MVX9000 AF Drives - Site personnel de Marc Croteau
MVX9000 AF Drives
User Manual
February 2006
Supersedes October 2004
TD4002003E
For more information visit: www.EatonElectrical.com
Important Notice – Please Read
The product discussed in this literature is subject to terms and conditions
outlined in Eaton Electrical Inc. selling policies. The sole source
governing the rights and remedies of any purchaser of this equipment is
the relevant Eaton Electrical Inc. selling policy.
NO WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF
FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY, OR
WARRANTIES ARISING FROM COURSE OF DEALING OR USAGE OF
TRADE, ARE MADE REGARDING THE INFORMATION,
RECOMMENDATIONS AND DESCRIPTIONS CONTAINED HEREIN. In no
event will Eaton Electrical Inc. be responsible to the purchaser or user in
contract, in tort (including negligence), strict liability or otherwise for any
special, indirect, incidental or consequential damage or loss whatsoever,
including but not limited to damage or loss of use of equipment, plant or
power system, cost of capital, loss of power, additional expenses in the
use of existing power facilities, or claims against the purchaser or user by
its customers resulting from the use of the information,
recommendations and descriptions contained herein.
The information contained in this manual is subject to change without
notice.
Cover Photo: Cutler-Hammer® MVX9000 Drives
MVX9000 User Manual
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MVX9000 User Manual
Table of Contents
LIST OF FIGURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
vi
LIST OF TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
viii
SAFETY MESSAGES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Definitions and Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hazardous High Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Warnings, Notes and Cautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ix
ix
ix
x
CHAPTER 1 — INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
How to Use This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Conventions Used in This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Warranty and Liability Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Related Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-1
1-2
1-3
1-3
1-4
1-4
CHAPTER 2 — OVERVIEW OF THE MVX9000 DRIVE . . . . . . . . . . . . . . . . . . . .
Receiving and Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Nameplate Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Catalog Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Style Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
External Parts and Label Locations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Digital Keypad Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-1
2-2
2-2
2-2
2-3
2-3
2-4
CHAPTER 3 — STORAGE AND INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . .
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Transportation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pollution Degree . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting Area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Applicable Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Basic Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
External Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Terminal Wiring (Factory Settings) . . . . . . . . . . . . . . . . . . . . . . . . .
Main Circuit Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Motor Operation Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-1
3-2
3-2
3-2
3-2
3-2
3-2
3-3
3-4
3-4
3-5
3-6
3-7
3-8
3-9
3-10
MVX9000 User Manual
iii
Table of Contents
CHAPTER 4 — START-UP PROCEDURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Step-by-Step Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Inverter Mounting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring Preparation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wire Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuses and Circuit Breakers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fusing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Manual Motor Starters/UL489 Circuit Breakers . . . . . . . . . . . . . . . . . . .
Wiring the Inverter to Incoming Power . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring the Motor to the Inverter Output . . . . . . . . . . . . . . . . . . . . . . . . .
Power-Up Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Powering the Inverter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1
4-2
4-2
4-4
4-5
4-6
4-7
4-7
4-7
4-9
4-10
4-11
4-12
CHAPTER 5 — DESCRIPTIONS OF PARAMETER SETTINGS . . . . . . . . . . . . . .
Viewing and Changing Parameter Settings . . . . . . . . . . . . . . . . . . . . . . . . .
Parameter Groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 20 — Basic Grouping (Quick Start) . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 30 — Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Explanations: Digital Input Terminal . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 40 — Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Function Explanations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 50 — AC Drive Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 60 — Motor Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 70 — Protective Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 80 — Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 90 — Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Computer Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Data Format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-1
5-2
5-4
5-5
5-7
5-16
5-27
5-29
5-31
5-50
5-54
5-59
5-63
5-67
5-68
ADR (Communication Address) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-70
CMD (Command code) and DATA (data characters) . . . . . . . . . . . . . . . 5-70
CHK (Check Sum) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-73
CHAPTER 6 — MAINTENANCE AND INSPECTION . . . . . . . . . . . . . . . . . . . . . . 6-1
Periodic Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2
Periodic Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-2
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MVX9000 User Manual
Table of Contents
CHAPTER 7 — TROUBLESHOOTING AND FAULT INFORMATION . . . . . . . . . 7-1
Common Problems and Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2
Warning Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-5
APPENDIX A — TECHNICAL DATA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-1
Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2
APPENDIX B — PARAMETER TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-1
MVX9000 Parameter Listing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-2
APPENDIX C — ACCESSORIES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fuse Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Braking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EMI Filter Cross-Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DIN Rail Adapter (P/N: MVXDR) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Remote Kit (P/N: MVXRM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5 meter keypad cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Extension Input/Output (P/N: MVXEIO) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
C-1
C-2
C-3
C-4
C-5
C-6
C-10
C-11
C-11
C-12
APPENDIX D — DIMENSIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-1
Digital Keypad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-2
Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . D-4
APPENDIX E — DECLARATION OF CONFORMITY . . . . . . . . . . . . . . . . . . . . . .
Low Voltage Directive . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EC Declaration of Conformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electromagnetic Compatibility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EC Declaration of Conformity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MVX9000 User Manual
E-1
E-2
E-2
E-3
E-3
v
List of Figures
Figure 2-1: Example of 1/2 hp 230V AC drive . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-2
Figure 2-2: Parts and Label . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
Figure 2-3: Description of Digital Keypad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
Figure 2-4: Explanation of the LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
Figure 3-1: Mounting in an Enclosure in Inches (mm) . . . . . . . . . . . . . . . . . . . 3-3
Figure 3-2: Circuit Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
Figure 3-3: External Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
Figure 3-4: Control Terminal Wiring (Factory Settings) . . . . . . . . . . . . . . . . . . . 3-7
Figure 3-5: Main Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
Figure 3-6: Parallel Grounding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
Figure 4-1: Clearances and Air Flow in Inches (mm) . . . . . . . . . . . . . . . . . . . . . 4-3
Figure 5-1: Page Groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
Figure 5-2: Parameter Groups . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
Figure 5-3: Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-2
Figure 5-4: Programming Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
Figure 5-5: Parameter Changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3
Figure 5-6: 0 – 10V Analog Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-9
Figure 5-7: 10 Hz Positive Offset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-10
Figure 5-8: 0 – 5V Analog Command Range . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-11
Figure 5-9: 1V Negative Bias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-12
Figure 5-10: Forward and Reverse Programming . . . . . . . . . . . . . . . . . . . . . . . 5-13
Figure 5-11: DI1 and DI2 Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-14
Figure 5-12: Digital Input Terminal Settings 01, 02 . . . . . . . . . . . . . . . . . . . . . . 5-16
Figure 5-13: Digital Input Terminal Settings 03, 04 . . . . . . . . . . . . . . . . . . . . . . 5-16
Figure 5-14: Digital Input Terminal Settings 05, 06, 07 . . . . . . . . . . . . . . . . . . . 5-17
Figure 5-15: Digital Input Terminal Setting 08 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-18
Figure 5-16: Digital Input Terminal Setting 09 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-18
Figure 5-17: Digital Input Terminal Settings 10, 11, 12 . . . . . . . . . . . . . . . . . . . 5-18
Figure 5-18: Digital Input Terminal Settings 13, 14 . . . . . . . . . . . . . . . . . . . . . . 5-19
Figure 5-19: Digital Input Terminal Setting 15 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-19
Figure 5-20: Digital Input Terminal Setting 16 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-19
Figure 5-21: Digital Input Terminal Setting 17 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-20
Figure 5-22: Digital Input Terminal Setting 18 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-20
Figure 5-23: Digital Input Terminal Settings 19, 20 . . . . . . . . . . . . . . . . . . . . . . 5-21
Figure 5-24: Digital Input Terminal Setting 21 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-21
Figure 5-25: Digital Input Terminal Settings 22, 23 . . . . . . . . . . . . . . . . . . . . . . 5-22
Figure 5-26: Digital Input Terminal Setting 24 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-22
Figure 5-27: Digital Input Terminal Setting 25 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-23
Figure 5-28: Digital Input Terminal Setting 26 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-23
MVX9000 User Manual
vi
List of Figures
Figure 5-29: Digital Input Terminal Settings 27, 28 . . . . . . . . . . . . . . . . . . . . . . 5-23
Figure 5-30: Digital Input Terminal Settings 29, 30 . . . . . . . . . . . . . . . . . . . . . . 5-24
Figure 5-31: Digital Input Terminal Settings 31, 32 . . . . . . . . . . . . . . . . . . . . . . 5-24
Figure 5-32: Digital Input Terminal Setting 33 . . . . . . . . . . . . . . . . . . . . . . . . . . 5-24
Figure 5-33: R01, R02 and R03 Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-28
Figure 5-34: Desired Freq. Attained & Preset Freq. Attained . . . . . . . . . . . . . . 5-30
Figure 5-35: Stop Methods . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-31
Figure 5-36: V/F Curve Changes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-33
Figure 5-37: Acceleration and Deceleration Times . . . . . . . . . . . . . . . . . . . . . . 5-35
Figure 5-38: S-Curve Effects . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-36
Figure 5-39: Jog Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-37
Figure 5-40: Power Loss Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-39
Figure 5-41: Skip Frequency Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-40
Figure 5-42: One PLC Program Cycle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-43
Figure 5-43: Continuous PLC Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-44
Figure 5-44: Direction of Motion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-45
Figure 5-45: Sleep time Delay . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-48
Figure 5-46: DC Braking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-52
Figure 5-47: Over-Voltage Stall Prevention . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-54
Figure 5-48: Over-Current Stall Prevention . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-55
Figure 5-49: I2t Curves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-57
Figure 5-50: Output Voltage Adjustment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-58
Figure 5-51: Communication Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-63
Figure 5-52: Pin Definition . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-67
Figure 5-53: 10-Bit and 11-Bit Character Frames . . . . . . . . . . . . . . . . . . . . . . . . 5-68
Figure C-1: EMI Filter (K13-000034-0111) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-6
Figure C-2: EMI Filter (K13-000034-0112) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-6
Figure C-3: EMI Filter (K13-000034-0113) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-7
Figure C-4: EMI Filter (K13-000034-0114) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-7
Figure C-5: EMI Filter (K13-000034-0115) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-8
Figure C-6: EMI Filter (K13-000034-0116) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-8
Figure C-7: EMI Filter (K13-000034-0117). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-9
Figure C-8: DIN Rail Adapter (MVXDR) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-10
Figure C-9: Remote Kit (MVXRM). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-11
Figure C-10: Extension I/O (MVXEIO). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-12
Figure D-1: Digital Keypad — Approximate Dimensions in Inches (mm) . . . . D-2
Figure D-2: Digital Keypad — Mounting Dimensions in Inches (mm) . . . . . . . D-3
Figure D-3: 1/4 – 3 hp Drive — Approximate Dimensions in Inches (mm) . . . D-4
Figure D-4: 3 – 10 hp Drive — Approximate Dimensions in Inches (mm) . . . . D-5
MVX9000 User Manual
vii
List of Tables
Table 2-1: MVX9000 Catalog Numbering System . . . . . . . . . . . . . . . . . . . . . . . 2-2
Table 2-2: Keypad Operators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-5
Table 2-3: Explanation of Display Messages . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
Table 3-1: Wiring Items . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
Table 3-2: Terminal Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-7
Table 3-3: Wire Gauge and Torque Tightening . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
Table 4-1: Wire Size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
Table 4-2: Fuse Specification Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-7
Table 4-3: Heat Loss Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-8
Table 5-1: Carrier Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-53
Table 5-2: Using Decimals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-61
Table 5-3: Communication Mapping Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-65
Table 5-4: ASCII Characters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-67
Table 5-5: Communication Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-69
Table 5-6: ASCII mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-70
Table 5-7: RTU mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-71
Table 5-8: Example ASCII mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-72
Table 5-9: Example RTU mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-72
Table 5-10: ASCII mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-73
Table 5-11: RTU mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-73
Table 7-1: Common Problems and Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2
Table 7-2: Warning Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-5
Table A-1: MVX9000 115V Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-2
Table A-2: MVX9000 230V Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-3
Table A-3: MVX9000 460V Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-5
Table A-4: MVX9000 575V Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-6
Table B-1: 20 — BASIC GROUPING (Quick Start) . . . . . . . . . . . . . . . . . . . . . . . . B-2
Table B-2: 30 — INPUTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-3
Table B-3: 40 — OUTPUTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-5
Table B-4: 50 — DRIVE CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-6
Table B-5: 60 — MOTOR CONTROL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-10
Table B-6: 70 — PROTECTIVE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-11
Table B-7: 80 — KEYPAD/DISPLAY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . B-12
Table B-8: 90 — COMMUNICATION PARAMETERS . . . . . . . . . . . . . . . . . . . . . . B-14
Table C-1: Fuse Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-2
Table C-2: Wiring Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3
Table C-3: All Braking Resistors & Braking Units Used in AC Drives . . . . . . . . C-4
Table C-4: EMI Filter Cross-Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-5
Table C-5: Terminals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-13
viii
MVX9000 User Manual
For the best results with the MVX9000 inverter, carefully read this manual and all
of the warning labels attached to the inverter before installing and operating it,
and follow the instructions exactly. Keep this manual handy for quick reference.
Definitions and Symbols
A safety instruction (message) includes a hazard alert symbol and a signal word,
WARNING or CAUTION. Each signal word has the following meaning:
HIGH VOLTAGE: This symbol indicates high voltage. It calls your
attention to items or operations that could be dangerous to you and
other persons operating this equipment. Read the message and follow
the instructions carefully.
This symbol is the “Safety Alert Symbol.” It occurs with either of two
signal words: CAUTION or WARNING, as described below.
WARNING: Indicates a potentially hazardous situation which, if not
avoided, can result in serious injury or death.
CAUTION: Indicates a potentially hazardous situation which, if not
avoided, can result in minor to moderate injury, or serious damage to
the product. The situation described in the CAUTION may, if not
avoided, lead to serious results. Important safety measures are
described in CAUTION (as well as WARNING).
Hazardous High Voltage
HIGH VOLTAGE!
Motor control equipment and electronic controllers are connected to
hazardous line voltages. When servicing drives and electronic
controllers, there may be exposed components with housings or
protrusions at or above line potential. Extreme care should be taken to
protect against shock.
Stand on an insulating pad and make it a habit to use only one hand
when checking components. Always work with another person in case
an emergency occurs. Disconnect power before checking controllers or
performing maintenance. Be sure equipment is properly grounded.
Wear safety glasses whenever working on electronic controllers or
rotating machinery.
MVX9000 User Manual
ix
Warnings, Notes and Cautions
Always read this manual thoroughly before using MVX9000 AC Motor
Drives.
HIGH VOLTAGE!
Be sure to ground the unit. Otherwise, there is danger of electric shock
and/or fire.
HIGH VOLTAGE!
Wiring work shall be carried out only by qualified personnel.
Otherwise, there is a danger of electric shock or fire.
WARNING!
AC input power must be disconnected before any maintenance. Do not
connect or disconnect wires and connectors while power is applied to
the circuit. Maintenance must be performed by qualified technicians.
WARNING!
A hazardous voltage charge may still remain in the DC-link capacitor
even if the power has been turned off. To avoid personal injury, do not
remove the cover of the AC drive until all “DISPLAY LED” lights on the
digital keypad are off. Please note that there are live components
exposed within the AC drives. Do not touch these live parts.
WARNING!
The AC drive may be destroyed beyond repair if incorrect cables are
connected to the input/output terminals. Never connect the AC drive
output terminals T1, T2, and T3 directly to the AC main circuit power
supply.
WARNING!
Hazardous Voltage
Before opening the AC drive covers:
•
Disconnect all power to the AC drive.
Wait five minutes for DC bus capacitors discharge.
Any electrical or mechanical modification to this equipment without
prior written consent of Eaton will void all warranties and may result
in a safety hazard in addition to voiding the UL listing.
x
MVX9000 User Manual
WARNING!
Wait at least 2 minutes after all display lamps have gone out, and then
confirm that the capacitors have fully discharged by measuring the
voltage between B1 and Ground using a multi meter set to measure DC.
WARNING!
Opening the Drive voids the warranty!
WARNING!
Make sure that all screws are tightened to the proper torque rating
shown in Table 3-3.
WARNING!
This equipment should be installed, adjusted, and serviced by qualified
electrical maintenance personnel familiar with the construction and
operation of the equipment and the hazards involved. Failure to
observe this precaution could result in bodily injury.
WARNING!
Use 75ºC Cu wire only or equivalent.
WARNING!
The rated voltage for AC motor drive must be equal or less than 240V
(equal or less than 480V for 460V models, equal or less than 600V for
575V models) and the mains supply current capacity must be equal or
less than 5000A RMS (equal or less than 10000A RMS for the 40 hp [30
kW] models).
WARNING!
Disconnect AC power before proceeding!
CAUTION!
There are highly sensitive MOS components on the printed circuit
boards. These components are especially sensitive to static electricity.
To avoid damage to these components, do not touch these components
or the circuit boards with metal objects or your bare hands.
CAUTION!
Ground the MVX9000 using the ground terminal. The grounding
method must comply with the laws of the country where the AC drive
is to be installed. Refer to the Basic Wiring Diagram in Chapter 3.
MVX9000 User Manual
xi
CAUTION!
Do not connect the AC power to the T1, T2, T3 terminals, it will
damage the AC drive.
CAUTION!
Be sure to install the unit on flame-resistant material such as a steel
plate. Otherwise, there is the danger of fire.
CAUTION!
Be sure to install the unit on a perpendicular wall which is not subject
to vibration. Otherwise, it may fall and cause injury to personnel.
CAUTION!
Be sure not to let the foreign matter enter vent openings in the
inverter housing, such as wire clippings, spatter from welding, metal
shavings, dust, etc. Otherwise, there is the danger of fire.
CAUTION!
Be sure not to install or operate an inverter which is damaged or has
missing parts. Otherwise, it may cause injury to personnel.
CAUTION!
Be sure to install the inverter in a well-ventilated room which does not
have direct exposure to sunlight, a tendency for high temperature,
high humidity or dew condensation, high levels of dust, corrosive gas,
explosive gas, inflammable gas, grinding-fluid mist, salt damage, etc.
Otherwise, there is the danger of fire.
CAUTION!
Be sure that the input voltage matches the inverter specifications:
•
•
•
•
•
xii
Single-phase 100 to 120V 50/60 Hz
Single-/Three-phase 200 to 240V 50/60 Hz (up to 2.2 kW)
Three-phase 200 to 230V 50/60 Hz (above 2.2 kW)
Three-phase 380 to 460V 50/60 Hz
Three-phase 500 to 600V 50/60 Hz
MVX9000 User Manual
CAUTION!
Be sure not to connect an AC power supply
to the output terminals. Otherwise, there is
the danger of injury and/or fire.
Power Input Power Output
L1 L2 L3
T1 T2 T3
Note:
L1, L2, L3: Three-phase 200 to 230V 50/60 Hz
Three-phase 380 to 460V 50/60 Hz
Three-phase 500 to 600V 50/60 Hz
Any two inputs:
Single-phase 100 to 120V 50/60 Hz;
Single-phase 200 to 240V 50/60 Hz
CAUTION!
The operation of the inverter can be easily changed from low speed to
high speed. Be sure to check the capability and limitations of the
motor and machine before operating the inverter. Otherwise, there is
the danger of injury.
CAUTION!
If you operate a motor at a frequency higher than the inverter standard
default setting (50 Hz/60 Hz), be sure to check the motor and machine
specifications with the respective manufacturer. Only operate the
motor at elevated frequencies after getting their approval. Otherwise,
there is the danger of equipment damage.
MVX9000 User Manual
xiii
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xiv
MVX9000 User Manual
Introduction
Chapter 1
Introduction
Inside this chapter …
How to Use This Manual . . . . . . . . . . . . . . . . . . . . . .
Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . .
Conventions Used in This Manual . . . . . . . . . . . . . .
Warranty and Liability Information . . . . . . . . . . . . . .
Related Publications . . . . . . . . . . . . . . . . . . . . . . . . . .
MVX9000 User Manual
1-2
1-3
1-3
1-4
1-4
1-1
Introduction
How to Use This Manual
This chapter describes the purpose and contents of this manual and the intended
audience. This chapter also explains conventions used in this manual and lists
related publications.
How to Use This Manual
The purpose of this manual is to provide you with information necessary to
install, set parameters, troubleshoot and maintain the Cutler-Hammer® MVX9000
Adjustable Frequency Drives from Eaton’s electrical business. To guarantee safe
operation of the equipment, read the safety guidelines at the beginning of this
manual before connecting power to the AC motor drives. Keep this operating
manual handy and distribute to all users for reference.
Chapter 1 — Introduction is the chapter you are reading now.
Chapter 2 — Overview of the MVX9000 Drive describes receiving and inspection
procedures and provides an introduction to digital keypad operation.
Chapter 3 — Storage and Installation describes planning for drive installation
and drive mounting. This chapter also includes requirements and connections for
wiring.
Chapter 4 — Start-Up Procedures provides a detailed explanation of digital
keypad operation.
Chapter 5 — Descriptions of Parameter Settings provides detailed explanations
for all parameter settings.
Chapter 6 — Maintenance and Inspection describes maintenance procedures.
Chapter 7 — Troubleshooting and Fault Information lists the fault displays,
descriptions, and corrective actions.
Appendix A — Technical Data lists standard specifications.
Appendix B — Parameter Tables provides listing of all parameters with
descriptions, ranges and defaults.
Appendix C — Accessories provides information about circuit breakers, fuses,
braking resistors, and other accessories for the Cutler-Hammer MVX9000 Drives.
Appendix D — Dimensions displays keypad and drive dimensions.
Appendix E — is a Declaration of Conformity.
1-2
MVX9000 User Manual
Intended Audience
Intended Audience
•
Knowledge of standard electrical wiring practices, electronic components,
and electrical schematic symbols.
The audience for this manual will install, start-up, and service the Cutler-Hammer
MVX9000 Drives.
Conventions Used in This Manual
Listed below are terms and language conventions used in this manual. These
terms and conventions are defined here to help you understand their meanings
and applications throughout this manual.
Digital Keypad Display
The Digital Keypad display is an LED readout of drive parameter selections and
drive operation status. Letters or numbers appear in the display according to
which keys you press.
Digital Keypad Keys
Digital Keypad keys are flat, labeled, pushbutton-type devices that allow you to
select drive parameters, and monitor drive operation.
Parameter
A parameter is selected through the Digital Keypad. Parameters in this manual
are expressed as Parameter Group Number, a decimal (.), and a Parameter
number.
Press
Press a key on the Digital Keypad Control Panel to select a parameter. Refer to
Chapter 2 — Overview of the MVX9000 Drive, Digital Keypad.
MVX9000 User Manual
1-3
Introduction
The audience for this manual has:
Warranty and Liability Information
Introduction
Warranty and Liability Information
Eaton Electrical Inc. warrants the product delivered in the Cutler-Hammer
shipping package to be free from defects in material and workmanship, under
normal use and service, for twenty four (24) months from date of manufacturing.
Products that fail during this period will be repaired or replaced at Eaton’s
discretion, with the same or a functionally equivalent product, provided the
original purchaser (A) returns the failed product, and (B) provides proof of
original date of purchase. This warranty does not apply, in the judgment of
Eaton, to damage caused during shipment, handling, storage, or accidental
misuse. The original purchaser of the product must obtain a Cutler-Hammer
Return Material Authorization (RMA) number prior to returning any defective
product. (When purchased through an Authorized Distributor, the Distributor
should supply an RMA number to their customer.)
The maximum liability of this warranty is limited to the purchase price of the
product. In no event, regardless of cause, shall Eaton Electrical Inc. be liable (a)
for penalties or penalty clauses of any description, or (b) for certification not
otherwise specifically provided herein and/or indemnification of purchaser or
others for costs, damages or expenses, each arising out of or related to the
product or services of any order or (c) for any damages resulting from loss of
profits, use of products or for any incidental indirect or consequential damages,
even if advised of the possibility of such damages.
Related Publications
Brochure (Publication Numbers: BR04002001E)
Technical Document (Publication Numbers: TD04002001E)
Manual (Publication Number: TD04002003E)
Contact Name, Number:
Eaton Electrical Inc.
1000 Cherrington Parkway
Moon Township, PA 15108-4312
Tel: 1-800-525-2000
www.EatonElectrical.com
1-4
MVX9000 User Manual
Chapter 2
Overview of the MVX9000 Drive
Inside this chapter …
MVX9000 User Manual
Overview of the
MVX9000 Drive
Receiving and Inspection . . . . . . . . . . . . . . . . . . . . . .
Nameplate Information . . . . . . . . . . . . . . . . . . . . .
Catalog Number . . . . . . . . . . . . . . . . . . . . . . . . . .
Style Number . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
External Parts and Label Locations . . . . . . . . . . . . . .
Digital Keypad Operation . . . . . . . . . . . . . . . . . . . . . .
2-2
2-2
2-2
2-3
2-3
2-4
2-1
Receiving and Inspection
Receiving and Inspection
This MVX9000 AC drive has gone through quality control tests at the factory before
shipment. After receiving the AC motor drive, please check for the following:
Overview of the
MVX9000 Drive
•
•
•
Check to make sure that the package includes an AC drive and User Manual.
Inspect the unit to insure it was not damaged during shipment.
Make sure that the part number indicated on the nameplate corresponds with
the part number of your order.
Nameplate Information
Catalog Number
Style Number
Input Spec.
Output Spec.
Output Frequency Range
Serial Number Bar Code
10782116036223
F50A02T2410002
MADE IN XXXXXXX
Figure 2-1: Example of 1/2 hp 230V AC drive
Catalog Number
Table 2-1: MVX9000 Catalog Numbering System
MVX F50
A 0 - 2
1 = 115V AC
2 = 240V AC
4 = 480V AC
5 = 575V AC
Enclosure
Version Type
Motor Horsepower
Model Number
2-2
F25 = 1/4 hp (0.2 kW)
F50 = 1/2 hp (0.4 kW)
001 = 1 hp (0.7 kW)
002 = 2 hp (1.5 kW)
003 = 3 hp (2.2 kW)
005 = 5 hp (3.7 kW)
007 = 7-1/2 hp (5.5 kW)
010 = 10 hp (7.5 kW)
MVX9000 User Manual
External Parts and Label Locations
Style Number
The style number contains the same information as the Catalog Number, and is
used internally for ordering purposes.
External Parts and Label Locations
6
Overview of the
MVX9000 Drive
1
5
L1
LINEL2 L3
2
4
7
L1 L2 L3
L1 L2 L3
3
LINE
1
2
3
4
5
6
7
8
9
10
Mounting Screw Holes
Nameplate Label
Bottom Door
Digital Keypad
Upper Door
Ventilation Holes
L1, L2, L3, Input Terminals
Control Input/Output Terminals
B1, B2 External Braking Resistor
, T1, T2, T3 Output Terminals
MOTOR Braking
T1 T2 T3 B1 B2
8
B1 B2
T1 T2 T3
9
10
Figure 2-2: Parts and Label
MVX9000 User Manual
2-3
Digital Keypad Operation
Digital Keypad Operation
Overview of the
MVX9000 Drive
The digital keypad includes the display panel and the keypad. The display panel
provides the parameter display and shows the operation status of the AC drive.
The keypad provides programming and control interface.
LED Indicators
Lamp Lights During Run,
Stop, Fwd, Rev Operations
LED Indicators
Lamp Lights to Indicated
Frequency Input, Hz Output,
Amps and User Defined Units
LED Display
Indicates Motor and
Drive Parameter
Potentiometer
For Setting
Input Speed Command
START Key
Start Command
Up, Down and
Right/Left Keys
Scrolls Display,
Enter/Exit Parameter Mode,
Change Parameter Settings
STOP/RESET Key
Stop Command and Reset
the Drive After a Fault Occurs
ENTER Key
Used in Parameter Mode
to Enter and Change Values
Figure 2-3: Description of Digital Keypad
LED Displays
RUN
STOP
FWD
REV
Green lamp lights during REV operation.
Green lamp lights during FWD operation.
Red lamp lights by pressing STOP.
Green lamp lights by pressing RUN.
F
Lamp lights to indicate input frequency reference
H
Lamp lights to indicate output Hz
A
Lamp lights to indicate output amps
U
Lamp lights to indicate user defined units
Figure 2-4: Explanation of the LED Indicators
2-4
MVX9000 User Manual
Digital Keypad Operation
Table 2-2: Keypad Operators
START
This button operates as Start button for normal operation
• Motor START from the panel; active control place has to be
selected at “Panel”
STOP / RESET
This button has two integrated operations. The button operates as
Stop button for normal operation. In the parameter edit mode it is
used to cancel previous action and back-up one step, and in fault
mode it is used to reset the fault.
STOP
• motor STOP from the panel; active control place has to be
selected at “Panel”
RESET
• used for active fault resetting
- fault history is reset if ENTER is pressed on the “Fault History”
menu group in “Main Menu” or
- if ENTER is pressed while in the “Fault History” menu
• in programming mode press RESET key to cancel previous action
and back up one step
LEFT Arrow
• navigation button, movement to left
• in display mode, enter parameter group mode
• in parameter edit mode, exits mode, backs up one step
• cancels edited parameter (exit from a parameter edit mode)
RIGHT Arrow
• navigation button, movement to right
• enter parameter group mode
• enter parameter mode from group mode
UP and DOWN Arrows
• move either up or down the group list in order to select the
desired group menu.
• move either up or down the parameter list in order to select the
desired parameter in the group.
• increasing/decreasing of reference value on the keyboard (when
selected).
