Installation Instructions
PowerFlex ® 750-Series AC Drive Introduction
When read readiing this this docu ocument ent, loo look k fo for this this sym symbol bol “ Step x ” to to gui guide de you through the 5 BASIC STEPS needed to install and perform a Start-Up of the PowerFlex® PowerFlex® 750-Series Adjustable Frequency AC drive. A Human Interface Module (HIM) is required to perform the Start-Up routine covered in this manual. The information provided Does Not replace the User Manual and is intended for qualified drive service personnel only.
For detailed PowerFlex 750-Series drive information including programming, application application considerations, and related precautions refer to the following publications online at:
www.rockwellautomation.com/literature
Reference Materials Title PowerFlex 750-Series User Manual Enhance Enhancedd Pow PowerF erFlex lex 7-Clas 7-Classs Human Human Interfa Interface ce Modu Module le (HIM (HIM)) User User Manua Manuall PowerFlex 750-Series Safe Torque Off User Manual Safe Speed Monitor Option Module for PowerFlex 750-Series AC Drives Safety Reference Manual PowerFl erFlex 755 755 Driv rive Embedd bedded ed Ethe EtherN rNet et/I /IP P Adapt dapter er User ser Manua anuall PowerF erFlex lex 750 750-S -Ser erie iess Dri Drivve De Device viceN Net Optio ptionn Mod Modul ulee Use Userr Man Manua uall PowerF erFlex lex 7-C 7-Class lass Netw etwork ork Com Comm munic unicat atio ionn Adapt dapter er User ser Manua anualls Dynamic Braking Resistor Calculator Wiring and Grounding Grounding Guideline Guideliness for Pulse Width Width Modulated Modulated (PWM) (PWM) AC Drives Drives
Publication 750-UM001 20HIM20HIM-UM UM001 001 750-UM002 750-RM001 750C 750CO OM-UM -UM001 001 750C 750CO OM-UM0 -UM002 02 750C 750COM OM-U -UM Mxxx xxx PFLEX-AT001 DRIVES-IN DRIVES-IN001 001
To order paper copies of technical documentation, contact your local Rockwell Automation distributor or sales representative. To find your local Rockwell Automation distributor, visit
www.rockwellautomation.com/locations
Allen-Bradley Drives Technical Support Product Certification
Online at… www www.ab .ab.com .com/s /sup uppo port rt/a /abd bdri rivves
By Email at… supp support ort@d @dri rive ves. s.ra ra.r .roc ockw kwel ell.l.co com m
By Telephone at… 262262-51 5122-81 8176 76
Product Certifications and Declarations of Conformity are available on the internet at: www.rockwellautomation.co www.rockwellautomation.com/products/certification m/products/certification
2
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PowerFlex PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
3
Table of Contents Catalog Number Explanation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Step 1
Read the General Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 CE Conformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 General Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Step 2
Mount the Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Operating Conditions and Temperatures. Temperatures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Minimum Mounting Clearances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Lifting the Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Accessing the Terminals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10 10 14 14 32 35
Step 3
Wire the Drive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Special Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Motor Considerations. Considerations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Voltage Toleranc Tolerancee . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Wire Recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Terminal Block Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Common Bus Power Wiring. Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Minimum Dynamic Brake Resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Using 750-Series Drives with Regen Power Units. Units . . . . . . . . . . . . . . . . . . . . . . . . Power Power & Ground Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Drive, Fuse & Circuit Breaker Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Drive Power Jumper Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
37 37 38 39 40 41 45 48 49 49 50 53
Step 4
I/O Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Access Drive Control Pod . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . PowerFlex 753 Main Control Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . PowerFlex 755 Main Control Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Hardware Enable Circuitry Circuitry.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Safety Enable Circuitry . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Option Module Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . I/O Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . I/O Wiring Examples . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Safe Torque Off Option Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Safe Speed Monitor Option Module. Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Single Incremental Encoder Option Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . Dual Incremental Encoder Option Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Universal Feedback Option Module (755 Drives Only) . . . . . . . . . . . . . . . . . . . . Auxiliary Power Supply Option Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DeviceNet Option Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20-COMM Carrier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
58 59 61 63 64 65 66 67 69 75 76 78 80 82 85 86 88
Step 5
Start-Up Check List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Prepare For Initial Drive Start-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 89 Start-Up Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 90 Human Interface Module (HIM) Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 Ports and Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95 Status Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 97 Fault and Alarm Display Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98 Troubleshooting – Drive Dr ive Fault and Alarm Descriptions . . . . . . . . . . . . . . . . . . . . 98 Manually Clearing Faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 104 Common Symptoms and Corrective Actions . . . . . . . . . . . . . . . . . . . . . . . . . . . 105 Drive (Port 0) Parameter List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 PowerFlex PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Catalog Number Explanation Position 1…3
4
5
6
7
8…10
11
12
13
14
15
16
17
18
20F
1
1
N
D
248
A
A
0
N
N
N
N
N
a
b
c
d
e
f
g
h
a
f1
f2
Drive
ND Rating
ND Rating
Code
Type
20F
PowerFlex 753
20G
PowerFlex 755
400V, 50 Hz Input
480V, 60 Hz Input Frame
C ode
Amps
kW
2P1
2.1
C ode
Amps
Hp
0.75
2P1
2.1
1
3P5
3.5
1.5
3P4
3.4
2
5P0
5.0
2.2
5P0
5.0
3
8P7
8.7
4
8P0
8.0
5
011
11.5
5.5
011
11
7.5
N
b Future Use
c Input Type
Frame
Enclosure Code
2
F
2
G
2
015
15.4
7.5
014
14
10
Code
Description
Frames
022
22
11
022
22
15
1
6 Pulse, w/DC Terminals
2…7
030
30
15
027
27
20
4
DC Common Bus with Precharge
5…7
037
37
18.5
034
34
25
6 Pulse, w/o DC Terminals
6, 7
043
43
22
040
40
30
060
60
30
052
52
40
072
72
37
065
65
50
085
85
45
077
77
60
104
104
55
096
96
75
125
125
100
156
156
125
186
186
150
248
248
200
302
302
250
361
361
300
415
415
350
A
For Frames 2…4, Code 1 also provides the functionality of DC Common Bus with Precharge. For Frames 5 and larger, Code 4 is required for DC Common Bus with Precharge.
140
140
75
d
170
170
90
Enclosure
205
205
110
Description
260
260
132
F
Flange (NEMA/UL Type 4X back) § ‡
302
302
160
G
IP54, NEMA/UL Type 12 §
367
367
200
456
456
250
Code
N
IP20/IP00, NEMA/UL Type Open
‡ For Frames 6…7 a User Installed Flange Kit is available to convert a Code N drive that provides a NEMA/UL Type 4X back.
3
3
4
4
5
5
3 4 5
6 6 ‡ 7
Enclosure Code
7
‡ For Frames 6…7 a User Installed Flange Kit is available to convert a Code N drive that provides a NEMA/UL Type 4X back.
N
F
G
2
2
2
3
3
3
4
4
5
5
4 5
6 6 ‡ 7
7
‡ For Frames 6…7 a User Installed Flange Kit is available to convert a Code N drive that provides a NEMA/UL Type 4X back.
§ Frames 2…5 only.
g
Frames 2…5 are IP20, Frames 6…7 are IP00.
Filtering and CM Cap Configuration
e
Filtering
Default CM Cap Connection
A
Yes
Jumper Removed
J
Yes
Jumper Installed
Code
Voltage Rating Code
C D
Voltage
400V AC 480V AC
In all cases, jumpers are included for field reconfiguration as desired.
h Dynamic Braking Internal Resistor
Internal Transistor
A
No
Yes
B
Yes
Yes
N
No
No
Code
Frame 2 only. Standard on Frames 2…5, Optional on Frames 6…7.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Step 1
Read the General Precautions
Qualified Personnel
!
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.
Personal Safety
!
ATTENTION: To avoid an electric shock hazard, verify that the voltage on the bus capacitors has discharged completely before servicing. Check the DC bus voltage at the Power Terminal Block by measuring between the +DC and -DC terminals (refer to page 44 for location), between the +DC terminal and the chassis, and between the -DC terminal and the chassis. The voltage must be zero for all three measurements.
!
ATTENTION: Hazard of personal injury or equipment damage exists when using bipolar input sources. Noise and drift in sensitive input circuits can cause unpredictable changes in motor speed and direction. Use speed command parameters to help reduce input source sensitivity.
!
ATTENTION: Risk of injury or equipment damage exists. DPI or SCANport host products must n ot be directly connected together via 1202 cables. Unpredictable behavior can result if two or more devices are connected in this manner.
! !
ATTENTION: The drive start/stop/enable control circuitry includes solid state components. If hazards due to accidental contact with moving machinery or unintentional flow of liquid, gas or solids exists, an additional hardwired stop circuit may be required to remove the AC line to the drive. An auxiliary braking method may be required. ATTENTION: Hazard of personal injury or equipment damage due to unexpected machine operation exists if the drive is configured to automatically issue a Start or Run command. Do not use these functions without considering applicable local, national and international codes, standards, regulations or industry guidelines.
Product Safety
! !
! !
ATTENTION: An incorrectly applied or installed drive can result in component damage or a reduction in product life. Wiring or application errors such as under sizing the motor, incorrect or inadequate AC supply, or excessive surrounding air temperatures may result in malfunction of the system. 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 Guarding Against Electrostatic Damage, publication 8000-4.5.2 or any other applicable ESD protection handbook. ATTENTION: Configuring an analog input for 0-20 mA operation and driving it from a voltage source could cause component damage. Verify proper configuration prior to applying input signals. ATTENTION: A contactor or other device that routinely disconnects and reapplies the AC line to the drive to start and stop the motor can cause drive hardware damage. The drive is designed to use control input signals that will start and stop the motor. If an input device is used, operation must not exceed one cycle per minute or drive damage will occur.
Class 1 LED Product
!
ATTENTION: Hazard of permanent eye damage exists when using optical transmission equipment. This product emits intense light and invisible radiation. Do not look into module ports or fiber optic cable connectors.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
6
CE Conformity Compliance with the Low Voltage Directive and Electromagnetic Compatibility Directive has been demonstrated using harmonized European Norm (EN) standards published in the Official Journal of the European Communities. PowerFlex 750-Series drives comply with the EN standards listed below when installed according to this PowerFlex 750-Series AC Drive Installation Instructions and the PowerFlex 750-Series AC Drive User Manual. CE Declarations of Conformity are available online at: www.rockwellautomation.com/products/certification / Low Voltage Directive (2006/95/EC) • EN 61800-5-1 Adjustable speed electrical power drive systems – Part 5-1: Safety requirements – Electrical, thermal and energy. EMC Directive (2004/108/EC) • EN 61800-3 Adjustable speed electrical power drive systems – Part 3: EMC product standard including specific test methods. General Considerations • For CE compliance, drives must satisfy installation requirements related to both EN 61800-5-1 and EN 61800-3 provided in this document. • PowerFlex 750-Series AC Drives comply with the EMC requirements of EN 61800-3 when installed according to good EMC practices and the instructions provided in this document. However, many factors can influence the EMC compliance of an entire machine or installation, and compliance of the drive itself does not ensure compliance of all applications. • PowerFlex 750-Series drives are not intended to be used on public low-voltage networks which supply domestic premises. Without additional mitigation, radio frequency interference is expected if used on such a network. The installer is responsible to take measures such as supplementary line filters and enclosures to prevent interference, in addition to the installation requirements of this document. • Requirements for supplementary mitigation related to specific high frequency emission limits are provided in Table 1.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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• PowerFlex 750-Series drives generate harmonic current emissions on the AC supply system. When operated on a public low-voltage network it is the responsibility of the installer or user to ensure that applicable requirements of the distribution network operator have been met. Consultation with the network operator and Rockwell Automation may be necessary.
!
ATTENTION: PowerFlex 750-Series drives produce DC current in the protective earthing conductor which may reduce the ability of RCD’s (residual current-operated protective devices) or RCM’s (residual current-operated monitoring devices) of type A or AC to provide protection for other equipment in the installation.
Installation Requirements Related to EN 61800-5-1 and the Low Voltage Directive • 600V and 690V class PowerFlex 750-Series drives are designed to be CE compliant only if they are NOT connected to “corner-earthed” supply systems where one of the three phases of the supply system has been earthed. • Voltage classes up to 480V PowerFlex 750-Series drives are compliant with the CE LV Directive when used on a “corner-earthed” supply system as well as all other common supply systems for altitudes up to and including 2000 m (6562 ft). • When used at altitudes above 2000 m (6562 ft) up to a maximum of 4865 m (15,961 ft), PowerFlex 750-Series drives of voltage classes up to 480V may not be powered from a “corner-earthed” supply system in order to maintain compliance with the CE LV Directive. • Drives provided in the IP54, NEMA/UL Type 12 enclosure are compliant with the CE LV Directive when installed in pollution degree 1…4 environments. All other enclosure types must be installed in a pollution degree 1 or 2 environment to be compliant with the CE LV Directive. Characteristics of the different pollution degree ratings are provided in Table 6 on page 12. • NEMA/UL Open Type and Flange Mount drives must either be installed in a supplementary enclosure or equipped with a “NEMA Type 1 Kit” to be CE compliant with respect to protection against electrical shock. • PowerFlex 750-Series drives produce leakage current in the protective earthing conductor which exceeds 3.5 mA AC and/or 10 mA DC. The minimum size of the protective earthing (grounding) conductor used in the application must comply with local safety regulations for high protective earthing conductor current equipment.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
8
Installation Requirements Related to EN 61800-3 and the EMC Directive • The drive must be earthed (grounded) as described in the PowerFlex 750-Series User Manual, publication 750-UM001. • Output power wiring to the motor must employ cable with a braided shield providing 75% or greater coverage, or the cables must be housed in metal conduit, or equivalent shielding must be provided. Continuous shielding must be provided from the drive enclosure to the motor enclosure. Both ends of the motor cable shield (or conduit) must terminate with a low-impedance connection to earth. At the drive end of the motor cable, either a) The cable shield must be clamped to a properly-installed “EMC plate” for the drive. Kit number 20-750-EMC1-F x .
or b) The cable shield or conduit must terminate in a shielded connector used in conjunction with a properly-installed conduit plate or conduit box provided in the “NEMA Type 1 Kit” for the drive. Kit number 20-750-NEMA1-F x .
• At the motor end, the motor cable shield or conduit must terminate in a shielded connector which must be properly installed in an earthed motor wiring box attached to the motor. The motor wiring box cover must be installed and earthed. • All control (I/O) and signal wiring to the drive must use cable with a braided shield providing 75% or greater coverage, or the cables must be housed in metal conduit, or equivalent shielding must be provided. When shielded cable is used, only the drive end of the cable shield should be terminated with a low-impedance connection to earth. The cable shield may be terminated either by using a shielded connector in conjunction with a conduit plate or conduit box, or the shield may be clamped to an “EMC plate.” • Motor cabling must be separated from control and signal wiring wherever possible. • Maximum motor cable length must not exceed the maximum length indicated in Table 1 for compliance with radio frequency emission limits for the specific standard and installation environment. • EMC cores must be applied to input power and motor cabling for some models of the PowerFlex 750-Series drives as indicated in Table 1. • The drive must be powered from an earthed supply system such as a TN or TT system and the PE-A and PE-B jumpers in the drive must be installed (see Drive Power Jumper Configuration starting on page 53).
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
9
Table 1
PowerFlex 750-Series RF Emission Compliance and Installation Requirements
Standard / Limits EN61800-3 Cat. C1 Drive Frame EN61000-6-3 Catalog Number CISPR11 Group 1 Class B Frame 2 Compliance possible with 20F11xx2P1…20F11xx022 supplementary mitigation 20G11xx2P1…20G11xx022 (Consult factory) Frame 3 Compliance possible with 20F11xx030…20F11xx043 supplementary mitigation 20G11xx030…20G11xx043 (Consult factory) Frame 4 Compliance possible with 20F11xx060…20F11xx072 supplementary mitigation 20G11xx060…20G11xx072 (Consult factory) Frame 5 Compliance possible with 20F11xx085…20F11xx104 supplementary mitigation 20G11xx085…20G11xx104 (Consult factory) Frame 6 Compliance possible with 20F11xx140…20F11xx260 supplementary mitigation 20G11xx140…20G11xx260 (Consult factory) Frame 7 Compliance possible with 20F11xx302…20F11xx477 supplementary mitigation 20G11xx302…20G11xx477 (Consult factory) More Stringent Limits
EN61800-3 Cat. C2 EN61000-6-4 CISPR11 Group 1 Class A (input power ≤ 20 kVA) 30 m motor cable limit with input core (1)
EN61800-3 Cat. C3 (I ≤ 100 A) CISPR11 Group 1 Class A EN61800-3 Cat. C3 (Input power > 20 kVA) I > 100 A 30 m motor cable limit with N/A input core (1)
30 m motor cable limit with input core (1)
30 m motor cable limit with input core (1)
N/A
30 m motor cable limit with input and output cores (1)
30 m motor cable limit with input and output cores (1)
N/A
30 m motor cable limit with input and output cores (1)
30 m motor cable limit with input and output cores (1)
30 m motor cable limit with input and output cores (1)
Compliance possible with supplementary mitigation (Consult factory) Compliance possible with supplementary mitigation (Consult factory)
30 m motor cable limit
30 m motor cable limit
30 m motor cable limit
30 m motor cable limit
Less Stringent Limits
(1) Rating-specific EMC cores are part of EMC kit numbers 20-750-EMC1-xx and 20-750-EMC2-xx.
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Step 2
Mount the Drive Important: IP00, IP20, and NEMA/UL Open Type PowerFlex 750-Series drives must be mounted in a clean, dry location. Contaminants such as oils, corrosive vapors and abrasive debris must be kept out of the enclosure. These enclosures are intended for indoor use primarily to provide a degree of protection against contact with enclosed equipment. These enclosures offer no protection against airborne contaminants. Refer to Table 6 and Table 7 for an explanation of enclosure options.
Operating Conditions and Temperatures PowerFlex 750-Series drives are designed to operate at the following air temperatures without derating. Table 2
Acceptable Surrounding Air Temperature
Enclosure Rating IP20, NEMA/UL Open Type IP00, NEMA/UL Open Type IP20, NEMA/UL Type 1 (with Debris Hood) IP20, NEMA/UL Type 1 (with Debris Label) Flange Mount Front: IP20, NEMA/UL Open Type IP00, NEMA/UL Open Type Back/Heat Sink: IP66, NEMA/UL Type 4X Stand-alone/Wall Mount IP54, NEMA/UL Type 12
Table 3 Frame
2
3
4 5 6
7
(1)
Temperature Range Drive 0…50 °C (32…122 °F) Frames 2…5, All Ratings 0…50 °C (32…122 °F) Frames 6…7, All Ratings 0…40 °C (32…104 °F) Frames 2…5, All Ratings 0…40 °C (32…104 °F) Frames 6…7, All Ratings
0…50 °C (32…122 °F) 0…50 °C (32…122 °F)
Frames 2…5, All Ratings Frames 6…7, All Ratings
0…40 °C (32…104 °F)
All Frames, All Ratings
0…40 °C (32…104 °F)
All Frames, All Ratings
400 Volt Ratings - Watts Loss ND kW
External Watts
Internal Watts
Total Watts
0.75 1.5 2.2 4.0 5.5 7.5 11 15 18.5 22 30 37 45 55 75 90 110 132 160 200 250
16 26 39 75 108 161 225 300 362 505 487 615 705 928 1239 1381 1893 2449 2566 3322 3922
55 57 58 64 70 80 86 103 115 126 130 147 162 201 319 300 381 502 461 586 743
71 83 97 139 178 241 311 403 477 631 617 762 867 1129 1558 1681 2274 2951 3027 3908 4665
(1) Enclosure codes F and N only.
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Table 4 Frame
2
3
4 5 6
7
(1)
480 Volt Ratings - Watts Loss ND Hp
External Watts
Internal Watts
Total Watts
1.0 2.0 3.0 5.0 7.5 10 15 20 25 30 40 50 60 75 100 125 150 200 250 300 350
17 27 41 71 108 149 237 273 368 503 422 559 646 855 1109 1299 1718 2384 2704 3409 3604
60 61 63 68 74 81 91 101 115 126 125 144 158 189 299 294 358 492 491 606 683
77 88 104 139 182 230 328 374 483 629 547 703 804 1044 1408 1593 2076 2876 3195 4015 4287
(1) Enclosure codes F and N only.
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Table 5
Environmental Specifications
Specification Altitude Storage Temperature Atmosphere
Relative Humidity Shock - Operating Shock - Packaged for Shipment
Vibration - Operating
Description 1000 m (3300 ft) maximum without derating –40…70 °C (–40…158 °F) Important: Drive must not be installed in an area where the ambient atmosphere contains volatile or corrosive gas, vapors or dust. If the drive is not going to be installed for a period of time, it must be stored in an area where it will not be exposed to a corrosive atmosphere. 5…95% non-condensing Frame 2…6: 15 g peak for 11 ms duration (±1.0 ms) Frame 7: 10 g peak for 11 ms duration (±1.0 ms) Frame 2: 381 mm (15 in.) drop height Frame 3…4: 330 mm (13 in.) drop height Frame 5: 305 mm (12 in.) drop height Frame 6…7: Meets International Safe Transit Association (ISTA) test procedure 2B Frame 2: 1.000 mm (0.040 in.) displacement, 2 g peak Frame 3…5: 1.000 mm (0.040 in.) displacement, 1.5 g peak Frame 6…7: 1.000 mm (0.040 in.) displacement, 1 g peak
Vibration - Packaged for Shipment Sinusoidal Loose Load: Frame 2…5: 20.0 mm (0.8 in.) peak to peak, 2…5.186 Hz; 1.1 g peak from 5.186…20 Hz Frame 6…7: Meets ISTA 2B packaging standards Frame 2…5: Frequency (Hz) Random Secured: PSD (g2 /Hz) 1 0.00005 4 0.01 16 0.01 40 0.001 80 0.001 200 0.00001 Frame 6…7 Meets International Safe Transit Association (ISTA) test procedure 2B Surrounding Environment Pollution Degree (1) Pollution Degree 1 & 2: All enclosures acceptable. Pollution Degree 3 & 4: Enclosure that meets or exceeds IP54, NEMA/UL Type 12 required. (1) Refer to Table 6 on page 12 for descriptions of each pollution degree rating.
Table 6 Pollution Degree 1 2
3 4
Pollution Degree Ratings According to EN 61800-5-1 Description No pollution or only dry, non-conductive pollution occurs. The pollution has no influence. Normally, only non-conductive pollutio n occurs. Occasionally, however, a temporary conductivity caused by condensation is to be expected, when the drive is out of operation. Conductive pollution or dry non-conductive pollution occurs, which becomes conductive due to condensation, which is to be expected. The pollution generates persistent conductivity caused, for example by conductive dust or rain or snow.
