adapter Status Indicators
➊
➋
ENET LINK
Item Name State
Description
➊
Adapter is not connected to the network
ENET
EtherNet/IP
➋
LINK
FWD
ENET LINK
EtherNet/IP
➌
➌
Esc
FAULT
Off
Steady
Adapter is connected to the network and drive is controlled through Ethernet.
Flashing
Adapter is connected to the network but drive is not controlled through Ethernet.
Off
Adapter is not connected to the network.
Steady
Adapter is connected to the network but not transmittingdata.
Flashing
Adapter is connected to the network and transmitted data.
Flashing Red Indicates drive is faulted.
Sel
Setting the IP Address, Subnet Mask, and Gateway Address
Setting an IP Addresss Using Parameters
1. Verify that parameter C128 [EN Addr Sel] is set to 1 “Parameters”.
This parameter must be set to “Parameters” to configure the IP address
using parameters.
Default = 0.0.0.0
192.168.1.62
[EN IP Addr Cfg 1]
[EN IP Addr Cfg 2]
[EN IP Addr Cfg 3]
[EN IP Addr Cfg 4]
2. Set the value of parameters C129 [EN IP Addr Cfg 1] through
C132 [EN IP Addr Cfg 4] to a unique IP address.
3. Reset the adapter by power cycling the drive.
Setting a Subnet Mask Using Parameters
1. Verify that parameter C128 [EN Addr Sel] is set to 1 “Parameters”.
This parameter must be set to “Parameters” to configure the subnet mask
using parameters.
Default = 0.0.0.0
255.255.255.0
[EN Subnet Cfg 1]
[EN Subnet Cfg 2]
[EN Subnet Cfg 3]
[EN Subnet Cfg 4]
2. Set the value of parameters C133 [EN Subnet Cfg 1] through
C136 [EN Subnet Cfg 4] to the desired value for the subnet mask.
3. Reset the adapter by power cycling the drive.
Setting a Gateway Addresss Using Parameters
1. Verify that parameter C128 [EN Addr Sel] is set to 1 “Parameters”.
This parameter must be set to “Parameters” to configure the gateway
address using parameters.
2. Set the value of parameters C137 [EN Gateway Cfg 1] through
C140 [EN Gateway Cfg 4] to desired value for the gateway address.
3. Reset the adapter by power cycling the drive.
Rockwell Automation Publication 520-QS001A-EN-E - March 2014
Default = 0.0.0.0
192.168.1.1
[EN Gateway Cfg 1]
[EN Gateway Cfg 2]
[EN Gateway Cfg 3]
[EN Gateway Cfg 4]
35
Important Information
Solid-state equipment has operational characteristics differing from those of electromechanical equipment. Safety
Guidelines for the Application, Installation and Maintenance of Solid State Controls (publication SGI-1.1 available from
your local Rockwell Automation sales office or online at http://www.rockwellautomation.com/literature/) describes some
important differences between solid-state equipment and hard-wired electromechanical devices. Because of this difference,
and also because of the wide variety of uses for solid-state equipment, all persons responsible for applying this equipment
must satisfy themselves that each intended application of this equipment is acceptable.
In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the
use or application of this equipment.
The examples and diagrams in this publication are included solely for illustrative purposes. Because of the many variables
and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or
liability for actual use based on the examples and diagrams.
No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or
software described in this manual.
Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation,
Inc., is prohibited.
Documentation Feedback
Your comments will help us serve your documentation needs better. If you have any suggestions on how to improve this
document, complete this form, publication RA-DU002, available at http://www.rockwellautomation.com/literature/.
Allen-Bradley, Rockwell Software, Rockwell Automation, PowerFlex, Connected Components Workbench, Studio 5000, DriveTools SP, AppView, CustomView, MainsFree Programming, and P ointStop are trademarks of
Rockwell Automation, Inc.
Trademarks not belonging to Rockwell Automation are property of their respective companies.
www.rockwel lautomation.com
Power, Control and Information Solutions Headquarters
Americas: Rockwell Automation, 1201 South Second Street, Milwaukee, WI 53204-2496 USA, Tel: (1) 414.382.2000, Fax: (1) 414.382.4444
Europe/Middle East/Africa: Rockwell Automation NV, Pegasus Park, De Kleetlaan 12a, 1831 Diegem, Belgium, Tel: (32) 2 663 0600, Fax: (32) 2 663 0640
Asia Pacific: Rockwell Automation, Level 14, Core F, Cyberport 3, 100 Cyberport Road, Hong Kong, Tel: (852) 2887 4788, Fax: (852) 2508 1846
Publication 520-QS001A-EN-E - March 2014
Copyright © 2014 Rockwell Automation, Inc. All rights reserved.
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