SPEED POT
• increase/decrease reference value on the keypad (when selected)
MVX9000 User Manual
2-5
Overview of the
MVX9000 Drive
ENTER
This button in the parameter edit mode is used to enter the
programming mode and enter the parameter selection.
• used for parameter edit confirmation, acceptance (confirmation)
of the edited parameter value with exit from parameter edit mode
Digital Keypad Operation
Table 2-3: Explanation of Display Messages
Displayed Message
Descriptions
The AC drive Input Frequency Reference.
Overview of the
MVX9000 Drive
F
H
The Actual Operation Frequency at the output terminals T1, T2
and T3.
The output current present at the output terminals T1, T2 and T3.
A
The value of the user defined units.
U
The output voltage present at the output terminals T1, T2 and T3.
The temperature of the unit.
The AC drive forward run status.
The AC drive reverse run status.
Parameter group selection.
The specific parameter selection.
“End” displays for approximately 1 second if input has been
accepted. After a parameter value has been set, the new value is
automatically stored in memory.
“Err” displays, if the input is invalid.
2-6
MVX9000 User Manual
Chapter 3
Storage and Installation
Inside this chapter …
MVX9000 User Manual
Storage and
Installation
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Storage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Transportation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Pollution Degree . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
Mounting Area . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
Applicable Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
Basic Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
External Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
Control Terminal Wiring (Factory Settings) . . . . . . . . 3-7
Main Circuit Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
Wiring Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9
Motor Operation Precautions . . . . . . . . . . . . . . . . . . 3-10
3-1
Storage
Storage
The AC drive should be stored in the shipping carton before installation. In order
to retain the warranty coverage, the AC drive should be stored properly when it is
not to be used for an extended period of time. Some storage suggestions are:
•
•
•
•
Store in a clean and dry location free from direct sunlight or corrosive fumes.
Store within an ambient temperature range of -20 to +60°C.
Store within a relative humidity range of 0 to 90% and non-condensing
environment.
Store within an air pressure range of 86 to 106 kPA.
Environment
Operation
Storage and
Installation
Air Temperature:
Relative Humidity:
Atmosphere Pressure:
Installation Site Altitude:
Vibration:
1/2 hp – 5 hp
-10 to +50°C (14 to 122°F)
7-1/2 hp – 10 hp: -10 to +40°C (14 to 104°F)
0% to 90%, no condensation allowed
86 to 106 kPa
below 1000m
Maximum 9.80 m/s2 (1G) at less than 20 Hz
Maximum 5.88 m/s2 (0.6G) at 20 to 50 Hz
Storage
Temperature:
Relative Humidity:
Atmosphere Pressure:
-20 to +60°C (-4 to 140°F)
Less than 90%, no condensation allowed
86 to 106
Transportation
Temperature:
Relative Humidity:
Atmosphere Pressure:
Vibration:
-20 to +60°C (-4 to 140°F)
Less than 90%, no condensation allowed
86 to 106 kPa
Maximum 9.80 m/s2 (1G) at less than 20 Hz,
Maximum 5.88 m/s2 (0.6G) at 20 to 50 Hz
Pollution Degree
UL Type 0, Pollution Degree 2:
Relative Humidity:
Atmosphere Pressure:
3-2
good for a factory type environment
Less than 90%, no condensation allowed
86 to 106
MVX9000 User Manual
Mounting Area
Mounting Area
Improper installation of the AC drive will greatly reduce its life. Be sure to
observe the following precautions when selecting a mounting location. Failure to
observe these precautions may void the warranty!
Do not mount the AC drive near heat-radiating elements or in direct sunlight.
Do not install the AC drive in a place subjected to high temperature, high
humidity, excessive vibration, corrosive gases or liquids, or airborne dust or
metallic particles.
Mount the AC drive vertically and do not restrict the air flow to the heatsink fins.
The AC drive generates heat. Allow sufficient space around the unit for heat
dissipation as shown in the figure below:
1.0 (25)
or More
Storage and
Installation
3.0 (76)
or More
Air Flow
1.0 (25)
or More
3.0 (76)
or More
Figure 3-1: Mounting in an Enclosure in Inches (mm)
When mounting in an enclosure, allow for the recommended free
space. Failure to allow adequate air flow may result in drive over
temperature.
MVX9000 User Manual
3-3
Wiring
Wiring
DANGER!
Hazardous Voltage
Before opening the AC drive covers:
• Disconnect all power to the AC drive.
Wait five minutes for DC bus capacitors discharge.
Any electrical or mechanical modification to this equipment without prior
written consent of Eaton will void all warranties and may result in a safety
hazard in addition to voiding the UL listing.
Short Circuit Withstand: The rated voltage for AC motor drive must be equal or
less than 240V (equal or less than 480V for 460V models, equal or less than 600V
for 575V models) and the mains supply current capacity must be equal or less
than 5000A RMS (equal or less than 10000A RMS for the 40 hp [30 kW] models).
Storage and
Installation
Applicable Codes
All Cutler-Hammer MVX9000 AC drives are Underwriters Laboratories, Inc. (UL)
and Canadian Underwriters Laboratories (cUL) listed, and therefore comply with
the requirements of the National Electrical Code (NEC) and the Canadian
Electrical Code (CEC).
Installation intended to meet the UL and cUL requirements must follow the
instructions provided in “Wiring Notes” as a minimum standard. Follow all local
codes that exceed UL and cUL requirements. Refer to the technical data label
affixed to the AC drive and the motor nameplate for electrical data.
The “Line Fuse Specification” in Appendix C lists the recommended fuse part
number for each MVX9000 part number. These fuses (or equivalent) must be
used on all installations where compliance with UL standards is required.
According to the Low Voltage Directive 73/23/EEC and the Amendment Directive
93/68/EEC Digital Keypad, the following AC Motor Drives, MVXF50A0-2,
MVX001A0-2, MVX002A0-2, MVX003A0-2, MVX005A0-2, MVX007A0-2,
MVX001A0-4, MVX002A0-4, MVX003A0-4, MVX005A0-4, MVX007A0-4,
MVX010A0-4, are herewith confirmed to comply with the requirements set out in
the Council Directive 73/23/EEC for electrical equipment used within certain
voltage limits and the Amendment Directive 93/68/EEC. For the evaluation of the
compliance with this Directive, the following standard was applied: EN 50178.
According to the Electromagnetic Compatibility 89/336/EEC and the Amendment
Directive 93/68/EEC, the following equipment, AC Motor Drive, MVXF50A0-2,
MVX001A0-2, MVX002A0-2, MVX003A0-2, MVX005A0-2, MVX007A0-2,
MVX001A0-4, MVX002A0-4, MVX003A0-4, MVX005A0-4, MVX007A0-4,
MVX010A0-4, is herewith confirmed to comply with the requirements set out
in the Council Directive 89/336/EEC for electromagnetic compatibility and the
Amendment Directive 93/68/EEC. For the evaluation of the compliance with
this Directive, the following standards were applied: EN61800-3, EN55011,
EN50081-2, EN50082-2, EN61000-4-2, EN61000-4-3, EN61000-4-4, EN61000-4-5,
EN61000-4-6, EN61000-4-8.
3-4
MVX9000 User Manual
Basic Wiring Diagram
Basic Wiring Diagram
Users must connect wiring according to Figure 3-2.
Braking Resistor
(Optional)
(Please see Appendix C for Detail)
Main Circuit Power
NFB
R/L1
S/L2
T/L3
R/L1 B1
S/L2
T/L3
B2 U/T1
V/T2
AC
Motor
W/T3
NOTE: Do not plug a modem or telephone line to the RS-485 communication
port, permanent damage may result. Terminals 2 & 5 are the power
sources for the optional copy keypad and should not be used while
using RS-485 communication.
• 1/2 – 3 hp 230V MVX9000 drives are both single- and three-phase input ready.
For single-phase input models, select any two input power terminals. For
three-phase input, use all three power input terminals.
Figure 3-2: Circuit Diagram
MVX9000 User Manual
3-5
Storage and
Installation
Grounding Resistance
230V: Less Than 100Ω
460V: Less Than 10Ω
575V: Less Than 100Ω
RO3
NO Relay Output
(120V AC/24V DC 5A)
RO1
NC Relay Output
Factory Default
Forward/Stop
(120V AC/24V DC 5A)
RO2
DI1
Reverse/Stop
Factory Default: Inverter
DI2
Fault
Pre-Set 1
DO1 Digital Output
DI3
(48V
DC 50 mA)
Pre-Set 2
DI4
Factory Default: Inverter
Pre-Set 3
DI5
DOC Running
Reset
VR(1 KΩ)
DI6
If Adjustment
AO+
Common Signal
Needed
COM
Analog
+
Master Frequency Setting
Output
Factory Default Is Potentiometer
–
DC 0 – 10V
Which Is on the Digital Keypad
COM+10V 10 mA (Max)
Factory Default:
3
Output Frequency
Analog Voltage
RJ-12
2
0 –10V DC
RS-485
1,6: NC
VR
AI1
(POT)
Potentiometer:
Series
Main Circuit
2: GND
3 – 5 KΩ
Interface
(Power)
1
6 1 3: SGAI2
(Current)
Terminals
Analog
4: SG+
Control Circuit
Current
5: +EV
COM
Terminals
4 – 20 mA
Shielded
Leads
External Wiring
External Wiring
Table 3-1: Wiring Items
Power Supply
Items
Input
Power
Please follow the specific
power supply requirement
shown in Appendix A.
Fuse
Please check the Fuse
Specification table in
Appendix C for proper fuse
selection.
Fuse
Magnetic
Contactor
Storage and
Installation
Line Reactor
L2
L3
LINE
B1
T2
Braking
Resistor
B2
MOTOR
T1
Magnetic Please do not use a Magnetic
Contactor Contactor as the ON/OFF
(Optional) switch of the AC drive, this
will reduce the operating life
of the AC drive. The
contactor should only be
used as a safety device for
disconnecting power to the
drive.
Line/Load To improve the power factor.
An AC Reactor may be
Reactor
(Optional) necessary when capacity is
above 1000 kVA, and the
wiring distance is within 10m.
EMI Filter
L1
Explanations
T3
Load
Reactor
EMI Filter Used to reduce the
(Optional) electromagnetic
interference.
Braking
Used to reduce stopping
Resistor
time of the motor. Please
(Optional) refer to the Breaking Resistor
table in Appendix C for
specific Braking Resistors.
Note: Please refer to Appendix C for
more details on the Circuit Breaker and
Fuse Specification tables.
Motor
Figure 3-3: External Wiring
3-6
MVX9000 User Manual
Control Terminal Wiring (Factory Settings)
Control Terminal Wiring (Factory Settings)
RO3 RO2 RO1
DI1 DI2 DI3 DI4 DI5 DI6 COM AO+ AI1 +10V AI2 COM DO1 DOC
NO
Relay Output
Factory Setting
4–20 mA
Factory Setting:
Inverter Running
NC Relay Output
Digital Output
Bias
Potentiometer
Run/Stop
Reverse/Forward
Preset Speed 1
Preset Speed 2
Preset Speed 3
Reset
Full scale voltmeter
0 to 10V DC
Factory Setting:
Output Frequency
Figure 3-4: Control Terminal Wiring (Factory Settings)
Storage and
Installation
Note: For Wire Gauge and Torque tightening specifications, please refer to
Table 3-3.
Table 3-2: Terminal Symbols
Terminal
Symbols
Terminal Name
R01 - R02
Digital Output Relay
R03 - R02
Digital Output Relay
Remarks
Refer to 40.04 Relay output contact
RO1 - RO2 (NC Contact)
RO3 - RO2 (NO Contact)
D01 - DCM
Digital photocouple output
Refer to 40.03
RJ-12
Serial communication port
RS-485 serial communication interface
AI1 - COM
AI2 - COM
Analog voltage input
Analog current input
0 to +10V Input
0 to 20 mA or 4 to 20 mA Input
AO+ - COM
Analog frequency/current
meter
0 to +10V Output
DI1 - COM
Digital input 1
Refer to 30.11
DI1 - COM
to
DI6 - GND
Digital input 2
to
Digital input 6
+10V - COM
Power Supply (+10V)
MVX9000 User Manual
3-7
Main Circuit Wiring
Main Circuit Wiring
L1 L2 L3
L1 L2 L3
LINE
MOTOR Braking
Storage and
Installation
T1 T2 T3 B1 B2
B1 B2
T1 T2 T3
Figure 3-5: Main Circuit
Table 3-3: Wire Gauge and Torque Tightening
Wire Type: 75ºC Copper Only
Catalog Number
Voltage
Horsepower
Max. Current (A)
(Input/Output)
Wire
Gauge
(AWG)
Torque
Rating
(kgf-cm)
14
MVXF25A0-1 (1-phase)
MVXF50A0-1 (1-phase)
MVX001A0-1 (1-phase)
115V AC, 1/4 hp
115V AC, 1/2 hp
115V AC, 1 hp
6/1.6
9/2.5
16/4.2
12 – 14
12 – 14
12
MVXF50A0-2 (1-phase)
MVXF50A0-2 (3-phase)
240V AC, 1/2 hp
240V AC, 1/2 hp
6.3/2.5
3.2/2.5
12 – 14
12 – 14
MVX001A0-2 (1-phase)
MVX001A0-2 (3-phase)
240V AC, 1 hp
240V AC, 1 hp
11.5/5
6.3/5
12 – 14
12 – 14
MVX002A0-2 (1-phase)
MVX002A0-2 (3-phase)
240V AC, 2 hp
240V AC, 2 hp
15.7/7
9/7
12
12 – 14
MVX003A0-2 (1-phase)
MVX003A0-2 (3-phase)
240V AC, 3 hp
240V AC, 3 hp
27/10
15/10
8
8 – 12
MVX005A0-2
MVX007A0-2
240V AC, 5 hp
240V AC, 7-1/2 hp
19.6/17
28/25
8 – 10
8
3-8
14
15
MVX9000 User Manual
Wiring Notes
Table 3-3: Wire Gauge and Torque Tightening, continued
Wire Type: 75ºC Copper Only
Catalog Number
Voltage
Horsepower
Max. Current (A)
(Input/Output)
Wire
Gauge
(AWG)
Torque
Rating
(kgf-cm)
4.2/3
5.6/4
6/5
12 – 14
12 – 14
12 – 14
14
8.5/8.2
14/13
23/18
8 – 14
8 – 12
8 – 10
15
12 – 14
14
MVX001A0-4
MVX002A0-4
MVX003A0-4
480V AC, 1 hp
480V AC, 2 hp
480V AC, 3 hp
MVX005A0-4
MVX007A0-4
MVX010A0-4
480V AC, 5 hp
480V AC, 7-1/2 hp
480V AC, 10 hp
MVX001A0-5
575V AC, 1 hp
1.7A/2.4A
MVX002A0-5
575V AC, 2 hp
3.0A/4.2A
MVX003A0-5
575V AC, 3 hp
4.2A/5.9A
575V AC, 5 hp
6.6A/7.0A
575V AC, 7-1/2 hp
9.9A/10.5A
MVX010A0-5
575V AC, 10 hp
12.2A/12.9A
8 – 14
15
Storage and
Installation
MVX005A0-5
MVX007A0-5
8 – 12
Wiring Notes
Please read prior to Installation
CAUTION!
Do not connect the AC power to the T1, T2, T3 terminals, it will
damage the AC drive.
WARNING!
Make sure that all screws are tightened to the proper torque rating
shown in Table 3-3.
•
•
•
•
•
During installation, follow all local electrical, construction, and safety codes
for the country in which the drive is installed.
Make sure that the appropriate protective devices (circuit breaker or fuses)
are connected between the power supply and AC drive.
Make sure that the leads are connected correctly and the AC drive is properly
grounded.
Use ground leads that comply with AWG/MCM standards and keep them as
short as possible.
Multiple MVX9000 units can be installed in one location. All the units should
be grounded directly to a common ground terminal. The MVX9000 ground
terminals may also be connected in parallel, as shown in the Figure 3-6.
Make sure there are no ground loops.
MVX9000 User Manual
3-9
Motor Operation Precautions
Yes
Yes
No
Forward
Running
Figure 3-6: Parallel Grounding
•
Storage and
Installation
•
•
•
•
•
•
•
•
•
When the AC drive output terminals U/T1, V/T2 and W/T3 are connected to
the motor terminals T1, T2 and T3, respectively, the motor will rotate
counterclockwise (as viewed from the shaft ends of the motor) when a
forward operation command is received. To reverse the direction of motor
rotation, switch over any of the two motor leads.
Make sure that the power source is capable of supplying the correct voltage
and required current to the AC drive.
Do not attach or remove wiring when power is applied to the AC drive.
Do not inspect components unless the inside “POWER” lamp has turned off.
Do not monitor the signals on the circuit board while the AC drive is in
operation.
For the single-phase rated AC drives, the AC power can be connected to any
two of the three input terminals R/L1, S/L2, T/L3. Note: This drive is not
intended for use with single-phase motors.
Route the power and control wires separately, or at a 90 degree angle to each
other.
If a filter is required for reducing EMI (Electro Magnetic Interference), install it
as close as possible to the AC drive. EMI can also be reduced by lowering the
Carrier Frequency.
If the AC drive is installed in the place where a load reactor is needed, install
the filter close to U/T1, V/T2, W/T3 side of AC drive. Do not use a Capacitor or
L-C Filter (Inductance-Capacitance) or R-C Filter (Resistance-Capacitance),
unless approved by Eaton.
When using a GFCI (Ground Fault Circuit Interrupt), select a current sensor
with sensitivity of 200 mA, and not less than 0.1-second detection to avoid
nuisance tripping.
Motor Operation Precautions
• When using the AC drive to operate a standard 3-phase induction motor,
•
•
•
notice that the energy loss is greater than for an inverter duty motor.
Avoid running a standard induction motor at low speed. Under these
conditions, the motor temperature may rise above the motor rating due to
limited airflow produced by the motor’s fan.
When the standard motor operates at low speed, the output load must be
decreased.
If 100% output torque is desired at low speed, it may be necessary to use a
special “inverter-duty” rated motor.
3-10
MVX9000 User Manual
Chapter 4
Start-Up Procedures
Inside this chapter …
MVX9000 User Manual
Start-Up
Procedures
Step-by-Step Installation . . . . . . . . . . . . . . . . . . . . . . 4-2
Mounting Location . . . . . . . . . . . . . . . . . . . . . . . . 4-2
Inverter Mounting . . . . . . . . . . . . . . . . . . . . . . . . . 4-4
Wiring Preparation . . . . . . . . . . . . . . . . . . . . . . . . 4-5
Wire Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-6
Fuses and Circuit Breakers . . . . . . . . . . . . . . . . . . . . . 4-7
Fusing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-7
Manual Motor Starters/UL489
Circuit Breakers . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-7
Wiring the Inverter to Incoming Power . . . . . . . . 4-9
Wiring the Motor to the Inverter Output . . . . . . . 4-10
Power-Up Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-11
Powering the Inverter . . . . . . . . . . . . . . . . . . . . . . 4-12
4-1
Step-by-Step Installation
This chapter will explain the installation of the MVX9000 Microdrive. Be sure to
read and follow all instructions for a successful installation.
WARNING!
This equipment should be installed, adjusted, and serviced by qualified
electrical maintenance personnel familiar with the construction and
operation of the equipment and the hazards involved. Failure to
observe this precaution could result in bodily injury.
Step-by-Step Installation
1. Read all instructions and warnings associated with mounting the MVX9000.
2. Select a suitable mounting location.
3. Check the inverter mounting dimensions for footprint and mounting hole
locations.
4. Connect the wiring for the inverter input.
5. Connect the wiring to the motor.
6. Perform a power-up test.
7. Make observations and re-check the installation.
Mounting Location
Step 1: Study the following caution messages associated with mounting the
inverter.
Start-Up
Procedures
CAUTION!
Be sure to install the unit on flame-resistant material such as a steel
plate. Otherwise, there is the danger of fire.
CAUTION!
Be sure to install the unit on a perpendicular wall which is not subject
to vibration. Otherwise, it may fall and cause injury to personnel.
CAUTION!
Be sure not to let the foreign matter enter vent openings in the
inverter housing, such as wire clippings, spatter from welding, metal
shavings, dust, etc. Otherwise, there is the danger of fire.
4-2
MVX9000 User Manual
Step-by-Step Installation
CAUTION!
Be sure not to install or operate an inverter which is damaged or has
missing parts. Otherwise, it may cause injury to personnel.
CAUTION!
Be sure to install the inverter in a well-ventilated room which does not
have direct exposure to sunlight, a tendency for high temperature,
high humidity or dew condensation, high levels of dust, corrosive gas,
explosive gas, inflammable gas, grinding-fluid mist, salt damage, etc.
Otherwise, there is the danger of fire.
Step 2: The installation should be made on a solid, non-flammable, vertical
surface that is a relatively clean and dry environment. In order to ensure enough
room for air circulation around the inverter to aid in cooling, maintain the
specified clearance around the inverter specified in Figure 4-1.
3.0 (76)
or More
Start-Up
Procedures
1.0 (25)
or More
Air Flow
1.0 (25)
or More
3.0 (76)
or More
Figure 4-1: Clearances and Air Flow in Inches (mm)
MVX9000 User Manual
4-3
Step-by-Step Installation
Please observe this checklist while mounting the inverter:
•
•
The ambient temperature must be in the range of -10 to 50ºC (1/2 to 5 hp).
The ambient temperature must be in the range of -10 to 40ºC (7-1/2 to 10 hp).
If the range will be up to 50ºC, set the carrier frequency to 2.1 kHz or less and
derate the output current to 80% or less. Chapter 5 covers how to change
parameters such as the carrier frequency.
• Keep any other heat-producing equipment as far away from the inverter as
possible.
• When installing the inverter in an enclosure, maintain the clearance around
the inverter and verify that its ambient temperature is within specification
when the enclosure door is closed.
• Do not open the main front panel door at any time during operation.
Step 3: Before proceeding to the wiring section, temporarily cover the inverter’s
ventilation openings. Paper and masking tape is all that is needed to do this. This
will prevent harmful debris such as wire clippings and metal shavings from
entering the inverter during installation.
Inverter Mounting
Step 4: Locate the applicable drawing in the Appendix for the inverter unit.
Dimensions are given in inches (millimeters) format.
Start-Up
Procedures
Note: Some inverter housings require two mounting screws, while others require
four. Be sure to use lockwashers or other means to ensure screws do not loosen
due to vibration.
4-4
MVX9000 User Manual
Step-by-Step Installation
Wiring Preparation
Step 5: It is very important to perform the wiring steps carefully and correctly.
Before proceeding, please study the caution and warning messages below.
WARNING!
Use 75ºC Cu wire only or equivalent.
WARNING!
The rated voltage for AC motor drive must be equal or less than
240V (equal or less than 480V for 460V models, equal or less than
600V for 575V models) and the mains supply current capacity must
be equal or less than 5000A RMS (equal or less than 10000A RMS
for the 40 hp [30 kW] models).
HIGH VOLTAGE!
Be sure to ground the unit. Otherwise, there is danger of electric shock
and/or fire.
HIGH VOLTAGE!
Wiring work shall be carried out only by qualified personnel.
Otherwise, there is a danger of electric shock or fire.
Start-Up
Procedures
MVX9000 User Manual
4-5
Step-by-Step Installation
Wire Sizes
The maximum motor currents in the application determine the recommended
wire size. The following table gives the wire size in AWG. The Power/Motor
column applies to the inverter input power, output wires to the motor, the ground
connection, and any other component shown in the system wiring diagram. The
“Signal Lines” column applies to any wire connecting to the External I/O
Connection inside the bottom front panel half-door.
Table 4-1: Wire Size
Motor Output
(kW/hp)
Start-Up
Procedures
kW
hp
Wiring
Inverter Model
Power Lines
mm2
mm2
mm2
0.2
0.4
0.75
1/4
1/2
1
MVXF25A0-1
MVXF50A0-1
MVX001A0-1
AWG 14 / 2.1
AWG 14 / 2.1
AWG 12 / 3.3
0.4
0.75
1.5
1.5
1/2
1
2
2
MVXF50A0-2
MVX001A0-2
MVX001A0-2 (1-phase)
MVX002A0-2 (3-phase)
AWG 14 / 2.1 mm2
AWG 14 / 2.1 mm2
AWG 12 / 3.3 mm2
AWG 14 / 2.1 mm2
2.2
2.2
3.7
5.5
3
3
5
7-1/2
MVX003A0-2 (1-phase)
MVX003A0-2 (3-phase)
MVX005A0-2
MVX007A0-2
AWG 8 / 8.4 mm2
AWG 12 / 3.3 mm2
AWG 10 / 5.3 mm2
AWG 8 / 8.4 mm2
0.75
1.5
2.2
4.0
1
2
3
5
MVX001A0-4
MVX002A0-4
MVX003A0-4
MVX005A0-4
AWG 14 / 2.1 mm2
5.5
7.5
7-1/2
10
MVX007A0-4
MVX010A0-4
AWG 12 / 3.3 mm2
AWG 10 / 5.3 mm2
0.75
1
MVX001A0-5
AWG 14 / 2.1 mm2
1.5
2
MVX002A0-5
2.2
3
MVX003A0-5
3.7
5
MVX005A0-5
5.5
7-1/2
MVX007A0-5
7.5
10
MVX010A0-5
Signal Lines
(*) 24 to 12 AWG /
0.2 to 3.3 mm2
shielded wire
AWG 12 / 3.3 mm2
Note 1: Field wiring must be made by a UL-listed and CSA-certified closed-loop
terminal connector sized for the wire gauge involved.
Note 2: Be sure to consider the capacity of the circuit breaker to be used.
Note 3: Be sure to use larger wires for the power lines in the distance exceeds 20
meters.
4-6
MVX9000 User Manual
Fuses and Circuit Breakers
Fuses and Circuit Breakers
The MVX9000 does not provide branch short circuit protection. This product
should be installed with either input fuses or an input circuit breaker. National
and local industrial safety regulations and/or electrical codes may determine
additional requirements for these installations.
Note: 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 this section.
Fusing
The MVX9000 has been UL tested and approved for use with input fuses. The
ratings in Table 4-2 are the minimum recommended values for use with each
drive rating. The devices listed in this table are provided to serve as a guide.
Other devices which meet the requirements of UL508C and UL489 with similar
trip characteristics may be used in order to meet local or national electrical
codes.
Manual Motor Starters/UL489 Circuit Breakers
When using manual motor starters or UL489 rated circuit breakers, follow
manufacturer’s recommended guidelines for installation.
Table 4-2: Fuse Specification Chart
Model
I(A)
Buss
6
9
16
6.3
3.2
11.5
6.3
15.7
9
27
15
19.6
28
4.2
5.7
6
15
30
50
25
10
45
20
60
25
100
40
60
100
10
15
20
JJN-15
JJN-30
JJN-50
JJN-25
JJN-10
JJN-45
JJN-20
JJN-60
JJN-25
JJN-100
JJN-40
JJN-60
JJN-100
JJS-10
JJS-15
JJS-20
MVX9000 User Manual
1.6
2.5
4.2
2.5
2.5
5
5
7
7
10
10
17
25
3
4
5
Line Fuse
MMP Catalog
Number
XTPR010BC1
XTPR016BC1
XTPR020BC1
XTPR6P3BC1
XTPR004BC1
XTPR016BC1
XTPR010BC1
XTPR020BC1
XTPR016BC1
XTPR032BC1
XTPR010BC1
XTPR025BC1
XTPR032BC1
XTPR004BC1
XTPR6P3BC1
XTPR010BC1
Recommended
Contactor
Catalog Number
Start-Up
Procedures
F25A0-1
F50A0-1
001A0-1
F50A0-2 (1p)
F50A0-2 (3p)
001A0-2 (1p)
001A0-2 (3p)
002A0-2 (1p)
002A0-2 (3p)
003A0-2 (1p)
003A0-2 (3p)
005A0-2
007A0-2
001A0-4
002A0-4
003A0-4
Input Output
Current Current
(A)
(A)
XTCE009B_
XTCE012B_
XTCE025C_
XTCE009B_
XTCE009B_
XTCE012B_
XTCE009B_
XTCE025C_
XTCE012B_
XTCE032C_
XTCE018C_
XTCE025C_
XTCE032C_
XTCE009B_
XTCE009B_
XTCE009B_
4-7
Fuses and Circuit Breakers
Table 4-2: Fuse Specification Chart (Continued)
Model
005A0-4
007A0-4
010A0-4
001A0-5
002A0-5
003A0-5
005A0-5
007A0-5
010A0-5
Input Output
Current Current
(A)
(A)
I(A)
Buss
8.5
14
23
2.4
4.2
5.9
7.0
10.5
12.9
30
50
70
5
10
15
15
20
30
JJS-30
JJS-50
JJS-70
JJS-6
JJS-10
JJS-15
JJS-15
JJS-20
JJS-30
8.2
13
18
1.7
3.0
4.2
6.6
9.9
12.2
Line Fuse
MMP Catalog
Number
XTPR016BC1
XTPR016BC1
XTPR025BC1
XTPR6P3BC1
XTPR6P3BC1
XTPR6P3BC1
XTPR010BC1
XTPR012BC1
XTPR016BC1
Recommended
Contactor
Catalog Number
XTCE018C_
XTCE025C_
XTCE025C_
XTCE007B_
XTCE007B_
XTCE007B_
XTCE007B_
XTCE012B_
XTCE015B_
Start-Up
Procedures
Table 4-3: Heat Loss Data
When mounting the MVX9000 in an enclosure the following inverter heat loss
should be considered. Failure to provide adequate cooling may cause premature
failure of the inverter and/or overtemperature faults.