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Table 7
Frames 2, 3, 4, 5
Enclosure Type (Cat. No. Position 6) N
F G 6, 7
N
G
Drive Enclosure Ratings
Front Side Rating Installed Accessory Kit Enclosure Type None IP20 NEMA/UL Open Type NEMA Type 1 IP20 NEMA/UL Type 1 Flange IP20 NEMA/UL Type 1 None IP20 NEMA/UL Open Type None IP54 NEMA/UL Type 12 None IP00 NEMA/UL Open Type NEMA Type 1 IP20 NEMA/UL Type 1 NEMA Type 4X IP00 Flange NEMA/UL Open Type None IP54 NEMA/UL Type 12
Back Side/Heat Sink Rating Pollution Degree 1, 2 1, 2 1, 2 1, 2 1, 2, 3, 4 1, 2 1, 2 1, 2 1, 2, 3, 4
Enclosure Type IP20 NEMA/UL Open Type IP20 NEMA/UL Type 1 IP20 NEMA/UL Type 1 IP66 NEMA/UL Type 4X IP54 NEMA/UL Type 12 IP00 NEMA/UL Open Type Kit IP20 NEMA/UL Type 1 IP66 NEMA/UL Type 4X IP54 NEMA/UL Type 12
Pollution Degree 1, 2 1, 2 1, 2 1, 2, 3, 4 1, 2, 3, 4 1, 2 1, 2 1, 2, 3, 4 1, 2, 3, 4
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Minimum Mounting Clearances Specified vertical clearance requirements (indicated in Figure 1) are intended to be from drive to drive. Other objects can occupy this space; however, reduced airflow may cause protection circuits to fault the drive. The drive must be mounted in a vertical orientation as shown. In addition, inlet air temperature must not exceed the product specification. Figure 1
Drive Enclosure Minimum Mounting Clearances
76.2 mm (3.0 in.)
76.2 mm (3.0 in.)
Airflow through the drive must not be impeded.
Dimensions Table 8 400V AC Input Catalog Number 20x…C2P1 20x…C3P5 20x…C5P0 20x…C8P7 20x…C011 20x…C015 20x…C022 20x…C030 20x…C037 20x…C043 20x…C060 20x…C072 20x…C085 20x…C104 20x…C140 20x…C170 20x…C205 20x…C260 20x…C302 20x…C367 20x…C456
Frame/Rating Cross-Reference
480V AC Input Normal Duty Heavy Duty kW Output kW Output 0.75 0.75 1.5 1.5 2.2 2.2 4 4 5.5 5.5 7.5 5.5 11 7.5 15 11 18.5 15 22 18.5 30 22 37 30 45 37 55 45 75 55 90 75 110 90 132 110 160 132 200 160 250 200
Catalog Number 20x…D2P1 20x…D3P4 20x…D5P0 20x…D8P0 20x…D011 20x…D014 20x…D022 20x…D027 20x…D034 20x…D040 20x…D052 20x…D065 20x…D077 20x…D096 20x…D125 20x…D156 20x…D186 20x…D248 20x…D302 20x…D361 20x…D415
Normal Duty Heavy Duty Hp Output Hp Output 1 1 2 2 3 3 5 5 7.5 7.5 10 7.5 15 10 20 15 25 20 30 25 40 30 50 40 60 50 75 60 100 75 125 100 150 125 200 150 250 200 300 250 350 300
Frame Size Enclosure Code N F
G
2
2
2
3
3
3
4
4
5
5
4 5
6 6 N/A 7
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15
Figure 2
IP20, NEMA/UL Open Type Frames 2…5 (Frame 2 Shown) A D
C
6.4 (0.25) 14.3 (0.56)
B F
E
Dimensions are in millimeters and (inches). Weights are in kilograms and (pounds). Frame A 2 134.5 (5.30) 3 190.0 (7.48) 4 222.0 (8.74) 5 270.0 (10.63)
B 424.2 (16.70) 454.0 (17.87) 474.0 (18.66) 550.0 (21.65)
C 212.0 (8.35) 212.0 (8.35) 212.0 (8.35) 212.0 (8.35)
D 100.0 (3.94) 158.0 (6.22) 194.0 (7.64) 238.0 (9.37)
E 100.0 (3.94) 158.0 (6.22) 202.0 (7.95) 238.0 (9.37)
F 404.2 (15.91) 435.0 (17.13) 455.0 (17.91) 531.0 (20.91)
Weight kg (lb) 7.8 (17.2) 11.8 (26.1) 13.6 (30.0) 20.4 (45.0)
M6 (1/4 in.) mounting hardware recommended.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 3
NEMA/UL Type 1 Kit Frames 2…5 (Frame 4 Shown) A
B
D
C
Dimensions are in millimeters and (inches). Frame A 2 222.2 (8.75) 3 223.1 (8.78) 4 222.7 (8.77) 5 222.7 (8.77)
B 497.1 (19.57) 530.1 (20.87) 564.4 (22.22) 665.4 (26.20)
C 117.7 (4.63) 154.7 (6.09) 154.7 (6.09) 155.0 (6.10)
D 38.0 (1.50) 38.0 (1.50) 40.0 (1.57) 55.0 (2.17)
Important: NEMA Type 1 Kits (20-750-NEMA-F x ) do not change the mounting dimensions in Figure 2.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 4
NEMA/UL Type 1 Frames 2…5 Bottom View Dimensions 130.0 (5.12) 125.0 (4.92)
89.7 (3.53) 87.0 (3.43) 67.5 (2.66) 48.0 (1.89) 45.3 (1.78)
95.0 (3.74) 65.0 (2.56) 60.0 (2.36)
5x: Ø22.0 (Ø0.87)
2x: Ø43.7 (Ø1.72)
2x: Ø29.0 (Ø1.14)
168.7 (6.64) 156.7 (6.17) 118.7 (4.67)
171.6 (6.76)137.6 (5.42) 94.6 (3.72)
Frame 2
Frame 3
158.8 (6.25) 144.8 (5.70) 110.8 (4.36) 76.8 (3.02) 62.8 (2.47)
201.0 (7.91) 180.0 (7.09) 135.0 (5.31) 5x: Ø22.2 (Ø0.87)
2x: Ø43.7 (Ø1.72)
187.0 (7.36) 168.7 (6.64)
5x: Ø22.2 (Ø0.87)
5x: Ø22.2 (Ø0.87)
90.0 (3.54) 69.0 (2.72)
2x: Ø50.0 (Ø1.97)
187.0 (7.36) 173.0 (6.81)
118.7 (4.67)
123.0 (4.84)
Frame 4
Frame 5
Dimensions are in millimeters and (inches).
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 5
EMC Plate Kit Frames 2…5 (Frame 4 Shown) A
B C
E
D F
Dimensions are in millimeters and (inches). Frame A 2 134.5 (5.30) 3 190.0 (7.48) 4 222.0 (8.74) 5 270.0 (10.63)
B 485.9 (19.13) 514.0 (20.24) 533.7 (21.01) 609.7 (24.00)
C 424.2 (16.70) 454.0 (17.87) 474.0 (18.66) 550.0 (21.65)
D 61.7 (2.43) 60.0 (2.36) 59.7 (2.35) 59.7 (2.35)
E 43.5 (1.71) 74.0 (2.91) 84.0 (3.31) 77.8 (3.06)
F 79.5 (3.13) 116.0 (4.57) 138.0 (5.43) 191.8 (7.55)
Important: EMC Kits (20-750-EMC-F x ) do not change the mounting dimensions in Figure 2. Refer to the PowerFlex 750-Series EMC Plate and Core(s) Installation Instructions, publication 750-IN006, for detailed information on kit installation.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 6
IP00, NEMA/UL Open Type Frames 6 & 7 (Frame 6 Shown) A
C
B
D F
6.4 (0.25) ø14.5
6
(0.57)
ø6.5 (0.26)
14.5 (0.57) 8.5
E
(0.33)
G ø16.0
(0.63)
7 ø8.5 (0.33)
25.0 (0.98)
Dimensions are in millimeters and (inches). Weights are in kilograms and (pounds).
Frame A 6 308.0 (12.13) 7 430.0 (16.93)
B 665.5 (26.20) 881.5 (34.70)
C 346.4 (13.64) 349.6 (13.76)
D 283.0 (11.14) 380.0 (14.96)
E 623.0 (24.53) 838.0 (32.99)
F 254.0 (10.00) 330.0 (12.99)
G 609.0 (23.98) 825.0 (32.48)
Weight kg (lb) 38.6 (85.0) 72.6…108.9 (160.0…240.0)
Frame 6: M6 (1/4 in.) mounting hardware recommended. Frame 7: M8 (5/16 in.) mounting hardware recommended.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 7
NEMA/UL Type 1 Kit Frame 6 308.0 (12.13)
346.7 (13.65)
945.1 (37.21)
Dimensions are in millimeters and (inches). Important: NEMA Type 1 Kit (20-750-NEMA-F6) does not change the mounting dimensions in Figure 6.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 8
NEMA/UL Type 1 Frame 7
430.0 (16.93) 380.0 (14.96)
1271.0 (50.04) 1221.0 (48.07)
881.8 (34.72) 825.0 (32.48)
8.5
(0.33)
ø16.0
(0.63)
339.2 (13.35)
20.5 (0.81)
389.2 (15.32)
389.0 (15.31)
561.0 (22.08) 430.0 (16.93)
Dimensions are in millimeters and (inches).
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 9
IP54, NEMA/UL Type 12 Frames 2…5 (Frame 2 Shown) A D
C 6.4 (0.25) 14.3 (0.56)
B E
Dimensions are in millimeters and (inches). Weights are in kilograms and (pounds). Frame A 2 215.3 (8.48) 3 268.0 (10.55) 4 300.0 (11.81) 5 348.0 (13.70)
B 543.2 (21.39) 551.0 (21.69) 571.0 (22.48) 647.0 (25.47)
C D E Weight kg (lb) 222.2 (8.75) 100.0 (3.94) 528.2 (20.80) 7.8 (17.2) 220.1 (8.67) 158.0 (6.22) 533.0 (20.98) 11.8 (26.1) 220.1 (8.67) 194.0 (7.64) 553.0 (21.77) 13.6 (30.0) 220.1 (8.67) 238.0 (9.37) 629.0 (24.76) 20.4 (45.0)
M6 (1/4 in.) mounting hardware recommended.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 10
IP54, NEMA/UL Type 12 Frames 2…5 Bottom View Dimensions
88.1 (3.47) 85.7 (3.37) 65.1 (2.56) 44.5 (1.75) 42.1 (1.66)
135.8 (5.35) 123.3 (4.85) 92.8 (3.65) 62.3 (2.45) 49.8 (1.96)
2x: Ø22.0 (Ø0.87)
3x: Ø22.2 (Ø0.87) 2x: Ø43.7 (Ø1.72)
3x: Ø29.0 (Ø1.14) 183.5 (7.22) 136.5 (5.37)
179.4 (7.06)146.4 (5.76)109.4 (4.31)
Frame 2
Frame 3 212.8 (8.38) 172.8 (6.80) 132.8 (5.23)
165.8 (6.53) 140.8 (5.54) 108.8 (4.28) 76.8 (3.02) 51.8 (2.04)
3x: Ø22.2 (Ø0.87)
92.8 (3.65) 52.8 (2.08)
3x: Ø22.2 (Ø0.87)
2x: Ø50.0 (Ø1.97)
2x: Ø43.7 (Ø1.72) 181.9 (7.16) 141.9 (5.59)
182.0 (7.17) 136.5 (5.37)
Frame 4
Frame 5
Dimensions are in millimeters and (inches).
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 11
IP54, NEMA/UL Type 12, Frame 6 558.8 (22.00)
609.4 (23.99)
464.7 (18.30)
1298.3 (51.11) 1238.3 (48.75)
10.5 (0.41)
ø22.0
1058.1 (41.66)
Dimensions are in millimeters and (inches).
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
(0.87)
25
Figure 12
IP54, NEMA/UL Type 12, Frame 7 558.8 (22.00)
609.6 (24.00)
464.8 (18.30)
1614.0 (63.54) 1543.1 (60.75)
10.5 (0.41)
ø22.0
(0.87)
1058.4 (41.67)
Dimensions are in millimeters and (inches).
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 13
Flange Mount Frame 2 206.2 (8.12)
212.0 (8.35)
481.8 (18.97)
188.3 (7.41) 169.2 (6.66)
14x: Ø3.50 (Ø0.138)
94.2 (3.71) 19.2 (0.76)
63.7 (2.51)
460.6 (18.13)
399.60 +1.80/-0.00 (15.7 +0.1/-0.0)
395.3 (15.56) 285.3 (11.23) 175.3 (6.90)
65.3 (2.57)
128.00 +1.80/-0.00 (5.0 +0.1/-0.0)
30.5 (1.20)
30.2 (1.19)
Dimensions are in millimeters and (inches). Important: Must use mounting hardware supplied to meet enclosure rating.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 14
Flange Mount Frame 3 260.0 (10.24)
212.0 (8.35)
515.0 (20.28)
240.5 (9.47) 208.3 (8.20) 16x: Ø3.50 (Ø0.138)
120.3 (4.74) 32.3 (1.27)
84.6 (3.33)
495.5 (19.51) 457.8 (18.02) 352.8 (13.89)
434.00 +1.80/-0.00 (17.087 +0.070/-0.000)
247.8 (9.76) 142.8 (5.62)
4x: 5.00R (0.197R)
37.8 (1.48)
179.00 +1.80/-0.00 (7.047 +0.070/-0.000) 30.75 (1.211)
30.75 (1.211)
Dimensions are in millimeters and (inches). Important: Must use mounting hardware supplied to meet enclosure rating.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 15
Flange Mount Frame 4 292.0 (11.50)
211.9 (8.34)
535.0 (21.06)
272.50 (10.728) 224.25 (8.829) 136.25 (5.364)
16x: Ø3.50 (Ø0.138)
48.25 (1.900)
84.5 (3.33)
515.50 (20.295) 477.75 (18.809) 454.00 +1.80/-0.00 (17.874 +0.070/-0.000)
367.75 (14.478) 257.75 (10.148) 147.75 (5.817)
37.75 (1.486) 30.75 (1.211)
4x: 5.00R (0.197R)
211.00 +1.80/-0.00 (8.307 +0.070/-0.000)
30.75 (1.211)
Dimensions are in millimeters and (inches). Important: Must use mounting hardware supplied to meet enclosure rating.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 16
Flange Mount Frame 5 340.0 (13.39)
211.9 (8.34)
611.0 (24.06)
320.50 (12.618) 280.25 (11.033) 200.25 (7.884) 120.25 (4.734)
22x: Ø3.50 (Ø0.138)
40.25 (1.585)
591.50 (23.287) 550.75 (21.683)
84.5 (3.33)
465.75 (18.337) 531.0 +1.8/-0.0 (20.91 +0.07/-0.00)
380.75 (14.990) 295.75 (11.644) 210.75 (8.297) 125.75 (4.951)
4x: 5.00R (0.197R)
40.75 (1.604)
259.0 +1.8/-0.0 (10.20 +0.07/-0.00)
30.25 (1.191)
30.75 (1.211)
Dimensions are in millimeters and (inches). Important: Must use mounting hardware supplied to meet enclosure rating.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 17
Flange Mount Frame 6 346.4 (13.64) 308.0 (12.13)
208.4 (8.20)
665.5 (26.20)
284.0 (11.18) 258.0 (10.16) 225.5 (8.88) 193.0 (7.60) 91.0 (3.58) 58.5 (2.30) 26.0 (1.02)
24x: Ø6.4 (Ø0.25)
624.0 (24.57)
600.0 (23.62) 138.0 (5.43)
562.0 (22.13) 561.0 +2.0/-1.5 (22.09 +0.08/-0.06)
462.0 (18.19) 362.0 (14.25) 262.0 (10.31) 162.0 (6.38)
62.0 (2.44) 24.0 (0.94)
268.0 +2.0/-1.5 (10.60 +0.08/-0.06) 8.0 (0.30)
31.5 (1.24)
Dimensions are in millimeters and (inches). Important: Must use Flange Adapter kit (20-750-FLNG4-F6) to meet enclosure rating.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Figure 18
Flange Mount Frame 7
430.0 (16.93)
208.4 (8.20)
875.0 (34.45)
138.0 (5.43)
403.00 (15.87) 352.63 (13.88) 251.88 (9.92) 151.13 (5.95)
32x: Ø7.0 (Ø0.28)
50.38 (1.98)
812.0 (31.97) 784.0 (30.87) 744.8 (29.32) 666.4 (26.24)
768.0 (30.24)
588.0 (23.15) 509.6 (20.06) 431.2 (16.98) 352.8 (13.89) 274.4 (10.80) 196.0 (7.72) 117.6 (4.63) 39.2 (1.54) 28.0 (1.10) 8.0 (0.31)
387.0 (15.24)
8.0 (0.31)
Dimensions are in millimeters and (inches). Important: Must use Flange Adapter kit (20-750-FLNG4-F7) to meet enclosure rating. PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
32
Lifting the Drive The dimensions and weights specified must be taken into consideration when mounting the drive. All lifting equipment and lifting components (hooks, bolts, lifts, slings, chains, etc.) must be properly sized and rated to safely lift and hold the weight of the drive while mounting. ATTENTION: To guard against possible personal injury and/or equipment damage… • Inspect all lifting hardware for proper attachment before lifting drive. • Do not allow any part of the drive or lifting mechanism to make contact with electrically charged conductors or components. • Do not subject the drive to high rates of acceleration or deceleration while transporting to the mounting location or when lifting. • Do not allow personnel or their limbs directly underneath the drive when it is being lifted and mounted.
!
Figure 19
Frame 6 Open Type and Flange Mount: Weight 38.6 kg (85.0 lb)
<45° >1 / 2 A A
Figure 20
Frame 7 Open Type and Flange Mount: Weight 72.6…108.9 kg (160.0…240.0 lb) Frame 6 NEMA/UL Type 4X/12: Weight 90.7 kg (200 lb) Frame 7 NEMA/UL Type 4X/12: Weight 171 kg (377 lb)
<45° >1 / 2 A A
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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IP00, NEMA/UL Open Type Frame 6 Lifting Points – 6 Places
Frame 7 Lifting Points – 8 Places
IP66, NEMA/UL Type 4X/12 Flange Mount Frame 6 Lifting Points – 2 Places
Frame 7 Lifting Points – 4 Places
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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IP54, NEMA/UL Type 12 Frame 6 and 7 Lifting Points – 4 Places
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Accessing the Terminals Opening the Cover Figure 21
IP20, NEMA/UL Open Type, Frames 2…5
Figure 22
IP54, NEMA/UL Type 12, Frames 2…5
2x: M4 X 0.7
When cover is replaced: • Recommended torque (screws and nuts) = 0.68 N•m (6.0 lb•in) • Recommended screwdriver = 6.4 mm (0.25 in.) flat or T20 Hexalobular • Recommended hex socket = 7 mm
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
36
Figure 23
IP00, NEMA/UL Open Type, Frames 6 & 7
90°
When cover is replaced: • Recommended screwdriver = 9.5 mm (0.375 in.) flat Figure 24
IP00, NEMA/UL Open Type, Frames 6 & 7 Access Door
When door is replaced: • Recommended screwdriver = 6.4 mm (0.25 in.) flat or T20 Hexalobular
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Step 3
Wire the Drive
!
ATTENTION: National Codes and standards (NEC, VDE, BSI etc.) and local codes outline provisions for safely installing electrical equipment. Installation must comply with specifications regarding wire types, conductor sizes, branch circuit protection and disconnect devices. Failure to do so may result in personal injury and/or equipment damage.
Special Considerations PowerFlex 750-Series drives are suitable for use on a circuit capable of delivering up to a maximum of 200,000 rms symmetrical amperes, 480 volts with recommended fuses/circuit breakers.
!
ATTENTION: To guard against personal injury and/or equipment damage caused by improper fusing or circuit breaker selection, use only the recommended line fuses/circuit breakers specified in Fusing on page 50.
If a Residual Current Detector (RCD) is used as a system ground fault monitor, only Type B (adjustable) devices should be used to avoid nuisance tripping. Unbalanced, Ungrounded, Impedance or Phase Grounded Distribution Systems If phase to ground voltage will exceed 125% of normal line to line voltage or the supply system is ungrounded, refer to Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001.
!
ATTENTION: PowerFlex 750-Series drives contain protective MOVs and common mode capacitors that are referenced to ground. To guard against drive damage, these devices must be configured according to the recommendations in Table 21 on page 54. See pages 55…57 for jumper locations.
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Input Power Conditioning Certain events on the power system supplying a drive can cause component damage or shortened product life. These conditions are divided into 2 basic categories: 1. All drives – The power system has power factor correction capacitors switch in and out of the system, either by the user or by the power company. – The power source has intermittent voltage spikes in excess of 6000 volts. These spikes could be caused by other equipment on the line or by events such as lightning strikes. – The power source has frequent interruptions. 2. 5 Hp or Less Drives (in addition to “1” above) – The supply transformer is larger than 100 kVA or the available short circuit (fault) current is greater than 100,000A. – The impedance on the input side of the drive is less than 0.5%.
If any of these conditions exist, additional source impedance is required. The total input impedance is a function of all transformers, cabling, and reactors (if used) that supply power to the drive. The impedance can be calculated using the information supplied in Wiring and Grounding Guidelines for PWM AC Drives, publication DRIVES-IN001.
Motor Considerations Due to the operational characteristics of AC variable frequency drives, motors with inverter grade insulation systems designed to meet or exceed NEMA MG1 Part 31.40.4.2 standards for resistance to spikes of 1600 volts are recommended. Guidelines must be followed when using non-inverter grade motors to avoid premature motor failures. Refer to Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001 for recommendations.
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Voltage Tolerance Drive Rating 380…400
Nominal Line Voltage 380 400 480
Drive Full Power Range = Drive Operating Range =
) t u p t u O e v i r D ( r o t o M @ p H
Nominal Motor Voltage 380 400 460
Drive Full Power Range 380…528 400…528 460…528
Drive Operating Range 342…528
Nominal Motor Voltage to Drive Rated Voltage + 10%. Rated current is available across the entire Drive Full Power Range Lowest Nominal Motor Voltage - 10% to Drive Rated Voltage + 10%. Drive Output is linearly derated when Actual Line Voltage is less than the Nominal Motor Voltage
Derated Power Range
No Drive Output
Full Power Range Drive Operating Range
Nominal Motor Voltage -10% Nominal Motor Voltage
Drive Rated Voltage Drive Rated Voltage +10%
Actual Line Voltage (Drive Input)
Example:
Calculate the maximum power of a 5 Hp, 460V motor connected to a 480V rated drive supplied with 342V Actual Line Voltage input. • Actual Line Voltage / Nominal Motor Voltage = 74.3% • 74.3% × 5 Hp = 3.7 Hp • 74.3% × 60 Hz = 44.6 Hz At 342V Actual Line Voltage, the maximum power the 5 Hp, 460V motor can produce is 3.7 Hp at 44.6 Hz. ) 5 Hp t u p t u3.7 Hp O e v i r D ( r o t o M @ p H
No Drive Output
342V
480V 460V
528V
Actual Line Voltage (Drive Input)
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Wire Recommendations Type Power
Standard
Wire Type(s) –
Signal
Standard Analog I/O
–
Remote Pot
–
Encoder/ Pulse I/O <30 m (100 ft)
Combined
0.196 mm2 (24AWG) individually shielded pairs.