Model
Watts Lost
at 9 kHz
MVXF25A0-1 (1-phase)
20
MVX001A0-4
38
—
MVXF50A0-1 (1-phase)
20
MVX002A0-4
75
—
MVX001A0-1 (1-phase)
38
MVX003A0-4
110
—
MVXF50A0-2 (1-phase)
20
MVX005A0-4
185
—
MVXF50A0-2 (3-phase)
20
MVX007A0-4
275
—
MVX001A0-2 (1-phase)
38
MVX010A0-4
375
—
MVX001A0-2 (3-phase)
38
MVX001A0-5
—
30
MVX002A0-2 (1-phase)
75
MVX002A0-5
—
58
MVX002A0-2 (3-phase)
75
MVX003A0-5
—
83
MVX003A0-2 (1-phase)
110
MVX005A0-5
—
132
Model
Watts Lost Watts Lost
at 9 kHz
at 6 kHz
MVX003A0-2 (3-phase)
110
MVX007A0-5
—
191
MVX005A0-2
185
MVX010A0-5
—
211
MVX007A0-2
275
4-8
MVX9000 User Manual
Fuses and Circuit Breakers
Wiring the Inverter to Incoming Power
Step 6: In this step, connect the wiring to the input of the inverter. First determine
whether the inverter model requires three-phase power only, or if it can accept
either singe-phase or three-phase power. All models have the same power
connector terminals labeled L1, L2, L3 and (Ground). Refer to the specifications
label (on the side of the inverter) for the acceptable power source types! For
inverters which can accept single-phase power, use terminals L1 and L2.
CAUTION!
Be sure that the input voltage matches the inverter specifications:
•
•
•
•
•
Single-phase 100 to 120V 50/60 Hz
Single-/Three-phase 200 to 240V 50/60 Hz (up to 2.2 kW)
Three-phase 200 to 230V 50/60 Hz (above 2.2 kW)
Three-phase 380 to 460V 50/60 Hz
Three-phase 500 to 600V 50/60 Hz
CAUTION!
Be sure not to connect an AC power supply
to the output terminals. Otherwise, there is
the danger of injury and/or fire.
Power Input Power Output
L1 L2 L3
T1 T2 T3
Note:
Start-Up
Procedures
L1, L2, L3: Three-phase 200 to 230V 50/60 Hz
Three-phase 380 to 460V 50/60 Hz
Three-phase 500 to 600V 50/60 Hz
Any two inputs:
Single-phase 100 to 120V 50/60 Hz;
Single-phase 200 to 240V 50/60 Hz
MVX9000 User Manual
4-9
Fuses and Circuit Breakers
Wiring the Motor to the Inverter Output
Step 7: Connect the three-phase AC induction motor to the output of the inverter.
The motor must be a three-phase induction motor. It should also come with a
chassis ground lug. If the motor does not have three power input leads, stop the
installation and verify the motor type. Other guidelines for wiring the motor include:
•
•
Use an inverter-grade motor for maximum motor life (1600V insulation).
For standard motors, use the AC reactor accessory if the wiring between the
inverter and motor exceeds 30 feet (10 meters) in length.
Connect the motor to the terminals indicated on the inverter. The terminals are
labeled T1, T2 and T3. Connect the chassis ground lug on the inverter. The motor
chassis ground must also connect to the same point. Use a star ground (single
point) arrangement, and never daisy-chain the grounds (point-to-point).
Use the same wire gauge on the motor and chassis ground wiring as you used
on the power input wiring in the previous step. After completing the wiring:
•
Start-Up
Procedures
•
•
Check all wire connections both at the inverter and motor to make sure they
are secure.
Close all access doors.
Remove any covering placed on the inverter ventilation openings.
4-10
MVX9000 User Manual
Fuses and Circuit Breakers
Power-Up Test
Step 8: After wiring the inverter and motor, perform a power-up test. The
procedure that follows is designed for the first-time use of the drive. Verify the
following conditions before conducting the power-up test:
•
•
The previous steps in this chapter have been followed.
The inverter is new, and securely mounted to a non-flammable vertical
surface.
• The inverter is connected to a power source and motor.
• No additional wiring of the inverter connectors or terminals has been done.
• The power supply is reliable, and the motor is a known working unit.
• The motor is mounted, and is not connected to any load.
The following instructions apply to the power-up test, or to any time the inverter
is powered and operating. Please study the following instructions and messages
before proceeding with the power-up test.
1. The power supply must have fusing suitable for the load. Check the fuse size
chart presented in Table 4-1 if necessary.
2. Be sure you have access to a disconnect switch for the drive input power if
necessary. However, do not turn off power to the inverter during its
operation unless it is an emergency.
3. Turn the inverter’s front panel potentiometer to the MIN position (fully
counterclockwise).
CAUTION!
If you operate a motor at a frequency higher than the inverter standard
default setting (50 Hz/60 Hz), be sure to check the motor and machine
specifications with the respective manufacturer. Only operate the
motor at elevated frequencies after getting their approval. Otherwise,
there is the danger of equipment damage.
MVX9000 User Manual
4-11
Start-Up
Procedures
CAUTION!
The operation of the inverter can be easily changed from low speed to
high speed. Be sure to check the capability and limitations of the
motor and machine before operating the inverter. Otherwise, there is
the danger of injury.
Powering the Inverter
If you have followed all the steps, cautions and warnings up to this point, you’re
ready to apply power. After doing so, the following events should occur:
•
The numeric (7-segment) LEDs will illuminate.
• The Hz, Stop and Fwd LEDs will illuminate.
If the motor starts running unexpectedly or any other problem occurs, press the
STOP button. Only if necessary should you remove power to the inverter as a
remedy.
Start-Up
Procedures
Note: If the inverter has been previously powered and programmed, the LEDs
(other than the POWER LED) may illuminate differently than as indicated above.
If necessary, you can initialize all parameters to the factory default settings. See
the initialization instructions in the Programming section.
4-12
MVX9000 User Manual
Chapter 5
Descriptions of Parameter Settings
Inside this chapter …
Viewing and Changing Parameter Settings . . . . . . .
Parameter Groups . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 20 — Basic Grouping (Quick Start) . . . . . . . .
Group 30 — Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . .
Explanations: Digital Input Terminal . . . . . . . . . .
Group 40 — Outputs . . . . . . . . . . . . . . . . . . . . . . . . . .
Function Explanations . . . . . . . . . . . . . . . . . . . . . .
Group 50 — AC Drive Control . . . . . . . . . . . . . . . . . .
Group 60 — Motor Control . . . . . . . . . . . . . . . . . . . .
Group 70 — Protective Functions . . . . . . . . . . . . . . .
Group 80 — Display . . . . . . . . . . . . . . . . . . . . . . . . . .
Group 90 — Communications . . . . . . . . . . . . . . . . . .
Computer Control . . . . . . . . . . . . . . . . . . . . . . . . .
Data Format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ADR (Communication Address) . . . . . . . . . . . . . .
CMD (Command code) and DATA
(data characters) . . . . . . . . . . . . . . . . . . . . . . . . . .
CHK (Check Sum) . . . . . . . . . . . . . . . . . . . . . . . . .
5-2
5-4
5-5
5-7
5-16
5-27
5-29
5-31
5-50
5-54
5-59
5-63
5-67
5-68
5-70
5-70
5-73
Descriptions of
Parameter Settings
MVX9000 User Manual
5-1
Viewing and Changing Parameter Settings
This chapter contains the descriptions of the MVX9000 parameters. Parameters
are addressed and changed via the keypad for the MVX9000. For more
information on keypad operation, see Keypad Operation located in Chapter 2.
Viewing and Changing Parameter Settings
Parameters are grouped in a page arrangement. Each page will contain a list of
the parameters associated with that group. Move into the page groups from the
display menu by using the right arrow key.
40
30
Display
Hz
AMPS
USER
20
Figure 5-1: Page Groups
Select the desired parameter group by using the up and down keys. Once the
parameter group is located, use the right arrow key to enter the group. Use the
up and down keys to scroll the parameters on that page.
40
30
40.01
40.02
40.03
40.04
40.05
Descriptions of
Parameter Settings
20
Figure 5-2: Parameter Groups
Once the parameter has been located, use the right arrow key to view the
parameter setting.
F
H
RUN
STOP
FWD
REV
F
RUN
STOP
FWD
REV
H
A
A
U
U
Figure 5-3: Parameters
5-2
MVX9000 User Manual
Viewing and Changing Parameter Settings
Use the ENTER key to enter the programming mode. The displayed parameter
will flash indicating the parameter can be changed.
F
RUN
STOP
FWD
REV
H
A
U
Figure 5-4: Programming Mode
Use the up and down keys to change the parameter setting. Press ENTER to enter
the new parameter setting.
If the parameter change is successful, the keypad will display the end (End)
message and return to the parameter number display. If the parameter change is
unsuccessful the keypad will display an error (Err) message, the parameter will
not be changed, and the parameter number will again be displayed.
Note: Some parameters cannot be changed while in the RUN/START mode.
F
RUN
STOP
FWD
REV
F
RUN
STOP
FWD
REV
H
H
A
A
U
U
Unsuccessful
Parameter Change
Figure 5-5: Parameter Changes
To exit the programming mode, press the left arrow key to return to the display
mode.
MVX9000 User Manual
5-3
Descriptions of
Parameter Settings
Successful
Parameter Change
Parameter Groups
Parameter Groups
The parameters are grouped according to the following descriptions:
10 Reserved (and not displayed)
20 Basic Grouping (Quick Start) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-5
30 Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-7
40 Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-27
50 AC Drive Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-31
60 Motor Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-50
70 Protective Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-54
80 Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-59
Descriptions of
Parameter Settings
90 Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-63
5-4
MVX9000 User Manual
Group 20 — Basic Grouping (Quick Start)
Group 20 — Basic Grouping (Quick Start)
20.01
Motor Nameplate Range: 10.0 to 400.0 Hz
Default: 60.0
Frequency Unit: 0.1 Hz
This value should be set according to the rated frequency of
the motor as indicated on the motor nameplate. Motor
Nameplate Frequency determines the volts/hertz ratio.
For example: if the drive is rated for 460V AC output and the
Motor Nameplate Frequency is set to 60 Hz, the drive will
maintain a constant ratio of 7.66 v/Hz. The setting value must
equal to or greater than the Mid-Point Frequency (50.07).
20.02 Range: 115V series 0.1 to 255V
Default: 230.0
Motor Nameplate Range: 230V series 0.1 to 255V
Default: 230.0
Voltage Range: 460V series 0.1 to 510V
Default: 460.0
Range: 575V series 0.1 to 637V
Default: 575.0
This parameter determines the Motor Nameplate Voltage of
the AC drive. The Motor Nameplate Voltage setting must be
smaller than or equal to the rated voltage of the motor as
indicated on the motor nameplate. The setting value must
equal to or greater than the Mid-Point Voltage (50.08).
20.03
Source of Master Range:
Default: 01
Frequency 00 Master Frequency determined by digital keypad on the drive.
01 Master Frequency determined by keypad potentiometer.
02 Master Frequency determined by 0 – 10V on terminal AI1.
03 Master Frequency determined by 4 – 20 mA on terminal AI2.
04 Master Frequency determined by RS-485.
MVX9000 User Manual
5-5
Descriptions of
Parameter Settings
20.04
Source of Operation Range:
Default: 01
Command 00 Operating commands determined by the Digital Keypad.
01 Operating commands determined by the External Control
Terminals. Keypad STOP key is enabled.
02 Operating commands determined by the External Control
Terminals. Keypad STOP key is not enabled.
03 Operating commands determined by the RS-485
communication interface. Keypad STOP key is enabled.
04 Operating commands determined by the RS-485
communication interface. Keypad STOP key is not enabled.
Group 20 — Basic Grouping (Quick Start)
20.05
Motor Rated Current Default: xx.x A
Enter the motor’s nameplate rated amps.
The value must be between 30 to 120% of the drive’s rated output
current. This parameter sets the drive’s output current limit.
This parameter may be set during operation.
20.06
Minimum Output Range: 0.0 to 20.0 Hz
Frequency Unit: 0.1 Hz
Default: 1.5
This parameter sets the Minimum Output Frequency of
the AC drive. This parameter must be equal to or less
than the Mid-Point Frequency (50.07).
20.07
Maximum Output Range: 50.0 to 400.0 Hz
Default: 60.0
Frequency Unit: 0.1 Hz
This parameter determines the AC drive’s Maximum Output
Frequency. All the AC drive accelerations and decelerations
are scaled to correspond to this maximum output frequency.
Descriptions of
Parameter Settings
20.08 / 20.09
Acceleration Time 1 Range: 0.01 to 600.00 sec
Default: 10.00 sec
Deceleration Time 1 Unit: 0.01 second
These parameters may be set during operation.
20.08 is used to determine the time required for the AC drive
to ramp from 0 Hz to its Maximum Output Frequency (20.07).
The rate is linear unless S-Curve is “Enabled.”
20.09 is used to determine the time required for the AC drive
to decelerate from the Maximum Output Frequency (20.07)
down to 0 Hz. The rate is linear unless S-Curve is “Enabled.”
5-6
MVX9000 User Manual
Group 30 — Inputs
Group 30 — Inputs
30.01
Minimum Reference Range: 0.0 to 10.0V
Default: 0.0
Value (0 – 10V) Unit: 0.1
This parameter sets the analog voltage input value referenced
to the Minimum Output Frequency (50.09).
30.02
Maximum Reference Range: 0.0 to 10.0V
Default: 10.0
Value (0 – 10V) Unit: 0.1
This parameter sets the analog voltage input value referenced
to the Maximum Output Frequency (50.04).
30.03
Invert Reference Signal Range:
(0 – 10V) 00 Not inverted
01 Inverted
Default: 00
30.04
Minimum Reference Range: 0.0 to 20.0 mA
Default: 4.0
Value (4 – 20 mA) Unit: 0.1
This parameter sets the analog current input value referenced
to the Minimum Output Frequency (50.09).
30.06
Invert Reference Range:
Signal (4 – 20 mA) 00 Not inverted
01 Inverted
Default: 00
30.07
Potentiometer Offset Range: 0.0 to 100.0%
Default: 0.0%
Unit: 0.1%
This parameter may be set during operation.
This parameter provides a frequency offset for the analog input.
Example: Potentiometer Offset = (10 Hz/60 Hz) x 100.
MVX9000 User Manual
5-7
Descriptions of
Parameter Settings
30.05
Maximum Reference Range: 0.0 to 20.0 mA
Default: 20.0
Value (4 – 20 mA) Unit: 0.1
This parameter sets the analog current input value referenced
to the Maximum Output Frequency (50.04).
Group 30 — Inputs
30.08
Potentiometer Bias Range:
Default: 00
Polarity 00 Positive Bias
01 Negative Bias
This parameter may be set during operation.
This parameter sets the Potentiometer Bias Frequency to be
positive or negative.
30.09
Potentiometer Slope Range: 0.1 to 300.0%
Default: 100.0
Unit: 0.1%
This parameter may be set during operation.
This parameter sets the slope (or ratio) of analog input vs.
output frequency.
Example: Potentiometer Slope = (1 – 30.07) x 100% = 83.3%.
Descriptions of
Parameter Settings
30.10
Potentiometer Range:
Default: 00
Direction 00 Forward motion only
01 Reverse motion enable (must be in negative bias)
This parameter allows the user to select direction via the
analog input command. Setting of 01 allows both forward
and reverse direction as shown in example 5 below.
30.07 to 30.10 are used when the source of frequency
command is the analog input AI1, AI2 or keypad
potentiometer (0 to +10V DC or 4 to 20 mA DC). Refer to the
following examples for programming these parameters.
5-8
MVX9000 User Manual
Group 30 — Inputs
Example 1:
This example shows a standard 0 – 10V analog input (either from the keypad
potentiometer or an external source). A 0V input = 0 Hz and 10V input =
maximum output frequency.
Defaults:
20.07=60Hz
30.07=0%
30.08=0
30.09=100%
30.10=0
Maximum Output Frequency
Potentiometer Offset
Bias polarity
Potentiometer slope
Potentiometer direction
Max.
Output (20.07)
Freq.
60 Hz
30
0
0V
0 Hz
0V
4 mA
5V
12 mA
10V
20 mA
Hz
60
10V
Potentiometer Scale
Figure 5-6: 0 – 10V Analog Input
Descriptions of
Parameter Settings
MVX9000 User Manual
5-9
Group 30 — Inputs
Example 2:
This example shows a 10 Hz positive offset with full use of the 0 – 10V analog
input or potentiometer scale. A 0V input = 10 Hz and 10V input = maximum
output frequency.
Defaults:
20.07=60Hz
30.07=16.7%
30.08=0
30.09=83.3%
30.10=0
Maximum Output Frequency
(10hz/60hz) x 100=Potentiometer Offset
Bias polarity
Potentiometer Slope
Potentiometer Direction
Calculation of Potentiometer Slope
30.09=(1-30.07) x 100% = 83.3%
Max.
Output (20.07)
Freq.
60 Hz
35
0
10 Hz
Bias Adjustment
0V
0 Hz
0V
4 mA
5V
12 mA
10V
20 mA
Hz
60
10V
Potentiometer Scale
Descriptions of
Parameter Settings
Figure 5-7: 10 Hz Positive Offset
5-10
MVX9000 User Manual
Group 30 — Inputs
Example 3:
This example shows an analog command range of 0 to 5 Volts, with an output of
0 hz to maximum output frequency.
Defaults:
20.07=60Hz
30.07=0%
30.08=0
30.09=200%
30.10=0
Maximum Output Frequency
Potentiometer Offset
Bias polarity
Potentiometer Slope
Potentiometer direction
Calculation of gain
30.09=(1- 10V
) x 100% = 200%
5V
Max.
Output (20.07)
Freq.
60 Hz
Gain
Adjustment
30
30 Hz
0
0V
0 Hz
0V
5V
Hz
60
5V
Potentiometer Scale
Figure 5-8: 0 – 5V Analog Command Range
Descriptions of
Parameter Settings
MVX9000 User Manual
5-11
Group 30 — Inputs
Example 4:
In this example a 1-volt negative bias is used. In a noisy environment, it is
advantageous to use negative bias to provide a noise margin (1V in this
example).
Defaults:
20.07=60Hz
30.07=10%
30.08=1
30.09=100%
30.10=0
Maximum Output Frequency
(6/60) x 100% = Potentiometer Offset
Bias polarity
Potentiometer Slope
Potentiometer Direction
Max.
Output (20.07)
Freq.
60 Hz
24
54 Hz
It’s 0Hz
Within
This
Range
0 Hz
Negative
Bias 6 Hz 0V 1V
0
0V
10V
Hz
54
10V
Potentiometer Scale
Descriptions of
Parameter Settings
Figure 5-9: 1V Negative Bias
5-12
MVX9000 User Manual
Group 30 — Inputs
Example 5:
In this example, the analog input or potentiometer is programmed to run a motor
in both the forward and reverse directions. A motor will be idle (0 Hz) when the
analog input or potentiometer is at the mid-point of its scale.
Defaults:
20.07=60Hz
30.07=100%
30.08=1
30.09=200%
30.10=1
Maximum Output Frequency
Potentiometer Offset
Bias polarity
Potentiometer Slope
Potentiometer Direction
Max.
Output (20.07)
Freq.
60 Hz
FWD
30 Hz
0V
0
REV.
FWD.
0 Hz
5V
30 Hz
REV
60 Hz
10V
60
0V
Hz
60
10V
Potentiometer Scale
Figure 5-10: Forward and Reverse Programming
Descriptions of
Parameter Settings
MVX9000 User Manual
5-13
Group 30 — Inputs
30.11
Digital Input Terminal Range:
(DI1, DI2) 01 DI1: FWD / STOP
DI2: REV / STOP
02 Two Wire Operation mode
DI1: RUN / STOP
DI2: REV / FWD
03 3-Wire Operation mode
DI1: RUN
DI2: REV / FWD
DI3: STOP
Default: 02
Setting 01
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REV/STOP
FWD/STOP
Setting 02
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REV/FWD
RUN/STOP
Descriptions of
Parameter Settings
Setting 03
REV/FWD
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STOP
RUN
Figure 5-11: DI1 and DI2 Settings
5-14
MVX9000 User Manual
Group 30 — Inputs
30.13
Digital Input Terminal Range: See Parameter 30.12
(DI4)
MVX9000 User Manual
Default: 06
5-15
Descriptions of
Parameter Settings
30.12
Digital Input Terminal Range:
Default: 05
(DI3) 00 Not Used
01 External Fault (NO)
02 External Fault (NC)
03 External Reset (NO)
04 External Reset (NC)
05 Preset Speed Switch 1
06 Preset Speed Switch 2
07 Preset Speed Switch 3
08 Jog
09 2nd Acceleration/Deceleration time selection
10 Control Location — I/O terminals
11 Control Location — keypad
12 Control Location — communication
13 Increase Master Frequency (RUN state only)
14 Decrease Master Frequency (RUN state only)
15 Forward / Reverse
16 Parameter Lock
17 Acceleration / Deceleration Inhibit
18 Run Enable
19 PAUSE (NO)
20 PAUSE (NC)
21 PID Disable
22 Run PLC
23 Pause PLC
24 Counter input
25 Counter reset
26 First/Second source of Master Frequency
27 Increase Master Frequency (during any state)
28 Decrease Master Frequency (during any state)
29 Output Shut Off (NO)
30 Output Shut Off (NC)
31 Auto Location — Operation & Frequency by First source
(P50.01 & P50.02)
32 Hand Location — Operation & Frequency by Second
source (P50.57 & P50.60)
33 LOC — Operation & Frequency by Second source
(P50.57 & P50.60)
Group 30 — Inputs
30.14
Digital Input Terminal Range: See Parameter 30.12
(DI5)
Default: 07
30.15
Digital Input Terminal Range: See Parameter 30.12
(DI6)
Default: 03
Explanations: Digital Input Terminal
Settings 01, 02
When an External Fault input signal is received, the AC drive output will turn off,
the drive will display “E.F” on digital keypad, and the motor will coast to a stop.
Normal operation will resume after the External Fault is cleared and the AC drive
is reset.
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02:External Fault (NC)
01:External Fault (NO)
Figure 5-12: Digital Input Terminal Settings 01, 02
Settings 03, 04
Descriptions of
Parameter Settings
The External Reset has the same function as the Reset key on the Digital keypad.
It is used to reset the drive after a fault.
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04:External Reset (NC)
03:External Reset (NO)
Figure 5-13: Digital Input Terminal Settings 03, 04
5-16
MVX9000 User Manual
Group 30 — Inputs
Settings 05, 06, 07
These three inputs select the preset speeds defined by P30.18 to P30.24.
Switch 1
Switch 2
Switch 3
P30.18
ON
OFF
OFF
P30.19
OFF
ON
OFF
P30.20
ON
ON
OFF
P30.21
OFF
OFF
ON
P30.22
ON
OFF
ON
P30.23
OFF
ON
ON
P30.24
ON
ON
ON
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07:Multi Speed 3
06:Multi Speed 2
05:Multi Speed 1
Frequency
30.18
Step 1
30.22
Step 5
30.19
Step 2
30.20
Step 3
30.21
Step 4
30.23
Step 6
30.24
Step 7
Switch 1
Switch 2
Switch 3
Operation
Command
Descriptions of
Parameter Settings
Time
Master Freq.
ON
ON
ON
ON
ON
ON ON
ON
ON
ON
ON
ON
ON
OFF
Figure 5-14: Digital Input Terminal Settings 05, 06, 07
MVX9000 User Manual
5-17
Group 30 — Inputs
Setting 08
Jog operation may only be initiated while the motor is stopped. (Refer to P50.20,
P50.21)
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08:Jog
Figure 5-15: Digital Input Terminal Setting 08
Setting 09
Digital input terminals (DI3 – DI6) may be used to change from the first to the
second accel/decel time.
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09: 2nd Acceleration/Deceleration
time selection
Figure 5-16: Digital Input Terminal Setting 09
Settings 10, 11, 12
Descriptions of
Parameter Settings
Used to select the Operation Command location of the AC drive.
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10:Control location-I/O terminals
11:Control location-keypad
12: Control location-communication
Figure 5-17: Digital Input Terminal Settings 10, 11, 12
5-18
MVX9000 User Manual
Group 30 — Inputs
Settings 13, 14
Settings 13 and 14 enable the digital input terminal to incrementally increase/
decrease the Master Frequency each time an input is received.
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14:Decrease Master Frequency
13:Increase Master Frequency
Figure 5-18: Digital Input Terminal Settings 13, 14
Setting 15
A digital input may be used to select direction.
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15:Forward/Reverse
Figure 5-19: Digital Input Terminal Setting 15
Setting 16
A digital input terminal may be used to disable users from changing the
parameters.
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16:Parameter lock
Figure 5-20: Digital Input Terminal Setting 16
MVX9000 User Manual
5-19
Descriptions of
Parameter Settings
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Group 30 — Inputs
Setting 17
A digital input terminal may be used for acceleration/deceleration inhibit. When
the command is received, acceleration and deceleration is stopped and the AC
drive maintains a constant speed. See Figure 5-21.
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17:Acceleration/Deceleration inhibit
Frequency
Master Frequency
Acceleration
Inhibit
Deceleration
Inhibit
Acceleration
Inhibit
Deceleration
Inhibit
Actual
Operation Frequency
Accel/Decel
Inhibit
Start
Command
ON
ON
ON
Time
ON
ON
OFF
Figure 5-21: Digital Input Terminal Setting 17
Descriptions of
Parameter Settings
Setting 18
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18:Run Enable
Figure 5-22: Digital Input Terminal Setting 18
5-20
MVX9000 User Manual
Group 30 — Inputs
Settings 19, 20
Setting 19 allows an input terminal to generate an “External Pause”. When the
External Pause signal is received, the AC drive will stop all output and the motor
will coast to a stop. When the External Pause control is removed, the AC drive
will start its speed search function, synchronize with the motor speed, and then
accelerate to Master frequency.
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20:Pause(NC)
19:Pause(NO)
External
OFF
Pause
Signal
ON
OFF
Speed Search
Starts with the
Reference Value
Output
Frequency
Output
Voltage
Speed Synchronization
Detection
50.25
Min. Pause
Time
Capacitor
Discharge
Speed Search
Operation
Figure 5-23: Digital Input Terminal Settings 19, 20
Allows an input terminal to disable PID operation as shown in Figure 5-24.
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21:PID Disable
Figure 5-24: Digital Input Terminal Setting 21
MVX9000 User Manual
5-21
Descriptions of
Parameter Settings
Setting 21
Group 30 — Inputs
Settings 22, 23
Setting 22 allows an input terminal to enable the AC drive’s internal PLC program
and Setting 23 allows an input terminal to pause the PLC program.
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23:Pause PLC
22:Run PLC
Figure 5-25: Digital Input Terminal Settings 22, 23
Setting 24
A digital input terminal may be used to increase the AC drive’s internal counter.
When an input is received, the counter is increased by 1. The counter input may
be connected to an external Pulse Signal Generator to count a process or unit of
material. See the diagram below.
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Descriptions of
Parameter Settings
24:Counter input
C0
Indication value
(trigger enable)
Counter trigger signal
Multi-function input terminal
C1
C2
C3
C4
C5
C1
C2
2 ms
2 ms
Signal output with 30.17
(30.17=3)
counter value is attained.
The trigger timing
can't be less than
2 ms.(<250 Hz)
(40.03/40.04 or 40.06/40.07)
Signal output with 30.16
(30.16=5)
counter value is attained. (40.03/40.04 or 40.06/40.07)
Figure 5-26: Digital Input Terminal Setting 24
5-22
MVX9000 User Manual
Group 30 — Inputs
Setting 25
A digital input terminal may be used to reset the counter as shown in Figure 5-27.
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25:Counter reset
Figure 5-27: Digital Input Terminal Setting 25
Setting 26
A digital input terminal may be used to select the first or second Source of
Master Frequency as shown in Figure 5-28.
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26:First/second source of frequency command
Figure 5-28: Digital Input Terminal Setting 26
Settings 27, 28
Settings 27 and 28 enable the digital input terminal to incrementally increase/
decrease the Master Frequency each time an input is received. This is different
from settings 13 and 14, because here the speed command may be changed
during a RUN or STOP state as shown in Figure 5-29.
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Descriptions of
Parameter Settings
28:Decrease Master Frequency
27:Increase Master Frequency
Figure 5-29: Digital Input Terminal Settings 27, 28
MVX9000 User Manual
5-23
Group 30 — Inputs
Settings 29, 30
A digital input may be used to shut the output off (pause) and not display a fault.
This is different from settings 19 and 20 because they produce a “bb” display.
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29, 30:Output Shut-Off
Figure 5-30: Digital Input Terminal Settings 29, 30
Settings 31, 32
A digital input is used to select the AUTO mode (setting 31) or HAND mode
(setting 32) during HAND/OFF/AUTO (HOA).
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32:Hand Control Location
31:Auto Control Location
Figure 5-31: Digital Input Terminal Settings 31, 32
Setting 33
Descriptions of
Parameter Settings
A digital input is used to select the LOCAL control when in LOCAL/REMOTE
mode.
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33:Local/Remote
Figure 5-32: Digital Input Terminal Setting 33
5-24
MVX9000 User Manual
Group 30 — Inputs
30.16
Final Count Value Range: 00 to 9999
Default: 00
This parameter defines the final count value for the MVX9000
internal counter. The counter is incremented by a low-to-high
transition on a Digital Input Terminal: DI3 to DI6.
A selected Digital/Relay Output Terminal may be
programmed to activate upon completion of the final count.
30.17
Intermediate Count Range: 00 to 9999
Default: 00
Value This parameter sets the intermediate count value for the
MVX9000 internal counter. The counter is incremented by a
low-to-high transition on a Digital Input Terminal: DI3 to DI6.
The count will start at c01.
A selected Digital/Relay Output Terminal may be
programmed to activate upon completion of the intermediate
count.
Default: 0.0 Hz
30.19
Preset Speed 2 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0 Hz
30.20
Preset Speed 3 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0 Hz
30.21
Preset Speed 4 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0 Hz
MVX9000 User Manual
Descriptions of
Parameter Settings
30.18
Preset Speed 1 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
5-25
Group 30 — Inputs
30.22
Preset Speed 5 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0 Hz
30.23
Preset Speed 6 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0 Hz
30.24
Preset Speed 7 Range: 0.0 to 400.0 Hz
Default: 0.0 Hz
Unit: 0.1 Hz
These parameters may be set during operation.
The Digital Input Terminals (refer to 30.11 to 30.15) are used to
select one of the MVX9000 Preset Speeds. The speeds
(frequencies) are determined by 30.18 to 30.24.
Preset Speeds 30.18 to 30.24 in conjunction with 50.46 to
50.52 provide the process logic control (PLC) function.
30.25
Display Frequency Range:
Default: 00
(Hz) or Percent (%) 00 Frequency (Hz)
01 Percent (%)
02 User Definition (0.000 – max. unit) Unit set by P30.28
This parameter allows the display to reference Frequency or
Percentage.
Descriptions of
Parameter Settings
30.26
Digital Extension Range: See Parameter 30.12
Input DI7
Default: 00
30.27
Digital Extension Range: See Parameter 30.12
Default: 00
Input DI8 Available settings are the same as 30.12 to 30.15
These parameters select the function of the optional
extension I/O. These parameters are not visible on the
MVX9000 until the extension I/O is installed.
30.28
User Definition Range: 0.000 to 1.000
Default: 1.000
Display Allows the user to change the frequency display range when
P30.25 is set to 02 (by user definition).
5-26
MVX9000 User Manual
Group 40 — Outputs
Group 40 — Outputs
40.01
Analog Output Signal Range:
Default: 00
00 Output Frequency (0 to Maximum Output Frequency)
01 Output Current (0 to 250% of the rated AC drive current)
02 PID Feedback Signal (0 to maximum feedback)
03 Output Power (0 to 100% of the rated AC drive power)
This parameter selects the reference value for the 0 – 10V
analog output (AO+ to COM).
40.03
Digital Output Range: 00 to 20
Terminal D01
MVX9000 User Manual
Default: 02
5-27
Descriptions of
Parameter Settings
40.02
Analog Output Gain Range: 0 to 200%
Default: 100
Unit: 1%
This parameter may be set during operation.
The parameter sets the voltage range for analog output
terminals AO+ to COM.
The analog output voltage is directly proportional to the
selection made in 40.01.
If setting 00 is chosen, the analog output voltage on AO+ to
COM is directly proportional to the output frequency of the
AC drive. With 40.02 set at 100%, the Maximum Output
Frequency of the AC drive corresponds to +10V DC on AO.
If setting 01 is chosen, the analog output voltage is directly
proportional to the output current of the AC drive. With 40.02
set to 100%, +10V DC corresponds to 250% of AC drive rated
current.
Note: Any type of voltmeter may be used. If the meter reads
full scale at a voltage less than 10 volts, then 40.02 should be
set by the following formula:
40.02 = ((meters full scale voltage)/10) x 100%
For Example: When using the meter with full scale of 5 volts,
adjust 40.02 to 50%
Group 40 — Outputs
Descriptions of
Parameter Settings
40.04
Relay Output Range: 00 to 20
Default: 03
Terminal RO1, RO2, 00 Not Used
RO3 01 Ready
02 Inverter output is active
03 Inverter Fault
04 Warning (See warning codes in Chapter 7)
05 At speed
06 Zero Speed
07 Above desired frequency (40.05)
08 Below desired frequency (40.05)
09 PID supervision
10 Over voltage supervision
11 Over heat supervision
12 Over current stall supervision
13 Over voltage stall supervision
14 Low voltage indication
15 PLC program running
16 PLC program step complete
17 PLC program completion
18 PLC program pause
19 Terminal count value attained
20 Preliminary count value attained
21 Reverse direction notification
22 Under current detection
23 Inverter RUN command state
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AC
–
DC
AC
+
LT
LT
LT
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25:Counter reset
Figure 5-33: R01, R02 and R03 Settings
5-28
MVX9000 User Manual
Group 40 — Outputs
Function Explanations
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
18
19
20
21
22
23
MVX9000 User Manual
5-29
Descriptions of
Parameter Settings
17
Not Used: all unused output terminals of the AC drive should be set to 00.
Ready: The output terminal will be active when the drive has no faults and is
ready to run.
Inverter Output is Active: The output terminal will be active when the drive is
generating an output from the T1, T2, T3 terminals.
Inverter Fault: The output terminal will be activated when faults occur
(oc, ov, oH, oL, oL1, EF, cF3, hpF, ocA, ocd, ocn, GF).
Warning: The output terminal will be active when there is a fault with
communication or PID feedback.
At Speed: The output terminal will be active when the drive output
frequency reaches the value set by your command source.
Zero Speed: The output terminal will be active when the drives U, V, W
terminals are generating no output.
Above Desired Frequency: The output terminal will be active when the
output frequency is above the desired frequency (40.05).
Below Desired Frequency: The output terminal will be active when the
output frequency is below the desired frequency (40.05).
PID supervision
Over Voltage Warning: The output terminal will be active when output
voltage of the drive exceeds 90% of the maximum voltage limit.
Over Heat Warning: The output terminal will be active when temperature
of the drive exceeds 90% of the maximum heat limit.
Over Current Stall Warning: The output terminal is active when the over
current stall function is enabled.
Over Voltage Stall Warning: The output terminal will be active when the over
voltage stall function is enabled.
Low Voltage: The output will be active when the input voltage drops below
the minimum voltage limit.
PLC Program running: The output terminal will be active when the PLC
function is running.
PLC Program Step complete: The output terminal will be active when each
PLC step is completed.
PLC Program Completed: The output terminal will be active when the PLC
function has completed and stopped.
PLC Program Pause: The output terminal will be active when the PLC
function has been paused.
Final count value attained: The output terminal will be active when the count
reaches the setting in 30.16.
Intermediate count value attained: The output terminal will be active when
the count reaches the setting in 30.17.
Reverse direction notification: The output terminal will be active when the
drive is in reverse.
Under current detection: The output terminal will be active when the output
current is under 70.11 and the time has exceeded 70.13.
Inverter RUN state: The terminal will be active when the MVX is in a RUN
state, the terminal will be inactive when the MVX is in a STOP state.
Group 40 — Outputs
40.05
Desired Frequency Range: 0.0 to 400.0 Hz
Default: 0.0
Attained Unit: 0.1Hz
If a Digital/Relay output terminal is set to function as Desired
Frequency, then the output will be activated when the
programmed frequency is attained.
Freq.
Max. Output
Freq.
Detection
Range
±2 Hz
Detection
Range
±4 Hz
Desired Freq.
40.05
Preset Freq.
Attained
Indication
40.03 – 40.04
or 40.06 – 40.07 OFF
Desired Freq.
Attained
Indication
OFF
40.03 – 40.04
or 40.06 – 40.07
Detection
Range
-2 Hz
Time
ON
OFF
ON
OFF
Figure 5-34: Desired Freq. Attained & Preset Freq. Attained
Descriptions of
Parameter Settings
40.06
Relay Extension Range: See Parameter 40.03
Output RO4, RO5,
RO6
Default: 00
40.07
Relay Extension Range: See Parameter 40.03
Default: 00
Output RO7, RO8, Available settings are the same as 40.03 to 40.04.
RO9
These parameters select the function of the optional
extension I/O. These parameters are not visible on the
MVX9000 until the extension I/O is installed.
5-30
MVX9000 User Manual
Group 50 — AC Drive Control
Group 50 — AC Drive Control
50.01
Source of Master Range:
Default: 01
Frequency 00 Master Frequency determined by digital keypad on the drive.
01 Master Frequency determined by keypad potentiometer.
02 Master Frequency determined by 0 – 10V on terminal AI1.
03 Master Frequency determined by 4 – 20 mA on terminal AI2.
04 Master Frequency determined by RS-485.
50.02
Source of Operation Range:
Default: 00
Command 00 Operating commands determined by the Digital Keypad.
01 Operating commands determined by the External Control
Terminals. Keypad STOP key is enabled.
02 Operating commands determined by the External Control
Terminals. Keypad STOP key is not enabled.
03 Operating commands determined by the RS-485
communication interface. Keypad STOP key is enabled.
04 Operating commands determined by the RS-485
communication interface. Keypad STOP key is not enabled.
Hz
Hz
Freq.
Freq.
Motor
Speed
Motor
Speed
Time
Time
Free Running
to Stop
Stops According
to Deceleration Time
Operation
Command
ON
OFF
ON
Ramp
OFF
Coast
Figure 5-35: Stop Methods
MVX9000 User Manual
5-31
Descriptions of
Parameter Settings
50.03
Stop Method Range:
Default: 00
00 Ramp to stop
01 Coast to stop
This parameter determines how the motor is stopped when
the AC drive receives a valid stop command.
Ramp: The AC drive decelerates the motor to the Minimum
Output Frequency based on the time set in Pr. 50.12.
Coast: The AC drive stops the output instantly upon command,
and the motor free spins until it comes to a complete stop.
Group 50 — AC Drive Control
50.04
Maximum Output Range: 50.0 to 400.0 Hz
Default: 60
Frequency
Unit: 0.1 Hz
This parameter determines the AC drive’s Maximum Output
Frequency. All the AC drive accelerations and decelerations
are scaled to correspond to this maximum output frequency.
50.05
Motor Nameplate Range: 10.0 to 400.0 Hz
Default: 60
Frequency Unit: 0.1 Hz
This value should be set according to the rated frequency of
the motor as indicated on the Motor Nameplate. Motor
Nameplate Frequency determines the volts/hertz ratio.
For example: if the drive is rated for 460V AC output and the
Maximum Voltage Frequency is set to 60 Hz, the drive will
maintain a constant ratio of 7.66 v/Hz. The setting value must
equal to or greater than the Mid-Point Frequency (50.07).
50.06 Range: 115V series 0.1 to 255.0V
Default: 230.0
Motor Nameplate Range: 230V series 0.1 to 255.0V
Default: 230.0
Voltage Range: 460V series 0.1 to 510.0V
Default: 460.0
Range: 575V series 0.1 to 637.0V
Default: 575.0
This parameter determines the motor nameplate voltage of
the AC drive. The Motor Nameplate Voltage setting must be
smaller than or equal to the rated voltage of the motor as
indicated on the motor nameplate. The setting value must
equal to or greater than the Mid-Point Voltage (50.08).
Descriptions of
Parameter Settings
50.07
Mid-Point Output Range: 0.1 to 400.0 Hz
Default: 1.5
Frequency Unit: 0.1 Hz
The parameter sets the Mid-Point Frequency of V/F curve.
With this setting, the V/F ratio between Minimum Frequency
and Mid-Point frequency can be determined. This parameter
must be equal to or greater than Minimum Output Frequency
(50.09) and equal to or less than Motor Nameplate Frequency
(50.05).
During Sensorless Vector this parameter is disabled.
5-32
MVX9000 User Manual
Group 50 — AC Drive Control
50.08
Mid-Point Output Range: 115/230V series 0.1 to 255V Default: 10.0
Voltage Range: 460V series 0.1 to 510V
Default: 20.0
Range: 575V series 0.1 to 637V
Default: 26.1
The parameter sets the Mid-Point Voltage of any V/F curve.
With this setting, the V/F ratio between Minimum Frequency
and Mid-Point Frequency can be determined. This parameter
must be equal to or greater than Minimum Output Voltage
(50.10) and equal to or less than Motor Nameplate Voltage
(50.06).
During Sensorless Vector this parameter is disabled.
50.09
Minimum Output Range: 0.1 to 20.0 Hz
Default: 1.5
Frequency
Unit: 0.1 Hz
This parameter sets the Minimum Output Frequency of the
AC drive V/F curve. This parameter must be equal to or less
than the Mid-Point Output Frequency (50.07).
50.10
Minimum Output Range: 115/230V series 0.1 to 50V
Default: 10.0
Voltage Range: 460V series 0.1 to 100V
Default: 20.0
Range: 575V series 0.1 to 637V
Default: 26.1
This parameter sets the Minimum Output Voltage of the AC
drive V/F curve. This parameter must be equal to or less than
Mid-Point Output Voltage (50.08).
During Sensorless Vector this parameter is disabled.
Figure 5-36 shows three examples of how a V/F curve may
change due to the setting of parameters 50.04 to 50.10.
Descriptions of
Parameter Settings
Voltage
50.06
50.08
50.10
Frequency
0 50.07
50.09
50.04
50.05
Standard V/F Curve
Figure 5-36: V/F Curve Changes
MVX9000 User Manual
5-33
Group 50 — AC Drive Control
Voltage
Voltage
50.06
50.06
50.08
50.08
50.10
50.10
Frequency
Frequency
50.09
50.07
50.05
50.04
50.09
Custom V/F Curve
50.07
50.05
Fan/Pump V/F Curve
50.04
Figure 5-36: V/F Curve Changes (Continued)
Descriptions of
Parameter Settings
50.11
Sensorless Vector Range:
Default: 00
Enable 00 Disabled
01 Enabled
This parameter enables the Sensorless Vector function. When
the drive is set for Sensorless Vector the starting torque will be
150% at 1 Hz. Also the Mid-Point Output Frequency, Mid-Point
Output Voltage, and Minimum Output Voltage are disabled.
For the best results, please conduct the following.
1. Set the correct Motor Nameplate Voltage and Base
Frequency.
2. Conduct an Auto tune. (See parameter 60.03).
3. Set the Minimum Output Frequency (50.09) to 0.1 Hz.
50.12
Acceleration Time 1 Range: 0.01 to 600.00 seconds
Unit: 0.01 seconds
Default: 10s
50.13
Deceleration Time 1 Range: 0.01 to 600.00 seconds
Unit: 0.01 seconds
Default: 10s
50.14
Acceleration Time 2 Range: 0.01 to 600.00 seconds
Unit: 0.01 seconds
Default: 10s
5-34
MVX9000 User Manual
Group 50 — AC Drive Control
50.15
Deceleration Time 2 Range: 0.01 to 600.00 seconds
Default: 10s
Unit: 0.01 seconds
These parameters may be set during operation.
50.12: This parameter sets the time required for the AC drive
to ramp from 0 Hz to its Maximum Output Frequency (50.04).
The rate is linear unless S-Curve is “Enabled.”
50.13: This parameter sets the time required for the AC drive
to decelerate from the Maximum Output Frequency (50.04)
down to 0 Hz. The rate is linear unless S-Curve is “Enabled.”
The second acceleration and deceleration times (50.14 and
50.15) are identical to the standard acceleration and
deceleration times (50.12 and 50.13). The second acceleration
and deceleration times are used only when a Digital input
terminal is programmed to select between times 1 and 2
(Refer to 30.12 to 30.15) or when a frequency other than 0 is
set in parameters 50.16 and 50.17.
In Figure 5-37, the acceleration and deceleration times of the AC
drive are between 0 Hz and Maximum Output Frequency (50.04).
If the Maximum Output Frequency is 60 Hz, Minimum Output
Frequency (50.09) is 1.0 Hz, and acceleration and deceleration
times are set to 10 seconds. The actual time for the AC drive to
accelerate from start-up to 60 Hz is 9.83 seconds and the
deceleration time is also 9.83 seconds. Remember the drive
always starts timing from 0 Hz.
Frequency
Max. Output
Frequency 50.04
Descriptions of
Parameter Settings
Time
Acceleration
Time
50.12 or 50.14
Deceleration
Time
50.13 or 50.15
Figure 5-37: Acceleration and Deceleration Times
50.16
Transition Point for Range:
Acceleration Time 1 to 2 0.0
Disabled
0.1 to 400 Hz Enabled
MVX9000 User Manual
Default: 0.0
5-35
Group 50 — AC Drive Control
50.17
Transition Point for Range:
Deceleration Time 1 to 2 0.0
Disabled
0.1 to 400 Hz Enabled
Default: 0.0
50.18
Acceleration S-Curve Range:
0.0
Enabled
0.1 to 400 Hz Disabled
Default: 0.0
50.19
Deceleration S-Curve Range: See Parameter 50.18
Default: 00
The above two parameters are used to smooth out the
transition between the acceleration/deceleration and steady
state speed. The S-Curve is enabled with settings of 1 to 7,
with the highest number generating the smoothest
transition.
Frequency
S-Curve
Enabled
Time
S-Curve
Characteristics
Descriptions of
Parameter Settings
S-Curve
Characteristics
S-Curve
Disabled
Time
Normal
Acceleration
Time
1 or 2
Normal
Deceleration
Time
1 or 2
Figure 5-38: S-Curve Effects
5-36
MVX9000 User Manual
Group 50 — AC Drive Control
50.20
Jog Acceleration / Range: 0.01 to 600.00 seconds
Default: 1.00 sec
Deceleration Time Unit: 0.01 seconds
This parameter sets the acceleration and deceleration time for
the Jog operation.
50.21
Jog Frequency Range: 0.1 to 400.0 Hz
Default: 6.0 Hz
Unit: 0.1 Hz
This parameter may be set during operation.
Frequency
Jog
Frequency
50.21
Time
Acceleration
Time
50.20
Jog Operation
Command
ON
Deceleration
Time
50.20
OFF
Figure 5-39: Jog Frequency
MVX9000 User Manual
Descriptions of
Parameter Settings
50.22
Reverse Operation Range:
Default: 00
Enable 00 enable REV operation
01 disable REV operation
This parameter enables the AC Motor Drive’s ability to
operate in the reverse direction.
5-37
Group 50 — AC Drive Control
50.23
Momentary Power Range:
Default: 00
Loss and Flying Start 00 Operation stops after momentary power loss
Operation
01 Operation continues after momentary power loss and
flying start search starts with the Master Frequency
reference value
02 Operation continues after momentary power loss and
flying start search starts with the minimum frequency
50.24
Maximum Allowable Range: 0.3 to 5.0 seconds
Default: 2.0 sec
Power Loss Time Unit: 0.1 seconds
(Ride through)
During a power loss, if the power loss time is less than the
time defined by this parameter, the AC drive will resume
operation. If the Maximum Allowable Power Loss Time is
exceeded, the AC drive output is then turned off.
If the power loss occurs while the AC drive is under heavy
load, it is possible that all available ride through power will be
dissipated in the motor and the AC drive will shut down
quickly (less than 1 second).
Descriptions of
Parameter Settings
50.25
Pause Time after Range: 0.3 to 10 seconds
Default: 0.5 sec
Momentary Power Unit: 0.1 seconds
Loss (Delay before
restart) When a momentary power loss is detected, the AC drive waits
for a specified time interval determined by 50.25 before
resuming operation. This time interval should be set to a
value where the residual output voltage due to regeneration
is nearly zero, before the drive resumes operation.
This parameter also determines the wait time after
performing an external PAUSE and Fault Reset function.
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MVX9000 User Manual
Group 50 — AC Drive Control
50.26
Maximum Speed Range: 30 to 200%
Default: 150%
Search Current Level Unit: 1%
Following a momentary power failure, the AC drive will start its
speed search operation, only if the output current is greater than
the value determined by 50.26. When the output current is less
than that of 50.26, the AC drive output frequency is at a “speed
synchronization point”. The drive will begin to accelerate or
decelerate the motor back to the operating frequency at which it
was running prior to the power failure.
Max. Allowable
Power Loss Time
50.24
Input
Power
Output
Power
Output
Voltage
Max. Allowable
Power Loss Time
50.24
Speed
Synchronization
50.23 = 01
Detection
Speed Search
Starts with the
Master Frequency
50.24
Base-Block
Time
50.23 = 02
Speed Search
Starts with Minimum
Output Frequency
50.25
Base-Block
Time
Speed Search
Figure 5-40: Power Loss Parameters
50.27
Upper Limit of Output Range: 0.1 Hz to 400.0 Hz
Default: 400.0 Hz
Frequency Unit: 0.1 Hz
This parameter must be equal to or greater than the Lower
Limit of Output Frequency 50.28.
MVX9000 User Manual
5-39
Descriptions of
Parameter Settings
50.28
Lower Limit of Output Range: 0.0 Hz to 400.0 Hz
Default: 0.0 Hz
Frequency Unit: 0.1 Hz
The Upper and Lower Limit parameters are to prevent
operation at frequencies where machine damage may occur.
If the Upper Limit of Output Frequency is set at 50 Hz and the
Maximum Output Frequency is set at 60 Hz, the actual
Maximum Output Frequency will be limited to 50 Hz.
If the Lower limit of Output Frequency is set at 10 Hz, and the
Minimum Output Frequency is set at 1.0 Hz, then any
Command Frequency between 1 – 10 Hz will generate a 10 Hz
output from the drive.
This parameter must be equal to or less than the Upper Limit
of Output Frequency 50.27.
Group 50 — AC Drive Control
50.29
Skip Frequency 1 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0
50.30
Skip Frequency 2 Range: 0.0 to 400.0 Hz
Unit: 0.1 Hz
Default: 0.0
50.31
Skip Frequency 3 Range: 0.0 to 400.0 Hz
Default: 0.0
Unit: 0.1 Hz
These three parameters determine the three Skip Frequencies
that, in conjunction with 50.32, Skip Frequency Bandwidth,
will cause the AC motor drive to skip operation at each
frequency band.
50.32
Skip Frequency Range: 0.0 to 20.0 Hz
Default: 0.0
Bandwidth Unit: 0.1 Hz
This parameter determines the frequency band for a given
Skip Frequency. Half of the Skip Frequency Band is above the
Skip Frequency and the other half is below. Programming this
parameter to 0.0 disables all skip frequencies.
Output
Freq.
50.29
50.30
Adjustable
Range
Descriptions of
Parameter Settings
50.31
0
Speed Command
Frequency
Decelerating
50.32
Frequency to
be Skipped
Accelerating
Figure 5-41: Skip Frequency Parameters
5-40
MVX9000 User Manual
Group 50 — AC Drive Control
50.33
Auto Restart After Range: 00 to 10
Default: 00
Fault Number of times to restart
After a fault occurs (allowable faults: over-current OC, overvoltage OV), the AC drive can be reset/restarted automatically
up to 10 times. Setting this parameter to 0 will disable the
reset/restart operation after any fault has occurred. When
enabled, the AC drive will restart using the speed search
function, which starts at the Master Frequency reference
value. To set the fault recovery time after a fault, please see
50.25, Pause Time.
50.34
PID Set-Point Range:
Default: 00
Location 00 Disable
01 Keypad (based on setting of 20.03)
02 AI1 (external 0 – 10V)
03 AI2 (external 4 – 20 mA)
04 Parameter 50.43 (non-variable setpoint)
50.35
Feedback Signal Range:
Default: 00
Selection 00 Positive Feedback AI1 (0 – 10V)
01 Negative Feedback AI1 (0 – 10V)
02 Positive Feedback AI2 (4 – 20 mA)
03 Negative Feedback AI2 (4 – 20 mA)
This parameter selects the PID analog feedback type.
50.36
P (Gain) Adjustment Range: 0.0 to 10.0
Default: 1.0
Descriptions of
Parameter Settings
50.37
I (Integration) Range: 0.0 to 100.0 seconds
Default: 1.0 sec
Adjustment Units: 0.1 seconds
When parameter is set to 0.0 the function is disabled.
50.38
D (Derivative) Range: 0.0 to 1.0 sec
Default: 0.0 sec
Adjustment Units: 0.1 seconds
When parameter is set to 0.0 the function is disabled.
MVX9000 User Manual
5-41
Group 50 — AC Drive Control
50.39
Upper Limit of Range: 00 to 100%
Integral Control
50.40
PID Output Delay Range: 0.0 to 2.5 seconds
Filter Time
Units: 0.1 seconds
Default: 100%
Default: 0.0 sec
50.41
4 – 20 mA Input Loss Range: 0.1 to 3600 seconds
Detection Time
00 Disabled
Default: 60 sec
Units: 0.1 second
If the 4 – 20 mA input falls below 4 mA, the drive will consider
this a loss of input speed command. Upon loss of 4 – 20 mA,
the AC drive will begin to record time. If the time set in 50.41
is reached, the AC drive will follow the operation selection in
50.42.
50.42
4 – 20 mA Input Loss Range:
Default: 00
Operation 00 Warn and Stop operation
01 Warn and continue to run at last known speed command
This parameter selects the operation of the AC drive after a
loss of 4 – 20 mA input is detected and the time set in 50.41 is
reached. This parameter is disabled if 30.04 is set to 0.0 mA.
Descriptions of
Parameter Settings
50.43
PID Setpoint Range:
Default: 00 Hz
0.1 to 400.0 Hz
00 Hz Disabled
Units: 0.1 Hz
This parameter sets the frequency target value for the PID
function.
5-42
MVX9000 User Manual
Group 50 — AC Drive Control
50.44
PLC Operation Mode Range:
Default: 00
00 Disable PLC operation
01 Execute one program cycle
02 Continuously execute program cycles
03 Execute one program cycle step by step
04 Continuously execute program cycles step by step
This parameter selects the function of the PLC operation. The
PLC program may be used in lieu of any External Controls,
Relays or Switches. The AC drive will change speeds and
directions according to the user’s programming.
Example 1
50.44 = 1: Execute one cycle of the PLC program.
30.18 to 30.24: Frequency of 1st to 7th step speeds.
30.12 to 30.15: Digital Input Terminals (set one to 22).
40.03 to 40.04: Digital/Relay Output Terminals (may be set to 15 through 18).
50.45: Direction of operation for 1st to 7th step speed.
50.46 to 50.52: Operation time of 1st to 7th step speeds.
Frequency
30.21
60 Hz
30.22
50 Hz
30.20
40 Hz
30.23
30 Hz
20 Hz
15 Hz
10 Hz 30.18
0 Hz
30.19
30.24
Time
50.52
Program
Operation
Command
Program
Operation
Output
Indication
Program
Step
Complete
Program
Operation
Completed
Figure 5-42: One PLC Program Cycle
MVX9000 User Manual
5-43
Descriptions of
Parameter Settings
50.47
50.49
50.51
50.46
50.48
50.50
30.18 = 10 Hz
30.19 = 20 Hz
30.20 = 40 Hz
30.21 = 60 Hz
30.22 = 50 Hz
30.23 = 30 Hz
30.24 = 15 Hz
30.15 = 22 Hz
40.03 = 15 Hz
40.04 = 16 Hz
50.44 = 01 Hz
50.45 = 00 Hz
50.46 = 10 Hz
50.47 = 12 Hz
50.48 = 15 Hz
50.49 = 15 Hz
50.50 = 08 Hz
50.51 = 17 Hz
50.52 = 17 Hz
Group 50 — AC Drive Control
Example 2 (50.44 = 01) Execute one cycle through the PLC program:
In this example, the PLC program runs continuously. It should be noted that the
times of reverse motion may be shorter than expected, due to the acceleration/
deceleration time.
Frequency
30.21
60 Hz
30.22
50 Hz
30.20
40 Hz
FWD
50.52
50.47
30.24
15 Hz
10 Hz 30.18
Time
0 Hz
50.46
REV
20 Hz
50.49 50.50
30.19
30 Hz
30.23
50.48
50.51
30.18 = 10 Hz
30.19 = 20 Hz
30.20 = 40 Hz
30.21 = 60 Hz
30.22 = 50 Hz
30.23 = 30 Hz
30.24 = 15 Hz
30.15 = 22 Hz
40.03 = 15 Hz
40.04 = 16 Hz
50.44 = 01 Hz
50.45 = 34 Hz
50.46 = 10 Hz
50.47 = 12 Hz
50.48 = 15 Hz
50.49 = 15 Hz
50.50 = 08 Hz
50.51 = 17 Hz
50.52 = 17 Hz
Figure 5-43: Continuous PLC Program
Descriptions of
Parameter Settings
Application Note: Changing the value of Jog parameters 50.20 and 50.21 will
interrupt PLC program execution. PLC program execution will not be interrupted
when other parameter values are changed.
5-44
MVX9000 User Manual
Group 50 — AC Drive Control
50.45
PLC Forward/Reverse Range: 0 to 127
Default: 0
Motion This parameter controls the direction of motion for the multispeeds 30.18 to 30.24 during the PLC function.
To generate the setting for this parameter the following
equation must be solved.
= (direction of speed 7 x value of bit 7) + (direction of speed
6 x value of bit 6) + (direction of speed 5 x value of bit 5) +
(direction of speed 4 x value of bit 4) + (direction of speed
3 x value of bit 3) + (direction of speed 2 x value of bit 2) +
(direction of speed 1 x value of bit 1)
Value
Bit
64
32
16
8
4
2
1
7
6
5
4
3
2
1
Direction Bit of 1st Speed 30.18
Direction Bit of 2nd Speed 30.19
Direction Bit of 3rd Speed 30.20
Direction Bit of 4th Speed 30.21
Direction Bit of 5th Speed 30.22
Direction Bit of 6th Speed 30.23
Direction Bit of 7th Speed 30.24
Figure 5-44: Direction of Motion
Direction of Speed values:
Forward = 0
Reverse = 1
Example:
In this example, the Preset Speeds 6 and 2 are to go in reverse direction and all
others are to move in a forward direction.