Encoder/ Pulse I/O 30 to 152 m (100 to 500 ft)
Signal
0.196 mm2 (24AWG) individually shielded pairs. 0.750 mm2 (18AWG) in.dividually shielded pairs 0.330 mm2 (18AWG), power is 0.500 mm2 (20AWG) individually shielded pairs.
(1)(2)
(1) (3)(4)
Power Combined
Encoder/ Pulse I/O 152 to 259 m (500 to 850 ft.)
Digital I/O Safety Inputs Homing Inputs (1)(3)(4)
(1) (2) (3) (4)
Un-shielded Shielded
Description • Four tinned copper conductors with XLPE insulation. • Copper braid/aluminum foil combination shield and tinned copper drain wire. • PVC jacket. 0.750 mm2 (18AWG), twisted pair, 100% shield with drain. 0.750 mm2 (18AWG), 3 conductor, shielded.
Min. Insulation Rating 600V, 75 °C (167 °F)
300V, 75…90 °C (167…194 °F)
0.196 mm2 (24AWG) individually shielded pairs. Power 0.750 mm2 (18AWG) individually shielded pairs. Combined 0.750 mm2 (18AWG) individually shielded pairs. – Per US NEC or applicable national or local 300V, code. 60 °C (140 °F) 2 Multi-conductor shielded cable 0.750 mm (18AWG), 3 conductor, shielded. Signal
Control and signal wires should be separated from power wires by at least 0.3 meters (1 foot). The use of shielded wire for AC input power may not be necessary but is always recommended. 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. I/O terminals labeled “(–)” or “Common” are not referenced to earth ground and are designed to greatly reduce common mode interference. Grounding these terminals can cause signal noise.
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Terminal Block Specifications Table 9
Frames 2…5 Power Terminal Block
Wire Size Range (1) (2) Minimum Frame Maximum 2 2 4.0 mm 0.2 mm2 (10 AWG) (24 AWG) 2 3 16.0 mm 0.5 mm2 (6 AWG) (20 AWG) 4 25.0 mm2 2.5 mm2 (3 AWG) (14 AWG) 5
35.0 mm2 (1 AWG)
10.0 mm2 (8 AWG)
Strip Length 8.0 mm (0.31 in.) 10.0 mm (0.39 in.) 10.0 mm (0.39 in.)
Recommended Torque 0.5 N•m (4.4 lb•in) 1.2 N•m (10.6 lb•in) 2.7 N•m (24 lb•in)
12.0 mm (0.5 in.)
4.0 N•m (35 lb•in)
Recommended Tool(s) #1 Flat Screwdriver #2 Flat Screwdriver #2 Pozidrive® 492-C Phillips® 0.25 in. Flat Screwdriver #2 Pozidrive® 492-C Phillips® 0.25 in. Flat Screwdriver
(1) Maximum/minimum wire sizes that the terminal block will accept - these are not recommendations. (2) Terminal blocks are designed to accept a single wire.
Table 10 Frames 6 & 7 Power Terminal Block Frame 6 7
Maximum Lug Width 34.6 mm (1.36 in.) 43.5 mm (1.71 in.)
Recommended Torque 11.3 N•m (100 lb•in) 11.3 N•m (100 lb•in)
Terminal Bolt Size M8 x 1.25 M8 x 1.25
Recommended Tool 13 mm Hex Socket 13 mm Hex Socket
Table 11 Frames 2…7 PE Grounding Stud Frame 2 3 4 5 6 7
Recommended Torque 1.36 N•m (12 lb•in) 3.4 N•m (30 lb•in) 3.4 N•m (30 lb•in) 3.4 N•m (30 lb•in) 11.3 N•m (100 lb•in) 11.3 N•m (100 lb•in)
Terminal Bolt Size M4 M6 M6 M6 M8 M8
Recommended Tool 7 mm Hex Deep Socket 10 mm Hex Deep Socket 10 mm Hex Deep Socket 10 mm Hex Deep Socket 13 mm Hex Socket 13 mm Hex Socket
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Figure 25
Typical Terminal Block Location and Termination Points
➍
➌
➌ ➎
➊
➋
➊ ➋
Frame 2
Frame 3
➌
➌
➊
➋
Frame 4
➊
➋
Frame 5
Table 12 Frames 2…5 No. ➊ ➋ ➌ ➍ ➎
Name Power Terminal Block PE Grounding Studs PE-A and PE-B Optional NEMA/UL Type 1 Conduit Box Optional EMC Plate
Description R/L1, S/L2, T/L3, BR1, BR2, +DC, -DC, U/T1, V/T2, W/T3 Terminating point to chassis ground for incoming AC line and motor shields. MOV and CMC Jumper Screws Terminating point to chassis ground for incoming AC line, motor shields, and control wire shields. Terminating point to chassis ground for incoming AC line, motor shields, and control wire shields.
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Figure 26
Typical Terminal Block Location and Termination Points (continued)
➍
➎
➍
➌ ➍ ➊
➋
Frame 6 ➎ ➌
➊ ➋
Frame 7
Table 13 Frames 6…7 No. ➊ ➋ ➌ ➍ ➎
Name Power Terminals PE Grounding Studs DC Bus and Brake Terminals PE-A and PE-B DC+ and DC-
Description R/L1, S/L2, T/L3, U/T1, V/T2, W/T3 Terminating point to chassis ground for incoming AC line and motor shield. +DC, -DC, BR1, BR2 MOV and CMC Jumper Wires Bus Voltage Test Points
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Power Terminal Blocks Frame 2
Power Terminal Blocks
L1 L2 L3 BR BR + - T1 T2 T3 R S T 1 2 DC DC U V W 3
L1 L2 L3 BR BR + - T1 T2 T3 R S T 1 2 DC DC U V W 4
5
6 (1)
7 (1)
(1) DC Bus Terminals are optional on Frame 6 and 7 drives: catalog number position 5. Dynamic Brake Resistor Terminals are optional on Frame 6 and 7 drives: c atalog number position 12. Refer to Catalog Number Explanation on page 4.
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Power Terminal Block Designations Terminal +DC -DC BR1 BR2 U V W R S T PE /
Description DC Bus (+) DC Bus (–) DC Brake (+) DC Brake (–) U (T1) V (T2) W (T3) R (L1) S (L2) T (L3) PE Ground
Notes DC Input Power or Dynamic Brake Chopper DC Input Power or Dynamic Brake Chopper Dynamic Brake Resistor Connection (+) Dynamic Brake Resistor Connection (–) Motor Connections (1)
AC Line Input Power
Terminating point to chassis ground for incoming AC line and motor shield.
(1) Important: Motors with NEMA MG1 Part 31.40.4.2 inverter grade insulation systems are recommended. If you intend to connect a motor that is not rated inverter grade, refer to Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001 for recommendations.
Common Bus Power Wiring Figure 27
Common Bus Terminal Block Location and Termination Points ➍
➎
➌
➋
➋
➊
Frame 5
Table 14 Frame 5 Common Bus No. ➊ ➋ ➌ ➍ ➎
Name Power Terminal Connections PE Grounding Studs PE-B Optional NEMA/UL Type 1 Conduit Box Optional EMC Plate
Description +DC, -DC, U/T1, V/T2, W/T3 Terminating point to chassis ground for incoming DC line and motor shields. CMC Jumper Screw Terminating point to chassis ground for incoming AC line, motor shields, and control wire shields. Terminating point to chassis ground for incoming AC line, motor shields, and control wire shields.
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Figure 28
Common Bus Terminal Block Location and Termination Points (continued)
➍
➎
➍
➊
➋
Frame 6
➌
➎ ➊
➋
➌
Frame 7
Table 15 Frames 6…7 Common Bus No. ➊ ➋ ➌ ➍ ➎
Name Power Terminals PE Grounding Studs DC Bus and Brake Terminals PE-B DC+ and DC-
Description +DC, -DC, U/T1, V/T2, W/T3 Terminating point to chassis ground for incoming DC line and motor shield. +DC, -DC, BR1, BR2 CMC Jumper Wire Bus Voltage Test Points
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Common Bus Power Terminal Blocks Frame 5
Power Terminal Blocks
6 (1)
7 (1)
(1) Dynamic Brake Resistor Terminals are optional on Frame 6 and 7 drives: catalog number position 12. Refer to Catalog Number Explanation on page 4.
Terminal +DC -DC BR1 BR2 U V W PE /
Description DC Bus (+) DC Bus (–) DC Brake (+) DC Brake (–) U (T1) V (T2) W (T3) PE Ground
Notes DC Input Power DC Input Power Dynamic Brake Resistor Connection (+) Dynamic Brake Resistor Connection (–) Motor Connections (1)
Terminating point to chassis ground for incoming DC line and motor shield.
(1) Important: Motors with NEMA MG1 Part 31.40.4.2 inverter grade insulation systems are recommended. If you intend to connect a motor that is not rated inverter grade, refer to Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001 for recommendations.
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Minimum Dynamic Brake Resistance Table 16 400 Volt Ratings - Minimum Resistance Frame
ND kW
Minimum Resistance
Maximum DB Current
2
0.75 1.5 2.2 4.0 5.5 7.5 11 15 18.5 22 30 37 37 (IP54, NEMA/UL Type 12) 45 55 55 (IP54, NEMA/UL Type 12) 75 90 110 132 132 (IP54, NEMA/UL Type 12) 160 200 250
31.6 31.6 31.6 31.6 31.6 31.6 22.6 31.6 31.6 16.6 15.8 15.8 7.9 7.9 7.9 3.3 3.3 3.3 3.3 3.3 2.4 2.4 2.4 1.65
25 25 25 25 25 25 34.9 25 25 47.6 50 50 100 100 100 239.4 239.4 239.4 239.4 239.4 329 329 329 478.8
3
4 5
6
7
Table 17 480 Volt Ratings - Minimum Resistance Frame
ND Hp
Minimum Resistance
Maximum DB Current
2
1.0 2.0 3.0 5.0 7.5 10 15 20 25 30 40 50 50 (IP54, NEMA/UL Type 12) 60 75 75 (IP54, NEMA/UL Type 12) 100 125 150 200 200 (IP54, NEMA/UL Type 12) 250 300 350
31.6 31.6 31.6 31.6 31.6 31.6 22.6 31.6 31.6 16.6 15.8 15.8 7.9 7.9 7.9 3.3 3.3 3.3 3.3 3.3 2.4 2.4 2.4 1.65
25 25 25 25 25 25 34.9 25 25 47.6 50 50 100 100 100 239.4 239.4 239.4 239.4 239.4 329 329 329 478.8
3
4 5
6
7
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Using 750-Series Drives with Regen Power Units If a Regenerative unit (i.e., 1336 REGEN) is used as a bus supply or a brake, the common mode capacitors should be disconnected. Refer to page 53 for information on removing common mode capacitors. Regenerative Unit to Drive Connections
Regenerative Brake Mode Frame(s) 2…7
Terminals 1336 Regen DC+ & DC-
PowerFlex 750-Series Drive +DC & -DC
Regenerative Bus Supply Mode Frame(s) 2…7
Terminals 1336 Regen DC+ & DC-
PowerFlex 750-Series Drive +DC & -DC
Refer to 1336 REGEN Line Regeneration Package User Manual, publication 1336-REGEN-5.0, for more information.
Power & Ground Wiring
R (L1) S (L2) T (L3)
U (T1) V (T2) W (T3)
PE
SHLD
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Drive, Fuse & Circuit Breaker Ratings Table 19 and Table 20 provide drive ratings (including continuous, 1 minute and 3 second) and recommended AC line input fuse and circuit breaker information. Sizes listed are the recommended sizes based on 40 degree C and the U.S N.E.C. Other country, state or local codes may require different ratings. Refer to Table 18 which describes input device requirements based on physical installation choice. Table 18 Input Device Requirements Frames
Enclosure Catalog Code N F
2, 3, 4, 5 N F G
N 6, 7 G
UL Certification Not Enclosure Type Installation Type UL Certification Required Required IP20 Installed in a non-ventilated NEMA/UL Open Type cabinet. Heat sink is inside or All devices in Table 19 are acceptable. outside of cabinet. Flange IP20 Installed outside of cabinet Devices in Table 19 excluding NEMA/UL Open Type using NEMA Type 1 kit or in a time delay fuses and maximum ventilated cabinet. value for non-time delay fuses. Flange IP54 Installed inside or outside of All devices in Table 19 are All devices in Table 19 are NEMA/UL Type 12 any cabinet. acceptable. acceptable. Installed in any cabinet. Heat sink is inside or outside IP00 All devices in Table 19 are of cabinet. NEMA/UL Open Type acceptable. Installed outside of cabinet using NEMA Type 1 kit. IP54 Installed inside or outside of All devices in Table 19 are NEMA/UL Type 12 any cabinet. acceptable.
Fusing For optimum protection, semiconductor type fusing is recommended. For general purpose fusing, refer to the recommended types listed below. • IEC – BS88 (British Standard) Parts 1 & 2(1), EN60269-1, Parts 1 & 2, type gG or equivalent should be used. • UL – UL Class CC, T, RK1 or J should be used.
(1) Typical designations include, but may not be limited to the following; Parts 1 & 2: AC, AD, BC, BD, CD, DD ED, EFS, EF, FF, FG, GF, GG, GH.
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Drive Power Jumper Configuration PowerFlex 750-Series drives contain protective MOVs and common mode capacitors that are referenced to ground. To guard against drive damage and/or operation problems, these devices must be properly configured according to Table 21. MOV, AC EMI Capacitor, and Common Mode Capacitor Circuits Figure 29
MOV and AC EMI Capacitor Phase to Ground
R/L1 S/L2 T/L3 2
3
4
2
1
3
4
1
PE–A
Figure 30
Common Mode Capacitors to Ground
DC+
DC–
! !
PE–B
ATTENTION: PE-A and PE-B jumpers must be configured according to the recommendations in Table 21. ATTENTION: To avoid an electric shock hazard, verify that the voltage on the bus capacitors has discharged completely before removing/installing jumpers. Check the DC bus voltage at the Power Terminal Block by measuring between the +DC and -DC terminals (refer to Figure 25 and Figure 26 for location), between the +DC terminal and chassis, and between the -DC terminal and the chassis. The voltage must be zero for all three measurements.
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Table 21 Recommended Power Jumper Configurations
Power Source Type (1) Unknown • AC fed Soli dly Grounded • DC fed from passive rectifier which has a Solidly Grounded AC source • • •
MOV / Input Filter Caps (PE-A) (2) Connected Connected
DC Bus Common Mode Caps (PE-B) Disconnected Connected
Default Configuration (Cat. No. Position 11) A J
AC fed Ungrounded Disconnected Disconnected N/A Impedance Grounded DC fed from an active converter
Benefits Of Correct Configuration on Power Source Type See below. UL compliance, Reduced electrical noise, Most stable operation, EMC compliance, Reduced voltage stress on components and motor bearings Helps avoid severe equipment damage when ground fault occurs
(1) It is highly recommended to accurately determine the power source type and then configure appropriately. (2) When MOVs are disconnected, the power system must have its own transient protection to insure known and controlled voltages.
To connect or disconnect these devices, refer to the jumper locations shown in Figure 32, Figure 33 and Figure 34. In addition, on an ungrounded distribution system where the line-to-ground voltages on any phase could exceed 125% of the nominal line-to-line voltage, an isolation transformer should be installed. See Wiring and Grounding Guidelines for Pulse Width Modulated (PWM) AC Drives, publication DRIVES-IN001 at www.rockwellautomation.com/literature for more information on impedance grounded and ungrounded systems.
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Power Jumper Screw Removal and Storage Frames 2…5 use jumper screws to complete an electrical connection when installed. Install or remove jumper screws according to the recommendations in Table 21. ATTENTION: Hazard of equipment damage exists if jumpers are not properly disconnected. For Frames 2…5, completely remove the jumper screw from the circuit board.
!
When power jumper screws are not used, they are stored on the left interior chassis wall as shown. Figure 31
Typical Frame 2…5 Jumper Screw Storage Location (Frame 4 shown)
When screws are installed: • Recommended torque = 1.36 N•m (12.0 lb•in) +/- 0.14 N•m (1.2 lb•in) • Recommended screwdriver = 6.4 mm (0.25 in.) flat or T15 Hexalobular Figure 32
Typical Frame 2…5 Jumper Screw Installation Locations (Frame 4 shown)
Connected
Disconnected
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Power Jumper Wire Removal and Storage Frames 6…7 use jumper wires to complete an electrical connection when installed. Install or remove jumper wires according to the recommendations in Table 21.
! Figure 33
ATTENTION: Hazard of equipment damage exists if jumpers are not properly disconnected. For Frames 6…7, secure the disconnected jumper wire to the standoff provided. Frame 6 Jumper Wire Locations Disconnected
Connected Common Mode
MOV
When jumper wires are connected: • Recommended torque (screws and nuts) = 1.36 N•m (12.0 lb•in) • Recommended hex socket = 7 mm • Recommended screwdriver = T20 Hexalobular
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Figure Figure 34
Frame Frame 7 Jumpe Jumperr Wire Wire Locati Locations ons Disconnected
Connected Common Mode
MOV
When jumper wires are connected: • Recommend Recommended ed torque torque (screw (screwss and nuts) nuts) = 1.36 1.36 N•m (12.0 lb•in) lb•in) • Recomm Recommend ended ed hex socket socket = 7 mm • Recommend Recommended ed screwdri screwdriver ver = T20 T20 Hexal Hexalobu obular lar
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Step 4
I/O Wiring Important points to remember about I/O wiring: • Alwa Always ys use use cop coppe perr wir wire. e. • Wire Wire with with an insulat insulation ion rating rating of 600V 600V or or greater greater is recommen recommended. ded. • Control Control and signal signal wires wires should should be separated separated from powe powerr wires by by at least 0.3 meters (1 foot). • In order to mainta maintain in electrica electricall safety for for all user-acces user-accessibl siblee low volta voltage ge circuits (ELV and PELV circuits), I/O terminals designated for 24V or lower voltage must not be connected to a circuit of higher voltage or a circuit which is not adequately insulated from dangerous voltages with double or reinforced insulation within other connected equipment or wiring. • In order to prov provide ide electrica electricall safety for for user-acces user-accessibl siblee low volta voltage ge I/O circuits which are referenced to earth (PELV (PELV circuits) and which may be touched simultaneously, simultaneously, care should be taken to provide a common earth reference for all equipment connected to the drive. Important: I/O terminals labeled “(–)” or “Common” are not referenced to earth ground and are designed to greatly reduce common mode interference. Grounding these terminals can cause signal noise.
!
ATTENTION: Hazard of personal injury or equipment damage exists when using bipolar input sources. Noise and drift in sensitive sensitive input circuits can cause unpredictable changes in motor speed and direction. Use speed command parameters to help reduce input source sensitivity.
I/O Terminal Blocks Table 22 22 I/O Termin Terminal al Block Block Specifica Specifications tions Name 753 Control Module TB2 753 Control Module TB1 and TB3 755 Control Module TB1 755 I/O Module TB1 755 I/O Module TB2 Safe Torque Off Sing Single le Incr Increm emen enta tall Enc Encod oder er Safe Speed Monitor TB1 and TB2 Dual In Incre crement ental En Encode oder Univ Univer ersa sall Fee Feedb dbac ackk Mod Modul ulee Auxil uxilia iary ry Power ower Supp Supply ly TB1 TB1
Wire Size Range Maximum Minimum 2.5 mm2 0.3 mm2 (14 AWG) (28 AWG) 2.5 mm2 0.3 mm2 (14 AWG) (28 AWG) 2.5 mm2 0.3 mm2 (14 AWG) (28 AWG) 2.5 mm2 0.3 mm2 (14 AWG) (28 AWG) 4.0 mm2 0.25 mm2 (12 AWG) (24 AWG) 0.8 mm2 0.3 mm2 (18 AWG) (28 AWG) 0.8 0.8 mm mm2 0.3 mm2 (18 AWG) (28 AWG) 2.5 mm2 0.25 mm2 (14 AWG) (24 AWG) 0.8 mm2 0.3 mm2 (18 AWG) (28 AWG) 0.8 0.8 mm mm2 0.3 mm2 (18 AWG) (28 AWG) 2.5 2.5 mm mm2 0.3 mm2 (14 AWG) (28 AWG)
Torque Maximum 0.25 N•m (2.2 lb•in) 0.25 N•m (2.2 lb•in) 0.25 N•m (2.2 lb•in) 0.25 N•m (2.2 lb•in) 0.5 N•m (4.4 lb•in) N/A
Recommended 0.2 N•m (1.8 lb•in) 0.2 N•m (1.8 lb•in) 0.2 N•m (1.8 lb•in) 0.2 N•m (1.8 lb•in) 0.4 N•m (3.5 lb•in)
N/A 0.25 N•m (2.2 lb•in) N/A
0.2 N•m (1.8 lb•in)
N/A 0.25 N•m (2.2 lb•in)
PowerFlex PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
0.2 N•m (1.8 lb•in)
Strip Length 6 mm (0.24 in.) 6 mm (0.24 in.) 6 mm (0.24 in.) 6 mm (0.24 in.) 7 mm (0.28 in.) 10 mm (0.39 in.) 10 mm (0.39 in.) 6 mm (0.24 in.) 10 mm (0.39 in.) 10 mm (0.39 in.) 6 mm (0.24 in.)
59
Access Drive Control Pod 1. Remove drive cover
Frames 2…5
– Squeeze locking tabs and pull out bottom of cover. – Pull cover down and away from the chassis.
Frames 6…7
– Loosen door screws. – Gently pry the door open to remove. PowerFlex PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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2. Lift the Human Interface Module (HIM) cradle (All Frames).
– Loosen the retention screw. – Lift the cradle until the latch engages.
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PowerFlex 753 Main Control Board
➊ ➋
➌ ➍ ➎ ➏ ➐
➑ ➒
➓
Table 23 753 Main Control Board Details No. Name HIM Connector ➊ Fan Connector ➋ Battery Receptacle ➌ ➍
Jumper J1 ENABLE
➎
Jumper J2 SAFETY
➏
Jumper J4 Input Mode TB1 DPI Port 2 TB3 TB2
➐ ➑ ➒ ➓
Description DPI Port 1 (HIM Cradle) connection. Power supply for internal cooling fan (Frames 2 & 3). User in stalled CR1220 lithium coin cell battery provides power to the Real Time Clock (Optional, not supplied). Hardware enable jumper. Removed when a hardware enable configuration is utilized. Safety enable jumper. Removed when safety option is installed. Input mode jumper. Select voltage mode or current mode. I/O terminal block. Cable connection for handheld and remote HIM options. Digital input power terminal block. Relay terminal block.