Descriptions of
Parameter Settings
As shown in Figure 5-44, each bit has an associated value.
Bit 7 = 64, Bit 6 = 32, Bit 5 = 16, Bit 4 = 8
Bit 3 = 4, Bit 2 = 2 and Bit 1 = 1
Then each direction has a number associated with it as stated below.
Use the number 0 for a Forward direction.
Use the number 1 for a Reverse direction.
With the above information the equation can be solved.
= (0 x 64)+(1 x 32)+(0 x 16)+(0 x 8)+(0 x 4)+(1 x 2)+(0 x 1)
= 0+32+0+0+0+2+0+0
50.45 = 34 for this example
MVX9000 User Manual
5-45
Descriptions of
Parameter Settings
Group 50 — AC Drive Control
50.46
Time Duration of 1st Range: 0 to 9999
Preset Speed Unit: 1 sec
Default: 0
50.47
Time Duration of 2nd Range: 0 to 9999
Preset Speed Unit: 1 sec
Default: 0
50.48
Time Duration of 3rd Range: 0 to 9999
Preset Speed Unit: 1 sec
Default: 0
50.49
Time Duration of 4th Range: 0 to 9999
Preset Speed Unit: 1 sec
Default: 0
50.50
Time Duration of 5th Range: 0 to 9999
Preset Speed Unit: 1 sec
Default: 0
50.51
Time Duration of 6th Range: 0 to 9999
Preset Speed Unit: 1 sec
Default: 0
50.52
Time Duration of 7th Range: 0 to 9999
Default: 0
Preset Speed Unit: 1 sec
50.46 to 50.51 set the operation time of each Preset Speed
during the PLC operation mode.
The maximum value of these parameters is 9999 seconds and
is displayed as 9999.
Note: If a time is set to “0” (0 Sec), the corresponding speed
will be skipped. This is used to reduce the number of program
steps.
5-46
MVX9000 User Manual
Group 50 — AC Drive Control
50.53
Auto Acceleration Range:
Default: 00
Deceleration 00 Linear acceleration and deceleration
01 Auto acceleration and linear deceleration
02 Linear acceleration and auto deceleration
03 Auto acceleration and deceleration
04 Auto acceleration and deceleration, but limited by 50.12
to 50.15.
Linear acceleration and deceleration times are based on 50.12
to 50.15.
If this parameter is set to 03, the AC drive will accelerate and
decelerate in the fastest and smoothest means possible by
automatically adjusting the time of acceleration and
deceleration.
Note: If the application has a high duty cycle of starts and
stops or the load changes often, it is recommended to use
linear Acceleration and Deceleration for stability.
50.54
Sleep Frequency Range:
Default: 0.0
0.0: Disabled
0.1 to 400 Hz: Enabled
The Master Frequency point where the AC drive begins to
“Sleep” and stop its output.
Note: The sleep frequency must be smaller than or equal to
the wake frequency.
MVX9000 User Manual
5-47
Descriptions of
Parameter Settings
50.55
Wake Frequency Range: 0.0 to 400 Hz
Default: 0.0
The master Frequency point where the drive begins to output
again. Programming this parameter to 0.0 disables wake
frequency.
Group 50 — AC Drive Control
50.56
Sleep Time Delay Range: 0.0 to 600 sec.
Default: 1.0
The time delay before going into a sleep mode.
Frequency
Command
Actual Running
Output Frequency
50.55
Wake Frequency
50.54
Sleep Frequency
50.56
Sleep Time Delay
0 Hz
Figure 5-45: Sleep time Delay
Descriptions of
Parameter Settings
50.57
Second Source of Range:
Default: 0.0
Master Frequency 00: Second Master Frequency by digital keypad up/down
01: Second Master Frequency by keypad potentiometer
02: Second Master Frequency by 0 to +10V input on AI1
03: Second Master Frequency by 4 to 20 mA input on AI2
04: Second Master Frequency by RS-485
This parameter determines the Second Source of Master
Frequency when a digital input switch is used.
50.58
Zero Speed Control Range:
Default: 00
Selection 00: Standby
01: Zero Speed Control
This parameter determines the Zero Speed Control of the
MVX drive.
Standby = the drive will generate no output frequency upon a
0.0 Hz command. The drive will stay in a RUN mode waiting
for a speed command to rise above 0.0 Hz and the STOP LED
will flash.
Zero Speed Control = the drive will generate a holding torque
at 0.0 Hz. The holding torque strength is dependent on 50.59.
5-48
MVX9000 User Manual
Group 50 — AC Drive Control
50.59
Zero Speed Holding Range: 0.0 – 30.0%
Default: 5.0%
Torque This parameter determines the Zero Speed Holding Torque,
when 50.58=01. The holding torque is in % and should be
increased slowly until proper holding torque is achieved. A
value too high will cause increased motor current and
temperature, which could lead to premature motor failure.
Only use this feature with a Vector Duty motor capable of a
1000:1 turn down ratio.
50.60
Second Source of Range:
Default: 03
Operation Command 00 Operation determined by digital keypad
01 Operation determined by external control terminals,
keypad STOP is effective
02 Operation determined by external control terminals,
keypad STOP is ineffective
03 Operation determined by RS-485 interface, keypad STOP
is effective
04 Operation determined by RS-485 interface, keypad STOP
is ineffective
The Second Source of Operation Command is used when
HOA and Local/Remote options are selected in the Digital
Input terminal parameters (30.12 – 30.15).
50.61
HOA and LOC/REM Range:
Default: 01
Stop Methods 00: Ramp to Stop
01: Coast to Stop
This parameter allows the user to choose the stop method
when the HOA or LOC/REM switch is moved from one
location to another.
MVX9000 User Manual
5-49
Descriptions of
Parameter Settings
50.62
OV Fault During Stop Range:
Default: 00
State 00: Disable
01: Enable
This parameter automatically resets any OV Fault during a
STOP state, that would be caused by a high incoming line and
not motor regeneration. There is no limit to the quantity of
resets. Once the MVX is in a RUN state, any over voltage on
the DC bus will cause an OV fault to occur.
Group 60 — Motor Control
Group 60 — Motor Control
60.01
Motor Rated Current Default: xx.x A
Enter the motor’s nameplate rated amps.
The value must be between 30 to 120% of the drive’s rated
output current. This parameter sets the drive’s output current
limit.
This parameter may be set during operation.
60.02
Motor No-Load Default: xx.x A
Current Enter the motor’s no-load current in amps. If the motor noload amps are not known, leave this parameter at factory
default.
The value must be between 0 to 99% of the drive’s rated
output current and also less than parameter 60.01.
60.02 has a great effect on how accurate the slip
compensation function works. An incorrect setting will cause
poor slip compensation.
This parameter may be set during operation.
Descriptions of
Parameter Settings
60.03
Motor Auto Tuning Range:
Default: 00
00 Disabled
01 DC test only
02 DC test and no load test
To conduct the auto tuning feature, select 01 or 02 and then
press “START”. If the motor is loaded, it is recommended to
select 01.
60.04
Motor’s Stator Range: 00 to 65535 m Ohms
Default: 00
Resistance Units: milli-ohms
This parameter determines the motor’s line-to-line resistance.
The value may be entered manually or via the Auto Tune
feature 60.03. This value should be entered when using
Sensorless Vector control.
5-50
MVX9000 User Manual
Group 60 — Motor Control
60.05
DC Braking Current Range: 0 to 100%
Default: 00
Level Unit: 1%
This parameter determines the amount of DC Braking Current
applied to the motor during start-up and stopping. When
setting DC Braking current, please note that 100% is equal to
the rated output current of the drive. It is recommended to
start with a low DC Braking Current Level and then increase
until proper holding torque has been attained.
60.06
DC Braking Time upon Range: 0.0 to 5.0 seconds
Default: 0.0
a Start Unit: 0.1 seconds
This parameter determines the duration of time that the DC
Braking Current will be applied to the motor upon a start
command of the AC drive. DC Braking will be applied for the
time set in this parameter until the Minimum Frequency is
reached during acceleration.
60.07
DC Braking Time upon Range: 0.0 to 25.0 seconds
Default: 0.0
a Stop Unit: 0.1 seconds
This parameter determines the duration of time that the DC
braking current will be applied to the motor upon a stop
command of the AC drive.
Parameter 50.03 must be set to RAMP to stop, for DC braking
to be enabled.
Descriptions of
Parameter Settings
MVX9000 User Manual
5-51
Group 60 — Motor Control
60.08
Frequency Point for
DC Braking
Range: 0.0 to 60.0 Hz
Default: 0.0
Unit: 0.1 Hz
This parameter determines the Frequency Point for DC
Braking to begin upon a stop command.
Master
Frequency
Min. Output
Frequency
Operation
Command
Start-Point for
DC Braking
60.08
Time(s)
60.06
60.07
ON
OFF
DC Braking Current %
60.05
Figure 5-46: DC Braking
Descriptions of
Parameter Settings
Note: DC Braking during Start-Up is used for loads that may
move before the AC drive starts, such as fans and pumps.
These loads may also be moving in the wrong direction.
Under such circumstances, DC Braking can be executed to
hold the load in position before applying a forward motion.
DC Braking during stopping is used to decrease stopping time
and also to hold a stopped load in position. For high inertia
loads, a dynamic braking resistor may be needed for quick
decelerations.
60.09
Torque Compensation Range: 00 to 10%
Default: 00%
Units: %
This parameter selects the % of increased voltage upon
acceleration of the AC drive. This is helpful during start-up to
obtain a higher initial starting torque. Increased voltage to the
motor also increases current and heat. Always start with a
low Torque Compensation value and slowly increase until
sufficient starting torque is achieved.
This parameter may be set during operation.
5-52
MVX9000 User Manual
Group 60 — Motor Control
60.10
Slip Compensation Range: 0.00 to 10.00
Default: 0.00 for V/F
Default: 1.00 for vector
An increasing load on an asynchronous motor will cause an
increase in motor slip. This Slip Compensation parameter
may be used to compensate for the nominal slip within a
range of 0 to 10%.
When the output current of the AC drive is greater than the
motor no-load current (60.02) the AC drive will adjust its
output frequency to help keep rotor speed constant. The
maximum increase in output frequency is determined by the
setting of this parameter. A setting of 5% will increase output
frequency from 60 Hz to 63 Hz percentage.
This parameter may be set during operation.
60.11
PWM Carrier Range for 115V/230V/460V: 01 to 15 kHz Default: 09
Frequency Range for 575V: 01 to 10 kHz
Default: 06
The parameter selects the carrier frequency for the PWM
(Pulse-Width Modulated) function.
Table 5-1: Carrier Frequency
Electromagnetic
Noise, Leakage
Heat
Carrier Frequency Acoustic Noise
Current
Dissipation
1 KHz
15 KHz
Significant
Minimal
Minimal
Significant
Minimal
Significant
From Table 5-1, we see that the carrier frequency for the PWM
function has a significant influence on the electromagnetic
noise, heat dissipation of the AC drive, and the acoustic noise
of the motor.
Descriptions of
Parameter Settings
MVX9000 User Manual
5-53
Group 70 — Protective Functions
Group 70 — Protective Functions
70.01
Over-Voltage Stall Range:
Default: 01
Prevention 00 Disable Over-Voltage Stall Prevention
01 Enable Over-Voltage Stall Prevention
During deceleration, the AC drive’s DC bus voltage may
exceed its maximum allowable value due to motor
regeneration. When this function is enabled, the AC drive will
stop decelerating, and maintain a constant output frequency.
The drive will resume deceleration when the voltage drops
below the factory-preset value.
Note: With moderate inertia loads, over-voltage during
deceleration will not occur. For application with high inertia
loads, the AC drive will automatically extend the deceleration
time. If deceleration time is critical for the application, then a
dynamic braking resistor should be used.
DC Bus Voltage
Over-Voltage
Detection
Level
Time
Output
Freq.
Time
Descriptions of
Parameter Settings
Figure 5-47: Over-Voltage Stall Prevention
70.02
Over-Current Stall Range:
Default: 150%
Prevention during 00: disable
Acceleration
20 to 200%: enable
Unit: 1%
A setting of 100% is equal to the Rated Output Current of the
drive.
Under certain conditions, the AC drive output current may
increase abruptly, and exceed the value specified by 70.02.
This is commonly caused by a rapid acceleration or excessive
loading on the motor. When 70.02 is enabled, the AC drive
will stop accelerating and maintain a constant output
frequency. The AC drive will only resume acceleration when
the current drops below the value set in 70.02.
5-54
MVX9000 User Manual
Group 70 — Protective Functions
70.03
Over-Current Stall Range:
Default: 150%
Prevention during 00: disable
Operation 20 to 200%: enable
Unit: 1%
During steady-state operation with the motor load rapidly
increasing, the AC drive output current may exceed the limit
specified in 70.03. When this occurs, the output frequency will
decrease to prevent an Over Current Fault. The drive will
accelerate back to the command frequency only when the
output current drops below the level specified by 70.03.
Output Current
Output Current
OverCurrent
Detection
Level
OverCurrent
Detection
Level
70.03
Time
Time
Output
Freq.
Output
Freq.
Time
Over-Current Stall Prevention
during Acceleration
Time
Over-Current Stall Prevention
during Operation
Figure 5-48: Over-Current Stall Prevention
MVX9000 User Manual
5-55
Descriptions of
Parameter Settings
70.04
Over-Torque Range:
Default: 00
Detection Mode(OL2) 00 Over-Torque detection disabled
01 Over-Torque detection enabled during constant speed
operation, and operation halted after Over-Torque
Detection
02 Over-Torque detection enabled during constant speed
operation, and operation continues after Over-Torque
Detection
03 Over-Torque detection enabled during operation, and
operation halted after Over-Torque Detection
04 Over-Torque detection enabled during acceleration, and
operation continues after Over-Torque Detection
Group 70 — Protective Functions
70.05
Over-Torque Range: 30 to 200%
Default: 150
Detection Level
Unit: 1%
A setting of 100% is proportional to the Rated Output Current
of the drive.
This parameter sets the Over-Torque Detection level in 1%
increments. (The AC drive rated current is equal to 100%.)
70.06
Over-Torque Range: 0.1 to 10.0 sec
Default: 0.1 sec
Detection Time Unit: 0.1 sec
This parameter sets the Over-Torque Detection Time in units
of 0.1 seconds.
Descriptions of
Parameter Settings
70.07
Default: 01
Electronic Thermal Range:
Overload Relay 00 Inverter Motor (auxiliary fan cooled or high temp rated
Selection (I2t)
motor)
01 Standard Motor (self cooled motor, shaft mounted fan)
02 Disable
This function is used to limit the output power of the AC drive
when powering a “self-cooled” motor at low speed.
5-56
MVX9000 User Manual
Group 70 — Protective Functions
70.08
Electronic Thermal Range: 30 to 300 seconds
Default: 60 sec
Motor Overload Unit: 1 seconds
This parameter can be set during operation.
The parameter determines the time required to activate the I2t
electronic thermal motor overload function. Figure 5-49
shows I2t curves for 150% output power for 1 minute.
Operation
Time
(Min)
5
4
3
2
60 Hz
or More
50 Hz
10 Hz
5 Hz
1
0 20 40 60 80 100130 140160 180200
Load Factor %
Time
(Min)
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
0
100
120
140
160
180
200
Overload %
Overload Endurance Curve
Figure 5-49: I2t Curves
MVX9000 User Manual
5-57
Descriptions of
Parameter Settings
70.09
Auto Voltage Range:
Default: 00
Regulation (AVR) 00 AVR function enabled
01 AVR function disabled
02 AVR function disabled during deceleration
03 AVR function disabled upon a stop command
The AVR function automatically regulates the AC drive’s
output voltage to meet the value set in 50.06 (Motor
Nameplate Voltage).
Example: If 50.06 is set at 200V AC and the input voltage is
varying between 200V to 264V AC, the drive’s output voltage
will automatically be limited to 200V AC.
Without AVR function, the Motor Nameplate Voltage may
vary between 180V to 264V AC, due to the input voltage
varying between 180V to 264V AC.
Selecting value 2 enables the AVR function and also disables
the AVR function during deceleration. This offers a quicker
deceleration and is most commonly used.
Group 70 — Protective Functions
70.10
Auto energy-saving Range:
Default: 00
00 Disable auto energy-saving operation
01 Enable auto energy-saving operation
Output
Voltage
100%
With energy-saving enabled,
the drive automatically
adjusts the output voltage
based on the output power
level. The maximum output
voltage reduction is 30%.
70%
0
Frequency
Base
Output Voltage
Figure 5-50: Output Voltage Adjustment
70.11
Under Current Range:
Default: 0.0
Detection Value 0.0 Disabled
0.1 to No Load Amps
The under current detection level of the AC drive. The value
must be smaller than or equal to Motor No-Load Current
(60.02).
Descriptions of
Parameter Settings
70.12
Under Current Range:
Default: 0
Detection Mode 0 or 1
Setting 0 = If the output current falls below 70.11, then the
drive will generate an output fault via one of the digital
outputs.
Setting 1 = If the output current falls below 70.11, then the
drive will generate an output fault, the drive will stop and
show “Uc” on the keypad display.
70.13
Under Current Range:
Default: 1.0
Detection Time 0.0 to 20.0 sec.
The parameter determines the delay time before an under
current output fault will occur.
5-58
MVX9000 User Manual
Group 80 — Display
Group 80 — Display
80.01
Software Version Default: xx.x
This parameter is read-only and shows the software version
of the AC motor drive.
80.02
AC Drive Rated Default: xx.x
Current Display
This parameter is read only and shows the rated current of
the AC drive.
MVX9000 User Manual
5-59
Descriptions of
Parameter Settings
80.03
Manufacturer Model Range:
Default: xx
Information
00 MVXF50#0-2 (230V 3-Phase/1-Phase 1/2 hp input)(2.5A output)
01 MVX001#0-2 (230V 3-Phase/1-Phase 1 hp input)(5A output)
02 MVX002#0-2 (230V 3-Phase/1-Phase 2 hp input)(7A output)
03 MVX003#0-2 (230V 3-phase/1-Phase 3 hp input)(10A output)
04 MVX005#0-2 (230V 3-Phase 5 hp input)(17A output)
05 MVX075#0-2 (230V 3-Phase 7-1/2 hp input)(25A output)
06 Reserved
07 Reserved
08 MVX001#0-4 (460V 3-Phase 1 hp input) (3A output)
09 MVX002#0-4 (460V 3-Phase 2 hp input) (4A output)
10 MVX003#0-4 (460V 3-Phase 3 hp input) (5A output)
11 MVX005#0-4 (460V 3-phase 5 hp input) (8.2A output)
12 MVX075#0-4 (460V 3-Phase 7-1/2 hp input) (13A output)
13 MVX010#0-4 (460V 3-Phase 10 hp input) (18A output)
14 – 19 Reserved
20 MVXF25#0-1 (115V 1-phase 1/4 hp input) (1.6A output)
21 MVXF50#0-1 (115V 1-phase 1/2 hp input) (2.5A output)
22 MVX001#0-1 (115V 1-phase 1 hp input) (4.2A output)
50 MVX001#0-5 (575V 3-phase 1 hp input) (1.7A output)
51 MVX002#0-5 (575V 3-phase 2 hp input) (3A output)
52 MVX003#0-5 (575V 3-phase 3 hp input) (4.2A output)
53 MVX005#0-5 (575V 3-phase 5 hp input) (6.6A output)
54 MVX007#0-5 (575V 3-phase 7-1/2 hp input) (9.9A output)
55 MVX010#0-5 (575V 3-phase 10 hp input) (12.2A output)
This parameter is read only and displays the drive model
number.
Group 80 — Display
80.04
Present Fault Record Range:
Default: 00
00 (no fault occurred)
01 Over-current (oc)
02 Over-voltage (ov)
03 Overheat (oH)
04 Overload (oL)
05 Overload 1 (oL1)
06 Overload 2 (oL2)
07 External Fault (EF)
08 CPU failure 1 (CF1)
09 CPU failure 2 (CF2)
10 CPU failure 3 (CF3)
11 Hardware Protection Failure (hpF)
12 Over-current during acceleration (OCA)
13 Over-current during deceleration (OCd)
14 Over-current during steady state operation (OCn)
15 Ground fault or fuse failure (GFF)
16 Reserved
17 3 Phase input power loss
18 External Pause Function (bb)
19 Auto Adjustable accel/decel failure (cFA)
20 Software protection code (codE)
Default: 00
80.06
Third Most Recent Range: See Parameter 80.04
Fault Record
Default: 00
Descriptions of
Parameter Settings
80.05
Second Most Recent Range: See Parameter 80.04
Fault Record
5-60
MVX9000 User Manual
Group 80 — Display
80.07
Keypad Start Up Range:
Default: 00
Display 00 Command Frequency (F)
01 Output Frequency (H)
02 Output Current (A)
03 User Defined Unit (U)
04 Output Voltage (u)
05 Unit Temperature (t)
06 Forward Reverse Direction (Frd) or (rEu)
Counter (c) [Displayed only when enabled]
PLC Steps [Displayed only when enabled]
PID Feedback [Displayed only when enabled]
80.08
User Defined Range: 0.01 to 160.00
Default: 1.00
Multiplier Unit: 0.01
The User Defined Multiplier selects the multiplying factor for
the user-defined unit.
The display value is calculated as follows:
Display value = output frequency x User Defined Multiplier
The display window is only capable of showing four digits,
yet by using the decimals in the display area, 4 digit numbers
are displayed. The decimal points change the value of the
number as shown in Table 5-2.
Table 5-2: Using Decimals
Display
Number Represented
9999
999.9
80.09
External Terminal Range: 1 to 20
Default: 1
Scan Time Unit: 2 msec
This function scans the I/O terminals to help eliminate false
signals due to noise.
Actual Scan Time= 80.09 x 2 msec
MVX9000 User Manual
5-61
Descriptions of
Parameter Settings
The absence of a decimal point indicates a four-digit integer.
A single decimal point between the middle and the right-most
numbers is a true decimal point; it separates ones and tenths as
in “30.5” (thirty and one-half).
9999.
A single decimal point after the right-most number is not a true
decimal point; instead it indicates that a zero follows the rightmost number. For example, the number 12300 would be
displayed as “1230.”
This parameter can be set during operation.
Group 80 — Display
80.10
Parameter Lock and Range:
Default: 00
Configuration
00
All parameters may be set and displayed
01
All parameters are read-only
02 to 09 Not used
10
Resets all parameters to the factory defaults
This parameter allows the user to return all parameters to
Defaults.
80.11
Run Elapsed Time (Days) Units: Days (read only)
80.12
Run Elapsed Time Units: Minutes (read only)
(Minutes)
80.13
Power On Elapsed Units: Days (read only)
Time (Days)
80.14
Power On Elapsed Units: Minutes (read only)
Time (Minutes)
Descriptions of
Parameter Settings
80.15
Automatic Scroll Range:
Default: 00
Display
00 Disable
01 Scroll every 5 seconds after a 1 minute delay
02 Scroll every 15 seconds after a 1 minute delay
This parameter selects the automatic display scroll mode. If
parameter 80.15 is set to 01 or 02, the display will scroll
through all available views and repeat.
5-62
MVX9000 User Manual
Group 90 — Communications
Group 90 — Communications
90.01
Communication Range:
Default: 0
Protocol 0 Modbus ASCII mode, <7,N,2>
1 Modbus ASCII mode, <7,E,1>
2 Modbus ASCII mode, <7,O,1>
3 Modbus RTU mode, <8,N,2>
4 Modbus RTU mode, <8,E,1>
5 Modbus RTU mode, <8,O,1>
This parameter may be set during operation.
90.02
Communication Range: 01 to 254
Default: 01
Address If the AC drive is controlled by RS-485 serial communication,
the communication address must be set via this parameter.
RS-485
01
02
03
Computer
This parameter may be set during operation.
90.03
Transmission Speed Range:
Default: 01
00 Baud rate 4800 (data transmission speed: bits / sec)
01 Baud rate 9600 (data transmission speed: bits / sec)
02 Baud rate 19200 (data transmission speed: bits / sec)
03 Baud rate 38400 (data transmission speed: bits / sec)
Users may set parameters and control the operation of the AC
drive via the RS-485 serial interface. This parameter is used to
set the transmission speed between the PC and the MVX9000.
This parameter may be set during operation.
MVX9000 User Manual
5-63
Descriptions of
Parameter Settings
Figure 5-51: Communication Address
Group 90 — Communications
90.04
Transmission Fault Range:
Default: 03
Treatment
00 Display Fault and Continue Operating
01 Display Fault and RAMP to Stop
02 Display Fault and COAST to Stop
03 No Fault Displayed and Continue Operating
Descriptions of
Parameter Settings
90.05
Over-time Detection Range:
Default: 0.0
(Watch Dog Timer) 0.1 – 120.0 seconds
0.0 Disable
This parameter is used for communication loss. When this
parameter is set to any value over 0.0, the timer is enabled.
The value set in this parameter is the time allowed between
two command strings.
5-64
MVX9000 User Manual
Group 90 — Communications
90.06 to 90.23
Communication Only These parameters are used when controlling and monitoring
Parameters the MVX with a PC. See Table 5-3.
Table 5-3: Communication Mapping Table
Modbus Groups
Description
0705H
90.06
Communication frequency
reference
Communication command
0706H
90.07
0707H
90.08
Communication for EF/
RESET
0708H
90.09
Status monitor for error
code
0.0 to 400.0 Hz (Default: 0.0)
Bit 0-1: 00 no function
01 Stop
10 Run
11 JOG + Run
Bit 2-3: Reserved
Bit 4-5: 00 no function
01 Forward
10 Reverse
11 Change direction
Bit 6-15: Reserved
Bit 0: 1 EF On
Bit 1: 1 Reset
Bit 2-15: Reserved
00: No Fault occurred
01: Over-current (oc)
02: Over-voltage (ov)
03: Overheat (oH)
04: Overload (oL)
05: Overload 1 (oL1)
06: Overload 2 (oL2)
07: External Fault (EF)
08: CPU Failure 1 (CF1)
09: CPU Failure 2 (CF2)
10: CPU Failure 3 (CF3)
11: Hardware Protection Failure (hpF)
12: Over-current During Accel (OCA)
13: Over-current During Decel (OCd)
14: Over-current During Steady State
(OCn)
15: Ground Fault or Fuse Failure
(GFF)
16: Reserved
17: 3-Phase Input Power Loss
18: External Pause Function (bb)
19: Auto Adjust Accel/Decel Failure
(cFA)
20: Software Protection Code (codE)
5-65
Descriptions of
Parameter Settings
MVX9000 User Manual
Range
Group 90 — Communications
Table 5-3: Communication Mapping Table (Continued)
Modbus Groups
0709H
90.10
Description
Status monitor for AC drive
(Bit 0-1)
Range
00 Stop
01: Decelerate upon stop
command
10: Drive is standing by
11: Run
(Bit 2)
1: JOG
(Bit 3-4)
00: FWD
01: REV to FWD
10: FWD to REV
11: REV
(Bit 5-7)
Reserved
(Bit 8)
1: Source of frequency by
communication
(Bit 9)
1: Source of frequency by Analog
Input
(Bit 10)
1: Source of operation by
communication
(Bit 11)
1: Parameters have been locked
Descriptions of
Parameter Settings
(Bit 12-15)
Reserved
070AH
90.11
Status of Communication
frequency
070BH
90.12
Status of output frequency
0.0 to 400.0 Hz
070CH
90.13
Status of output current
0.0 to Max Amps
070DH
90.14
Status of user defined display
(High word)
00 to 65535
070EH
90.15
Status of user defined display
(Low word)
0.00 to 65535
070FH
90.16
Status of output voltage
0.0 to Max V AC
0710H
90.17
Status of drive temperature
0.0 to Max degree C
0711H
90.18
Status of DC bus voltage
0.0 to Max V DC
0712H
90.19
Status of multi-step
0 to Max step
0713H
90.20
Status of PLC time
00 to 65535
0714H
90.21
Status of counter
00 to 65535
0715H
90.22
Status of feedback signal
0.0 to 400.0 Hz
0716H
90.23
Status of PID Setpoint
0.0 to 400.0 Hz
5-66
0.0 to 400.0 Hz
MVX9000 User Manual
Group 90 — Communications
Computer Control
There is a built-in RS-485 serial interface (RJ-11 Jack) at the top of the drive near
the Input power.
The pins are defined in Figure 5-52:
6
1
1: +15V
2: GND
3: SG4: SG+
5: NC
6: Reserved
(for communication keypad)
Figure 5-52: Pin Definition
Each MVX9000 AC drive has a pre-assigned communication address specified by
90.02. The computer then controls each AC drive according to its address.
The MVX9000 can be set up to communicate on a Modbus network using one of
the following modes: ASCII (American Standard Code for Information
Interchange) or RTU (Remote Terminal Unit). Users can select the desired mode
along with the serial port communication protocol in 90.01 and 90.03.
Code Explanation
ASCII mode:
Each 8-bit data is the combination of two ASCII characters. For example, a 1-byte
data: 64 Hex, shown as “64” in ASCII, consists of “6” (36 Hex) and “4” (34 Hex).
Table 5-4: ASCII Characters
Character
0
1
2
3
4
5
6
7
ASCII code 30H 31H 32H 33H 34H 35H 36H 37H
8
9
A
B
C
D
E
F
Descriptions of
Parameter Settings
Character
ASCII code 38H 39H 41H 42H 43H 44H 45H 46H
RTU mode:
Each 8-bit data is the combination of two 4-bit hexadecimal characters. For
example, 64 Hex.
MVX9000 User Manual
5-67
Group 90 — Communications
Data Format
10-Bit Character Frame (For 7-Bit Character):
(7.N.2: Pr. 92=0)
Start
Bit
0
1
2
3
4
5
6
Stop Stop
Bit
Bit
6
Even Stop
Parity Bit
6
Odd Stop
Parity Bit
7-Bit Character
10-Bit Character Frame
(7.E.1: Pr. 92=1)
Start
Bit
0
1
2
3
4
5
7-Bit Character
10-Bit Character Frame
(7.O.1: Pr. 92=2)
Start
Bit
0
1
2
3
4
5
7-Bit Character
10-Bit Character Frame
11-Bit Character Frame (For 8-Bit Character):
(8.N.2: Pr. 92=3)
Start
Bit
0
1
2
3
4
5
6
7
Stop Stop
Bit
Bit
7
Even Stop
Parity Bit
7
Odd Stop
Parity Bit
8-Bit Character
11-Bit Character Frame
(8.E.1: Pr. 92=4)
Descriptions of
Parameter Settings
Start
Bit
0
1
2
3
4
5
6
8-Bit Character
11-Bit Character Frame
(8.O.1: Pr. 92=5)
Start
Bit
0
1
2
3
4
5
6
8-Bit Character
11-Bit Character Frame
Figure 5-53: 10-Bit and 11-Bit Character Frames
5-68
MVX9000 User Manual
Group 90 — Communications
Table 5-5: Communication Protocol
ADR
1
STX
02H
ADR
0
Address
CMD
1
CMD
0
CMD
0
1
......
N-1
N
Data characters
ETX
03H
CHK
1
CHK
0
Check Sum
ASCII mode
STX
Start character: (3AH)
ADR 1
Communication address:
8-bit address consists of 2 ASCII codes
ADR 0
CMD 1
CMD 0
DATA (n-1)
........
Contents of data:
Maximum: 20-word registers
DATA 0
LRC
CHK 1
LRC check sum:
8-bit check sum consists of 2 ASCII codes
LRC
CHK 0
END 1
END 0
END characters:
END 1 = CR (0DH), END 0 = LF (0AH)
RTU mode
START
A silent interval of more than 10 ms
ADR
Communication address:
8-bit address
CMD
Command code:
8-bit command
DATA (n-1)
Contents of data:
Maximum: 20-word registers
........
DATA 0
CRC CHK High
CRC check sum:
16-bit check sum consists of 2 8-bit characters
END
A silent interval of more than 10 ms
MVX9000 User Manual
Descriptions of
Parameter Settings
CRC CHK Low
5-69
ADR (Communication Address)
Valid communication addresses are in the range of 0 to 254. A Communication
address equal to 0 means broadcast to all AC drives. In this case, the MVX9000
will not reply with any message to the master device.
For example, communication to MVX9000 with address 16 decimal:
ASCII mode: (ADR 1, ADR 0) = 1, 0 => 1 = 31H, 0 = 30H
RTU mode: (ADR) = 10H
CMD (Command code) and DATA (data characters)
The format of data characters depends on the command code. The available
command codes are described as follows: Command code: 03H, read N words.
The maximum value of N is 12. For example, reading continuous 2 words from
starting address 2102H of AMD with address 01H.
Table 5-6: ASCII mode
Command message
Response message
STX
:
STX
:
ADR 1
ADR 0
0
ADR 1
ADR 0
0
CMD 1
CMD 0
0
CMD 1
CMD 0
0
Starting data address
2
Number of data
(Count by byte)
0
1
3
1
0
Descriptions of
Parameter Settings
Number of data
(Count by word)
1
3
4
2
Content of starting data address 1
2102H
7
0
7
0
0
0
Content of data address 2103H
0
2
0
LRC CHK 1
LRC CHK 0
D
0
END 1
END 0
CR
5-70
7
LF
0
LRC CHK 1
LRC CHK 0
7
END 1
END 0
CR
1
LF
MVX9000 User Manual
Group 90 — Communications
Table 5-7: RTU mode
Command message
Response message
ADR
01H
ADR
CMD
03H
CMD
03H
Starting data address
21H
Number of data
(Count by byte)
04H
Content of data address
2102H
17H
Content of data address
2103H
00H
CRC CHK Low
FEH
CRC CHK High
5CH
02H
Number of data
(count by word)
00H
CRC CHK Low
6FH
CRC CHK High
F7H
02H
01H
70H
00H
Descriptions of
Parameter Settings
MVX9000 User Manual
5-71
Group 90 — Communications
Example
Command code: 06H, write 1 word
For example, writing 6000 (1770H) to address 0100H of MVX9000 with address 01H.
Table 5-8: Example ASCII mode
Command message
Response message
STX
:
STX
:
ADR 1
0
ADR 1
0
ADR 0
1
ADR 0
1
CMD 1
0
CMD 1
0
CMD 0
6
CMD 0
6
Data address
0
Data address
0
1
1
0
0
0
1
0
Data content
1
7
7
7
7
0
0
LRC CHK 1
7
LRC CHK 1
LRC CHK 0
1
LRC CHK 0
7
1
END 1
CR
END 1
CR
END 0
LF
END 0
LF
Table 5-9: Example RTU mode
Descriptions of
Parameter Settings
Command message
Response message
ADR
01H
ADR
01H
CMD
06H
CMD
06H
Data address
01H
Data address
01H
00H
Data content
17H
00H
Data content
17H
70H
70H
CRC CHK Low
86H
CRC CHK Low
86H
CRC CHK High
22H
CRC CHK High
22H
5-72
MVX9000 User Manual
Group 90 — Communications
CHK (Check Sum)
Table 5-10: ASCII mode
LRC (Longitudinal Redundancy Check) is calculated by summing up, module 256,
the values of the bytes from ADR1 to last data character then calculating the
hexadecimal representation of the 2’s-complement negation of the sum.
For example, reading 1 word from address 0401H of the AC drive with address 01H.
STX
:
ADR 1
ADR 0
0
CMD 1
CMD 0
0
Starting data address
1
3
0
4
0
1
Number of data
0
0
0
1
LRC CHK 1
LRC CHK 0
F
END 1
END 0
CR
01H+03H+04H+01H+00H+01H=0AH, the
2’s-complement negation of 0AH is F6H.
6
LF
Table 5-11: RTU mode
01H
CMD
03H
Starting address
21H
Descriptions of
Parameter Settings
ADR
02H
Number of data
(count by word)
00H
CRC CHK Low
6FH
CRC CHK High
F7H
MVX9000 User Manual
02H
5-73
Group 90 — Communications
CRC (Cyclical Redundancy Check) is calculated by the following steps:
Step 1: Load a 16-bit register (called CRC register) with FFFFH.
Step 2: Exclusive OR the first 8-bit byte of the command message with the low
order byte of the 16-bit CRC register, putting the result in the CRC register.
Step 3: Shift the CRC register one bit to the right with MSB zero filling. Extract
and examine the LSB.
Step 4: If the LSB of CRC register is 0, repeat step 3, else Exclusive or the CRC
register with the polynomial value A001H.
Step 5: Repeat step 3 and 4 until eight shifts have been performed. When this is
done, a complete 8-bit byte will have been processed.
Step 6: Repeat steps 2 to 5 for the next 8-bit byte of the command message.
Continue doing this until all bytes have been processed. The final contents of the
CRC register are the CRC value. When transmitting the CRC value in the message,
the upper and lower bytes of the CRC value must be swapped, i.e. the lower
order byte will be transmitted first.
The following is an example of CRC generation using C language. The function
takes two arguments:
Unsigned char* data a pointer to the message buffer
Unsigned char length the quantity of bytes in the message buffer
The function returns the CRC value as a type of unsigned integer.
Descriptions of
Parameter Settings
Unsigned int crc_chk(unsigned char* data, unsigned char length){
int j;
unsigned int reg_crc=0xFFFF;
while(length--){
reg_crc ^= *data++;
for(j=0;j<8;j++){
if(reg_crc & 0x01){ /* LSB(b0)=1 */
reg_crc=(reg_crc>>1) ^ 0xA001;
}else{
Reg_crc=reg_crc>>1;
}
}
}
return reg_crc;
}
5-74
MVX9000 User Manual
Group 90 — Communications
Communication Program of PC
The following is a simple example of how to write a communication program for
Modbus ASCII mode on a PC using C language.
#include<stdio.h>
#include<dos.h>
#include<conio.h>
#include<process.h>
#define PORT 0x03F8 /* the address of COM1 */
/* the address offset value relative to COM1 */
#define THR 0x0000
#define RDR 0x0000
#define BRDL 0x0000
#define IER 0x0001
#define BRDH 0x0001
#define LCR 0x0003
#define MCR 0x0004
#define LSR 0x0005
#define MSR 0x0006
unsigned char rdat[60];
/* read 2 data from address 2102H of AC drive with address 1 */
unsigned char tdat[60]={':','0','1','0','3','2','1','0','2', '0','0','0','2','D','7','\r','\n'};
MVX9000 User Manual
Descriptions of
Parameter Settings
void main(){
int i;
outportb(PORT+MCR,0x08);
/* interrupt enable */
outportb(PORT+IER,0x01);
/* interrupt as data in */
outportb(PORT+LCR,(inportb(PORT+LCR) | 0x80));
/* the BRDL/BRDH can be access as LCR.b7==1 */
outportb(PORT+BRDL,12);
/* set baudrate=9600, 12=115200/9600*/
outportb(PORT+BRDH,0x00);
outportb(PORT+LCR,0x06);
/* set protocol, <7,N,2>=06H
<7,E,1>=1AH, <7,O,1>=0AH
<8,N,2>=07H, <8,E,1>=1BH
<8,O,1>=0BH */
for(i=0;i<=16;i++){
while(!(inportb(PORT+LSR) & 0x20)); /* wait until THR empty */
outportb(PORT+THR,tdat[i]);
/* send data to THR */
}
i=0;
while(!kbhit()){
if(inportb(PORT+LSR) & 0x01){ /* b0==1, read data ready */
rdat[i++]=inportb(PORT+RDR); /* read data form RDR */
} } }
5-75
Group 90 — Communications
Descriptions of
Parameter Settings
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5-76
MVX9000 User Manual
Chapter 6
Maintenance and Inspection
Inside this chapter …
Periodic Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . .
Periodic Maintenance . . . . . . . . . . . . . . . . . . . . . . . . .
6-2
6-2
Maintenance and
Inspection
MVX9000 User Manual
6-1
Periodic Inspection
Modern AC drives are based on solid-state electronics technology. Preventive
maintenance is required to operate this AC drive in optimal condition, and to
ensure a long life. A monthly check up of the AC drive by a qualified technician is
recommended. Before the check up, always turn off the AC Input Power to the
unit. Wait at least 2 minutes after all display lamps have gone out, and then
confirm that the capacitors have fully discharged by measuring the voltage
between B1 and Ground using a multi meter set to measure DC.
Periodic Inspection
Check the following periodically to detect:
•
•
•
•
•
Whether the motors are operating as expected.
Whether the installation environment is abnormal.
Whether the cooling system is operating as expected.
Whether any irregular vibration or sound occurred during the operation.
Whether the motors are overheating during the operation.
Note: Always check the input voltage of the AC drive with a Voltmeter.
Periodic Maintenance
WARNING!
Disconnect AC power before proceeding!
Maintenance and
Inspection
1. Tighten the AC drive input and output power screws if necessary. These
screws might loosen due to vibration or temperature changes.
2. Check if the conductors or insulators are corroded and damaged.
3. Check the insulation resistance with Mega-ohm meters.
4. If the AC drive is not to be used for a long periods of time, turn the power on
at least once every two years and confirm that it still functions properly. To
confirm functionality, disconnect the motor and energize the AC drive for at
least 5 hours before attempting to run a motor with it.
5. Clean off any dust and dirt with a vacuum cleaner. Place special emphasis on
cleaning the ventilation ports and PCBs. Always keep these areas clean, as
accumulation of dust and dirt can cause unforeseen failures.
6-2
MVX9000 User Manual
Troubleshooting and
Fault Information
Chapter 7
Troubleshooting and Fault Information
Inside this chapter …
Common Problems and Solutions . . . . . . . . . . . . . .
Warning Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MVX9000 User Manual
7-2
7-5
7-1
Troubleshooting and
Fault Information
Common Problems and Solutions
The AC drive has a comprehensive fault diagnostic system that includes several
different alarms and fault messages. Once a fault is detected, the corresponding
protective functions will be activated. The following faults are displayed as
shown on the AC drive digital keypad display. The three most recent faults can be
read on the digital keypad display by viewing 80.04 through 80.06.
Note: Faults can be cleared by resetting at the keypad or with the Input Terminal.
Common Problems and Solutions
Table 7-1: Common Problems and Solutions
Fault Name
Fault Descriptions
Corrective Actions
The AC drive detects an 1. Check that the motor horsepower
abnormal increase in
corresponds to the AC drive output
current.
power.
2. Check the wiring connections between
the AC drive and motor for possible
short circuits.
3. Increase the acceleration time (20.08).
4. Check for possible excessive loading
conditions at the motor.
5. If there are any abnormal conditions
when operating the AC drive after a
short circuit is removed, it should be
sent back to manufacturer.
The AC drive detects
1. Check that the input voltage falls within
that the DC bus voltage
the rated AC drive input voltage.
has exceeded its
2. Check for possible voltage transients.
maximum allowable
3. Bus over-voltage may also be caused by
value.
motor regeneration. Either increase the
deceleration time or add an optional
braking resistor.
4. Check whether the required braking
power is within the specified limits.
The AC drive
temperature sensor
detects excessive heat.
1. Make sure that the ambient temperature
falls within the specified temperature
range.
2. Make sure that the ventilation holes are
not obstructed.
3. Remove any foreign objects from the
heatsink and check for possible dirty
heatsink fins.
4. Provide enough spacing for adequate
ventilation.
The AC drive detects
Check that the input voltage falls within the
that the DC bus voltage rated AC drive’s input voltage.
has fallen below its
minimum value.
7-2
MVX9000 User Manual
Common Problems and Solutions
Fault Name
Fault Descriptions
Corrective Actions
The AC drive detects
excessive drive output
current.
Note: The AC drive can
withstand up to 150%
of the rated current for
a maximum of 60
seconds.
1. Check if the motor is overloaded.
2. Reduce the torque compensation
setting in 60.09.
3. Replace the AC drive with one that has a
higher output capacity (next hp size).
Internal electronic
overload trip
1. Check for possible motor overload.
2. Check electronic thermal overload
setting.
3. Increase motor capacity.
4. Reduce the current level so that the
drive output current does not exceed
the value set by the Motor Rated
Current (60.01).
Motor overload. Check
the parameter settings
(70.04 through 70.06)
1. Reduce the motor load.
2. Adjust the over-torque detection setting
to an appropriate setting.
Over-current during
acceleration:
1. Short-circuit at
motor output.
2. Torque boost too
high.
3. Acceleration time
too short.
4. AC drive output
capacity is too
small.
1. Check for possible poor insulation at the
output line.
2. Decrease the torque boost setting in
60.09.
3. Increase the acceleration time.
4. Replace the AC drive with one that has a
higher output capacity (next hp size).
Over-current during
deceleration:
1. Short-circuit at
motor output.
2. Deceleration time
too short.
3. AC drive output
capacity is too
small.
1. Check for possible poor insulation at the
output line.
2. Increase the deceleration time.
3. Replace the AC drive with one that has a
higher output capacity (next hp size).
Over-current during
steady state operation:
1. Short-circuit at
motor output.
2. Sudden increase in
motor loading.
3. AC drive output
capacity is too
small.
1. Check for possible poor insulation at the
output line.
2. Check for possible motor stall.
3. Replace the AC drive with one that has a
higher output capacity (next hp size).
MVX9000 User Manual
7-3
Troubleshooting and
Fault Information
Table 7-1: Common Problems and Solutions (Continued)
Troubleshooting and
Fault Information
Table 7-1: Common Problems and Solutions (Continued)
Fault Name
Fault Descriptions
Corrective Actions
Internal memory
cannot be
programmed.
1. Switch off power supply.
2. Check whether the input voltage falls
within the rated AC drive input voltage.
Switch the AC drive back on.
Internal memory
cannot be read.
1. Check the connections between the
main control board and the power
board.
2. Reset the drive to factory defaults.
Hardware protection
failure
Return the drive to the factory.
Software protection
failure
Return the drive to the factory.
Drive’s internal circuitry 1. Switch off power supply.
is abnormal.
2. Check whether the input voltage falls
within the rated AC drive input voltage.
Switch on the AC drive.
7-4
The external terminal
DI1-COM goes from
OFF to ON.
When external terminal DI1-COM is closed,
the drive’s output will be turned off and will
display EF.
Auto acceleration/
deceleration failure
Don’t use the auto acceleration/
deceleration function.
Ground fault:
The AC drive output is
abnormal. When the
output terminal is
grounded (short circuit
current is 50% more
than the AC drive rated
current), the AC drive
power module may be
damaged. The short
circuit protection is
provided for AC drive
protection, not user
protection.
Ground fault:
1. Check whether the IGBT power module
is damaged.
2. Check for possible poor insulation on
the output wires or on the motor.
External Pause.
AC drive output is
turned off.
1. When the external input terminal
(pause) is active, the AC drive output
will be turned off.
2. Disable this (pause) and the AC drive
will begin to work again.
MVX9000 User Manual
Warning Codes
Table 7-2: Warning Codes
Warning Name
Warning Descriptions
Illegal command code. The
command code received in the
command message is not available
for the AC drive.
Illegal data address. The data
address received in the command
message is not available for the AC
drive.
Corrective Actions
The corrective action can
be set with the
Transmission Fault
Treatment parameter
90.04.
Illegal data value. The data value
received in the command message
is not available for the AC drive.
Slave device failure. The AC drive is
unable to perform the requested
action.
Communication time out
Motor overload. Check the
parameter settings 70.04 - 70.06.
1. Reduce the motor
load.
2. Adjust the over-torque
detection setting to an
appropriate setting.
PID feedback loss
The corrective action can
be set with treatment of
the erroneous feedback
signals parameter 50.42.
Auto Tune Error
Check whether the AC
drive’s wiring is correct.
MVX9000 User Manual
7-5
Troubleshooting and
Fault Information
Warning Codes
Troubleshooting and
Fault Information
Table 7-2: Warning Codes (Continued)
Warning Name
7-6
Warning Descriptions
Corrective Actions
Copy Keypad check error for saving
the date of each parameter.
Check whether the
communication wiring is
correct and function is
normal. It allows copying
when the voltage and
horsepower is the same.
The Drive check error for saving to
the drive.
Check whether the
communication wiring is
correct and function is
normal. It allows copying
when the voltage and
horsepower is the same.
Under current fault.
Check parameter 70.11 to
70.13.
MVX9000 User Manual
Appendix A
Technical Data
Inside this chapter …
MVX9000 User Manual
Technical Data
Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
A-2
A-1
Technical Data
Technical Data
Table A-1: MVX9000 115V Specifications
Technical Data
Voltage Class
115V Series
Model Number MVX_ _ _AO-1
F25
F50
001
Max. Applicable Motor Output (kW)
0.2
0.4
0.75
Max. Applicable Motor Output (hp)
0.25
0.5
1
Output
Rating
0.6
1.0
1.6
Rated Output Current (A)
1.6
2.5
4.2
Max. Output Voltage (V)
Proportional to twice the input voltage
Rated Frequency (Hz)
0.1 to 400 Hz
Input Rating
Rated Output
Capacity (kVA)
Rated Voltage
90 to 132V AC
Frequency Tolerance
50/60 Hz ± 5%
1-phase Rated Input
Current
6
Control
Control System
Characteristics
Output Frequency
Resolution
9
16
SPWM (Sinusoidal Pulse Width Modulation)
0.1 Hz
Overload Endurance
150% of rated current for 1 minute
Acceleration/
Deceleration Time
0.01 to 600.00 seconds
Torque Characteristics
Including the auto-torque, auto-slip compensation; starting
torque can be 150% at 1 Hz in vector, 3 Hz in V/F
V/F Pattern
Adjustable V/F pattern or sensorless vector
Stall Prevention Level
Set to percentage of rated current
Operating
Frequency
Characteristics Setting
Keypad
Set by UP, DOWN keys or potentiomenter
External
Signal
Potentiometer-5 kW/0.5W, 0 to +10V DC or 0 to +5V
(Input impedance 47 kW), RS-485 interface, 4 to 20 mA
(Input impedance 250Ω), 1 to 7 step speeds, PID feedback
Operation
Setting
Signal
Keypad
Set by START, STOP, RIGHT and LEFT keys
External
Signal
FWD/STOP, REV/STOP (RUN/STOP, FWD/REV),
3-wire control, serial communication
Digital Input Signal
Multi-step selections 1 to 7, Jog, acceleration/deceleration
inhibit, first/second acceleration/deceleration switch, counter,
External BB (Pause), PLC operation. Terminals have 5V
potential and must be brought to DC common to enable
(Sinking).
Digital Output Indication
Operating, Up to frequency, Desired frequency, Non-zero B.B.,
Abnormal indication, Local/Remote indication, PLC, Low
Voltage.
Analog Output Signal
Analog frequency/current signal output.
Other Functions
AVR, S-Curve, Over-Voltage, Over-Current stall prevention,
Fault records checking, Carrier Frequency adjustable,
DC injection braking, Momentary power loss restart,
Frequency limit setting, Parameter lock/reset,
Frequency input operation method selection,
Reverse run inhibit, etc.
Protection
Self-testing, Over-voltage, Over-current,
Under-voltage, Overload, Overheating, External Fault,
Ground Fault, I2t.
Cooling Systems
Forced air-cooling
A-2
MVX9000 User Manual
Technical Data
Table A-1: MVX9000 115V Specifications (Continued)
Voltage Class
Environment
Installation Location
115V Series
Altitude 1,000m or lower, keep from corrosive gasses,
liquid and dust
Pollution Degree
2
Ambient Temperature
-10 to 50 (Non-Condensing and not frozen)-10 to 40°C for
the models of 5.5 kW and higher
Storage Temperature
-20 to 60
Below 90% RH (non-condensing)
Vibration
9.80665 m/s2 (1G) less than 20 Hz, 5.88 m/s2 (0.6G)
at 20 to 50 Hz
Technical Data
Ambient Humidity
Table A-2: MVX9000 230V Specifications
Voltage Class
230V Series
Model Number MVX_ _ _AO-2
F50
001
002
003
005
007
Max. Applicable Motor Output (kW)
0.4
0.75
1.5
2.2
3.7
5.5
Max. Applicable Motor Output (hp)
1/2
1
2
3
5
7-1/2
Output
Rating
1
1.9
2.7
3.8
6.5
9.5
Rated Output Current (A)
2.5
5
7
10
17
25
Max. Output Voltage (V)
Proportional to input voltage
Rated Frequency (Hz)
0.1 to 400 Hz
27/15
19.6
28
Input Rating
Rated Output
Capacity (kVA)
Rated Voltage
180 to 264V AC
Frequency Tolerance
50/60 Hz ± 5%
1-phase/3-phase Rated
Input Current
6.3/3.2
Control
Control System
Characteristics
Output Frequency
Resolution
11.5/6.3
15.7/9
SPWM (Sinusoidal Pulse Width Modulation)
0.1 Hz
Overload Endurance
150% of rated current for 1 minute
Acceleration/
Deceleration Time
0.01 to 600.00 seconds
Torque Characteristics
Including the auto-torque, auto-slip compensation;
starting torque can be 150% at 1 Hz in vector, 3 Hz in V/F
V/F Pattern
Adjustable V/F pattern or sensorless vector
Stall Prevention Level
Set to percentage of rated current
MVX9000 User Manual
A-3
Technical Data
Table A-2: MVX9000 230V Specifications (Continued)
Voltage Class
230V Series
Keypad
Set by UP, DOWN keys or potentiomenter
External
Signal
Potentiometer-5 kW/0.5W, 0 to +10V DC or 0 to +5V
(Input impedance 47 kW), RS-485 interface, 4 to 20 mA
(Input impedance 250Ω), 1 to 7 step speeds, PID feedback
Operation
Setting
Signal
Keypad
Set by START, STOP, RIGHT and LEFT keys
External
Signal
FWD/STOP, REV/STOP (RUN/STOP, FWD/REV),
3-wire control, serial communication
Technical Data
Operating
Frequency
Characteristics Setting
Digital Input Signal
Multi-step selections 1 to 7, Jog, acceleration/deceleration
inhibit, first/second acceleration/deceleration switch, counter,
External BB (Pause), PLC operation. Terminals have 5V
potential and must be brought to DC common to enable
(Sinking).
Digital Output Indication
Operating, Up to frequency, Desired frequency,
Non-zero B.B., Abnormal indication, Local/Remote indication,
PLC, Low Voltage.
Analog Output Signal
Analog frequency/current signal output.
Other Functions
AVR, S-Curve, Over-Voltage, Over-Current stall prevention,
Fault records checking, Carrier Frequency adjustable,
DC injection braking, Momentary power loss restart,
Frequency limit setting, Parameter lock/reset,
Frequency input operation method selection,
Reverse run inhibit, etc.
Protection
Self-testing, Over-voltage, Over-current,
Under-voltage, Overload, Overheating, External Fault,
Ground Fault, I2t.
Cooling Systems
Forced air-cooling
Environment
Altitude 1,000m or lower, keep from corrosive gasses,
liquid and dust
A-4
Installation Location
Pollution Degree
2
Ambient Temperature
-10 to 50 (Non-Condensing and not frozen)-10 to 40°C for
the models of 5.5 kW and higher
Storage Temperature
-20 to 60
Ambient Humidity
Below 90% RH (non-condensing)
Vibration
9.80665 m/s2 (1G) less than 20 Hz, 5.88 m/s2 (0.6G)
at 20 to 50 Hz
MVX9000 User Manual
Technical Data
Table A-3: MVX9000 460V Specifications
Voltage Class
460V Series
001
002
003
005
007
010
Max. Applicable Motor Output (kW)
0.75
1.5
2.2
3.7
5.5
7.5
Max. Applicable Motor Output (hp)
1
2
3
5
7-1/2
10
Output Rating
2.3
3.1
3.8
6.2
9.9
13.7
Rated Output Current (A)
3
4
5
8.2
13
18
Max. Output Voltage (V)
Proportional to input voltage
Rated Frequency (Hz)
0.1 to 400 Hz
8.5
14
23
Input Rating
Rated Output Capacity
(kVA)
Rated Voltage
342 to 528V AC
Frequency Tolerance
50/60 Hz ± 5%
3-phase Rated Input
Current
4.2
Control
Control System
Characteristics
Output Frequency
Resolution
5.7
6
Technical Data
Model Number MVX_ _ _AO-4
SPWM (Sinusoidal Pulse Width Modulation)
0.1Hz
Overload Endurance
150% of rated current for 1 minute
Acceleration/Deceleration
Time
0.01 to 600.00 seconds
Torque Characteristics
Including the auto-torque, auto-slip compensation; starting
torque can be 150% at 1 Hz in vector, 3 Hz in V/F
V/F Pattern
Adjustable V/F pattern or sensorless vector
Stall Prevention Level
Set to percentage of rated current
Operating
Frequency
Characteristics Setting
Keypad
Set by UP, DOWN keys or potentiometer
External
Signal
Potentiometer-5 kW/0.5W, 0 to +10V DC or 0 to +5V (Input
impedance 47 kW), RS-485 interface, 4 to 20 mA (Input
impedance 250W), 1 to 7 step speeds, PID feedback
Operation
Setting
Signal
Keypad
Set by START, STOP, RIGHT and LEFT keys
External
Signal
FWD/STOP, REV/STOP (RUN/STOP, FWD/REV), 3-wire control,
serial communication
Digital Input Signal
Multi-step selections 1 to 7, Jog, acceleration/deceleration
inhibit, first/second acceleration/deceleration switch, counter,
External BB (Pause), PLC operation. Terminals have 5V
potential and must be brought to DC common to enable
(Sinking).
Digital Output Indication
Operating, Up to frequency, Desired frequency, Non-zero B.B.,
Abnormal indication, Local/Remote indication, PLC, Low
Voltage.
Analog Output Signal
Analog frequency/current signal output.
MVX9000 User Manual
A-5
Technical Data
Table A-3: MVX9000 460V Specifications (Continued)
Technical Data
Voltage Class
460V Series
Other Functions
AVR, S-Curve, Over-Voltage, Over-Current stall prevention,
Fault records checking, Carrier Frequency adjustable, DC
injection braking, Momentary power loss restart, Frequency
limit setting, Parameter lock/reset, Frequency input operation
method selection, Reverse run inhibit, etc.
Protection
Self-testing, Over-voltage, Over-current, Under-voltage,
Overload, Overheating, External Fault, Ground Fault, I2t.