Table 24 J4 Input Mode Jumper Jumper Position
Voltage Mode
Current Mode
31
J4
31
J4 42
42
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Table 25 TB1 Terminal Designations Terminal Name Ao0– Analog Out 0 (–) Ao0+ Analog Out 0 (+) Ao0Ao0+ 10VC +10V Ai0Ai0+ PtcPtc+ To0 24VC +24V Di C Di 1 Di 2
10VC +10V Ai0– Ai0+
10 Volt Common +10 Volt Reference Analog Input 0 (–) Analog Input 0 (+)
Ptc– Ptc+ T0
Motor PTC (–) Motor PTC (+) Transistor Output 0
24VC +24V Di C Di 1 Di 2
24 Volt Common +24 Volt DC Digital Input Common Digital Input 1 Digital Input 2
Description Bipolar, ±10V, 11 bit & sign, 2 k ohm minimum load. 4-20 mA, 11 bit & sign, 400 ohm maximum load. For (+) 10 Volt references. 2k ohm minimum.
Related Param
Isolated (1), bipolar, differential, ±10V, 11 bit & sign, 88k ohm input impedance. Motor protection device (Positive Temperature Coefficient). Open drain output, 48V DC, 250 mA maximum load. Drive supplied logic input power. 150 mA maximum 24V DC - Opto isolated Low State: less than 5V DC High State: greater than 20V DC
(1) Differential Isolation - External source must be maintained at less than 160V with respect to PE. Input provides high common mode immunity.
Note: 753 Main Control Board I/O TB1 wiring examples begin on page 69.
Table 26 TB2 Terminal Designations Fixed I/O
R0NC R0C
Terminal R0NC R0C R0NO
Name Relay 0 N.C. Relay 0 Common Relay 0 N.O.
Description Output Relay 0 normally closed contact. Output Relay 0 common Output Relay 0 normally open contact.
R0NO
Table 27 TB3 Terminal Designations Power Block Terminal Di 0dc Di 0dc Di C Di C Di 0 c Di 0ac a
Name Digital Input 120V AC Digital Input Common Digital Input 24V DC
Description Connections for DC power supply. Digital input common Connections for AC power supply.
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PowerFlex PowerFlex 755 Main Control Board
➊ ➋
➌ ➍ ➎ ➏
➐ ➑
➒
Table able 28 Contr Control ol Boar Board d Detail Detailss No. Na Name HIM Connector ➊ Fan Connector ➋ Batte ttery Recepta ptacle ➌ ➍ ➎
DPI Port 2 Embedded EtherNet/IP(1) Address Selectors
➐
Embedded EtherNet/IP(1) Connector Jumper J2 SAFETY
➑
Jumper J1 J1 EN ENABLE
➒
TB1
➏
Description DPI Port 1 (HIM Cradle) connection. Power supply for internal cooling fan (Frames 2 & 3). User inst n stalled CR1220 220 lit lithiu hium coi coin cell battery provides power to the Real Time Clock (Optional, not supplied). Cable connection for handheld and remote HIM options. Rotary switches for setting lowest octet of EtherNet address (forces address to 192.168.1.xxx). Refer to the User Manual, publication 750-UM001 for instructions on setting the IP address. Network cable connection. Safe afety enab nable jumper. Remo emoved when hen safety opti ption is installed. Hardwa dware en enable jumper per. Removed when a ha hardwa dware en enable configuration is utilized. I/O terminal block.
(1) Refer to the PowerFlex PowerFlex 755 Drive Embedded EtherNet/IP Adapter Adapter User Manual, publication publication 750COM-UM001.
Table 29 TB1 I/O Termin Terminal al Design Designation ationss Fixed I/O Di 0ac Di C Di 0dc +24V 24VC
Terminal Di 0a 0ac Di C Di 0dc +24V 24VC
Name Digital In Input 12 120V AC AC Digital Input Common Digital Input 24V DC +24 Volt Power 24 Volt Common
Description Connections fo for AC AC po power su supply. Digital input common Connections for DC power supply. Connections for drive supplied 24V power.
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Hardware Enable Circuitry The main control module has one digital input that can be used as a general purpose programmable input, or by removal of a jumper, configured as a dedicated hardware enable, which is unaffected by parameter settings. To configure the input as a dedicated hardware enable, complete the following steps. page ge 59 59.. 1. Access the control pod as described beginning on pa 2. Locate and remove Jumper J1 ENABLE on the Main Control Board (see diagram).
PowerFlex PowerFlex 753 - J1 Jumper Location
J1
PowerFlex PowerFlex 755 - J1 Jumper Location
J1
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Safety Enable Circuitry The drive ships with the safety enable jumper (J2 SAFETY) installed. This jumper must be removed removed when using using the safe torque torque off off or speed monitoring monitoring safety options. Important: Failure to remove the jumper will cause the drive to fault when a start command is issued.
PowerFlex PowerFlex 753 - J2 Jumper Location
J2
PowerFlex PowerFlex 755 - J2 Jumper Location J2
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Option Module Installation Compatible port locations may be restricted for each module. An icon with position number(s) is provided to indicate which option module ports are compatible. For example, the icon to the right indicates that the option module is only compatible with port 4.
!
ATTENTION: Hazard of equipment damage exists if an option module is installed or removed while the drive is powered. To avoid damaging the drive, verify that the voltage on the bus capacitors has discharged completely and all control power is removed before performing any work on the drive. Check the DC bus voltage at the Power Terminal Block by measuring between the +DC and -DC terminals (refer to Figure 25 and Figure 26 for location), between the +DC terminal and chassis, and between the -DC terminal and the chassis. The voltage must be zero for all three measurements.
To install an option module: 1. Firmly press the module edge connector into the desired port. 2. Tighten the top and bottom retaining screws. – Recommended torque = 0.45 N•m (4.0 lb•in) – Recommended screwdriver = T15 Hexalobular Important: Do not over-tighten retaining screws.
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I/O Module Table 30 Input Mode Jumpers Jumper Position
Voltage Mode
Current Mode
20-750-2262C-2R 20-750-2262D-2R
Ai1
Ai1
20-750-2263C-1R2T
Ai0
Ai0
Table 31 TB1 Terminal Designations Terminal Name Sh Shield Sh
Sh Sh
PTC– PTC+ Ao0– Ao0+ Ao1– Ao1+ –10V 10VC +10V Ai0– Ai0+ Ai1– Ai1+ 24VC +24V DiC Di0 Di1 Di2 Di3 Di4 Di5
Ptc– Ptc+ Ao0– Ao0+ Ao1– Ao1+ –10V 10VC +10V Ai0– Ai0+ Ai1– Ai1+ 24VC +24V Di C Di 0 Di 1 Di 2 Di 3 Di 4 Di 5
Motor PTC (–) Motor PTC (+) Analog Out 0 (–) Analog Out 0 (+) Analog Out 1 (–) Analog Out 1 (+) –10 Volt Reference 10 Volt Common +10 Volt Reference Analog Input 0 (–) Analog Input 0 (+) Analog Input 1 (–) Analog Input 1 (+) 24 Volt Common +24 Volt DC Digital Input Common Digital Input 0 (1) Digital Input 1 (1) Digital Input 2 (1) Digital Input 3 (1) Digital Input 4 (1) Digital Input 5 (1)
Description Terminating point for wire shields when an EMC plate or conduit box is not installed. Motor protection device (Positive Temperature Coefficient). Bipolar, ±10V, 11 bit & sign, 2 k ohm minimum load. 4-20 mA, 11 bit & sign, 400 ohm maximum load.
Related Param
40 75 85
2k ohm minimum. For (–) and (+) 10 Volt references. 2k ohm minimum. Isolated (2), bipolar, differential, ±10V, 50, 70 11 bit & sign, 88k ohm input impedance. 60, 70 Drive supplied logic input power. 200 mA max. Common for Digital Inputs 0…5 24V DC - Opto isolated 1 Low State: less than 5V DC High State: greater than 20V DC 11.2 mA DC 115V AC, 50/60 Hz - Opto isolated Low State: less than 30V AC High State: greater than 100V AC
(1) Digital Inputs are either 24 Volts DC (2262C) or 115 Volts AC (2262D) based on module catalog number. Ensure applied voltage is correct for I/O module. (2) Differential Isolation - External source must be maintained at less than 160V with respect to PE. Input provides high common mode immunity.
Table 32 TB2 Terminal Designations (2 Relay Outputs: 2R)) Relay Out R0NO R0C R0NC R1NO R1C R1NC
Terminal R0NO R0C R0NC R1NO R1C R1NC
Name Relay 0 N.O. Relay 0 Common Relay 0 N.C. Relay 1 N.O. Relay 1 Common Relay 1 N.C.
Description Relay contact output Rating: 240V AC or 24V DC = 2 A max. Inductive/Resistive
Related Param 10
20
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Table 33 TB2 Terminal Designations (1 Relay and 2 Transistor Outputs: IR2T) Relay Out R0NO R0C R0NC T0 TC T1
Terminal R0NO R0C R0NC T0 TC T1
Name Relay 0 N.O. Relay 0 Common Relay 0 N.C. Transistor Output 0 Transistor Output Common Transistor Output 1
Description Relay contact output Rating: 240V AC or 24V DC = 2 A max. Inductive/Resistive Transistor output Rating: 24V DC = 1 A max. Resistive
Related Param 10
20
30
Parameter Access Refer to Select A Device on page 96 for instructions on how to access parameters on an option module. Table 34 I/O Module Parameter List By Number Number 1 2 3 5 6 7 10 11 12 13 14 15 20 21 22 23 24 25 30 31 32 33 34 35 40 41 42 45 46 47 50
Parameter Name Dig In Sts Dig In Filt Mask(1) Dig In Filt(1) Dig Out Sts Dig Out Invert Dig Out Setpoint RO0 Sel RO0 Level Sel RO0 Level RO0 Level CmpSts RO0 On Time RO0 Off Time RO1 Sel(2) TO0 Sel(3) RO1 Level Sel(2) TO0 Level Sel(3) RO1 Level(2) TO0 Level(3) RO1 Level CmpSts(2) TO0 Level CmpSts(3) RO1 On Time(2) TO0 On Time(3) RO1 Off Time(2) TO0 Off Time(3) TO1 Sel(3) TO1 Level Sel(3) TO1 Level(3) TO1 Level CmpSts(3) TO1 On Time(3) TO1 Off Time(3) PTC Cfg PTC Sts PTC Raw Value Anlg In Type Anlg In Sqrt Anlg In Loss Sts Anlg In0 Value
Group Digital Inputs Digital Inputs Digital Inputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Motor PTC Motor PTC Motor PTC Analog Inputs Analog Inputs Analog Inputs Analog Inputs
Number 56 60 61 62 63 64 65 66 70 71 75 76 77 78 79 80 81 82 85 86 87 88 89 90 91 92 99 100 101 102 103 104 105 106 110 111 112
Parameter Name Anlg In0 Filt BW Anlg In1 Value Anlg In1 Hi Anlg In1 Lo Anlg In1 LssActn Anlg In1 Raw Val Anlg In1 Filt Gn Anlg In1 Filt BW Anlg Out Type Anlg Out Abs Anlg Out0 Sel Anlg Out0 Stpt Anlg Out0 Data Anlg Out0 DataHi Anlg Out0 DataLo Anlg Out0 Hi Anlg Out0 Lo Anlg Out0 Val Anlg Out1 Sel Anlg Out1 Stpt Anlg Out1 Data Anlg Out1 DataHi Anlg Out1 DataLo Anlg Out1 Hi Anlg Out1 Lo Anlg Out1 Val PredMaint Sts RO0 Load Type RO0 Load Amps RO0 TotalLife RO0 ElapsedLife RO0 RemainLife RO0 LifeEvntLvl RO0 LifeEvntActn RO1 Load Type(2) RO1 Load Amps(2) RO1 TotalLife(2)
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
Group Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main
69
Number 51 52 53 54 55
Parameter Name Anlg In0 Hi Anlg In0 Lo Anlg In0 LssActn Anlg In0 Raw Val Anlg In0 Filt Gn
Group Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs
Number 113 114 115 116
Parameter Name RO1 ElapsedLife(2) RO1 RemainLife(2) RO1 LifeEvntLvl(2) RO1 LifeEvntActn(2)
Group Predictive Main Predictive Main Predictive Main Predictive Main
(1) Parameter applies to models C-2R and C-1R2T only. (2) Parameter applies to models C-2R and D-2R only. (3) Parameter applies to model C-1R2T only.
I/O Wiring Examples 753 Main Control Board TB1 Wiring Examples Input/Output Potentiometer Unipolar Speed Reference 10k Ohm Pot. Recommended (2k Ohm Minimum)
Connection Example
10VC +10V Ai0– Ai0+
Analog Input Bipolar Speed Reference ±10V Input
Analog Voltage Input Unipolar Speed Reference 0 to +10V Input
31
J4 42
Common +
Ai0– Ai0+
Common +
Ai0– Ai0+
Required Parameter Changes • Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port 0: P260 [Anlg In0 Value] • Adjust Scaling Port 0: P261 [Anlg In0 Hi] = 10 Volt Port 0: P262 [Anlg In0 Lo] = 0 Volt Port 0: P547 [Spd Ref A AnlgHi] = 60 Hz Port 0: P548 [Spd Ref A AnlgLo] = 0 Hz • View Results Port 0: P260 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref] • Set Direction Mode Port 0: P308 [Direction Mode] = 1 “Bipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port 0: P260 [Anlg In0 Value] • Adjust Scaling Port 0: P261 [Anlg In0 Hi] = +10 Volt Port 0: P262 [Anlg In0 L o] = -10 Volt Port 0: P547 [Spd Ref A AnlgHi] = +60 Hz Port 0: P548 [Spd Ref A AnlgLo] = -60 Hz • View Results Port 0: P260 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref] • Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port 0: P260 [Anlg In0 Value] • Adjust Scaling Port 0: P261 [Anlg In0 Hi] = 10 Volt Port 0: P262 [Anlg In0 Lo] = 0 Volt Port 0: P547 [Spd Ref A AnlgHi] = 60 Hz Port 0: P548 [Spd Ref A AnlgLo] = 0 Hz • View Results Port 0: P260 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref]
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Input/Output Analog Current Input Unipolar Speed Reference 0-20 mA Input
Connection Example
Common +
Ai0– Ai0+
31
J4 42
HW Input PTC PTC Nominal = 1.8 k Ohm PTC Trip = 3.1k Ohm PTC Reset = 2.2 k Ohm
!
Required Parameter Changes • Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port 0: P260 [Anlg In0 Value] • Adjust Scaling Port 0: P261 [Anlg In0 Hi] = 20 mA Port 0: P262 [Anlg In0 Lo] = 0 mA Port 0: P547 [Spd Ref A AnlgHi] = 60 Hz Port 0: P548 [Spd Ref A AnlgLo] = 0 Hz • View Results Port 0: P260 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref]
• Ptc– Ptc+
1.8k PTC
•
Configuration Port 0: P250 [PTC Cfg] = 0 “Ignore,” 1 “Alarm,” 2 “Flt Minor,” 3 “FltCoastStop,” 4 “Flt RampStop,” or 5 “Flt CL Stop” View Results Port 0: P251 [PTC Status]
ATTENTION: To avoid an electric shock hazard, the connection of the motor temperature sensor requires double or reinforced insulation between motor live parts and the PTC. •
Analog Voltage Output ±10V, 0…20 mA Bipolar +10V Unipolar +
–
• Ao0– Ao0+
•
•
2-Wire Control Non-Reversing 24V DC internal supply
• Stop-Run
24VC +24V Di C Di 1
• • •
2-Wire Control Reversing External supply
• +24V
Common
• Run Fwd Run Rev
Di C Di 1 Di 2
•
•
Configuration Port 0: P270 [Anlg Out Type], bit 0 = 0 Set Selection Port 0: P275 [Anlg Out0 Sel] = Port 0: P3 [Mtr Vel Fdbk] Adjust Scaling Port 0: P278 [Anlg Out0 DataHi] = 60 Hz Port 0: P279 [Anlg Out0 DataLo] = 0 Hz Port 0: P280 [Anlg Out0 Hi] =10V/20 mA Port 0: P281 [Anlg Out0 Lo] = 0V/0 mA View Results Port 0: P277 [Anlg Out0 Data] Port 0: P282 [Anlg Out0 Val] Set Direction Mode Port 0: P308 [Direction Mode] = 2 “Rev Disable” Configuration Port 0: P150 [Digital In Cfg] = 1 “Run Level” Set Selection Port 0: P163 [DI Run] = Port 0: P220 [Digital In Sts], bit 1 = Digital In 1 View Results Port 0: P220 [Digital In Sts] Port 0: P935 [Drive Status 1] Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” Configuration Port 0: P150 [Digital In Cfg] = 1 “Run Level” Set Selection Port 0: P164 [DI Run Forward] = Port 0: P220 [Digital In Sts], bit 1 = Digital In 1 Port 0: P165 [DI Run Reverse] = Port 0: P220 [Digital In Sts], bit 2 = Digital In 2 View Results Port 0: P220 [Digital In Sts] Port 0: P935 [Drive Status 1]
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Input/Output 3-Wire Control Internal supply
Connection Example
24VC +24V Di C Di 1 Di 2
Stop Start
3-Wire Control External supply
• +24 V
Common Stop
Di C Di 1 Di 2
Start
Digital Input PLC Output Module
Required Parameter Changes • Set Selection Port 0: P158 [DI Stop] = Port 0: P220 [Digital In Sts], bit 1 = Digital In 1 Port 0: P161 [DI Start] = Port 0: P220 [Digital In Sts], bit 2 = Digital In 2 • View Results Port 0: P220 [Digital In Sts] Port 0: P935 [Drive Status 1]
•
• Neutral/ Common 10k Ohm, 2 Watt DiC Di1 Di2
Control from Prog. Controller
•
•
Digital Output Internal supply T0
•
+24V
Set Selection Port 0: P158 [DI Stop] = Port 0: P220 [Digital In Sts], bit 1 = Digital In 1 Port 0: P161 [DI Start] = Port 0: P220 [Digital In Sts], bit 2 = Digital In 2 View Results Port 0: P220 [Digital In Sts] Port 0: P935 [Drive Status 1] Set Selection Port 0: P158 [DI Stop] = Port 0: P220 [Digital In Sts], bit 1 = Digital In 1 Port 0: P161 [DI Start] = Port 0: P220 [Digital In Sts], bit 2 = Digital In 2 View Results Port 0: P220 [Digital In Sts] Port 0: P935 [Drive Status 1] Set Selection Port 0: P240 [TO0 Sel] = Port 0: P935 [Drive Status 1], bit 7 = Faulted View Results Port 0: P225 [Dig Out Sts]
Digital Output External supply T0 24VC +24V
Common
OR
PLC T0 24VC
5k Ohm 2 Watt +24V
Common
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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750-Series I/O Module TB1 Wiring Examples Input/Output Potentiometer Unipolar Speed Reference 10k Ohm Pot. Recommended (2k Ohm Minimum)
Connection Example
10VC +10V Ai0– Ai0+
Joystick Bipolar Speed Reference ±10V Input –10V 10VC +10V Ai0– Ai0+
Analog Input Bipolar Speed Reference ±10V Input
Analog Voltage Input Unipolar Speed Reference 0 to +10V Input
Common +
Common +
Ai0– Ai0+
Ai0– Ai0+
Ai1 Ai0
Analog Current Input Unipolar Speed Reference 0-20 mA Input
Common +
Ai0– Ai0+
Ai1 Ai0
Required Parameter Changes • Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port X (I/O Module): P50 [Anlg In0 • Adjust Scaling Port X (I/O Module): P51 [Anlg In0 Hi] = 10 Volt Port X (I/O Module): P52 [Anlg In0 Lo] = 0 Volt Port 0: P547 [Spd Ref A AnlgHi] = 60 Hz Port 0: P548 [Spd Ref A AnlgLo] = 0 Hz • View Results Port X (I/O Module): P50 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref] • Set Direction Mode Port 0: P308 [Direction Mode] = 1 “Bipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port X (I/O Module): P50 [Anlg In0 • Adjust Scaling Port X (I/O Module): P51 [Anlg In0 Hi] = +10 Volt Port X (I/O Module): P52 [Anlg In0 Lo] = -10 Volt Port 0: P547 [Spd Ref A AnlgHi] = +60 Hz Port 0: P548 [Spd Ref A AnlgLo] = -60 Hz • View Results Port X (I/O Module): P50 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref] • Set Direction Mode Port 0: P308 [Direction Mode] = 1 “Bipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port X (I/O Module): P50 [Anlg In0 • Adjust Scaling Port X (I/O Module): P51 [Anlg In0 Hi] = +10 Volt Port X (I/O Module): P52 [Anlg In0 Lo] = -10 Volt Port 0: P547 [Spd Ref A AnlgHi] = +60 Hz Port 0: P548 [Spd Ref A AnlgLo] = -60 Hz • View Results Port X (I/O Module): P50 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref] • Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port X (I/O Module): P50 [Anlg In0 • Adjust Scaling Port X (I/O Module): P51 [Anlg In1 Hi] = 10 Volt Port X (I/O Module): P52 [Anlg In1 Lo] = 0 Volt Port 0: P547 [Spd Ref A AnlgHi] = 60 Hz Port 0: P548 [Spd Ref A AnlgLo] = 0 Hz • View Results Port X (I/O Module): P50 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref] • Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” • Set Selection Port 0: P545 [Spd Ref A Sel] = Port X (I/O Module): P50 [Anlg In0 • Adjust Scaling Port X (I/O Module): P51 [Anlg In0 Hi] = 20 mA Port X (I/O Module): P52 [Anlg In0 Lo] = 0 mA Port 0: P547 [Spd Ref A AnlgHi] = 60 Hz Port 0: P548 [Spd Ref A AnlgLo] = 0 Hz • View Results Port X (I/O Module): P50 [Anlg In0 Value] Port 0: P592 [Selected Spd Ref]
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
Value]
Value]
Value]
Value]
Value]
73
Input/Output Connection Example HW Input PTC PTC Nominal = 1.8 k Ohm PTC Trip = 3.1k Ohm 1.8k PTC PTC Reset = 2.2 kOhm
!