Cooling Systems
Forced air-cooling
Environment
Altitude 1,000m or lower, keep from corrosive gasses, liquid
and dust
Installation Location
Pollution Degree
2
Ambient Temperature
-10 to 50°C (Non-Condensing and not frozen), -10 to 40°C
for the models of 5.5 kW and higher
Storage Temperature
-20 to 60°C
Ambient Humidity
Below 90% RH (non-condensing)
Vibration
9.80665 m/s2 (1G) less than 20 Hz, 5.88 m/s2 (0.6G)
at 20 to 50 Hz
Table A-4: MVX9000 575V Specifications
Voltage Class
575V Series
Model Number MVX___ A0-5
001
002
003
005
007
Max. Applicable Motor Output (kW)
0.75
1.5
2.2
3.7
5.5
7.5
Max. Applicable Motor Output (hp)
1
2
3
5
7-1/2
10
Output Rating Rated Output Capacity
(kVA)
1.7
3.0
4.2
6.6
9.9
12.2
Rated Output Current (A)
1.7
3.0
4.2
6.6
9.9
12.2
Max. Output Voltage (V)
3-phase Proportional to Input Voltage
7.0
10.5
12.9
7.0 (3.2)
7.0 (3.2)
7.3 (3.3)
Input Rating
Output Frequency (Hz)
0.1 – 400 Hz
Carrier Frequency (kHz)
1 – 10
Rated Input Current (A)
010
3-phase
2.4
4.2
5.9
Rated Voltage
3-phase 500 to 600V
Voltage Tolerance
-15% to +10% (425 to 660V)
Frequency Tolerance
±5% (47 to 63 Hz)
Cooling Method
Fan Cooled
Weight in Lbs. (kg)
3.3 (1.5)
Environment
Installation Location
Altitude 1,000m or lower, keep from corrosive gasses, liquid
and dust
Pollution Degree
2
Ambient Temperature
-10 to 50°C (Non-Condensing and not frozen), -10 to 40°C
for the models of 5.5 kW and higher
Storage Temperature
-20 to 60°C
A-6
3.3 (1.5)
4.4 (2.0)
Ambient Humidity
Below 90% RH (non-condensing)
Vibration
9.80665 m/s2 (1G) less than 20 Hz, 5.88 m/s2 (0.6G)
at 20 to 50 Hz
MVX9000 User Manual
Appendix B
Parameter Tables
Inside this chapter …
MVX9000 Parameter Listing . . . . . . . . . . . . . . . . . . .
B-2
Parameter Tables
MVX9000 User Manual
B-1
MVX9000 Parameter Listing
MVX9000 Parameter Listing
Table B-1: 20 — BASIC GROUPING (Quick Start)
Modbus Groups Page #
Description
User
Default Settings
Range
0000H
20.01
50.05
5-5
Motor Nameplate
Frequency
10.0 to 400.0 Hz
0001H
20.02
50.06
5-5
Motor Nameplate
Voltage
115/230V drives: 1.0 to 255V
230
460V drives: 1.0 to 510V
460
20.03
50.01
5-5
0002H
Source of Master
Frequency
60.0
575V drives: 1.0 to 637V
575
00: Master frequency
determined by digital keypad
up/down
01
01: Master frequency
determined by keypad
potentiometer
Parameter Tables
02: Master frequency
determined by 0 to +10V
input on AI terminal
03: Master frequency
determined by 4 to 20 mA
input on AI terminal
04: Master frequency
determined by RS-485
communication interface
0003H
20.04
50.02
5-5
Source of Operation
command
00: Operation commands
determined by digital keypad
00
01: Operation commands
determined by external
control terminals, keypad
STOP is effective
02: Operation commands
determined by external
control terminals, keypad
STOP is ineffective
03: Operation commands
determined by RS-485
interface, keypad STOP is
effective
04: Operation commands
determined by RS-485
interface, keypad STOP is
ineffective
0004H
20.05
60.01
5-6
Motor Rated Current
30 to 120%
FLA
0005H
20.06
50.09
5-6
Minimum Output
Frequency
0.0 to 20.0 Hz
1.5
0006H
20.07
50.04
5-6
Maximum Output
Frequency
50.0 to 400.0 Hz
60.0
0007H
20.08
50.12
5-6
Acceleration Time 1
0.01 to 600.0 sec
10.0
0008H
20.09
50.13
5-6
Deceleration Time 1
0.01 to 600.0 sec
10.0
B-2
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-2: 30 — INPUTS
Modbus Groups Page #
Description
Range
User
Default Settings
0100H
30.01
5-7
Minimum reference
value (0 – 10V)
0.0 to 10.0V
0.0
0101H
30.02
5-7
Maximum reference
value (0 – 10V)
0.0 to 10.0V
10.0
0102H
30.03
5-7
Invert reference
signal (0 – 10V)
00: Not inverted
00
01: Inverted
0103H
30.04
5-7
Minimum reference
value (4 – 20 mA)
0.0 to 20.0 mA
4.0
0104H
30.05
5-7
Maximum reference
value (4 – 20 mA)
0.0 to 20.0 mA
20.0
0105H
30.06
5-7
Invert reference
signal (4 – 20 mA)
00: Not inverted
00
01: Inverted
30.07
5-7
Potentiometer Offset
0.0 to 100.0%
0.0
0107H
30.08
5-8
Potentiometer Bias
Polarity
00: Positive, 01: Negative
00
0108H
30.09
5-8
Potentiometer Slope
0.1 to 300.0%
100.0
0109H
30.10
5-8
Potentiometer
Direction
00: Forward Motion Only
00
010AH
30.11
5-14
Digital Input Terminal
(DI1, DI2)
01: DI1-FWD / STOP, DI2-REV /
STOP
Parameter Tables
0106H
01: Reverse Motion Enable
02
02: DI1-RUN / STOP, DI2-REV /
FWD
03: DI1 - RUN momentary
(NO), DI2 - REV / FWD, DI3 STOP momentary (NC)
010BH
30.12
5-15
010CH
30.13
5-15
010DH
30.14
5-16
010EH
30.15
5-16
Digital Input Terminal
(DI3)
Digital Input Terminal
(DI4)
Digital Input Terminal
(DI5)
Digital Input Terminal
(DI6)
00: Not used
05
01: External Fault (NO)
06
02: External Fault (NC)
03: External Reset (NO)
04: External Reset (NC)
07
03
05: Multi-Speed 1
06: Multi-Speed 2
07: Multi-Speed 3
08: Jog
09: Second Acceleration/
Deceleration Time
10: Control Place: I/O
Terminal
11: Control Place: Keypad
12: Control Place:
Communication
13: Increase Speed during
RUN command
14: Decrease Speed during
RUN command
15: Forward/Reverse
16: Parameter Lock
MVX9000 User Manual
B-3
MVX9000 Parameter Listing
Table B-2: 30 — INPUTS (Continued)
Modbus Groups Page #
010BH
30.12
5-15
010CH
30.13
5-15
010DH
30.14
5-16
010EH
30.15
5-16
User
Default Settings
Description
Range
Digital Input Terminal
(DI3)
Digital Input Terminal
(DI4)
Digital Input Terminal
(DI5)
Digital Input Terminal
(DI6)
17: Acceleration/Deceleration
l Prohibit
05
06
18: Run Enable
19: Base Block (NO)
07
20: Base Block (NC)
03
21: PID Disable
22: Run PLC Program
23: Pause PLC Program
24: Counter Trigger signal
25: Counter Reset
26: First/second Source of
Master Frequency
Parameter Tables
27: Increase speed during
RUN or STOP state
28: Decrease speed during
RUN or STOP state
29: Output Shut Off (NO)
30: Output Shut Off (NC)
31: Auto Location – Operation
& Frequency by First source
(P50.01 & P50.02)
32: Hand Location –
Operation & Frequency by
Second source (P50.57 &
P50.60)
33: LOC – Operation &
Frequency by Second source
(P50.57 & P50.60)
010FH
30.16
5-25
Final Count Value
00 to 9999
00
0110H
30.17
5-25
Intermediate Count
Value
00 to 9999
00
0111H
30.18
5-25
1st Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0112H
30.19
5-25
2nd Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0113H
30.20
5-25
3rd Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0114H
30.21
5-25
4th Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0115H
30.22
5-26
5th Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0116H
30.23
5-26
6th Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0117H
30.24
5-26
7th Preset Speed
0.0 to 400.0 Hz (100.0%)
0.0
0118H
30.25
5-26
Display Hz or %
00: Frequency (Hz)
00
01: Percentage (%)
02: User Definition by 0.000 –
max. unit
0119H
30.26
5-26
Extension Input DI7
same 30.12 to 30.15
011AH
30.27
5-26
Extension Input DI8
same 30.12 to 30.15
00
011BH
30.28
5-26
User Definition
Display Frequency
Max Unit
0.000 – 1.000
1.000
B-4
00
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-3: 40 — OUTPUTS
Modbus Groups Page #
0200H
40.01
5-27
Description
Range
Analog Output Signal 00: Frequency Hz
User
Default Settings
00
01: Current A
02: Feedback signal 0 – 100
03: Output Power 0 – 100%
0201H
40.02
5-27
Analog Output Gain
00 to 200%
100
0202H
40.03
5-27
00: Not used
02
0203H
40.04
5-28
Digital Output
Terminal
(DO1-DCM)
Relay Output
Terminal
(RO1, RO2, RO3)
01: Ready
02: Inverter Output is active
03
03: Inverter Fault
04: Warning (PID feedback
loss, communication fault)
05: At speed
06: Zero speed
Parameter Tables
07: Above Desired Frequency
(40.05)
08: Below Desired Frequency
(40.05)
09: PID supervision
10: Over Voltage Warning
11: Over Heat Warning
12: Over Current Stall
Warning
13: Over Voltage Stall
Warning
14: Low voltage
15: PLC Program running
16: PLC Program Step
completed
17: PLC Program completed
18: PLC Operation paused
19: Final count value attained
20: Intermediate count value
attained
21: Reverse direction
notification
22: Under current detection
23: Inverter RUN command
state
0204H
40.05
5-30
Desired Frequency
Attained
0.0 to 400.0 Hz
0.0
0205H
40.06
5-30
Digital Output (RO4,
RO5, RO6)
same as 40.03 to 40.04
0
0206H
40.07
5-30
Digital Output (RO7,
RO8, RO9)
same as 40.03 to 40.04
0
MVX9000 User Manual
B-5
MVX9000 Parameter Listing
Table B-4: 50 — DRIVE CONTROL
Modbus Groups Page #
0300H
50.01
5-31
Description
Source of Master
Frequency
User
Default Settings
Range
00: Master Frequency
determined by digital keypad
up/down
01
01: Master Frequency
determined by keypad
potentiometer
02: Master Frequency
determined by 0 to +10V
input on AI1 terminal
03: Master Frequency
determined by 4 – 20 mA
input on AI2 terminal
04: Master Frequency
determined by RS-485
communication interface
50.02
5-31
Source of Operation
Command
Parameter Tables
0301H
00: Operation command
determined by digital keypad
00
01: Operation command
determined by external
control terminals, keypad
STOP is effective
02: Operation command
determined by external
control terminals, keypad
STOP is ineffective
03: Operation command
determined by RS-485
interface, keypad STOP is
effective
04: Operation command
determined by RS-485
interface, keypad STOP is
ineffective
0302H
50.03
5-31
Stop Methods
00: Ramp to Stop
00
01: Coast to Stop
0303H
50.04
5-32
Maximum Output
Frequency
50.0 to 400.0 Hz
60.0
0304H
50.05
5-32
Motor Nameplate
Frequency
10.0 to 400.0 Hz
60.0
0305H
50.06
5-32
Motor Nameplate
Voltage
115/230V 0.1 to 255.0V
230.0
460V 0.1 to 510.0V
460.0
575V 0.1 to 637.0V
575.0
0306H
50.07
5-32
Mid-point Frequency
0.1 to 400.0 Hz
1.5
0307H
50.08
5-33
Mid-point Voltage
115/230V 0.1 to 255.0V
10.0
460V 0.1 to 510.0V
20.0
575V 0.1 to 637.0V
26.1
0308H
50.09
5-33
Minimum Output
Freq
0.1 to 20.0 Hz
1.5
0309H
50.10
5-33
Minimum Output
Voltage
115/230V 0.1 to 50.0V
10.0
460V 0.1 to 100.0V
20.0
030AH
B-6
50.11
5-34
Sensorless Vector
Enable
575V 0.1 to 637.0V
26.1
00: Disable
00
01: Enable
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-4: 50 — DRIVE CONTROL (Continued)
Modbus Groups Page #
Description
Range
User
Default Settings
030BH
50.12
5-34
Acceleration Time 1
0.01 to d 600.0 sec
030CH
50.13
5-34
Deceleration Time 1
0.01 to d 600.0 sec
10.00
030DH
50.14
5-34
Acceleration Time 2
0.01 to d 600.0 sec
10.00
030EH
50.15
5-35
Deceleration Time 2
0.01 to d 600.0 sec
10.00
030FH
50.16
5-35
Transition Point for
Acceleration 1 to
Acceleration 2
0.0:Disable
0.0
Transition Point for
Deceleration 1 to
Deceleration 2
0.0:Disable
0310H
50.17
5-36
10.00
Above min freq.: Enable, 0.0
to 400.0 Hz
0.0
Above min freq.: Enable, 0.0
to 400.0 Hz
50.18
5-36
Acceleration S-curve
00 to 07
00
0312H
50.19
5-36
Deceleration S-curve
00 to 07
00
0313H
50.20
5-37
Jog Acceleration /
Deceleration Time
0.01 to d 600.0 sec
1.00
0314H
50.21
5-37
Jog Frequency
0.1 to 400.0 Hz
6.0
0315H
50.22
5-37
Reserve Operation
Enable
00: Enable Reverse Operation 00
Momentary Power
Loss (Ride Through)
00: Stop operation after
momentary power loss
0316H
50.23
5-38
Parameter Tables
0311H
01: Disable Reverse
Operation
00
01: Continue operation after
momentary power loss,
speed search from Speed
Reference
02: Continue operation after
momentary power loss,
speed search from Minimum
Speed
0317H
50.24
5-38
Maximum Allowable
Power Loss Time
0.3 to 5.0 sec
2.0
0318H
50.25
5-38
Pause Time after
Momentary Power
Loss
0.3 to 10.0 sec
0.5
0319H
50.26
5-39
Maximum Speed
Search Current Level
30 to 200%
150
031AH
50.27
5-39
Upper Limit of
Output Frequency
0.1 to 400.0 Hz
400.0
031BH
50.28
5-39
Lower Limit of
Output Frequency
0.0 to 400.0 Hz
0.0
031CH
50.29
5-40
Skip Frequency 1
0.0 to 400.0 Hz
0.0
031DH
50.30
5-40
Skip Frequency 2
0.0 to 400.0 Hz
0.0
031EH
50.31
5-40
Skip Frequency 3
0.0 to 400.0 Hz
0.0
031FH
50.32
5-40
Skip Frequency
Bandwidth
0.1 to 20.0 Hz (0.0 = Disable)
0.0
0320H
50.33
5-41
Auto Restart After
Fault
00 to 10
00
0321H
50.34
5-41
PID Set Point
Location
00: Disable
01: Keypad (based on 20.03
setting)
02: AI1 (external 0 – 10V)
03: AI2 (external 4 – 20 mA)
04: PID set point (50.43)
00
MVX9000 User Manual
B-7
MVX9000 Parameter Listing
Table B-4: 50 — DRIVE CONTROL (Continued)
Parameter Tables
Modbus Groups Page #
Description
User
Default Settings
Range
0322H
50.35
5-41
Feedback Signal
Selection
00: Positive AI1 (0 – 10V)
01: Negative AI1 (0 – 10V)
02: Positive AI2 (4 – 20 mA)
03: Negative AI2 (4 – 20 mA)
00
0323H
50.36
5-41
P Gain Adjustment
0.0 to 10.0
1.0
0324H
50.37
5-41
I Gain Adjustment
0.00 to 100.0 sec
1.00
0325H
50.38
5-41
D Gain Adjustment
0.00 to 1.0 sec
0.00
0326H
50.39
5-42
Upper Limit of
Integral Control
00 to 100%
100
0327H
50.40
5-42
PID Output Delay
Filter Time
0.0 to 2.5 sec
0.0
0328H
50.41
5-42
4 – 20 mA Input Loss
Detection Time
00: Disable
0.1 to 3600 sec
60
0329H
50.42
5-42
4 – 20 mA Input Loss
Operation
00: Warn and Inverter Stop
00
01: Warn and Continue
Operation
032AH
50.43
5-42
PID Set Point
0.0 to 400.0 Hz (100.0%)
0.0
032BH
50.44
5-43
PLC Operation Mode
00: Disable PLC performing
00
01: Execute one program
cycle
02: Continuously execute
program cycles
03: Execute one program
cycle step by step
04: Continuously execute
program cycles step by step
032CH
50.45
5-45
PLC Forward/Reserve 00 to 127
Motion
00
032DH
50.46
5-46
Time Duration of 1st
Preset Speed
0 to 9999
0
032EH
50.47
5-46
Time Duration of 2nd
Preset Speed
0 to 9999
0
032FH
50.48
5-46
Time Duration of 3rd
Preset Speed
0 to 9999
0
0330H
50.49
5-46
Time Duration of 4th
Preset Speed
0 to 9999
0
0331H
50.50
5-46
Time Duration of 5th
Preset Speed
0 to 9999
0
0332H
50.51
5-46
Time Duration of 6th
Preset Speed
0 to 9999
0
0333H
50.52
5-46
Time Duration of 7th
Preset Speed
0 to 9999
0
B-8
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-4: 50 — DRIVE CONTROL (Continued)
Modbus Groups Page #
0334H
50.53
5-47
Description
Auto Acceleration/
Deceleration
Range
00: Linear Acceleration/
Deceleration
User
Default Settings
00
01: Auto Acceleration, Linear
Deceleration
02: Linear Acceleration/Auto
Deceleration
03: Auto Acceleration/
Deceleration
04: Auto Acceleration/
Deceleration Stall Prevention
(Limited by 50.12 to 50.15)
0335H
50.54
5-47
Sleep Frequency
0.0: Disabled
0.0
0.1 to 400 Hz Enabled
50.55
5-47
Wake Frequency
0.1 to 400 Hz (0.0 = Disable)
0.0
0337H
50.56
5-48
Sleep Time Delay
0.0 to 600 sec.
1.0
0338H
50.57
5-48
Second Source of
Master Frequency
00: Master Frequency
determined by digital keypad
up/down
00
Parameter Tables
0336H
01: Master Frequency
determined by keypad
potentiometer
02: Master Frequency
determined by 0 to +10V
input on AI terminal with
jumpers
03: Master Frequency
determined by 4 to 20 mA
input on AI terminal with
jumpers
04: Master Frequency
determined by RS-485
communication interface
0339H
50.58
5-48
Zero Speed Output
Selection
00: Standby
01: Zero Speed Output
00
033AH
50.59
5-49
Zero Speed Holding
Torque
0.0 to 30.0%
5.0%
033BH
50.60
5-49
Second Source of
Operation Command
00: Operation determined by
digital keypad
03
01: Operation determined by
external control terminals,
keypad STOP is effective
02: Operation determined by
external control terminals,
keypad STOP is ineffective
03: Operation determined by
RS-485 interface, keypad
STOP is effective
04: Operation determined by
RS-485 interface, keypad
STOP is ineffective
033CH
033DH
50.61
50.62
5-49
5-49
MVX9000 User Manual
HOA and LOC/REM
Stop Methods
00: Ramp to Stop
OV Fault During Stop
State
00: Disable
01
01: Coast to Stop
00
01: Enable
B-9
MVX9000 Parameter Listing
Table B-5: 60 — MOTOR CONTROL
Modbus Groups Page #
Description
User
Default Settings
Range
0400H
60.01
5-50
Motor Rated Current
30 to 120%
FLA
0401H
60.02
5-50
Motor No-Load
Current
00 to 99%
0.4*
FLA
0402H
60.03
5-50
Motor Auto Tuning
00: Disable
00
01: DC test
Parameter Tables
02: DC test and no load test
0403H
60.04
5-50
Motor’s Stator
Resistance
(calculated via auto
tune or entered
manually)
00 to 65535 m Ohms
00
0404H
60.05
5-51
DC Braking Current
Level
00 to 100%
00
0405H
60.06
5-51
DC Braking Time
upon Start-up
0.0 to 5.0 sec
0.0
0406H
60.07
5-51
DC Braking Time
upon Stopping
0.0 to 25.0 sec
0.0
0407H
60.08
5-52
Frequency-point for
DC Braking
0.0 to 60.0 Hz
0.0
0408H
60.09
5-52
Torque
Compensation
00 to 10
00
0409H
60.10
5-53
Slip Compensation
0.00 to 10.00
0.0
040AH
60.11
5-53
PWM Carrier
Frequency
115V/230V/460V: 1 to 15 KHz
9
575V: 1 to 10 KHz
6
B-10
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-6: 70 — PROTECTIVE
Modbus Groups Page #
0500H
70.01
5-54
Description
Range
Over-voltage Stall
Prevention
00: Disable
User
Default Settings
01
01: Enable
0501H
70.02
5-54
Over Current Stall
Prevention during
Acceleration
00: Disable
20 to 200%
150
0502H
70.03
5-55
Over Current Stall
Prevention during
Operation
00: Disable
20 to 200%
150
0503H
70.04
5-55
Over-Torque
Detection Mode
(OL2)
00: Disabled
00
01: Enabled during constant
speed operation, drive halted
after fault
02: Enabled during constant
speed operation, operation
continues after fault
Parameter Tables
03: Enabled during operation,
drive halted after fault
04: Enabled during operation,
operation continues after
fault
0504H
70.05
5-56
Over-Torque
Detection Level
30 to 200%
150
0505H
70.06
5-56
Over-Torque
Detection Time
0.1 to 10.0 sec
0.1
0506H
70.07
5-56
Electronic Thermal
Overload Relay
00: Constant Torque
01
01: Variable Torque
02: Inactive
0507H
70.08
5-57
Electronic Thermal
30 to 300 sec
Motor Overload Time
60
0508H
70.09
5-57
Auto Voltage
Regulation (AVR)
00
00: AVR enabled
01: AVR disabled
02: AVR disabled during
deceleration
03: AVR disabled during stop
0509H
70.10
5-58
Auto Energy-Saving
00: Disable
00
01: Enable
050AH
70.11
5-58
Under Current
Detection Value
0.0 Disable
0.0
0.1 to No Load Amps
050BH
70.12
5-58
Under current
Detection Mode
0 or 1
0
050CH
70.13
5-58
Under current
Detection Time
0.0 to 20.0 sec.
1.0
MVX9000 User Manual
B-11
MVX9000 Parameter Listing
Table B-7: 80 — KEYPAD/DISPLAY
Modbus Groups Page #
Description
0600H
80.01
5-59
Software Version
0601H
80.02
5-59
AC Drive Rated
Current Display
0602H
80.03
5-59
Manufacturer Model
Information
Range
User
Default Settings
##.#
00: MVXF50#0-2
(230V 1ph/3ph 1/2 hp)
##
01: MVX001#0-2
(230V 1ph/3ph 1 hp)
02: MVX002#0-2
(230V 1ph/3ph 2 hp)
03: MVX003#0-2
(230V 1ph/3ph 3 hp)
04: MVX005#0-2
(230V 3ph 5 hp)
05: MVX007#0-2
(230V 3ph 7-1/2 hp)
Parameter Tables
06: Reserved
07: Reserved
08: MVX001#0-4
(460V 3ph 1 hp)
09: MVX002#0-4
(460V 3ph 2 hp)
10: MVX003#0-4
(460V 3ph 3 hp)
11: MVX005#0-4
(460V 3ph 5 hp)
12: MVX007#0-4
(460V 3ph 7-1/2 hp)
13: MVX010#0-4
(460V 3ph 10 hp)
14 – 19: Reserved
20: MVXF25#0-1
(115V 1ph 1/4 hp)
21: MVXF50#0-1
(115V 1ph 1/2 hp)
22: MVX001#0-1
(115V 1ph 1 hp)
23 – 49: Reserved
50: MVX001#0-5
(575V 3ph 1 hp)
51: MVX002#0-5
(575V 3ph 2 hp)
52: MVX003#0-5
(575V 3ph 3 hp)
53: MVX005#0-5
(575V 3ph 5 hp)
54: MVX007#0-5
(575V 3ph 7-1/2 hp)
55: MVX010#0-5
(575V 3ph 10 hp)
B-12
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-7: 80 — KEYPAD/DISPLAY (Continued)
Modbus Groups Page #
Description
Range
User
Default Settings
0603H
80.04
5-60
Present Fault Record
00: No Fault occurred
00
0604H
80.05
5-60
Second Most Recent
Fault Record
01: Over-current (oc)
00
0605H
80.06
5-60
Third Most Recent
Fault Record
02: Over-voltage (ov)
00
03: Overheat (oH)
04: Overload (oL)
05: Overload 1 (oL1)
06: Overload 2 (oL2)
07: External Fault (EF)
08: CPU Failure 1 (CF1)
09: CPU Failure 2 (CF2)
10: CPU Failure 3 (CF3)
11: Hardware Protection
Failure (hpF)
Parameter Tables
12: Over-current During Accel
(OCA)
13: Over-current During Accel
(OCd)
14: Over-current During
Steady State (OCn)
15:Ground Fault or Fuse
Failure (GFF)
16: Reserved
17: 3 Phase Input Power Loss
18: External Pause Function
(bb)
19: Auto Adjust Accel/Decel
Failure (cFA)
20: Software Protection Code
(codE)
0606H
80.07
5-61
Keypad Display
selection
(also order of
appearance when
scrolling through
display modes)
00: Command Frequency
("F")
00
01: Output Frequency ("H")
02: Output Current ("A")
03: User Defined ("U")
04: Output Voltage (u)
05: Unit Temperature (t)
06: Forward/Reverse
Direction ("Frd / rEv")
display only when enabled:
Counter ("c")
xx
display only when enabled:
PLC steps
display only when enabled:
PID Feedback
0607H
80.08
5-61
User Defined
Multiplier
0.01 to 160.00
1.00
0608H
80.09
5-61
External Terminal
Scan Time
01 to 20
01
MVX9000 User Manual
B-13
Table B-7: 80 — KEYPAD/DISPLAY (Continued)
Modbus Groups Page #
0609H
80.10
5-62
Description
Parameter Lock and
Configuration
User
Default Settings
Range
00: All parameters can be set
and read
00
01: All parameters are read
only
Parameter Tables
10: Reset all parameters to
the factory defaults
060AH
80.11
5-62
Elapsed Time (Run):
Day
0 to 65535 (show 6553.)
0
060BH
80.12
5-62
Elapsed Time (Run):
Minutes
0 to 65535 (show 6553.)
0
060CH
80.13
5-62
Elapsed Time (Power
on): Day
0 to 65535 (show 6553.)
0
060DH
80.14
5-62
Elapsed Time (Power
on): Minutes
0 to 65535 (show 6553.)
0
060EH
80.15
5-62
Automatic Display
Scroll
00: Disable
01: Scroll every 5 seconds
after 1 minute delay
02: Scroll every 15 seconds
after 1 minute delay
00
Table B-8: 90 — COMMUNICATION PARAMETERS
Modbus Groups Page #
0700H
90.01
5-63
Description
Communication
Protocol
User
Default Settings
Range
00: MODBUS ASCII mode
< 7 data bits, no parity, 2 stop
bits >
00
01: MODBUS ASCII mode
< 7 data bits, even parity,
1 stop bit >
02: MODBUS ASCII mode
< 7 data bits, odd parity,
1 stop bit >
03: MODBUS RTU mode
< 8 data bits, no parity, 2 stop
bits >
04: MODBUS RTU mode
< 8 data bits, even parity,
1 stop bit >
05: MODBUS RTU mode
< 8 data bits, odd parity,
1 stop bit >
0701H
90.02
5-63
RS-485
Communication
0702H
90.03
5-63
Transmission Speed
01 to d 254
01
00: 4800 baud
01
01: 9600 baud
02: 19200 baud
03: 38400 baud
B-14
MVX9000 User Manual
MVX9000 Parameter Listing
Table B-8: 90 — COMMUNICATION PARAMETERS (Continued)
Modbus Groups Page #
0703H
90.04
5-64
Description
Transmission Fault
Treatment
Range
00: Display fault and continue
operating
User
Default Settings
03
01: Display fault and RAMP to
stop
02: Display fault and COAST
to stop
03: No fault displayed and
continue operating
0704H
90.05
5-64
Over time Detection
0.0: Disable
0.0
0.0~120.0 sec
90.06
5-65
Communication
frequency
reference
0.0 to 400.0 Hz
0.0
0706H
90.07
5-65
Communication
command
Bit 0-1: 00 no function
01 Stop
10 Run
11 JOG + Run
Bit 2-3: Reserved
Bit 4-5: 00 no function
01 Forward
10 Reverse
11 Change direction
Bit 6-15: Reserved
NA
0707H
90.08
5-65
Communication for
EF/RESET
Bit 0: 1 EF On
Bit 1: 1 Reset
Bit 2-15: Reserved
NA
0708H
90.09
5-65
Status monitor for
error code
00: No Fault occurred
NA
Parameter Tables
0705H
01: Over-current (oc)
02: Over-voltage (ov)
03: Overheat (oH)
04: Overload (oL)
05: Overload 1 (oL1)
06: Overload 2 (oL2)
07: External Fault (EF)
08: CPU Failure 1 (CF1)
09: CPU Failure 2 (CF2)
10: CPU Failure 3 (CF3)
11: Hardware Protection
Failure (hpF)
12: Over-current During Accel
(OCA)
13: Over-current During Decel
(OCd)
14: Over-current During
Steady State (OCn)
15: Ground Fault or Fuse
Failure (GFF)
16: Reserved
17: 3-Phase Input Power Loss
18: External Pause Function
(bb)
MVX9000 User Manual
B-15
MVX9000 Parameter Listing
Table B-8: 90 — COMMUNICATION PARAMETERS (Continued)
Modbus Groups Page #
0708H
90.09
5-65
Description
Status monitor for
error code
User
Default Settings
Range
19: Auto Adjust Accel/Decel
Failure (cFA)
NA
20: Software Protection Code
(codE)
0709H
90.10
5-66
Status monitor for
AC drive
(Bit 0-1)
00 Stop
NA
01: Decelerate upon stop
command
10: Drive is standing by
11: Run
(Bit 2)
(Bit 3-4)
1: JOG
00: FWD
01: REV to FWD
10: FWD to REV
Parameter Tables
11: REV
(Bit 5-7)
Reserved
(Bit 8)
1: Source of frequency by
communication
(Bit 9)
1: Source of frequency by
Analog Input
(Bit 10)
1: Source of operation by
communication
(Bit 11)
1: Parameters have been
locked
(Bit 12-15)
Reserved
070AH
90.11
5-66
Status of
Communication
frequency
0.0 to 400.0 Hz
NA
070BH
90.12
5-66
Status of output
frequency
0.0 to 400.0 Hz
NA
070CH
90.13
5-66
Status of output
current
0.0 to Max Amps
NA
070DH
90.14
5-66
Status of user
defined display
(High word)
00 to 65535
NA
070EH
90.15
5-66
Status of user
defined display
(Low word)
0.00 to 65535
NA
070FH
90.16
5-66
Status of output
voltage
0.0 to Max V AC
NA
0710H
90.17
5-66
Status of drive
temperature
0.0 to Max degree C
NA
0711H
90.18
5-66
Status of DC bus
voltage
0.0 to Max V DC
NA
0712H
90.19
5-66
Status of multi-step
0 to Max step
NA
0713H
90.20
5-66
Status of PLC time
00 to 65535
NA
0714H
90.21
5-66
Status of counter
00 to 65535
NA
0715H
90.22
5-66
Status of feedback
signal
0.0 to 400.0 Hz
NA
0716H
90.23
5-66
Status of PID
Setpoint
0.0 to 400.0 Hz
NA
B-16
MVX9000 User Manual
Appendix C
Accessories
Inside this chapter …
Fuse Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-2
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-3
Braking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-4
Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-5
EMI Filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . C-6
DIN Rail Adapter (P/N: MVXDR) . . . . . . . . . . . . . . . . . C-10
Remote Kit (P/N: MVXRM) . . . . . . . . . . . . . . . . . . . . . C-11
Extension Input/Output (P/N: MVXEIO) . . . . . . . . . . . C-12
Accessories
MVX9000 User Manual
C-1
Fuse Specification
Fuse Specification
Smaller fuses than those shown in the table are permitted.
Table C-1: Fuse Specification
Accessories
Model
F25A0-1
F50A0-1
001A0-1
F50A0-2 (1p)
F50A0-2 (3p)
001A0-2 (1p)
001A0-2 (3p)
002A0-2 (1p)
002A0-2 (3p)
003A0-2 (1p)
003A0-2 (3p)
005A0-2
007A0-2
001A0-4
002A0-4
003A0-4
005A0-4
007A0-4
010A0-4
001A0-5
002A0-5
003A0-5
005A0-5
007A0-5
010A0-5
Input Output
Current Current
(A)
(A)
I(A)
Buss
6
9
16
6.3
3.2
11.5
6.3
15.7
9
27
15
19.6
28
4.2
5.7
6
8.5
14
23
2.4
4.2
5.9
7.0
10.5
12.9
15
30
50
25
10
45
20
60
25
100
40
60
100
10
15
20
30
50
70
5
10
15
15
20
30
JJN-15
JJN-30
JJN-50
JJN-25
JJN-10
JJN-45
JJN-20
JJN-60
JJN-25
JJN-100
JJN-40
JJN-60
JJN-100
JJS-10
JJS-15
JJS-20
JJS-30
JJS-50
JJS-70
JJS-6
JJS-10
JJS-15
JJS-15
JJS-20
JJS-50
1.6
2.5
4.2
2.5
2.5
5
5
7
7
10
10
17
25
3
4
5
8.2
13
18
1.7
3.0
4.2
6.6
9.9
12.2
Line Fuse
MMP Catalog
Number
XTPR010BC1
XTPR016BC1
XTPR020BC1
XTPR6P3BC1
XTPR004BC1
XTPR016BC1
XTPR010BC1
XTPR020BC1
XTPR016BC1
XTPR032BC1
XTPR010BC1
XTPR025BC1
XTPR032BC1
XTPR004BC1
XTPR6P3BC1
XTPR010BC1
XTPR016BC1
XTPR016BC1
XTPR025BC1
XTPR6P3BC1
XTPR6P3BC1
XTPR6P3BC1
XTPR010BC1
XTPR012BC1
XTPR016BC1
Recommended
Contactor
Catalog Number
XTCE009B_
XTCE012B_
XTCE025C_
XTCE009B_
XTCE009B_
XTCE012B_
XTCE009B_
XTCE025C_
XTCE012B_
XTCE032B_
XTCE018C_
XTCE025C_
XTCE032C_
XTCE009B_
XTCE009B_
XTCE009B_
XTCE018C_
XTCE025C_
XTCE025C_
XTCE007B_
XTCE007B_
XTCE007B_
XTCE007B_
XTCE012B_
XTCE015B_
Recommended Fuses for UL approval.
Equivalent fuse types = J class, CC class, T class and Type BS88 with a 600V limit.
C-2
MVX9000 User Manual
Wiring
Wiring
Table C-2: Wiring Table
Voltage,
Horsepower
Catalog Number
Max. Current
(A)
(Input/
Output)
Wire Gauge
(AWG)
Torque
Rating
(kgf-cm)
14
MVXF25A0-1 (1-phase)
115V AC, 1/4 hp
6/1.6
12 – 14
MVXF50A0-1 (1-phase)
115V AC, 1/2 hp
9/2.5
12 – 14
MVX001A0-1 (1-phase)
115V AC, 1 hp
16/4.2
12
MVXF50A0-2 (1-phase)
240V AC, 1/2 hp
6.3/2.5
12-14
MVXF50A0-2 (3-phase)
240V AC, 1/2 hp
3.2/2.5
12-14
MVX001A0-2 (1-phase)
240V AC, 1 hp
11.5/5
12-14
MVX001A0-2 (3-phase)
240V AC, 1 hp
6.3/5
12-14
MVX002A0-2 (1-phase)
240V AC, 2 hp
15.7/7
12
MVX002A0-2 (3-phase)
240V AC, 2 hp
9/7
12-14
MVX003A0-2 (1-phase)
240V AC, 3 hp
27/10
8
MVX003A0-2 (3-phase)
240V AC, 3 hp
15/10
8-12
MVX005A0-2
240V AC, 5 hp
19.6/17
8-10
MVX007A0-2
240V AC, 7-1/2 hp
28/25
8
MVX001A0-4
480V AC, 1 hp
4.2/3
12-14
MVX002A0-4
480V AC, 2 hp
5.6/4
12-14
MVX003A0-4
480V AC, 3 hp
6/5
12-14
MVX005A0-4
480V AC, 5 hp
8.5/8.2
8-14
MVX007A0-4
480V AC, 7-1/2 hp
14/13
8-12
MVX010A0-4
480V AC, 10 hp
23/18
8-10
MVX001A0-5
575V AC, 1 hp
1.7/2.4
12 – 14
14
MVX002A0-5
575V AC, 2 hp
3.0/4.2
MVX003A0-5
575V AC, 3 hp
4.2/5.9
MVX005A0-5
575V AC, 5 hp
6.6/7.0
8 – 14
15
MVX007A0-5
575V AC, 7-1/2 hp
9.9/10.5
MVX010A0-5
575V AC, 10 hp
12.2/12.9
15
14
15
Accessories
MVX9000 User Manual
14
8 – 12
C-3
Braking
Braking
Note: Please only use Eaton’s recommended Cutler-Hammer values. Other
resistors values will void the warranty. Please contact the nearest Eaton
representative near you for use of the special resistors. The resistors should be at
least 10 cm away from AC drive to avoid possible noise.
Table C-3: All Braking Resistors & Braking Units Used in AC Drives
Applicable
Motor
Voltage
115V
Series
230V
Series
Accessories
460V
Series
575V
Series
hp
kW
Braking
Resistor
Kit P/N
Qty of
Resistors
in Kit &
Wiring
Total
Resistance
and Wattage
applied to
MVX
Full Load
Torque
(kgf-m) of
System
Braking
Torque
@
10%ED
with Kit
1/4
0.20
K13-000034-0821
1
80W 200Ω
0.108
220%
1/2
0.37
K13-000034-0821
1
80W 200Ω
0.216
220%
1
0.75
K13-000034-0821
1
80W 200Ω
0.427
125%
1/2
0.37
K13-000034-0821
1
80W 200Ω
0.216
220%
1
0.75
K13-000034-0821
1
80W 200Ω
0.427
125%
2
1.5
K13-000034-0824
1
300W 70Ω
0.849
125%
3
2.2
K13-000034-0824
1
300W 70Ω
1.262
125%
5
3.7
K13-000034-0825
1
400W 40Ω
2.080
125%
7-1/2
5.5
K13-000034-0826
2 in Parallel
500W 30Ω
3.111
125%
1
0.75
K13-000034-0841
1
80W 750Ω
0.427
125%
2
1.5
K13-000034-0843
1
300W 250Ω
0.849
125%
3
2.2
K13-000034-0843
1
300W 250Ω
1.262
125%
5
3.7
K13-000034-0844
1
400W 150Ω
2.080
125%
7-1/2
5.5
K13-000034-0845
2 in Parallel
500W 100Ω
3.111
125%
10
7.5
K13-000034-0846
3 in Parallel
1000W 75Ω
4.148
125%
1
0.75
K13-000034-0851
1
300W 400Ω
0.427
125%
2
1.5
K13-000034-0851
1
300W 400Ω
0.849
125%
3
2.2
K13-000034-0852
600W 200Ω
1.262
125%
5
3.7
K13-000034-0852
600W 200Ω
2.080
125%
7-1/2
5.5
K13-000034-0852
600W 200Ω
3.111
125%
10
7.5
K13-000034-0853
2000W 100Ω
4.148
125%
Note: Using resistors other than the value stated will void the warranty.
C-4
MVX9000 User Manual
EMI Filter Cross-Reference
EMI Filter Cross-Reference
Table C-4: EMI Filter Cross-Reference
Model of AC Drive
hp/Voltage
EMI Filter
MVXF50A0-2
1/2 hp, 230V AC, Single-phase
K13-000034-0111
MVX001A0-2
1 hp, 230V AC, Single-phase
K13-000034-0111
MVX002A0-2
2 hp, 230V AC, Single-phase
K13-000034-0111
MVX003A0-2
3 hp, 230V AC, Single-phase
K13-000034-0112
MVXF50A0-2
1/2 hp, 230V AC, Three-phase
K13-000034-0113
MVX001A0-2
1 hp, 230V AC, Three-phase
K13-000034-0113
MVX002A0-2
2 hp, 230V AC, Three-phase
K13-000034-0113
MVX003A0-2
3 hp, 230V AC, Three-phase
K13-000034-0113
MVX001A0-4
1 hp, 460V AC, Single-phase
K13-000034-0114
MVX002A0-4
2 hp, 460V AC, Single-phase
K13-000034-0114
MVX003A0-4
3 hp, 460V AC, Single-phase
K13-000034-0114
MVX005A0-2
5 hp, 230V AC, Three-phase
K13-000034-0115
MVX007A0-2
7-1/2 hp, 230V AC, Three-phase
K13-000034-0115
MVX005A0-4
5 hp, 460V AC, Three-phase
K13-000034-0116
MVX007A0-4
7-1/2 hp, 460V AC, Three-phase
K13-000034-0116
MVX010A0-4
10 hp, 460V AC, Three-phase
K13-000034-0117
If users want to operate the AC motor drive in coordination with the EMI filters
manufactured by Eaton, refer to the above table for the appropriate I/O terminals
of the applicable filters.
Accessories
The filter will cause a high leakage circuit. Grounding is required.
MVX9000 User Manual
C-5
EMI Filter Cross-Reference
EMI Filters
B
5.12±.08
(130.0±2.0)
A
8.66±.08
(220.0±2.0)
F
7.87±.39
(200.0±10.0)
1015 AWG
14 Brown
Power-In
1015 AWG
14 Blue
L/L1
N/L2
1015 AWG
14 Y/G
7.80±.04
(198.0±1.0)
E
D
C
1.77±.08
3.94±.04
(45.0±2.0) (100.0±1.0)
M4 x 0.7
Typ. 3 Places
Figure C-1: EMI Filter (K13-000034-0111) Used on
1/2 – 2 hp/230V Single-Phase Models — Approximate Dimensions in Inches (mm)
A
12.05±.08
(306.0±2.0)
Power-In
Accessories
6.02±.08
(153.0±2.0)
E
C
1.97±.08
(50.0±2.0)
H
.98±.04
(25.0±1.0)
D
4.80±.04
(122.0±1.0)
9.84±.39
(250.0±10.0)
F
1015 AWG
12 Black
1015 AWG
12 Blue
L/L1
N/L2
1015 AWG
12 G/Y
7.21±.04
B (284.0±1.0)
M5 x 0.8
Typ. 4 Places
7.21±.04
G (284.0±1.0)
.12 (3.0) Radius
.18 (4.5) Radius
.39 (10.0)
.31 (8.0) Dia.
Typ. 4 Places
Figure C-2: EMI Filter (K13-000034-0112) Used on
3 hp/230V Single-Phase Models — Approximate Dimensions in Inches (mm)
C-6
MVX9000 User Manual
EMI Filter Cross-Reference
B
5.12±.08
(130.0±2.0)
Power-In
A
8.66±.08
(220.0±2.0)
F
7.87±.39
(200.0±10.0)
1015 AWG
16 Black
1015 AWG
16 Blue
R/L1
S/L2
T/L3
1015 AWG
16 Y/G
D
7.80±.04
(198.0±1.0)
E
C
3.94±.04
1.77±.08
(45.0±2.0) (100.0±1.0)
1015 AWG
16 Brown
M4 x 0.7
Typ. 3 Places
Figure C-3: EMI Filter (K13-000034-0113) Used on
1/2 – 3 hp/230V Three-Phase Models — Approximate Dimensions in Inches (mm)
Power-In
A
8.66±.08
(220.0±2.0)
Accessories
B
5.12±.08
(130.0±2.0)
F
7.87±.39
(200.0±10.0)
1015 AWG
18 Black
1015 AWG
R/L1
18 Blue
S/L2
T/L3
1015 AWG
18 Y/G
D
C
1.77±.08 3.94±.04
(45.0±2.0) (100.0±1.0)
7.80±.04
(198.0±1.0)
E
1015 AWG
18 Brown
M4 x 0.7
Typ. 3 Places
Figure C-4: EMI Filter (K13-000034-0114) Used on
1 – 3 hp/460V Three-Phase Models — Approximate Dimensions in Inches (mm)
MVX9000 User Manual
C-7
EMI Filter Cross-Reference
3.54±.08 1.18 1.57 1.57 1.57
(90.0±2.0) (30.0)(40.0) (40.0) (40.0)
D
.28 x .39
(7.0 x 10.0)
Typ. 2 Places
.28 (7.0)
Typ.
2 Places
M4 x 0.7
Typ. 4 Places
Power-In
A 9.84±.08 (250.0±2.0)
B 10.63±.04 (270.0±1.0)
C 11.54 (293.0) Max.
E
2.36±.04
(60.0±1.0)
M6 x 1.0
Typ. 4 Places
G
11.81±.39
(300.0±10.0)
1015 AWG
10 Y/G
6.97
(177.0)
Max.
F
5.91±.08
(150.0±2.0)
.79
(20.0)
T/L3
S/L2
R/L1
.79
(20.0)
.79
1015 AWG (20.0)
10 Blue
Figure C-5: EMI Filter (K13-000034-0115) Used on 5 – 7-1/2 hp/230V
Three-Phase Models — Approximate Dimensions in Inches (mm)
A
12.05±.08
(306.0±2.0)
Power-In
Accessories
6.02±.08
(153.0±2.0)
E
C
1.97±.08
(50.0±2.0)
H
.98±.04
(25.0±1.0)
D
4.80±.04
(122.0±1.0)
11.18±.04
B (284.0±1.0)
M5 x 0.8
Typ. 4 Places
11.18±.04
G (284.0±1.0)
11.81±.39
(300.0±10.0)
F
1015 AWG
14 Black
1015 AWG
14 Blue
R/L1
S/L2
T/L3
1015 AWG
14 Y/G 1015 AWG
14 Brown
.12 (3.0) Radius
.18 (4.5) Radius
.39 (10.0)
.31 (8.0) Dia.
Typ. 4 Places
Figure C-6: EMI Filter (K13-000034-0116) Used on 5 – 7-1/2 hp/460V
Three-Phase Models — Approximate Dimensions in Inches (mm)
C-8
MVX9000 User Manual
EMI Filter Cross-Reference
6.02±.08
(153.0±2.0)
E
Power-In
A
12.05±.08
(306.0±2.0)
C
1.97±.08
(50.0±2.0)
D
4.80±.04
(122.0±1.0)
H
.98±.04
(25.0±1.0)
11.18±.04
B (284.0±1.0)
M5 x 0.8
Typ. 4 Places
11.18±.04
G (284.0±1.0)
11.81±.39
(300.0±10.0)
F
1015 AWG
14 Black
1015 AWG
14 Blue
R/L1
S/L2
T/L3
1015 AWG
1015 AWG
14 Y/G
14 Brown
.12 (3.0) Radius
.18 (4.5) Radius
.39 (10.0)
.31 (8.0) Dia.
Typ. 4 Places
Figure C-7: EMI Filter (K13-000034-0117) Used on 10 hp/460V
Three-Phase Models — Approximate Dimensions in Inches (mm)
Accessories
MVX9000 User Manual
C-9
DIN Rail Adapter (P/N: MVXDR)
DIN Rail Adapter (P/N: MVXDR)
To mount the drive on a DIN Rail Adapter, place the drive and mounting plate on
the rail and push the lever toward the rail.
For Models: MVXF25A0-1, MVXF50A0-1, MVX001A0-1, MVXF50A0-2,
MVX001A0-2, MVX002A0-2, MVX001A0-4, MVX002A0-4, MVX003A0-4,
MVX001A0-5, MVX002A0-5, MVX003A0-5
Screw
M4 L20
Screw
M4 L9
3.94 (100.0)
3.50 (89.0)
1.34
(34.0)
.16
(4.0)
.31
(8.0)
.71
(18.0)
5.96
(151.5)
4.92
(125.0)
Accessories
5.53
(140.5)
1.40
(35.5)
.98
(25.0)
Screw
M4 L9
.22
(5.5)
Nut
M4 P .03 (.7)
.22
(5.5)
1.97
(50.0)
Screw
M4 L9
3.48
(88.5)
Figure C-8: DIN Rail Adapter (MVXDR)
Approximate Dimensions in Inches (mm)
C-10
MVX9000 User Manual
Remote Kit (P/N: MVXRM)
Remote Kit (P/N: MVXRM)
5 meter keypad cable
1.09
(27.8)
1.04
(26.5)
16' 5"
(5m)
1.44
(36.5)
.65
(16.4)
1.43
(36.4)
.91
.59 1.50 (23.0)
(15.0) (38.0) Dia.
1.02
(26.0)
.56
(14.4)
Figure C-9: Remote Kit (MVXRM)
Approximate Dimensions in Inches (mm) Except as Noted
Accessories
MVX9000 User Manual
C-11
Extension Input/Output (P/N: MVXEIO)
Extension Input/Output (P/N: MVXEIO)
2.91
(73.9)
2.36
(60.0)
1.04
(26.4)
.99
(25.2)
.41
(10.5)
RO7
RO8
RO9
RO4
RO5
RO6
DI8
DI7
COM
1.40
(35.5)
RO7
RO8
RO9
RO4
RO5
RO6
DI8
DI7
COM
3.54
(90.0)
1.97
(50.0)
MVXEIO
Accessories
.12
(3.0)
Figure C-10: Extension I/O (MVXEIO)
Approximate Dimensions in Inches (mm)
C-12
MVX9000 User Manual
Extension Input/Output (P/N: MVXEIO)
Table C-5: Terminals
Terminal Symbols
Terminal Name
Remarks
R04-R05
Digital Output Relay
R06-R05
Digital Output Relay
Refer to User Manual 40.04 Relay output contact
R04-R05 (NC Contact)
R06-R05 (NO Contact)
R07-R08
Digital Output Relay
R09-R08
Digital Output Relay
Refer to User Manual 40.04 Relay output contact
R07-R08 (NC Contact)
R09-R08 (NO Contact)
DI7-COM
Digital Input 7
Refer to User Manual 30.12
DI8-COM
Digital Input 8
Accessories
MVX9000 User Manual
C-13
Extension Input/Output (P/N: MVXEIO)
Accessories
This page intentionally left blank.
C-14
MVX9000 User Manual
Appendix D
Dimensions
Inside this chapter …
Digital Keypad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Drives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
D-2
D-4
Dimensions
MVX9000 User Manual
D-1
Digital Keypad
Digital Keypad
.09 (2.3) Dia. x .19 (4.8) Deep
Connection Hole for
Extension Cable Screw
(Typ. 2 Places)
2.54
(64.6)
2.36
(60)
1.48
(37.6)
.92
(23.3)
3.46
(88)
1.63
(41.5)
2.22
(56.5)
1.81
(46)
M4 P .03 (.7) x .19 (4.8) Deep
for Mounting Screw
(Typ. 3 Places)
1.20
(30.5)
Dimensions
.08
(2.0)
Figure D-1: Digital Keypad — Approximate Dimensions in Inches (mm)
D-2
MVX9000 User Manual
Digital Keypad
.04 to .12
(1.0 to 3.0)
Thickness
Remove
Adhesive
Paper
.07
(1.8)
Water Resistant Gasket
(Adhesive Paper Backing)
.20 (5.0) Dia.
(Typ. 3 Places)
Cut-Out for the
Extension Cable
Dimensions
.71
(18.0)
2.55
(64.8)
1.28
(32.5)
1.57
(40.0)
1.48
(37.6)
Hole Dimension for Mounting
Figure D-2: Digital Keypad — Mounting Dimensions in Inches (mm)
MVX9000 User Manual
D-3
Drives
Drives
5.62 (142.7)
5.22 (132.5)
3.94 (100.0)
3.50 (89.0)
.39 (10.0)
.18 (4.5)
Dia. Typ.
5.94
(151.0)
6.34
(161.0) 5.51
(140.0)
3.35
(85.0)
.55
(14.0)
.91
(23.0)
.08
(2.0)
.39
(10.0)
1.77
(45.0)
MOTOR Braking
T1 T2 T3 B1 B2
Dimensions
MVXF25A0-1
MVXF50A0-1
MVX001A0-1
MVXF50A0-2
MVX001A0-2
MVX002A0-2
MVX001A0-4
MVX002A0-4
MVX003A0-4
MVX001A0-5
MVX002A0-5
MVX003A0-5
(115V, 1 ph 1/4 hp)
(115V, 1 ph 1/2 hp)
(115V, 1 ph 1 hp)
(230V, 1 ph /3 ph, 1/2 hp)
(230V, 1 ph /3 ph, 1 hp)
(230V, 1 ph /3 ph, 2 hp)
(460V, 3 ph, 1 hp)
(460V, 3 ph, 2 hp)
(460V, 3 ph, 3 hp)
(575V, 3 ph 1 hp)
(575V, 3 ph 2 hp)
(575V, 3 ph 3 hp)
Figure D-3: 1/4 – 3 hp Drive — Approximate Dimensions in Inches (mm)
D-4
MVX9000 User Manual
Drives
.23 (5.8)
Dia. Typ.
8.07
(205.0)
7.55 (191.7)
7.15 (181.5)
.41 (10.5)
4.92 (125.0)
4.33 (110.0)
9.25
(235.0)
8.66
(220.0)
4.70
(119.5)
1.85
(46.9)
.59
(15.0)
MOTOR
T1
T2
T3
.10 (2.5)
3.48 (88.5)
Braking
B1
B2
MVX003A0-2
MVX005A0-2
MVX007A0-2
MVX005A0-4
MVX007A0-4
MVX010A0-4
MVX005A0-5
MVX007A0-5
MVX010A0-5
(230V, 1 ph /3 ph, 3 hp)
(230V, 3 ph, 5 hp)
(230V, 3 ph, 7-1/2 hp)
(460V, 3 ph, 5 hp)
(460V, 3 ph, 7-1/2 hp)
(460V, 3 ph, 10 hp)
(575V, 3 ph, 5 hp)
(575V, 3 ph, 7-1/2 hp)
(575V, 3 ph, 10 hp)
Figure D-4: 3 – 10 hp Drive — Approximate Dimensions in Inches (mm)
MVX9000 User Manual
D-5
Dimensions
7.15
(181.5)
.59
(15.0)
Dimensions
This page intentionally left blank.
D-6
MVX9000 User Manual
Appendix E
Declaration of Conformity
Inside this chapter …
Low Voltage Directive . . . . . . . . . . . . . . . . . . . . . . . . .
EC Declaration of Conformity . . . . . . . . . . . . . . . .
Electromagnetic Compatibility . . . . . . . . . . . . . . . . .
EC Declaration of Conformity . . . . . . . . . . . . . . . .
E-2
E-2
E-3
E-3
Declaration of
Conformity
MVX9000 User Manual
E-1
Low Voltage Directive
Low Voltage Directive
EC Declaration of Conformity
According to the Low Voltage Directive 73/23/EEC and the Amendment
Directive 93/68/EEC Digital Keypad
For the following equipment:
AC Motor Drive
(Product Name)
MVXF25A0-1, MVXF50A0-1, MVX001A0-1, MVXF50A0-2, MVX001A0-2,
MVX002A0-2, MVX003A0-2, MVX005A0-2, MVX007A0-2, MVX001A0-4,
MVX002A0-4, MVX003A0-4, MVX005A0-4, MVX007A0-4, MVX010A0-4
(Model Name)
is herewith confirmed to comply with the requirements set out in the Council
Directive 73/23/EEC for electrical equipment used within certain voltage limits
and the Amendment Directive 93/68/EEC. For the evaluation of the compliance
with this Directive, the following standard was applied:
EN 50178
The following manufacturer/importer is responsible for this declaration:
Eaton Electrical Inc.
(Company Name)
Declaration of
Conformity
31-1, Shien Pan Road, Kuei San Industrial Zone, Taoyuan Shien, Taiwan 333, R.O.C.
(Company Address)
E-2
MVX9000 User Manual
Electromagnetic Compatibility
Electromagnetic Compatibility
EC Declaration of Conformity
According to the Electromagnetic Compatibility 89/336/EEC and the
Amendment Directive 93/68/EEC
For the following equipment:
AC Motor Drive
(Product Name)
MVXF25A0-1, MVXF50A0-1, MVX001A0-1, MVXF50A0-2, MVX001A0-2,
MVX002A0-2, MVX003A0-2, MVX005A0-2, MVX007A0-2, MVX001A0-4,
MVX002A0-4, MVX003A0-4, MVX005A0-4, MVX007A0-4, MVX010A0-4
(Model Designation)
is herewith confirmed to comply with the requirements set out in the Council
Directive 89/336/EEC for electromagnetic compatibility and the Amendment
Directive 93/68/EEC. For the evaluation of the compliance with this Directive,
the following standard was applied:
EN61800-3, EN55011, EN50081-2, EN50082-2, EN61000-4-2, EN61000-4-3,
EN61000-4-4, EN61000-4-5, EN61000-4-6, EN61000-4-8
The following manufacturer/importer is responsible for this declaration:
Eaton Electrical Inc.
(Company Name)
31-1, Shien Pan Road, Kuei San Industrial Zone, Taoyuan Shien, Taiwan 333, R.O.C.
(Company Address)
Declaration of
Conformity
MVX9000 User Manual
E-3
Declaration of
Conformity
This page intentionally left blank.
E-4
MVX9000 User Manual
Company Information
Eaton’s electrical business is a global leader in electrical control, power distribution, and industrial
automation products and services. Through advanced product development, world-class
manufacturing methods, and global engineering services and support, Eaton’s electrical business
provides customer-driven solutions under brand names such as Cutler-Hammer®, Powerware®,
Durant®, Heinemann®, Holec® and MEM®, which globally serve the changing needs of the industrial,
utility, light commercial, residential, and OEM markets. For more information, visit
www.EatonElectrical.com.
Eaton Corporation is a diversified industrial manufacturer with 2005 sales of $11.1 billion. Eaton is a
global leader in electrical systems and components for power quality, distribution and control; fluid
power systems and services for industrial, mobile and aircraft equipment; intelligent truck drivetrain
systems for safety and fuel economy; and automotive engine air management systems, powertrain
solutions and specialty controls for performance, fuel economy and safety. Eaton has 59,000
employees and sells products to customers in more than 125 countries. For more information, visit
www.eaton.com.
Eaton Electrical Inc.
1000 Cherrington Parkway
Moon Township, PA 15108-4312
USA
tel: 1-800-525-2000
www.EatonElectrical.com
© 2006 Eaton Corporation
All Rights Reserved
Publication No. TD04002003E/CPG
February 2006
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