Ptc– Ptc+
Required Parameter Changes • Configuration Port X (I/O Module): P40 [PTC Cfg] = 0 “Ignore,” 1 “Alarm,” 2 “Flt Minor,” 3 “Flt CoastStop,” 4 “Flt RampStop,” or 5 “Flt CL Stop” • View Results Port X (I/O Module): P41 [PTC Sts] Port X (I/O Module): P42 [PTC Raw Value]
ATTENTION: To avoid an electric shock hazard, the connection of the motor temperature sensor requires double or reinforced insulation between motor live parts and the PTC. •
Analog Voltage Output ±10V, 0…20 mA Bipolar +10V Unipolar
• +
–
Ao0– Ao0+
•
•
2-Wire Control Non-Reversing 24V DC internal supply
• Stop-Run
24VC +24V Di C Di 0
• • •
2-Wire Control Reversing External supply
• +24V
Common
• Run Fwd Run Rev
Di C Di 0 Di 1
•
•
•
3-Wire Control Internal supply 24VC +24V Di C Di 0 Di 1
Stop Start
3-Wire Control External supply
•
• +24 V
Common Stop Start
Di C Di 0 Di 1
•
Configuration Port X (I/O Module): P70 [Anlg Out Type], bit 0 = 0 Set Selection Port X (I/O Module): P75 [Anlg Out0 Sel] = Port 0: P3 [Mtr Vel Fdbk] Adjust Scaling Port X (I/O Module): P78 [Anlg Out0 DataHi] = 60 Hz Port X (I/O Module): P79 [Anlg Out0 DataLo] = 0 Hz Port X (I/O Module): P80 [Anlg Out0 Hi] =10V/20 mA Port X (I/O Module): P81 [Anlg Out0 Lo] = 0V/0 mA View Results Port X (I/O Module): P77 [Anlg Out0 Data] Port X (I/O Module): P82 [Anlg Out0 Val] Set Direction Mode Port 0: P308 [Direction Mode] = 2 “Rev Disable” Configuration Port 0: P150 [Digital In Cfg] = 1 “Run Level” Set Selection Port 0: P163 [DI Run] = Port X (I /O Module): P1 [Dig In Sts], bit 0 = Input 0 View Results Port X (I/O Module): P1 [Dig In Sts] Port 0: P935 [Drive Status 1] Set Direction Mode Port 0: P308 [Direction Mode] = 0 “Unipolar” Configuration Port 0: P150 [Digital In Cfg] = 1 “Run Level” Set Selection Port 0: P164 [DI Run Forward] = Port X (I/O Module): P1 [Dig In Sts], bit 0 = Input 0 Port 0: P165 [DI Run Reverse] = Port X (I/O Module): P1 [Dig In Sts], bit 1 = Input 1 View Results Port X (I/O Module): P1 [Dig In Sts] Port 0: P935 [Drive Status 1] Set Selection Port 0: P158 [DI Stop] = Port X (I/O Module): P1 [Dig In Sts], bit 0 = Input 0 Port 0: P161 [DI Start] = Port X (I/O Module): P1 [Dig In Sts], bit 1 = Input 1 View Results Port X (I/O Module): P1 [Dig In Sts] Port 0: P935 [Drive Status 1] Set Selection Port 0: P158 [DI Stop] = Port X (I/O Module): P1 [Dig In Sts], bit 0 = Input 0 Port 0: P161 [DI Start] = Port X (I/O Module): P1 [Dig In Sts], bit 1 = Input 1 View Results Port X (I/O Module): P1 [Dig In Sts] Port 0: P935 [Drive Status 1]
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Input/Output Digital Input PLC Output Module
Connection Example
Required Parameter Changes • Set Selection Port 0: P158 [DI Stop] = Port X (I/O Module): P1 [Dig In Sts], bit 0 = Input 0 Port 0: P161 [DI Start] = Port X (I/O Module): P1 [Dig In Sts], bit 1 = Input 1 • View Results Port X (I/O Module): P1 [Dig In Sts] Port 0: P935 [Drive Status 1]
Neutral/ Common 10k Ohm, 2 Watt DiC Di0 Di1
Control from Prog. Controller
•
Digital Output Internal supply 24VC +24V
•
Set Selection Port X (I/O Module): P20 [TO0 Sel] = Port 0: P935 [Drive Status 1], bit 7 = Faulted View Results Port X (I/O Module): P5 [Dig Out Sts]
T0 TC T1
Digital Output External supply
+24V
T0 TC T1
Common
OR
PLC T0 TC T1
5k Ohm 2 Watt +24V
Common
Relay Wiring Examples Input/Output Relay Output External supply
Connection Example 753 Main Control Board R0NC R0C R0NO
Required Parameter Changes • Set Selection Port 0: P230 [RO0 Sel] = Port 0: P935 [Drive Status 1], bit 7 = Faulted • View Results Port 0: P225 [Dig Out Sts]
Power Source
750-Series I/O Module
•
• R1NO R1C R1NC or
Set Selection Port X (I/O Module): P10 [RO0 Sel] = Port 0: P935 [Drive Status 1], bit 7 = Faulted View Results Port X (I/O Module): P5 [Dig Out Sts]
R0NO R0C R0NC
Power Source
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Safe Torque Off Option Module The safe torque off option is just one component in a safety control system. Components in the system must be chosen and applied appropriately to achieve the desired level of operational safety. For detailed information on applying this option, refer to the PowerFlex 750-Series Safe Torque Off User Manual, publication 750-UM002. Table 35 TB2 Terminal Designations 20-750-S SP+ SE+ Sd
SPSESd
Terminal Name
Description
SP+
+24 Volt Safety Power
SP-
Safety Power Common
User-supplied 24 volt power. 45 mA typical
SE+
+24 Volt Safety Enable
SE-
Safety Enable Common
Sd
Shield
Sd
Shield
Safety Input Power Supply
User-supplied 24 volt power. 25 mA typical Terminating point for wire shields when an EMC plate or conduit box is not installed.
Connection Example Common
SP-
+24V
SP+
Sd
SE-
Common
SE+
+24V
Sd
Installation Notes 1. Ensure the safety enable jumper (J2 SAFETY) is removed. 2. Ensure the hardware enable jumper (J1 ENABLE) is installed. If not installed, the drive will fault when a start command is issued.
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Safe Speed Monitor Option Module The Safe Speed Monitor option is just one component in a safety control system. Components in the system must be chosen and applied appropriately to achieve the desired level of operational safety. For detailed information on applying this option, refer to the Safe Speed Monitor Option Module for PowerFlex 750-Series AC Drives Safety Reference Manual, publication 750-RM001. Table 36 TB1 Terminal Designations 20-750-S1 S11 S11 S11 S21 S21 S21
Terminal Name S11 Pto0 S11 S11 S21 Pto1 S21 S21
Signal Name TEST_OUT_0
Description Pulse test source for safety inputs.
TEST_OUT_1
Pulse test source for safety inputs.
Table 37 TB2 Terminal Designations
S34
20-750-S1
20-750-DENC-1
52 51 78 68 44 34 X42 X32 S42 S32 S62 S52 S82 S72 S22 S12 A2 A1
Terminal S34 52 51 78 68 44 34 X42 X32 S42 S32 S62 S52 S82 S72 S22 S12 A2 A1
Name Res0 Dco1 Dco0 Slo1 Slo0 Sso1 Sso0 Lmi1 Lmi0 Dmi1 Dmi0 Sli1 Sli0 Esm1 Esm0 Ssi1 Ssi0 24VC +24V
Description Reset Door Control Output. Enables pulse testing.
Related Param 74
Safe Limited Speed Output. Enables pulse testing.
73
Safe Stop Output. Enables pulse testing.
72
Lock Monitoring Input
60
Door Monitoring Input
58
Safe Limited Speed Input
52
Enabling Switch Monitoring Input
54
Safe Stop Input
44
Customer supplied 24V DC. Module is not functional without these connections.
Installation Notes 1. Ensure the safety enable jumper (J2 SAFETY) is removed. 2. Ensure the hardware enable jumper (J1 ENABLE) is installed. If not installed, the drive will fault when a start command is issued. Important: When the Safe Speed Monitor option is used with the Dual Incremental Encoder option, both modules must be installed on the same backplane (ports 6, 5, 4).
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Table 38 Safe Speed Monitor Parameter List By Number Number 1 5 6 7 10 13 17 18 19 20 21 22 24 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43
Parameter Name Password Lock State Operating Mode Reset Defaults Signature ID New Password Password Command Security Code Vendor Password Cascaded Config Safety Mode Reset Type OverSpd Response Fbk Mode Fbk 1 Type Fbk 1 Units Fbk 1 Polarity Fbk 1 Resolution Fbk 1 Volt Mon Fbk 1 Speed Fbk 2 Units Fbk 2 Polarity Fbk 2 Resolution Fbk 2 Volt Mon Fbk 2 Speed Fbk Speed Ratio Fbk Speed Tol Fbk Pos Tol Direction Mon Direction Tol
Group Security Security Security Security Security Security Security Security Security General General General General Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback
Number 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 72 73 74
Parameter Name Group Safe Stop Input Stop Safe Stop Type Stop Stop Mon Delay Stop Max Stop Time Stop Standstill Speed Stop Standstill Pos Stop Decel Ref Speed Stop Stop Decel Tol Stop Lim Speed Input Limited Speed LimSpd Mon Delay Limited Speed Enable SW Input Limited Speed Safe Speed Limit Limited Speed Speed Hysteresis Limited Speed Door Out Type Door Control DM Input Door Control Lock Mon Enable Door Control Lock Mon Input Door Control Max Speed Enable Max Speed Safe Max Speed Max Speed Max Spd Stop Typ Max Speed Max Accel Enable Max Speed Safe Accel Limit Max Speed Max Acc Stop Typ Max Speed Fault Status Faults Guard Status Faults IO Diag Status Faults Config Flt Code Security/Faults SS Out Mode General SLS Out Mode General Door Out Mode Door Control
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Single Incremental Encoder Option Module Table 39 Single Incremental Encoder Specifications 20-750-ENC-1
Consideration Input
Description Differential or Single Ended operation, Constant Current Sink operation ~10 mA, 5V DC minimum to 15V DC maximum sourcing 10 mA minimum high state voltage of 3.5V DC maximum low state voltage of 0.4V DC Maximum Cable Length 30 m (100 ft) @ 5V, 183 m (600 ft) @ 12V Maximum Input Frequency 250 kHz
Table 40 TB1 Terminal Designations Sd Com A B Z +24 HmC
12 5 ABZ24C Hm
Terminal Name Sd Shield 12 Com 5 A AB BZ Z+24 24C HmC Hm
Description Terminating point for wire shields when an EMC plate or conduit box is not installed. Power supply for encoder 250 mA. +12V and +5V Common Power supply for encoder 250 mA. Single channel or quadrature A input.
+12 Volt DC Power Common +5 Volt DC Power Encoder A Encoder A (NOT) Encoder B Encoder B (NOT) Encoder Z Encoder Z (NOT) +24 Volt Common Homing Input Common Homing Input
Quadrature B input. Pulse, marker or registration input. Power source for homing input. Captures the AB edge counter.
Table 41 Single Incremental Encoder Sample Wiring I/O Encoder Power by Drive 12V DC, 250 mA OR 5V DC, 250 mA
Separately Powered Encoder
Connection Example Com Sh +12 +5
VDC
– Com
Sh
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I/O Connection Example Encoder Signal – Single-Ended, Dual Channel Com Sh A B Z
Encoder Signal – Differential, Dual Channel
ABZ-
Sh AA BB ZZ
Homing Signal– Internal Drive Power +24V HmC
24VC Hm
Parameter Access Refer to Select A Device on page 96 for instructions on how to access an option parameter set. Table 42 Single Incremental Encoder Parameter List By Number Number 1 2 3 4 5 6 7 8
Parameter Name Encoder Cfg Encoder PPR Fdbk Loss Cfg Encoder Feedback Encoder Status Error Status Phase Loss Count Quad Loss Count
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Dual Incremental Encoder Option Module Table 43 Dual Incremental Encoder Jumper Settings 20-750-DENC-1
Jumper P3 - Safety Jumper Enables use with speed monitoring safety option (20-750-S1).
Enabled Position
P3
P3
P4 - 12V Jumper Enables use with 12 volt supply in “Enabled” position and 5 volt supply in “Storage” position.
See Important statement on page 76.
Storage Position
P4
P4
Table 44 Dual Incremental Encoder Specifications Consideration Input
Description Differential or Single Ended operation, Constant Current Sink operation ~10 mA 5V DC minimum to 15V DC maximum sourcing 10 mA minimum high state voltage of 3.5V DC maximum low state voltage of 0.4V DC Maximum Cable Length 30 m (100 ft) @ 5V, 183 m (600 ft) @ 12V Maximum Input Frequency 250 kHz
Table 45 Dual Incremental Encoder Terminal Designations
ES 0A 0B 0Z Sd ES 1A 1B 1Z 24 Hm
EC 0A0B0ZSd EC 1A1B1Z24C HmC
Terminal ES EC 0A 0A0B 0B0Z 0ZSd Sd ES EC 1A 1A1B 1B1Z 1Z24 24C Hm HmC
Name +12 or +5 Volt DC Power Common Encoder 0: A Encoder 0: A (NOT) Encoder 0: B Encoder 0: B (NOT) Encoder 0: Z Encoder 0: Z (NOT) Encoder Shield Encoder Shield +12 or +5 Volt DC Power Common Encoder 1: A Encoder 1: A (NOT) Encoder 1: B Encoder 1: B (NOT) Encoder 1: Z Encoder 1: Z (NOT) +24 Volt Common Homing Input Homing Input Common
Description Power supply for Encoder 0, 250 mA. +12V and +5V Encoder 0, common Single channel or quadrature A input. Quadrature B input. Pulse, marker or registration input. Terminating point for wire shields when an EMC plate or conduit box is not installed. Power supply for Encoder 1, 250 mA. +12V and +5V Encoder 1, common Single channel or quadrature A input. Quadrature B input. Pulse, marker or registration input. Power source for homing input. Captures the AB edge counter.
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Table 46 Dual Incremental Encoder Parameter List By Number Number 1 2 3 4 5 6 7 8
Parameter Name Enc 0 Cfg Enc 0 PPR Enc 0 FB Lss Cfg Enc 0 FB Enc 0 Sts Enc 0 Error Sts Enc 0 PhsLss Cnt Enc 0 QuadLssCnt
Group Encoder 0 Encoder 0 Encoder 0 Encoder 0 Encoder 0 Encoder 0 Encoder 0 Encoder 0
Number 11 12 13 14 15 16 17 18 20 21
Parameter Name Group Enc 1 Cfg Encoder 1 Enc 1 PPR Encoder 1 Enc 1 FB Lss Cfg Encoder 1 Enc 1 FB Encoder 1 Enc 1 Sts Encoder 1 Enc 1 Error Sts Encoder 1 Enc 1 PhsLss Cnt Encoder 1 Enc 1 QuadLssCnt Encoder 1 Homing Cfg Homing Cfg Module Sts Module Status
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Universal Feedback Option Module (755 Drives Only) Table 47 Universal Feedback Option Module LED Indication 20-750-UFB-1 ➊ ➋
LED Name Board ➊
Color Unlit Green
State Off Flashing
Red
Steady Flashing Steady
Yellow
Flashing Steady
➋
DPI
Yellow / Green Unlit Green
Red Yellow
Description Not powered. Initializing, not active. Communication lost, attempting to reconnect. Operational, no faults are present. Module error. • Check P1 [Module Sts] Nor mal o peration. Module is booting. Fatal module error. • Cycle power • Flash update module firmware • Replace module A type 2 alarm condition exists. • Check P1 [Module Sts] A type 1 alarm condition exists. • Check P1 [Module Sts] Module is flash updating.
Flashing Alternately Off Not powered. Not communicating. Flashing Module is attempting to communicate with the DPI host. Steady • Properly connected and communicating. • Module is flash updating. Flashing Module is not communicating with the DPI host. Steady DPI communication failure such as invalid port. Flashing Nor mal operation. Steady Peripheral is connected to a SCANport product and does not support a SCANport compatibility mode.
Table 48 Universal Feedback Option Module DIP Switch Settings (Safety Application) Safety Channel Selection Primary Safety Channel To connect feedback signals to the Primary Safety Channel, set: S1 sliders to ON S2 sliders to OFF S3 slider to ON
Secondary Safety Channel To connect feedback signals to the Secondary Safety Channel, set: S1 sliders to OFF S2 sliders to ON S3 slider to ON
Primary and Secondary Safety Channels To connect feedback signals to both the Primary a nd Secondary Safety Channels, set: S1 sliders to ON S2 sliders to ON S3 slider to ON
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
DIP Switch Settings S1 S2 S3
S1 S2 S3
S1 S2 S3
83
Table 49 Universal Feedback Incremental AquadB Encoder Consideration Input
Description Differential or Single Ended operation, Constant Current Sink operation ~10 mA 3.5V DC minimum to 7.5V DC maximum sourcing 10 mA minimum high state voltage of 3. 5V DC maximum low state voltage of 0.4V DC Maximum Cable Length 30 m (100 ft) @ 5V, 183 m (600 ft) @ 12V Maximum Input Frequency 250 kHz
Table 50 TB1 Terminal Designations -Sn -Cs IS -Xc -Xd -Hf 5c 12c -A -B -Z
+Sn +Cs OS +Xc +Xd +Hf +5 +12 A B Z
Terminal -Sn +Sn -Cs +Cs Is Os -Xc +Xc -Xd +Xd -Hf +Hf
Name Sine (–) Sine (+) Cosine (–) Cosine (+) Inner Shield Outer Shield Channel X Clock (–) Channel X Clock (+) Channel X Data (–) Channel X Data (+) Heidenhain Supply Feedback (–) Heidenhain Supply Feedback (+)
5c +5 12c +12
Common +5 Volt DC Power Common +12 Volt DC Power
-A A -B B -Z Z
Encoder A (NOT) Encoder A Encoder B (NOT) Encoder B Encoder Z (NOT) Encoder Z
Description Negative Sine signal Positive Sine signal Negative Cosine signal Positive Cosine signal Heidenhain inner shield terminal Cable shield terminal Negative clock terminal (Channel X) Positive clock terminal (Channel X) Negative data terminal (Channel X) Positive data terminal (Channel X) For incremental feedback applications, tie terminal -Hf to 5c and terminal +Hf to +5 for proper voltage regulation. +5V Common Power supply for encoder 250 mA +12V Common Power supply for encoder (10.5V @ 250 mA) Single channel or quadrature A input or encoder output. Quadrature B input or encoder output. Pulse, marker or registration input or encoder output.
Table 51 TB2 Terminal Designations -Hm -R0 -R1 -YC -YD
+Hm +R0 +R1 +YC +YD
Terminal -Hm +Hm -R0 +R0 -R1 +R1 -Yc +Yc -Yd +Yd
Name Home Input (–) Home Input (+) Registration Input 0 (–) Registration Input 0 (+) Registration Input 1 (–) Registration Input 1 (+) Channel Y Clock (–) Channel Y Clock (+) Channel Y Data (–) Channel Y Data (+)
Description 12V DC @ 9 mA to 24V DC @ 40 mA Positive and negative encoder registration terminals. 12V DC @ 9 mA to 24V DC @ 40 mA Negative clock terminal (Channel Y) Positive clock terminal (Channel Y) Negative data terminal (Channel Y) Positive data terminal (Channel Y)
Important: Only one linear feedback device can be connected to the option module. Wire the device to either Channel X on TB1 or Channel Y on TB2.
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Table 52 Universal Feedback Option Module Parameter List By Number Number 1 2 5 6 7 8 9 10 15 16 17 20 21 22 25 26 27 35 36 37 38 39 40 45 46 47 50 51 52 55 56 57 80 81 82 83 84
Parameter Name Module Sts Module Err Reset FB0 Position FB0 Device Sel FB0 Identify FB0 Cfg FB0 Loss Cfg FB0 Sts FB0 IncAndSC PPR FB0 Inc Cfg FB0 Inc Sts FB0 SSI Cfg FB0 SSI Resol FB0 SSI Turns FB0 Lin CPR FB0 Lin Upd Rate FB0 LinStahl Sts FB1 Position FB1 Device Sel FB1 Identify FB1 Cfg FB1 Loss Cfg FB1 Sts FB1 IncAndSC PPR FB1 Inc Cfg FB1 Inc Sts FB1 SSI Cfg FB1 SSI Resol FB1 SSI Turns FB1 Lin CPR FB1 Lin Upd Rate FB1 LinStahl Sts Enc Out Sel Enc Out Mode Enc Out FD PPR Enc Out Z Offset Enc Out Z PPR
Group Module Module Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 0 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Feedback 1 Encoder Out Encoder Out Encoder Out Encoder Out Encoder Out
Number 90 91 92 93 94 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129
Parameter Name Group Rgsn Arm Registration Rgsn In 0 Filter Registration Rgsn In 1 Filter Registration Rgsn HmIn Filter Registration Rgsn Sts Registration Rgsn Latch1 Cfg Registration Rgsn Latch1 Psn Registration Rgsn Latch1 Time Registration Rgsn Latch2 Cfg Registration Rgsn Latch2 Psn Registration Rgsn Latch2 Time Registration Rgsn Latch3 Cfg Registration Rgsn Latch3 Psn Registration Rgsn Latch3 Time Registration Rgsn Latch4 Cfg Registration Rgsn Latch4 Psn Registration Rgsn Latch4 Time Registration Rgsn Latch5 Cfg Registration Rgsn Latch5 Psn Registration Rgsn Latch5 Time Registration Rgsn Latch6 Cfg Registration Rgsn Latch6 Psn Registration Rgsn Latch6 Time Registration Rgsn Latch7 Cfg Registration Rgsn Latch7 Psn Registration Rgsn Latch7 Time Registration Rgsn Latch8 Cfg Registration Rgsn Latch8 Psn Registration Rgsn Latch8 Time Registration Rgsn Latch9 Cfg Registration Rgsn Latch9 Psn Registration Rgsn Latch9 Time Registration RgsnLatch10 Cfg Registration RgsnLatch10 Psn Registration RgsnLatch10 Time Registration
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Auxiliary Power Supply Option Module Table 53 TB1 Terminal Designations 20-750-APS AP+ AP– Sh AP+ APSh
Terminal Name AP+ +24 Volt Auxiliary Power AP–
Auxiliar y Power Common
Sh
Shield
Description Connections for customer supplied 24V/3A power supply.
Terminating point for wire shields when an EMC plate or conduit box is not installed.
Important: The Auxiliary Power Supply option module may be installed in any option port. Due to its size, the module will extend over and block an adjacent port. Therefore, installation in Port 8 is recommended.
A connector cable is provided with Auxiliary Power Supply option modules for use in PowerFlex 753 drives. The cable is used to connect the module to the backplane when installed on the upper control pod brackets. The connector cable is not used with PowerFlex 755 drives. Figure 35
Auxiliary Power Supply Installation in 753 Drives
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DeviceNet Option Module For complete information on the DeviceNet Option Module, refer to the PowerFlex 750-Series Drive DeviceNet Option Module User Manual, publication 750COM-UM002. Table 54 DeviceNet Option Module LED Indication 20-750-DNET
➊ ➋ ➌
LED Name Por t ➊ MOD ➋ NET A ➌
Description DPI Connection Status Option Module Status DeviceNet Status
Table 55 DeviceNet Option Module Rotary Switches
➊ ➋
Switch Name Data Rate ➊ Switch Node Address ➋ Switches
Description Sets the DeviceNet data rate at which the option module communicates. Sets the node address of the option module.
Table 56 TB1 Terminal Designations
5 4 3
Terminal 5 4 3 2 1
Color Red White Bare Blue Black
Signal V+ CAN_H SHIELD CAN_L V-
2 1
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
Function Power Supply Signal High Shield Signal Low Common
87
ControlNet Option Module For complete information on the ControlNet Option Module, refer to the PowerFlex 20-750-CNETC Coaxial ControlNet Option Module User Manual, publication 750COM-UM003. Table 57 ControlNet Option Module LED Indication 20-750-CNETC
➊ ➋ ➌ ➍
LED Name Port ➊ MOD ➋ NET A ➌ NET B ➍
Description DPI Connection Status Option Module Status ControlNet Channel A Status ControlNet Channel B Status
Table 58 ControlNet Option Module Rotary Switches Switch Name TENS Switch ➊ ONES Switch ➋
➊
Description Sets the node address of the option module.
➋
Table 59 Coax Receptacles Receptacle ➊ ➋
➊
Name Channel A Channel B
Description Channel A BNC connection to the network. Channel B (redundant) BNC connection to the network.
➋
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20-COMM Carrier
20-750-20COMM
Enables use of some 20-COMM adapters with PowerFlex 750-Series drives. See Table 60. Refer to publication 750COM-IN001 for instructions on installing a 20-COMM adapter on the 20-COMM Carrier. Table 60 20-COMM-* Network Adapter Compatibility with 750-Series Drives Adapter Type
Accesses Ports 2, 3, and 6 for Accesses Port 7 I/O Connections (Implicit and through 14 Explicit Messaging) Devices
20-COMM-B BACnet MS/TP
Supports Asian-Languages (5)
No ✓ v3.001
(3)
20-COMM-D DeviceNet
✓ v2.005
(3)
20-COMM-E EtherNet/IP
✓ v4.001
(3)
20-COMM-C ControlNet (Coax)
Supports Drive Add On Profiles
✓
(1)
20-COMM-H RS-485 HVAC
✓
(2)
20-COMM-I Interbus
✓
(1)
✓
(4)
✓
(4)
✓ v3.001
(3)
✓ v4.001
(3)
✓ v2.001
(3)
✓ v3.001
(3)
No No
20-COMM-K CANopen 20-COMM-L LonWorks 20-COMM-M Modbus/TCP
No ✓
(1)
✓ v2.001
(3)
✓ v3.001
(3)
No
20-COMM-P Profibus DP 20-COMM-Q ControlNet (Fiber)
No
20-COMM-R Remote I/O
✓
(4)
No
20-COMM-S RS-485 DF1
(1) (2) (3) (4) (5)
Controller must be capable of reading/writing 32-bit floating point (REAL) values. Only works in the Modbus RTU mode. Requires this adapter firmware version or higher. Requires firmware version v1.05 or higher of the drive Add On Profiles for RSLogix 5000 version v16 or higher. Chinese, Japanese, and Korean languages are supported at the time of publication.
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Step 5
Start-Up Check List • This check list supports the Start-Up menu option. • A Human Interface Module (HIM) is required to run the Start-Up routine. Important: See page 92 for an overview of Human Interface Module (HIM) display elements and menu navigation.
• The Start-Up routine may modify parameter values for Analog and Digital I/O.
!
ATTENTION: Power must be applied to the drive to perform the following start-up procedure. 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.
Prepare For Initial Drive Start-Up ❏
1. Confirm that all inputs are connected to the correct terminals and are secure.
❏
2. Verify that AC line power at the disconnect device is within the rated value of the drive.
❏
3. Verify that control power voltage is correct.
❏
4. The remainder of this procedure requires that a Human Interface Module (HIM) be connected to DPI Port 1 or 2. Figure 36
❏
DPI Ports ➊ and ➋
5. Apply AC power and control voltages to the drive. If any digital inputs are configured to Stop – CF, Run, or Enable, verify that signals are present or the drive will not start. Refer to Troubleshooting – Drive Fault and Alarm Descriptions on page 98 for a list of potential digital input conflicts.
If the STS LED is not flashing green at this point, refer to Status Indicators on page 97.
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❏
6. When prompted, select a display language. The Start-Up Screen will automatically display for drives that have not been previously configured.
If the Start-Up screen is not displayed press the Enter key. ❏
7. Press the Enter key to display the Start-Up Menu.
❏
8. Use the Up/Down Arrow keys to highlight “2. Basic”.
❏
9. Press the Enter key. Follow the menu using the Enter key which will step you through the Start-Up routine.
The Start-Up routine asks simple questions and prompts you to input required information.
Start-Up Menu The General Start-Up menu is displayed by default upon initial power up of the drive. General Startup
Start-Up Main Menu Complete these steps in order: Motor Control Motor Data Feedback Limits Tests Ref, Ramp, Stop I/O Done
Motor Control
Motor Data
Feedback
Motor Ctrl
Motor Data
Feedback Config
Motor Ctrl Return
Motor Data Return
Fdbk Cnfg Return
Limits
Tests
Reference
I/O
Done
Limits
Tests
Ref, Ramp, Stop
I/O
Return to Main Menu
Limits Return
Tests Return
Ref, Ramp, Stop Return
I/O Return
Return to Main Menu
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Navigate to Start-Up Menu Using the HIM 1. To access the Start-Up menu after the initial drive power-up, apply power to the drive.
Upon a subsequent power up, the Status screen for Port 00 (Host Drive) is shown by default. Figure 37
Status Screen
Stopped 0.00 Hz
AUTO F
Host Drive 240V 4.2A Rev 3.002 Ser. A 00
ESC
REF
2. Press the Figure 38
PAR# TEXT
(Folders) key to access the Folder screen.
Folder Screen
Stopped 0.00 Hz
AUTO F
DEV PARAM Linear List File-Group Changed Params
00
ESC
3. Use the Figure 39
or Start Up Screen
Stopped 0.00 Hz
00
key to scroll to the START UP folder screen.
AUTO F
START UP Begin Start Up Continue Start Up
ESC
4. Use the
or
key to select one of the start up options.
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Human Interface Module (HIM) Overview Complete information about using the HIM (Catalog Numbers 20-HIM-A6 and 20-HIM-C6S) to configure and monitor your drive is provided in the Enhanced PowerFlex 7-Class Human Interface Module (HIM) User Manual, publication 20HIM-UM001. LCD Display Elements The HIM display is divided into three zones: ➊ Status Bar ➋ Data Area ➌ Soft Key Labels
Figure 40
HIM Display Zones
Stopped 0.00 Hz
AUTO F
Host Drive 240V 4.2A Rev 3.002 Ser. A 00 ESC
REF
PAR# TEXT
➊
➋
➌
Status Bar The Status Bar provides information about the operating condition of the Host Drive. Figure 41
Status Bar on the Display Screen
Stopped 0.00 Hz Element Host Icon Stopped
Status Text
0.00 Hz
Feedback
AUTO / MAN
Mode Indication Alarm Indication Rotation Indication
F
R
AUTO F
Description A small image of the connected Host Drive. Indicates current Host Drive operating status. Text flashes when a fault is present. Indicates drive output feedback (for example, Hz, RPM, amps, etc.) Indicates Auto or Manual HIM status. Bell icon indicates that an alarm is present. Indicates direction of Host Drive operation.
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Soft Keys Up to five dynamic soft keys (shown shaded in Figure 42) may be available. A soft key changes its function/name based on the HIM screen or data entry mode. When a soft key is active, its present function is shown on the LCD screen in its corresponding Soft Key Label (item 3 in Figure 40). Figure 42
Soft Keys
Navigation and Number Keys The five blue multi-function keys shown in Figure 43 are used to scroll menus/screens, perform corresponding functions displayed in the Data Area (item 2 in Figure 40) or enter numeric values. The five gray number keys (0, 1, 3, 7, and 9) are used only to enter their respective numeric value. Figure 43
Navigation and Number Keys
Key
Name 2/Down Arrow 4/Left Arrow 5/Enter
6/Right Arrow 8/Up Arrow
Description • Enters the numeric value “2.” • Scrolls down to select an item. • Enters the numeric value “4.” • Scrolls left to select an item. • Enters the numeric value “5.” • Displays the next level of a selected menu item. • Enters new values. • Performs intended actions. • Enters the numeric value “6.” • Scrolls right to select an item. • Enters the numeric value “8.” • Scrolls up to select an item.
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Single Function Keys Each of the four single-function keys shown in Figure 44 always performs only its dedicated function. Figure 44
Single Function Keys
Key
Name Start
Description Start the drive.
Folder
Access parameters, diagnostics, memory functions, preferences, and other tasks such as Start-Up.
Control Bar
Access jog, direction, auto/manual, and other control functions.
Stop
Used to stop the drive or clear a fault. This key is always active. Controlled by parameter 370 [Stop Mode A].
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Ports and Devices Drive Device Ports Connectors, embedded devices, and installed option modules such as I/O, communication adapters, and DeviceLogix, have unique port number assignments. Connectors and embedded devices have fixed port numbers that cannot be changed. Option modules are assigned a port number when installed. Figure 45
Drive Device Ports 00
07 08 01
14 04 05 06
02
03
13
Port 00 01
02 03 04…08
09…12 13 14
02
Device Host Drive HIM
Description Fixed port for the drive. Fixed port at HIM cradle connector. Splitter cable connector provides Port 01 when HIM cradle connector is unused. DPI Port Handheld or Remote HIM connection. Splitter cable connection. Splitter Cable Connects to DPI Port 02. Provides Port 02 and Port 03. Option Modules Available ports for option modules. Refer to the I/O Wiring section, beginning on page 67, for each option’s port recommendations. (Ports 07 and 08 PowerFlex 755 drives only.) Reserved for future use. EtherNet/IP Fixed por t for embedded EtherNet/IP (PowerFlex 755 drives only). DeviceLogix Fixed port for embedded DeviceLogix (PowerFlex 755 drives only).
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Select A Device 1. Access the Status Screen.
When the drive is powered up, the Status screen for Port 00 (Host Drive) is shown by default. Figure 46
Status Screen Displaying Port 00 (Host Drive)
Stopped 0.00 Hz
AUTO F
Host Drive 240V 4.2A Rev 3.002 Ser. A 00
ESC
REF
2. Use the Figure 47
PAR# TEXT
or
key to scroll to the desired port.
Status Screen Displaying Port 01 (HIM Installed In Cradle)
Stopped 0.00 Hz
AUTO F
20-HIM-x6 LCD HIM Operational 01
ESC
REF
PAR# TEXT
3. Press the PAR# soft key or the
(Folders) key to access parameters.
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Status Indicators Table 61 PowerFlex 753 Drive Status Indicator Descriptions Name STS (Status)
PowerFlex 753
Color Green
State Flashing Steady Flashing
Description Drive ready but not running, and no fault s are present. Drive running, no faults are present. Yello w Drive is not running, a type 2 (non-configurable) alarm condition exists and the drive cannot be started. Steady Drive is not running, a type 1 alarm condition exists. The drive can be started. Red Flashing A major fault has occurred. Drive will stop. Drive cannot be started until fault condition is cleared. Steady A non-resettable fault has occurred. Red / Flashing A minor fault has occurred. When running, the drive continues to run. Yellow Alternately System is brought to a stop under system control. Fault must be cleared to continue. Use parameter 950 [Minor Flt Config] to enable. If not enabled, acts like a major fault. Yellow / Flashing When running, a type 1 alarm exists. Green Alternately Green / Flashing Drive is flash updating. Red Alternately
Table 62 PowerFlex 755 Drive Status Indicator Descriptions Name STS (Status)
PowerFlex 755 ENET
LINK
Color Green
State Flashing Steady Flashing
Description Drive ready but not running, and no fault s are present. Drive running, no faults are present. Yello w Drive is not running, a type 2 (non-configurable) alarm condition exists and the drive cannot be started. Steady Drive is not running, a type 1 alarm condition exists. The drive can be started. Red Flashing A major fault has occurred. Drive will stop. Drive cannot be started until fault condition is cleared. Steady A non-resettable fault has occurred. Red / Flashing A minor fault has occurred. When running, the drive continues to run. Yellow Alternately System is brought to a stop under system control. Fault must be cleared to continue. Use parameter 950 [Minor Flt Config] to enable. If not enabled, acts like a major fault. Yellow / Flashing When running, a type 1 alarm exists. Green Alternately Green / Flashing Drive is flash updating. Red Alternately Unlit Off Adapter and/or network is not powered, adapter is not properly connected to the network, or adapter needs an IP address. Red Flashing An EtherNet/IP connection has timed out. Steady Adapter faile d the duplicate IP address detection test. Red / Flashing Adapter is performing a self-test. Green Alternately Green Flashing Adapter is properly connected but is not communicating with any devices on the network. Steady Adapter is properly connected and communicating on the network. Unlit Off Adapter is not powered or is not transmitting on the network. Green Flashing Adapter is properly connected and transmitting data packets on the network. Steady Adapter is properly connected but is not transmitting on the network.
Important: The Status Indicator LEDs on the HIM cradle do not indicate the status of Communication Networks, other than the status of Port 13, embedded EtherNet. If a Communication Adapter is installed, refer to that option’s user manual for a description of LED location and indication. PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Fault and Alarm Display Codes PowerFlex 750-Series fault and alarm codes are displayed in one of three formats. • Port 00 (Host Drive) displays the event number only. For example, Fault 3 “Power Loss” is displayed as: Fault Code 3. • Ports 01 through 09 use the format PEEE, indicating port number (P) and event number (EEE). For example, Fault 1 “Analog In Loss” on an I/O module installed in Port 4 is displayed as: Fault Code 4001. • Ports 10 through 14 use the format PPEEE, indicating port number (PP) and event number (EEE). For example, Fault 37 “Net IO Timeout” on Port 14 is displayed as: Fault Code 14037.
Troubleshooting – Drive Fault and Alarm Descriptions The table below contains a list of drive faults and alarms, the type of fault or alarm, the action taken when the drive faults, the parameter used to configure the fault or alarm (if applicable), and a description and action (where applicable). Important: See the User Manual, publication 750-UM001, for descriptions of faults and alarms generated by installed option modules. Table 63 Drive Fault and Alarm Types, Descriptions and Actions Event No. Fault/Alarm Text 0 No Entry 2 Auxiliary Input
Type
Fault Configuration Action Parameter
3
Power Loss
Resettable Coast Fault Configurable
4
UnderVoltage
Configurable
5
OverVoltage
7
Motor Overload
Resettable Coast Fault Configurable
8
Heatsink OvrTemp
9
Trnsistr OvrTemp
10
DynBrake OvrTemp
12
HW OverCurrent
13
Ground Fault
Auto Reset
Description/Action(s) An auxiliary input interlock is open.
P449 [Power Loss Actn]
Y
P460 [UnderVltg Action]
Y
P410 [Motor OL Actn]
Y
The DC bus voltage remained below the P451/P454 [Pwr Loss X Level] of nominal for longer t han the time programmed in P452/P455 [Pwr Loss X Time]. If the bus voltage, P11 [DC Bus Volts] falls below the value set in P461 [UnderVltg Level] an undervoltage condition exists. The DC bus voltage exceeded the maximum value.
Y
An internal electronic overload trip has occurred. The heatsink temperature has exceeded 100% of the drive temperature. The output transistors have exceeded the maximum operating temperature. The dynamic brake resistor has exceeded its maximum operating temperature. The drive output current has exceeded the hardware current limit. A current path to earth ground greater than 25% of drive rating has occurred.
Resettable Fault Resettable Fault Alarm 1
Coast
Y
Coast
Y
Resettable Fault Resettable Fault
Coast
Y
Coast
Y
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Event No. Fault/Alarm Text 14 Ground Warning
Fault Configuration Type Action Parameter Configurable
15
Load Loss
Configurable
P441 [Load Loss Action]
17
Input Phase Loss
Configurable
18
Motor PTC Trip
Configurable
P462 [InPhase LossActn] P250 [PTC Config]
20
TorqPrv Spd Band
Resettable Fault
21
Output PhaseLoss
Configurable
24
Decel Inhibit
Configurable
25
OverSpeed Limit
Resettable Fault
26
Brake Slipped
Alarm 1
Auto Reset
Coast
P444 [OutPhaseLossActn] P409 [Dec Inhibit Actn] Coast
Y
Alarm 2
Description/Action(s) The ground current has exceeded the level set in P467 [Ground Warn Lvl]. The output torque current is below the value programmed in P442 [Load Loss Level] for a time period greater than the time programmed in P443 [Load Loss Time]. The DC bus ripple has exceeded a preset level. Motor PTC (Positive Temperature Coefficient) over temperature. The difference between P2 [Commanded SpdRef] and P3 [Mtr Vel Fdbk] has exceeded the level programmed in P1105 [Speed Dev Band] for a time period greater than the time programmed in P1106 [SpdBand Intgrtr]. The current in one or more phases has been lost or remains below a preset level. The drive is not following a commanded deceleration because it is attempting to limit the bus voltage. The motor operating speed exceeds the limit set by the maximum speed setting P524 [Overspeed Limit]. For forward motor rotation, this limit is P520 [Max Fwd Speed] + P524 [Overspeed Limit]. For reverse motor rotation, this limit is P521 [Max Rev Speed] - P524 [Overspeed Limit]. When flux vector control modes are selected in P35 [Motor Ctrl Mode] the motor operating s peed is determined by P131 [Active Vel Fdbk]. For all other non-flux vector control modes, the motor operating speed is determined by P1 [Output Frequency]. The encoder movement has exceeded the level in P1110 [Brk Slip Count] after the brake was set and the brake slip maneuver is controlling the drive. (Drive is active.) The encoder movement has exceeded the level in P1110 [Brk Slip Count] after the brake was set and the brake slip maneuver is finished. (Drive is stopped.) When P1100 [Trq Prove Cfg] is enabled, P35 [Motor Ctrl Mode], P125 [Pri Vel Fdbk Sel] and P135 [Mtr Psn Fdbk Sel] must be properly set. If these parameters point to a feedback module, the module parameters must also be properly set. Encoderless TorqProve has been enabled but user has not read and understood application concerns of encoderless operation. Refer to the PowerFlex 750-Series User Manual, publication 750-UM001, for information and precautions relating to the use of TorqProve with no encoder. Analog input has a lost signal.
27
Torq Prove Cflct
Alarm 2
28
TrqProv EnclsCfg
Alarm 2
29
Analog In Loss
Configurable
33
AuRsts Exhausted
Coast
36
SW OverCurrent
Resettable Fault Resettable Fault
38 39 40 41 42 43 44 45 46
Phase U to Gnd Phase V to Gnd Phase W to Gnd Phase UV Short Phase VW Short Phase WU Short Phase UNot ToGnd Phase VNot ToGnd Phase WNot ToGnd
Resettable Fault
Coast
Resettable Fault
Coast
Excessive current has been detected between these two output terminals.
Resettable Fault
Coast
A phase to ground fault has been detected between the drive and motor in this phase.
263 [Anlg In0 LssActn]
Coast
Y
The drive unsuccessfully attempted to reset a fault and resume running for the programmed number of tries. The drive output current has exceeded the 1 ms current rating. This rating is greater than the 3 second current rating and less than the hardware overcurrent fault level. It is typically 200…250% of the drive continuous rating. A phase to ground fault has been detected between the drive and motor in this phase.
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Event No. Fault/Alarm Text 48 System Defaulted
Type Resettable Fault –
Fault Configuration Action Parameter Coast
49
Drive Powerup
51 55
Clr Fault Queue Crtl Bd Overtemp
58
Module Defaulted
59
Invalid Code
61
Shear Pin 1
– Resettable Coast Fault Resettable Coast Fault Resettable Coast Fault Configurable
62
Shear Pin 2
Configurable
64
Drive OverLoad
Alarm 1
67 71 72 73 74 75 76 77
Pump Off Port 1 Adapter Port 2 Adapter Port 3 Adapter Port 4 Adapter Port 5 Adapter Port 6 Adapter IR Volts Range
Resettable Fault Alarm 1 Resettable Fault
78
FluxAmpsRef Rang
79
Excessive Load
80
AutoTune Aborted
81 82 83 84 85 86 87
Port 1 DPI Loss Port 2 DPI Loss Port 3 DPI Loss Port 4 DPI Loss Port 5 DPI Loss Port 6 DPI Loss IXo VoltageRange
Coast
Coast
Coast
Alarm 2
Resettable Fault
Coast
Resettable Fault Resettable Fault Resettable Fault
Coast Coast Coast
Alarm 2
Resettable Fault
Coast
Description/Action(s) The drive was commanded to write default values. A Power Up Marker in the Fault Queue indicating that the drive power cycled. Indication that the fault queue has been cleared. The temperature sensor on the main control board detected excessive heat. See product temperature requirement. The module was commanded to write default values. Internal error.
P435 [Shear Pin 1 Actn] P438 [Shear Pin 2 Actn]
Y Y Y
Alarm 2
Resettable Fault
Auto Reset
The programmed value in P436 [Shear Pin1 Level] has been exceeded. The programmed value in P439 [Shear Pin2 Level] has been exceeded. P940 [Drive OL Count] has exceeded 50% but is less than 100%. P940 [Drive OL Count] has exceeded 100%. Reduce the mechanical load on the drive. Pump Off condition has been detected. The DPI communications option has a fault. See device event queue.
The default for P70 [Autotune] is 1 “Calculate” and the value calculated from the motor nameplate values retur ned a value for P73 [IR Voltage Drop] which is not in the rang e of acceptable values. P70 [Autotune] is set to 2 “Static Tune” or 3 “Rotate Tune” and the value measured by the Autotune procedure for P73 [IR Voltage Drop] is not in the range o f acceptable values. The default for P70 [Autotune] is 1 “Calculate” and the value for flux amps determined by the Autotune procedure exceeds the value programmed in P26 [Motor NP Amps]. P70 [Autotune] is set to 2 “Static Tune” or 3 “Rotate Tune” and the value for flux amps measured by the Autotune procedure exceeds the value programmed in P26 [Motor NP Amps]. The motor did not come up to speed in the allotted time during Autotune. The Autotune function was manually canceled or a fault occurred. The DPI port stopped communicating. Check connections and drive grounding.
The default for P70 [Autotune] is 1 “Calculate” and the voltage calculated for motor inductive impedance exceeds 25% of the value of P25 [Motor NP Volts]. P70 [Autotune] is set to 2 “Static Tune” or 3 “Rotate Tune” and the voltage measured for motor inductive impedance exceeds 25% of the value o f P25 [Motor NP Volts].
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Event No. Fault/Alarm Text 91 Pri VelFdbk Loss
Fault Configuration Type Action Parameter Configurable Note: See option module for config parameter number
93
Hw Enable Check
94
Alt VelFdbk Loss
Resettable Coast Fault Configurable
95
Aux VelFdbk Loss
Configurable
96
PositionFdbkLoss
Configurable
97
Auto Tach Switch
Resettable Fault
Coast
100
Parameter Chksum
Coast
104
Pwr Brd Checksum
106
Incompat MCB-PB
107
Replaced MCB-PB
108
Anlg Cal Chksum
111
PwrBd Invalid ID
112
PwrBd App MinVer
113
Tracking DataErr
115
PwrDn Table Full
116
PwrDnEntry2Large
117
PwrDn Data Chksm
118
PwrBd PwrDn Chks
124
App ID Changed
125
Using Backup App
134
Start On PowerUp
Resettable Fault Non-Reset Fault Non-Reset Fault Resettable Fault Non-Reset Fault Non-Reset Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Alarm 1
Auto Reset
Coast
Description/Action(s) A Feedback Loss has been detected for the source of P134 [Aux Vel Feedback]. This could be due t o a problem detected by the feedback option module selected by P125 [Pri Vel Fdbk Sel] or due to a loss in communication between the feedback option module and main control board. The source of primary velocity feedback must be configured not to fault if the feedback loss switchover feature is used. Hardware enable is disabled (jumper installed) but indicates not enabled. A Feedback Loss has been detected for the source of P128 [Alt Vel Fdbk Sel]. This could be due to a problem detected by the feedback option module selected by P128 [Alt Vel Fdbk Sel] or due to a loss in communication between the feedback option module and main control board. A Feedback Loss has been detected for the source of P132 [Aux Vel Fdbk Sel]. This could be due to a problem detected by the feedback option module s elected by P132 [Aux Vel Fdbk Sel] or due to a loss in communication between the feedback option module and main control board. A Feedback Loss has been detected for the source of P847 [Psn Fdbk]. This could be due to a problem detected by the feedback option module selected by P135 [Mtr Psn Fdbk Sel] or due to a lo ss in communication between the feedback option module and main control board. Indication that either of the two following conditions exists. • Tach switch has occurred and alternate feedback device has failed. • Tach switch has not occurred, Auto Tach Switch Option is enabled and both primary and alternate devices have failed. The checksum read from the non-volatile storage does not match the checksum calculated. Data set to default value. The checksum read from the non-volatile storage does not match the checksum calculated. Data set to default value. The main control board did not recognize the power structure. Flash with newer Application version. The main control board was moved to a different power structure. Data set to default values. The checksum read from the analog calibration data does not match the checksum calculated. Power structure ID invalid. Flash with newer Application version. Power structure needs newer Application version. Flash with newer Application version. Internal data error.
Coast
Internal data error.
Coast
Internal data error.
Coast
Internal data error.
Coast
Internal data error.
Coast
Application Firmware changed. Verify Application version.
Coast
Application did not flash correctly. Reflash.
Coast Coast Coast Coast Coast
Note: See option module for config parameter number
When P345 [Start At PowerUp] is enabled, an alarm will be set for the time programmed in P346 [PowerUp Delay].
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Event No. Fault/Alarm Text 137 Ext Prechrg Err
Fault Configuration Type Action Parameter Configurable P323 [Prchrg Err Cfg]
138
Precharge Open
Resettable Fault
Coast
141
Autn Enc Angle
Coast
142
Autn Spd Rstrct
143
Autotune CurReg
144
Autotune Inertia
145
Autotune Travel
152
No Stop Source
155
Bipolar Conflict
Resettable Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Resettable Fault Alarm 2
157 158 161
DigIn Cfg B DigIn Cfg C Sleep Cfg
Alarm 2 Alarm 2 Alarm 2
162
Waking
Alarm 2
168
HeatSinkUnderTmp
169
PWM Freq Reduced
Resettable Fault Alarm 1
170
CurLimit Reduced
Alarm 1
171 177 178 179 185
Adj Vltg Ref Profiling Active Homing Active Home Not Set Freq Conflict
Alarm 1 Alarm 1 Alarm 1 Alarm 1 Alarm 2
186
VHz Neg Slope
Alarm 2
187
VHz Boost Limit
Alarm 2
190
PM FV Pri Fdbk
Alarm 2
Coast Coast Coast Coast Coast
Auto Reset
Description/Action(s) The seal contact on the external precharge contactor has opened (as signalled by P190 [DI Prchrg Seal]) while the drive was running (PWM was active). The internal precharge was commanded to open while the drive was running (PWM was active). The internal fault latch will be automatically cleared when PWM is disabled. P78 [Encdrlss AngComp] is out of range. Frequency limit settings are preventing the drive from reaching a suitable speed during an Inertia Tune test. Calculated values for P96 [VCL Cur Reg Kp] and/or P97 [VCL Cur Reg Ki] are out of range. Results from the Inertia Tune test out of range for P76 [Total Inertia]. When P77 [Inertia Test Lmt] is set, the Inertia Tune test was prevented from reaching a suitable speed to run the test. Last stop source has been removed. P308 [Direction Mode] is set to 1 “Bipolar” or 2 “Rev Disable” and one or more digital input is enabled for direction control. Digital input conflict. Correct Digital Input configuration. Digital input conflict. Correct Digital Input configuration. There is a Sleep/Wake configuration error. With Sleep Wake Mode = Direct, possible causes include: Drive is stopped and Wake Level < Sleep Level. Stop=CF, Run, Run Fwd, or Run Rev is not configured in Digital Input functions. The Wake timer is counting toward a value that will start the drive. Heatsink temperature sensor is reporting a value below -18.7 °C (-1.66 °F) or the sensor feedback circuit is open. The PWM Frequency has been reduced from the value set in P38 [PWM Frequency] due to excessive IGBT junction temperatures. The current limit value has been reduced from the value set in P422/423 [Current Limit X] due to excessive IGBT junction temperatures or P940 [Drive OL Count] = 95%. Invalid adjustable voltage reference selection conflict. The Profile/Indexer is active. The Homing function is active. The Home position was not set before profile operation. Indicates that the values of P520 [Max Fwd Speed] and P521 [Max Rev Speed] are in conflict with the value of P63 [Break Frequency]. Indicates that the V/Hz curve segment resulted in a negative V/Hz slope. Indication that one of the two following conditions exists. • P60 [Start/Acc Boost] and P61 [Run Boost] are greater than P25 [Motor NP Volts] x 0.25 when P65 [VHz Curve] = 0 “Custom V/Hz.” • P61 [Run Boost] is greater than P25 [Motor NP Volts] x 0.25 when P65 [VHz Curve] = 1 “Fan/Pump.” Indicates a control mode and primary feedback device configuration error. P35 [Motor Ctrl Mode] is set to a flux vector “FV” control mode, P125 [Pri Vel Fdbk Sel] is set t o 137 (port 0, P137 [Open Loop Fdbk]).
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Event No. Fault/Alarm Text 191 PM FV Alt Fdbk
Type Alarm 2
192
Fwd Spd Lim Cfg
Alarm 2
193
Rev Spd Lim Cfg
Alarm 2
203
Port 13 Adapter
204
Port 14 Adapter
205 210
DPI TransportErr HW En Jumper Out
211
Safety Brd Fault
212
Safety JumperOut
213
Safety Jumper In
214 224 225 226 227 228 229 230 231 232 233 234 244 245 246 247 248 249 250 251 252 253 254
SafetyPortCnflct Port 4 Comm Loss Port 5 Comm Loss Port 6 Comm Loss Port 7 Comm Loss Port 8 Comm Loss Port 9 Comm Loss Port10 Comm Loss Port11 Comm Loss Port12 Comm Loss Port13 Comm Loss Port14 Comm Loss Port 4 Cfg Port 5 Cfg Port 6 Cfg Port 7 Cfg Port 8 Cfg Port 9 Cfg Port 10 Cfg Port 11 Cfg Port 12 Cfg Port 13 Cfg Port 14 Cfg
Resettable Fault Resettable Fault Alarm 1 Resettable Fault Resettable Fault Resettable Fault Resettable Fault Alarm 2 Resettable Fault
Alarm 2
Fault Configuration Action Parameter
Coast Coast
Coast Coast Coast Coast
Coast
Auto Reset
Description/Action(s) Indicates a control mode and alternate feedback device configuration error. P35 [Motor Ctrl Mode] is set to a flux vector “FV” control mode, P635 [Spd Options Ctrl] is set to bit 7 “Auto Tach SW,” P125 [Pri Vel Fdbk Sel] is set to 137 (port 0, P137 [Open Loop Fdbk]). The forward speed reference is out of range. Verify the settings of P38 [PWM Frequency] and P520 [Max Fwd Speed]. Lower carrier frequencies reduce the output frequency range. Verify that P522 [Min Fwd Speed] is less than P520 [Max Fwd Speed]. The reverse speed reference is out of range. Verify the settings of P38 [PWM Frequency] and P521 [Max Rev Speed]. Lower carrier frequencies reduce the output frequency range. Verify that P523 [Min Rev Speed] is less than P521 [Max Rev Speed]. The embedded EtherNet/IP adapter has a fault. See EtherNet event queue. The DeviceLogix adapter has a fault. A DPI Communication Error has occurred. A Safety Option module is present and Jumper J1 ENABLE is removed. Install the jumper. A Safety option module has indicated a fault. Verify that Jumper J1 ENABLE is installed. Reset or power cycle drive. Jumper J2 SAFETY is not installed and a Safety option module is not present. Install the jumper. Jumper J2 SAFETY is installed and a Safety option module is present. Remove the jumper. Allowable number of safety options exceeded. The device at the port has stopped communicating with the main control board. Verify that the device is present and functional. Verify network connections. Verify options installed in ports 4…8 are seated in the port and secured with mounting screws.
The main control board does not have the correct option in the port. Option may not be compatible with product or MCB firmware needs to be updated to support it. Option my have to be moved or removed, accept option configuration change.
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Event No. 264 265 266 267 268 269 270 271 272 273 274 291
Fault/Alarm Text Port 4 Checksum Port 5 Checksum Port 6 Checksum Port 7 Checksum Port 8 Checksum Port 9 Checksum Port10 Checksum Port11 Checksum Port12 Checksum Port13 Checksum Port14 Checksum HS Fan Life
Type Resettable Fault
292
In Fan Life
Configurable
293
MtrBrng Life
Configurable
294
MtrBrng Lube
Configurable
295
MachBrng Life
Configurable
296
MachBrng Lube
Configurable
307
Port7InvalidCard
308
Port8InvalidCard
313
ENet Checksum
314
DLX Checksum
Non-Reset Fault Non-Reset Fault Resettable Fault Resettable Fault Configurable
14037 Net IO Timeout
Fault Configuration Action Parameter Coast
Configurable
P493 [HSFan EventActn] P500 [InFan EventActn] P506 [MtrBrngEventActn] P510 [MtrLubeEventActn] P515 [MtrBrngEventActn] P519 [MchLubeEventActn] Coast
Auto Reset
Description/Action(s) A option module storage checksum failed. Option data has been set to default values.
Predictive maintenance function has reached the event level. Perform maintenance.
Option not valid in that port. Remove option module.
Coast Coast Coast P52 [DLX Prog Cond]
Ethernet/IP storage checksum failed. Data set to default values. DeviceLogix storage checksum failed. Data set to default values. DeviceLogix has been disabled.
Important: Fault and Alarm event numbers between 3000 and 13999 are generated by a module installed in a port. Refer to Fault and Alarm Display Codes on page 98 for an explanation.
Refer to the following publications for detailed fault and alarm information. Event Number Range Publication Title 3000…12999 PowerFlex 750-Series AC Drives User Manual 13000…13999 PowerFlex 755 Drive Embedded EtherNet/IP Adapter User Manual
Publication Number 750-UM001 750COM-UM001
Manually Clearing Faults Step Key(s) 1. Press the “Clear” soft key to acknowledge the fault. The fault information will be CLR removed so that you can use the HIM. 2. Address the condition that caused the fault. The cause must be corrected before the fault can be cleared. 3. After corrective action has been taken, clear the fault by one of these methods: • Press Stop (if running the drive will stop) • Cycle drive power • Select the “Clear” soft key on the HIM Diagnostic folder Faults menu.
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Common Symptoms and Corrective Actions Drive does not Start from Start or Run Inputs wired to the terminal block. Cause(s) Drive is Faulted
Indication Flashing red status light
Incorrect input wiring. See page 69 for wiring examples. • 2 wire control requires Run, Run Forward, Run Reverse or Jog input. • 3 wire control requires Start and Stop inputs. • Verify 24 Volt Common is connected to Digital Input Common. Incorrect digital input programming. • Mutually exclusive choices have been made (i.e., Jog and J og Forward). • 2 wire and 3 wire programming may be conflicting. • Start configured without a Stop configured.
None
Terminal block does not have control.
Corrective Action Clear fault. • Press Stop • Cycle power • “Clear Faults” on the HIM Diagnostic menu. Wire inputs correctly.
None Configure input function. Flashing yellow Resolve input function conflicts. status light and “DigIn Cnfg B” or “DigIn Cnfg C” indication on LCD HIM. P936 [Drive Status 2] shows type 2 alarm(s). None Check P324 [Logic Mask].
Drive does not Start from HIM. Cause(s) Indication Drive is configured for 2 wire level None control. Another device has Manual control. None Port does not have control. None
Corrective Action Change P150 [Digital In Conf] to correct control function. Change P324 [Logic Mask] to enable correct port.
Drive does not respond to changes in speed command. Cause(s) Indication Corrective Action No value is coming from the source LCD HIM Status 1. If the source is an analog input, check of the command. Line indicates wiring and use a meter to check for “At Speed” and presence of signal. output is 0 Hz. 2. Check P2 [Commanded SpdRef] for correct source. Incorrect reference source has None 3. Check P545 [Spd Ref A Sel] for the source been programmed. of the speed reference. 4. Reprogram P545 [Spd Ref A Sel] for correct source. Incorrect Reference source is None 5. Check P935 [Drive Status 1] bits 12 and 13 being selected via remote device or for unexpected source selections. digital inputs. 6. Check P220 [Digital In Sts] to see if inputs are selecting an alternate source. 7. Check configuration of P173-175 [DI Speed Sel X] functions.
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Motor and/or drive will not accelerate to commanded speed. Cause(s) Acceleration time is excessive. Excess load or short acceleration times force the drive into current limit, slowing or stopping acceleration. Speed command source or value is not as expected. Programming is preventing the drive output from exceeding limiting values.
Indication None None
None None
Corrective Action Reprogram P535/536 [Accel Time X]. Check P935 [Drive Status 1], bit 27 to see if the drive is in Current Limit. Remove excess load or reprogram P535/536 [Accel Time X]. Check for the proper Speed Command using Steps 1 through 7 above. Check P520 [Max Fwd Speed], P521 [Max Rev Speed] and P37 [Maximum Freq] to assure that speed is not limited by programming.
Motor operation is unstable. Cause(s) Indication Motor data was incorrectly entered None or Autotune was not performed.
Corrective Action 1. Correctly enter motor nameplate data. 2. Perform “Static Tune” or “Rotate Tune” Autotune procedure.
Drive will not reverse motor direction. Cause(s) Digital input is not selected for reversing control. Digital input is incorrectly wired. Direction mode parameter is incorrectly programmed. Motor wiring is improperly phased for reverse. A bipolar analog speed command input is incorrectly wired or signal is absent.
Indication None None None None None
Corrective Action Check that the DI Reversing function is correctly configured. Check digital input wiring. Reprogram P308 [Direction Mode] for analog “Bipolar” or digital “Unipolar” control. Switch two motor leads. 1. Use meter to check that an analog input voltage is present. 2. Check bipolar analog signal wiring. Positive voltage commands forward direction. Negative voltage commands reverse direction.
Stopping the drive results in a Decel Inhibit fault. Cause(s) The bus regulation feature is enabled and is halting deceleration due to excessive bus voltage. Excess bus voltage is normally due to excessive regenerated energy or unstable AC line input voltages. Internal timer has halted drive operation.
Indication Corrective Action Decel Inhibit 1. Reprogram parameters 372/373 [Bus Reg fault screen. Mode X] to eliminate any “Adjust Freq” LCD Status Line selection. indicates 2. Disable bus regulation (parameters 372/373 “Faulted”. [Bus Reg Mode X]) and add a dynamic brake. 3. Correct AC input line instability or add an isolation transformer. 4. Reset drive.
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Drive (Port 0) Parameter List Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 20 21 22 25 26 27 28 29 30 31 35 36 37 38 40 42 43 44 45 46 47 48 49 50 51 52 60 61 62 63 64 65 70 71 73 74 75
Parameter Name Output Frequency Commanded SpdRef Mtr Vel Fdbk Commanded Trq Torque Cur Fdbk Flux Cur Fdbk Output Current Output Voltage Output Power Output Powr Fctr DC Bus Volts DC Bus Memory Elapsed MWH Elapsed kWH Elapsed Run Time Rated Volts Rated Amps Rated kW Motor NP Volts Motor NP Amps Motor NP Hertz Motor NP RPM Mtr NP Pwr Units Motor NP Power Motor Poles Motor Ctrl Mode Maximum Voltage Maximum Freq PWM Frequency Mtr Options Cnfg Bus Utilization Flux Up Enable Flux Up Time Flux Down Ki Flux Down Kp Econ At Ref Ki Econ AccDec Ki Econ AccDec Kp Stability Filter Stab Volt Gain Stab Angle Gain Start Acc Boost Run Boost Break Voltage Break Frequency SVC Boost Filter VHz Curve Autotune Autotune Torque IR Voltage Drop Ixo Voltage Drop Flux Current Ref
Group Metering Metering Metering Metering Metering Metering Metering Metering Metering Metering Metering Metering Metering Metering Metering Drive Data Drive Data Drive Data Motor Data Motor Data Motor Data Motor Data Motor Data Motor Data Motor Data Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Mtr Ctrl Options Volts per Hertz Volts per Hertz Volts per Hertz Volts per Hertz Volts per Hertz Volts per Hertz Autotune Autotune Autotune Autotune Autotune
Number 76 77 78 79 80 81 82 83 84 85 86 87 88 89 91 92 93 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 125 126 127 128 129 130 131 132 133 134 135 136 137
Parameter Name Total Inertia Inertia Test Lmt Encdrlss AngComp Encdrlss VltComp PM Cfg 755 PM PriEnc Offset 755 PM AltEnc Offset 755 PM OfstTst Cur 755 PM OfstTst CRamp 755 PM OfstTst FRamp 755 PM CEMF Voltage 755 PM IR Voltage 755 PM IXq Voltage 755 PM IXd Voltage 755 PM Vqs Reg Kp 755 PM Vqs Reg Ki 755 PM Dir Test Cur 755 VCL Cur Reg BW VCL Cur Reg Kp VCL Cur Reg Ki VEncdls FReg Kp VEncdls FReg Ki Slip Reg Enable Slip Reg Ki Slip Reg Kp Flux Reg Enable Flux Reg Ki Flux Reg Kp Trq Adapt Speed Trq Adapt En Phase Delay Comp Trq Comp Mode Trq Comp Mtring Trq Comp Regen Slip Adapt Iqs SFAdapt SlewLmt SFAdapt SlewRate SFAdapt CnvrgLvl SFAdapt CnvrgLmt Pri Vel Fdbk Sel Pri Vel FdbkFltr Pri Vel Feedback Alt Vel Fdbk Sel Alt Vel FdbkFltr Alt Vel Feedback Active Vel Fdbk Aux Vel Fdbk Sel Aux Vel FdbkFltr Aux Vel Feedback Mtr Psn Fdbk Sel Load Psn FdbkSel 755 Open Loop Fdbk
Group Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Autotune Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Vector Regulator Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback Feedback
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Number 138 139 140 141 142 150 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 177 178 179 180 181 182 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 220 222 223 225 226
Parameter Name Simulator Fdbk Delayed Spd Ref 755 Virtual EncDelay 755 Virtual Enc EPR 755 Virtual Enc Psn 755 Digital In Cfg DI Enable DI Clear Fault DI Aux Fault DI Stop DI Cur Lmt Stop DI Coast Stop DI Start DI Fwd Reverse DI Run DI Run Forward DI Run Reverse DI Jog 1 DI Jog 1 Forward DI Jog 1 Reverse DI Jog 2 DI Jog 2 Forward DI Jog 2 Reverse DI Manual Ctrl DI Speed Sel 0 DI Speed Sel 1 DI Speed Sel 2 DI MOP Inc DI MOP Dec DI Accel 2 DI Decel 2 DI SpTqPs Sel 0 DI SpTqPs Sel 1 DI Stop Mode B DI BusReg Mode B DI PwrLoss ModeB DI Pwr Loss DI Precharge DI Prchrg Seal DI PID Enable DI PID Hold DI PID Reset DI PID Invert DI Torque StptA DI Fwd End Limit DI Fwd Dec Limit DI Rev End Limit DI Rev Dec Limit DI PHdwr OvrTrvl DI NHdwr OvrTrvl Digital In Sts Dig In Filt Mask 753 Dig In Filt 753 Dig Out Sts 753 Dig Out Invert 753
Group Feedback Feedback Feedback Feedback Feedback Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digin Functions Digital Inputs Digital Inputs Digital Inputs Digital Outputs Digital Outputs
Number 227 230 231 232 233 234 235 240 241 242 243 244 245 250 251 255 256 257 260 261 262 263 264 265 266 270 271 275 276 277 278 279 280 281 282 285 286 287 288 289 290 291 292 300 301 302 305 306 308 309 310 311 312 313 314
Parameter Name Dig Out Setpoint 753 RO0 Sel 753 RO0 Level Sel 753 RO0 Level 753 RO0 Level CmpSts 753 RO0 On Time 753 RO0 Off Time 753 TO0 Sel 753 TO0 Level Sel 753 TO0 Level 753 TO0 Level CmpSts 753 TO0 On Time 753 TO0 Off Time 753 PTC Cfg 753 PTC Status 753 Anlg In Type 753 Anlg In Sqrt 753 Anlg In Loss Sts 753 Anlg In0 Value 753 Anlg In0 Hi 753 Anlg In0 Lo 753 Anlg In0 LssActn 753 Anlg In0 Raw Val 753 Anlg In0 Filt Gn 753 Anlg In0 Filt BW 753 Anlg Out Type 753 Anlg Out Abs 753 Anlg Out0 Sel 753 Anlg Out0 Stpt 753 Anlg Out0 Data 753 Anlg Out0 DataHi 753 Anlg Out0 DataLo 753 Anlg Out0 Hi 753 Anlg Out0 Lo 753 Anlg Out0 Val 753 RO PredMaint Sts 753 RO0 Load Type 753 RO0 Load Amps 753 RO0 TotalLife 753 RO0 ElapsedLife 753 RO0 RemainLife 753 RO0 LifeEvntLvl 753 RO0 LifeEvntActn 753 Speed Units Access Level Language Voltage Class Duty Rating Direction Mode SpdTrqPsn Mode A SpdTrqPsn Mode B SpdTrqPsn Mode C SpdTrqPsn Mode D Actv SpTqPs Mode SLAT Err Stpt
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
Group Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Digital Outputs Motor PTC Motor PTC Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Inputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs Analog Outputs R0 Predict Main R0 Predict Main R0 Predict Main R0 Predict Main R0 Predict Main R0 Predict Main R0 Predict Main R0 Predict Main Preferences Preferences Preferences Control Cfg Control Cfg Control Cfg Control Cfg Control Cfg Control Cfg Control Cfg Control Cfg Control Cfg
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Number 315 321 322 323 324 325 326 327 328 329 330 331 336 345 346 347 348 349 350 351 352 353 354 355 356 357 358 359 360 361 362 363 364 370 371 372 373 374 375 376 377 378 379 380 381 382 383 384 385 388 389 390 391 393 394
Parameter Name SLAT Dwell Time Prchrg Control Prchrg Delay Prchrg Err Cfg Logic Mask Auto Mask Manual Cmd Mask Manual Ref Mask Alt Man Ref Sel Alt Man Ref AnHi Alt Man Ref AnLo Manual Preload Reset Meters Start At PowerUp PowerUp Delay Auto Retry Fault Auto Rstrt Tries Auto Rstrt Delay Sleep Wake Mode SleepWake RefSel Sleep Level Sleep Time Wake Level Wake Time FlyingStart Mode FS Gain FS Ki FS Speed Reg Ki FS Speed Reg Kp FS Excitation Ki FS Excitation Kp FS Reconnect Dly FS Msrmnt CurLvl Stop Mode A Stop Mode B Bus Reg Mode A Bus Reg Mode B Bus Reg Lvl Cnfg Bus Reg Level Bus Limit Kp Bus Limit Kd Bus Limit ACR Ki Bus Limit ACR Kp Bus Reg Ki Bus Reg Kp DB Resistor Type DB Ext Ohms DB Ext Watts DB ExtPulseWatts Flux Braking En Flux Braking Lmt Flux Braking Ki Flux Braking Kp DC Brake Lvl Sel DC Brake Level
Group Control Cfg Control Cfg Control Cfg Control Cfg Auto Manual Ctrl Auto Manual Ctrl Auto Manual Ctrl Auto Manual Ctrl Auto Manual Ctrl Auto Manual Ctrl Auto Manual Ctrl Auto Manual Ctrl Drive Memory Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Start Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features
Number 395 396 397 398 399 400 401 402 403 409 410 411 412 413 414 415 416 418 419 420 421 422 423 424 425 426 427 428 429 430 431 432 433 434 435 436 437 438 439 440 441 442 443 444 445 449 450 451 452 453 454 455 456 457 458
Parameter Name DC Brake Time DC Brake Ki DC Brake Kp DC Brk Vq Fltr DC Brk Vd Fltr Fast Braking Ki 755 Fast Braking Kp Brake Off Adj 1 Brake Off Adj 2 Dec Inhibit Actn Motor OL Actn Mtr OL at Pwr Up Mtr OL Alarm Lvl Mtr OL Factor Mtr OL Hertz Mtr OL Reset Lvl MtrOL Reset Time Mtr OL Counts Mtr OL Trip Time Drive OL Mode Current Lmt Sel Current Limit 1 Current Limit 2 Active Cur Lmt Current Rate Lmt Regen Power Lmt Motor Power Lmt Current Limit Kd Current Limit Ki Current Limit Kp Id Lo FreqCur Kp Iq Lo FreqCur Kp Jerk Gain Shear Pin Cfg Shear Pin 1 Actn Shear Pin1 Level Shear Pin 1 Time Shear Pin 2 Actn Shear Pin2 Level Shear Pin 2 Time Load Loss Action Load Loss Level Load Loss Time OutPhaseLossActn Out PhaseLossLvl Power Loss Actn Pwr Loss Mode A Pwr Loss A Level Pwr Loss A Time Pwr Loss Mode B Pwr Loss B Level Pwr Loss B Time PwrLoss RT BusKp PwrLoss RT BusKd PwrLoss RT ACRKp
Group Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Braking Features Motor Overload Motor Overload Motor Overload Motor Overload Motor Overload Motor Overload Motor Overload Motor Overload Motor Overload Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Load Limits Power Loss Power Loss Power Loss Power Loss Power Loss Power Loss Power Loss Power Loss Power Loss Power Loss
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Number 459 460 461 462 463 464 466 467 469 470 471 472 488 489 490 491 492 493 494 495 496 497 498 499 500 501 502 503 504 505 506 507 508 509 510 511 512 513 514 515 516 517 518 519 520 521 522 523 524 525 526 527 528 529 535
Parameter Name PwrLoss RT ACRKi UnderVltg Action UnderVltg Level InPhase LossActn InPhase Loss Lvl DC Bus Mem Reset Ground Warn Actn Ground Warn Lvl PredMaint Status PredMaintAmbTemp PredMaint Rst En PredMaint Reset HSFan Derate HSFan TotalLife HSFan ElpsdLife HSFan RemainLife HSFan EventLevel HSFan EventActn HSFan ResetLog InFan Derate InFan TotalLife InFan ElpsdLife InFan RemainLife InFan EventLevel InFan EventActn InFan ResetLog MtrBrngTotalLife MtrBrngElpsdLife MtrBrngRemainLif MtrBrngEventLvl MtrBrngEventActn MtrBrng ResetLog MtrLubeElpsdHrs MtrLubeEventLvl MtrLubeEventActn MchBrngTotalLife MchBrngElpsdLife MchBrngRemainLif MchBrngEventLvl MchBrngEventActn MchBrngResetLog MchLubeElpsdHrs MchLube EventLvl MchLubeEventActn Max Fwd Speed Max Rev Speed Min Fwd Speed Min Rev Speed Overspeed Limit Zero Speed Limit Skip Speed 1 Skip Speed 2 Skip Speed 3 Skip Speed Band Accel Time 1
Group Power Loss Power Loss Power Loss Power Loss Power Loss Power Loss Ground Fault Ground Fault Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Predictive Main Speed Limits Speed Limits Speed Limits Speed Limits Speed Limits Speed Limits Speed Limits Speed Limits Speed Limits Speed Limits Speed Ramp Rates
Number 536 537 538 539 540 541 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 571 572 573 574 575 576 577 588 589 590 591 592 593 594 595 596 597 600 601 602 603 604 605 606 607 608 609 610
Parameter Name Accel Time 2 Decel Time 1 Decel Time 2 Jog Acc Dec Time S Curve Accel S Curve Decel Spd Ref A Sel Spd Ref A Stpt Spd Ref A AnlgHi Spd Ref A AnlgLo Spd Ref A Mult Spd Ref B Sel Spd Ref B Stpt Spd Ref B AnlgHi Spd Ref B AnlgLo Spd Ref B Mult Spd Ref Scale Jog Speed 1 Jog Speed 2 MOP Reference Save MOP Ref MOP Rate MOP High Limit MOP Low Limit DI ManRef Sel DI ManRef AnlgHi DI ManRef AnlgLo Preset Speed 1 Preset Speed 2 Preset Speed 3 Preset Speed 4 Preset Speed 5 Preset Speed 6 Preset Speed 7 Spd Ref Filter Spd Ref Fltr BW Spd Ref FltrGain Spd Ref Sel Sts Selected Spd Ref Limited Spd Ref Ramped Spd Ref Filtered Spd Ref Speed Rate Ref Final Speed Ref Trim Ref A Sel Trim Ref A Stpt Trim RefA AnlgHi Trim RefA AnlgLo Trim Ref B Sel Trim Ref B Stpt Trim RefB AnlgHi Trim RefB AnlgLo TrmPct RefA Sel TrmPct RefA Stpt TrmPct RefA AnHi
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
Group Speed Ramp Rates Speed Ramp Rates Speed Ramp Rates Speed Ramp Rates Speed Ramp Rates Speed Ramp Rates Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Reference Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim
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Number 611 612 613 614 615 616 617 620 621 622 623 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 663 664 665 666 667 670 671 675 676 677 678 679 680 681 682 683 684 685
Parameter Name TrmPct RefA AnLo TrmPct RefB Sel TrmPct RefB Stpt TrmPct RefB AnHi TrmPct RefB AnLo SpdTrimPrcRefSrc Spd Trim Source Droop RPM at FLA Slip RPM at FLA Slip Comp BW VHzSV SpdTrimReg Spd Options Ctrl Speed Reg BW SReg FB Fltr Sel SReg FB FltrGain SReg FB Fltr BW Filtered SpdFdbk Speed Error Servo Lock Gain 755 SpdReg AntiBckup Spd Err Fltr BW Speed Reg Kp Speed Reg Max Kp Speed Reg Ki Alt Speed Reg BW Alt Speed Reg Kp Alt Speed Reg Ki AltSpdErr FltrBW SReg Trq Preset Spd Loop Damping Spd Reg Int Out Spd Reg Pos Lmt Spd Reg Neg Lmt SReg OutFltr Sel SReg OutFltrGain SReg OutFltr BW SReg Output VHzSV Spd Reg Kp VHzSV Spd Reg Ki Speed Comp Sel Speed Comp Gain Speed Comp Out Pos Torque Limit Neg Torque Limit Trq Ref A Sel Trq Ref A Stpt Trq Ref A AnlgHi Trq Ref A AnlgLo Trq Ref A Mult Trq Ref B Sel Trq Ref B Stpt Trq Ref B AnlgHi Trq Ref B AnlgLo Trq Ref B Mult Selected Trq Ref
Group Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Speed Trim Slip/Droop Comp Slip/Droop Comp Slip/Droop Comp Slip/Droop Comp Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Regulator Speed Comp Speed Comp Speed Comp Torque Limits Torque Limits Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference
Number 686 687 688 689 690 695 696 697 698 699 700 704 705 706 707 708 709 710 711 720 721 722 723 724 725 726 727 730 731 732 733 734 735 736 737 738 745 746 747 748 749 750 765 766 767 770 771 772 773 774 775 776 777 778 779
Parameter Name Torque Step Notch Fltr Freq Notch Fltr Atten Filtered Trq Ref Limited Trq Ref Inertia CompMode 755 Inertia Acc Gain 755 Inertia Dec Gain 755 Inert Comp LPFBW 755 Inertia Comp Out 755 Ext Ramped Ref 755 InAdp LdObs Mode 755 Inertia Adapt BW 755 InertiaAdaptGain 755 Load Estimate 755 InertiaTrqAdd 755 IA LdObs Delay 755 InertAdptFltrBW 755 Load Observer BW 755 PTP PsnRefStatus Position Control Psn Selected Ref Psn Command Psn Reg Status Zero Position In Pos Psn Band In Pos Psn Dwell Homing Status Homing Control DI Find Home DI Redefine Psn DI OL Home Limit Find Home Speed Find Home Ramp Actual Home Psn User Home Psn PsnWatch1 Select 755 PsnWatch1 DtctIn 755 PsnWatch1 Stpt 755 PsnWatch2 Select 755 PsnWatch2 DtctIn 755 PsnWatch2 Stpt 755 Psn Ref Select Psn Direct Stpt Psn Direct Ref PTP Control PTP Mode DI Indx Step DI Indx StepRev DI Indx StepPrst PTP Ref Sel PTP Reference PTP Feedback PTP Ref Scale PTP Index Preset
Group Torque Reference Torque Reference Torque Reference Torque Reference Torque Reference Inertia Comp Inertia Comp Inertia Comp Inertia Comp Inertia Comp Inertia Comp Friction Comp Friction Comp Friction Comp Friction Comp Friction Comp Friction Comp Friction Comp Friction Comp Position Cfg/Sts Position Cfg/Sts Position Cfg/Sts Position Cfg/Sts Position Cfg/Sts Position Cfg/Sts Position Cfg/Sts Position Cfg/Sts Position Homing Position Homing Position Homing Position Homing Position Homing Position Homing Position Homing Position Homing Position Homing Position Watch Position Watch Position Watch Position Watch Position Watch Position Watch Direct Direct Direct Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point
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Number 780 781 782 783 784 785 786 787 788 789 790 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 815 816 817 820 821 822 823 824 825 826 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845
Parameter Name PTP Setpoint PTP Accel Time PTP Decel Time PTP Speed FwdRef PTP Command PTP Fwd Vel Lmt PTP Rev Vel Lmt PTP S Curve PTP Vel Override PTP EGR Mult PTP EGR Div PLL Control 755 PLL Ext Spd Sel 755 PLL Ext Spd Stpt 755 PLL Ext SpdScale 755 PLL Psn Ref Sel 755 PLL Psn Stpt 755 PLL BW 755 PLL LPFilter BW 755 PLL Virt Enc RPM 755 PLL EPR Input 755 PLL Rvls Input 755 PLL Psn Out Fltr 755 PLL Speed Out 755 PLL Speed OutAdv 755 PLL Enc Out 755 PLL Enc Out Adv 755 PLL EPR Output 755 PLL Rvls Output 755 Psn Ref EGR Out Psn EGR Mult Psn EGR Div Psn Offset 1 Sel Psn Offset 1 Psn Offset 2 Sel Psn Offset 2 Psn Offset Vel LdPsn Fdbk Mult 755 LdPsn Fdbk Div 755 PsnNtchFltrFreq PsnNtchFltrDepth Psn Out Fltr Sel Psn Out FltrGain Psn Out Fltr BW Psn Error Psn Actual Psn Load Actual 755 Psn Reg Ki Psn Reg Kp PReg Pos Int Lmt PReg Neg Int Lmt PsnReg IntgrlOut PsnReg Spd Out PReg Pos Spd Lmt PReg Neg Spd Lmt
Group Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Point to Point Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Phase Lock Loop Electronic Gear Electronic Gear Electronic Gear Position Offset Position Offset Position Offset Position Offset Position Offset Ld Psn Fdbk Scal Ld Psn Fdbk Scal Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg Position Reg
Number 846 847 871 872 873 874 875 876 877 878 879 880 881 882 883 884 885 886 887 888 895 896 897 898 899 900 901 902 905 906 907 908 909 910 911 912 919 920 921 922 923 924 925 930 931 932 933 934 935 936 937 940 941 942 943
Parameter Name Psn Reg Droop Psn Fdbk Port 1 Reference Port 2 Reference Port 3 Reference Port 4 Reference Port 5 Reference Port 6 Reference Port13 Reference 755 Port14 Reference Drive Logic Rslt DPI Ref Rslt DPI Ramp Rslt DPI Logic Rslt Drive Ref Rslt 753 Drive Ramp Rslt 753 Port Mask Act Logic Mask Act Write Mask Act Write Mask Cfg Data In A1 Data In A2 Data In B1 Data In B2 Data In C1 Data In C2 Data In D1 Data In D2 Data Out A1 Data Out A2 Data Out B1 Data Out B2 Data Out C1 Data Out C2 Data Out D1 Data Out D2 Stop Owner Start Owner Jog Owner Dir Owner Clear Flt Owner Manual Owner Ref Select Owner Speed Ref Source Last StartSource Last Stop Source Start Inhibits Last StrtInhibit Drive Status 1 Drive Status 2 Condition Sts 1 Drive OL Count IGBT Temp Pct IGBT Temp C Drive Temp Pct
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
Group Position Reg Position Reg Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Comm Control Security Security Security Security DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks DPI Datalinks Owners Owners Owners Owners Owners Owners Owners Status Status Status Status Status Status Status Status Status Status Status Status
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Number 944 945 946 950 951 952 953 954 955 956 957 958 959 960 961 962 963 970 971 972 974 975 976 978 979 980 982 983 984 1035 1036 1037 1038 1039 1040 1041 1042 1043 1044 1045 1046 1065 1066 1067 1068 1069 1070 1071 1072 1073 1074 1075 1076 1077 1078
Parameter Name Drive Temp C At Limit Status Safety Port Sts Minor Flt Cfg Last Fault Code Fault Status A Fault Status B Status1 at Fault Status2 at Fault Fault Frequency Fault Amps Fault Bus Volts Alarm Status A Alarm Status B Type 2 Alarms AlarmA at Fault AlarmB at Fault Testpoint Sel 1 Testpoint Fval 1 Testpoint Lval 1 Testpoint Sel 2 Testpoint Fval 2 Testpoint Lval 2 Testpoint Sel 3 Testpoint Fval 3 Testpoint Lval 3 Testpoint Sel 4 Testpoint Fval 4 Testpoint Lval 4 PkDtct Stpt Real 755 PkDtct Stpt Dint 755 PkDtct1 In Sel 755 PkDtct1PresetSel 755 Peak1 Cfg 755 Peak 1 Change 755 PeakDetect1 Out 755 PkDtct2 In Sel 755 PkDtct2PresetSel 755 Peak2 Cfg 755 Peak 2 Change 755 PeakDetect2 Out 755 PID Cfg PID Control PID Ref Sel PID Ref AnlgHi PID Ref AnlgLo PID Setpoint PID Ref Mult PID Fdbk Sel PID Fdbk AnlgHi PID Fdbk AnlgLo PID FBLoss SpSel PID FBLoss TqSel PID Fdbk PID Fdbk Mult
Group Status Status Status Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Fault/Alarm Info Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Testpoints Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Peak Detection Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID
Number 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088 1089 1090 1091 1092 1093 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109 1110 1111 1112 1113 1120 1121 1122 1123 1124 1125 1126 1129 1130 1131 1133 1134 1135 1136 1137 1138 1139 1140 1141 1142 1143 1144 1145 1146 1147 1148
Parameter Name PID Output Sel PID Output Mult PID Upper Limit PID Lower Limit PID Deadband PID LP Filter BW PID Preload PID Prop Gain PID Int Time PID Deriv Time PID Status PID Ref Meter PID Fdbk Meter PID Error Meter PID Output Meter Trq Prove Cfg 755 Trq Prove Setup 755 DI FloatMicroPsn 755 Trq Prove Status 755 Trq Lmt SlewRate 755 Speed Dev Band 755 SpdBand Intgrtr 755 Brk Release Time 755 Brk Set Time 755 Brk Alarm Travel 755 Brk Slip Count 755 Float Tolerance 755 MicroPsnScalePct 755 ZeroSpdFloatTime 755 Fiber Control 753 Fiber Status 753 Sync Time 753 Traverse Inc 753 Traverse Dec 753 Max Traverse 753 P Jump 753 DI Fiber SyncEna 753 DI Fiber TravDis 753 Adj Vltg Config 753 Adj Vltg Select 753 Adj Vltg Ref Hi 753 Adj Vltg Ref Lo 753 Adj Vltg TrimSel 753 Adj Vltg Trim Hi 753 Adj Vltg Trim Lo 753 Adj Vltg Command 753 Adj Vltg AccTime 753 Adj Vltg DecTime 753 Adj Vltg Preset1 753 Adj Vltg Preset2 753 Adj Vltg Preset3 753 Adj Vltg Preset4 753 Adj Vltg Preset5 753 Adj Vltg Preset6 753 Adj Vltg Preset7 753
Group Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Process PID Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Torque Prove Fibers Function Fibers Function Fibers Function Fibers Function Fibers Function Fibers Function Fibers Function Fibers Function Fibers Function Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg
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Number 1149 1150 1151 1152 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175 1176 1177 1178 1179 1180 1181 1182 1183 1184 1187 1188 1189 1190 1191 1192 1193 1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207 1210 1212 1213 1215 1216 1217 1218 1219 1220 1221
Parameter Name Adj Vltg RefMult 753 Adj Vltg Scurve 753 Adj Vltg TrimPct 753 Min Adj Voltage 753 Rod Speed 753 Rod Torque 753 Rod Speed Cmd 753 TorqAlarm Action 753 TorqAlarm Config 753 TorqAlarm Dwell 753 TorqAlarm Level 753 TorqAlm Timeout 753 TorqAlarm TOActn 753 Total Gear Ratio 753 Max Rod Speed 753 Max Rod Torque 753 Min Rod Speed 753 Motor Sheave 753 OilWell Pump Cfg 753 PCP Pump Sheave 753 Gearbox Limit 753 Gearbox Rating 753 Gearbox Ratio 753 Gearbox Sheave 753 Pump Off Config 753 Pump Off Setup 753 Pump Off Action 753 Pump Off Control 753 Pump Off Status 753 Pump Cycle Store 753 Set Top ofStroke 753 Torque Setpoint 753 Pump Off Level 753 Pump Off Speed 753 Pump Off Time 753 Pct Cycle Torque 753 Pct Lift Torque 753 Pct Drop Torque 753 Stroke Pos Count 753 Stroke Per Min 753 Pump Off Count 753 PumpOff SleepCnt 753 Day Stroke Count 753 DI PumpOff Disbl 753 Pump OffSleepLvl 753 Profile Status 755 Units Traveled 755 Profile Command 755 Counts Per Unit 755 ProfVel Override 755 Prof DI Invert 755 DI Hold Step 755 DI Abort Step 755 DI Abort Profile 755 DI Vel Override 755
Group Adjustable Vltg Adjustable Vltg Adjustable Vltg Adjustable Vltg Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Jack Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Pump Off Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling
Number 1222 1223 1224 1225 1226 1230…1380 1231…1381 1232…1382 1233…1383 1234…1384 1235…1385 1236…1386 1237…1387 1238…1388 1239…1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407…1437 1408…1438 1439 1440 1441…1469 1442…1470 1471 1472 1473 1474
Parameter Name DI StrtStep Sel0 755 DI StrtStep Sel1 755 DI StrtStep Sel2 755 DI StrtStep Sel3 755 DI StrtStep Sel4 755 Step 1…16 Type 755 Step 1…16 Velocity 755 Step 1…16 Accel 755 Step 1…16 Decel 755 Step 1…16 Value 755 Step 1…16 Dwell 755 Step 1…16 Batch 755 Step 1…16 Next 755 Step 1…16 Action 755 Step 1…16 Dig In 755 PCAM Control 755 PCAM Mode 755 PCAM Psn Select 755 PCAM Psn Stpt 755 PCAM Psn Ofst 755 PCAM PsnOfst Eps 755 PCAM Span X 755 PCAM Scale X 755 PCAM Span Y 755 PCAM ScaleY Sel 755 PCAM ScaleYSetPt 755 PCAM VelScaleSel 755 PCAM VelScaleSP 755 PCAM Slope Begin 755 PCAM Slope End 755 PCAM Main EndPnt 755 PCAM Main Types 755 PCAM Main Pt X 0…15 755 PCAM Main Pt Y 0…15 755 PCAM Aux EndPnt 755 PCAM Aux Types 755 PCAM Aux Pt X 1…15 755 PCAM Aux Pt Y 1…15 755 PCAM Status 755 PCAM Vel Out 755 PCAM Psn Out 755 DI PCAM Start 755
Group Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Profiling Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming Camming
“753” indicates parameter is used by PowerFlex 753 drives only. “755” indicates parameter is used by PowerFlex 755 drives only.
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009
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Notes:
PowerFlex 750-Series Installation Instructions – Publication 750-IN001C-EN-P – September 2009