LCX9000 Liquid-Cooled Drives
User Manual
January 2007
Supersedes September 2006
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
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 LCX9000 Liquid-Cooled Drive.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table of Contents
LIST OF FIGURES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LIST OF TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
iii
v
SAFETY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Definitions and Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Hazardous High Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Warnings, Cautions and Notices. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
vii
vii
vii
viii
CHAPTER 1 — OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Receiving and Inspection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Storage and Shipping . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Technical Data. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-1
1-1
1-3
1-3
1-3
CHAPTER 2 — INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Mounting. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Drive Derating. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Input Chokes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-1
2-1
2-8
2-19
2-20
CHAPTER 3 — POWER WIRING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable Installation Instructions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installation Space. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Grounding of Power Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable Installation and the UL Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Cable and Motor Insulation Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-1
3-1
3-7
3-9
3-10
3-10
3-11
CHAPTER 4 — CONTROL WIRING AND INTERNAL CONNECTIONS . . . . . . . . . . . . . . .
Control Board Power-Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Terminal Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Unit Mounting Box . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Internal Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1
4-3
4-4
4-7
4-10
4-13
CHAPTER 5 — MENU INFORMATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Keypad Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Indicators on the Keypad Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Keypad Pushbuttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Menu Navigation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Further Keypad Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-1
5-1
5-1
5-3
5-5
5-30
CHAPTER 6 — START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Safety Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sequence of Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-1
6-1
6-2
APPENDIX A — FAULT CODES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Load Test with Motor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
DC Link Test (without Motor). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
A-1
A-4
A-5
APPENDIX B — TECHNICAL REFERENCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Main Circuit and Control Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fan Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
B-1
B-1
B-8
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
List of Figures
Figure 1-1: Liquid-Cooled Drive Principal Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . .
1-5
Figure 2-1: Lifting Points for Drives Consisting of One Module (Left)
and Several Modules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
2-1
2-2
2-3
2-3
2-4
2-4
2-5
2-6
2-7
Figure 2-2: LCX9000 Liquid-Cooled Drive, CH3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-3: LCX9000 Liquid-Cooled Drive, CH4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-4: LCX9000 Liquid-Cooled Drive, CH5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-5: LCX9000 Liquid-Cooled Drive, CH61 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-6: LCX9000 Liquid-Cooled Drive, CH72 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-7: Drive Mounted Inside Mounting Bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-8: LCX9000 Liquid-Cooled Drive with Mounting Bracket, CH63 . . . . . . . . . . . . .
Figure 2-9: LCX9000 Liquid-Cooled Drive, CH74, IP00 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 2-10: Example of Cooling System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-10
Figure 2-11: Example PI-Diagram of Cooling System and Connections . . . . . . . . . . . . . 2-11
Figure 2-12: Safe Operating Conditions in Relation to Condensation . . . . . . . . . . . . . . . 2-13
Figure 2-13: Aluminum Hose Adapters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14
Figure 2-14: External Thread of Hose Adapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-14
Figure 2-15: Pressure Loss — CH6x . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-15
Figure 2-16: Pressure Loss — CH7x . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-16
Figure 2-17: Flow Switch: Hose Connection, Fast Connector (Electrical),
Fast Connector Lock Screw, Cable Seal and Clamp . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17
Figure 2-18: Direction of Coolant Circulation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-18
Figure 2-19: Example of Input Chokes for Liquid-Cooled Sizes Up to 62A . . . . . . . . . . . 2-21
Figure 2-20: Example of Input Chokes for Liquid-Cooled
Sizes 87 – 145A and 590A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-21
Figure 2-21: Example of Input Chokes for Liquid-Cooled Sizes 261 – 1150A . . . . . . . . . . 2-23
Figure 3-1: Maximum Terminal Stresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 3-2: Installation Space . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-8
3-9
Figure 3-3: Grounding Terminal on Mounting Plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
Figure 4-1: Control Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-2: Basic and Option Board Connections of the Control Board . . . . . . . . . . . . . .
Figure 4-3: Drives Connected in Parallel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1
4-2
4-2
Figure 4-4: Connection of Control Board Cable from the Power Board
WRONG: Terminal J1 (Upper) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-3
Figure 4-5: Connection of Control Board Cable from the Power Board
CORRECT: Terminal J2 (Lower) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-4
4-4
4-5
4-5
4-6
4-8
4-8
4-9
Figure 4-6: I/O Terminals of the Two Basic Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-7: General Wiring Diagram of the Basic I/O Board (OPT-A9) . . . . . . . . . . . . . . .
Figure 4-8: General Wiring Diagram of the Basic Relay Board (OPT-A2) . . . . . . . . . . . . .
Figure 4-9: Galvanic Isolation Barriers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-10: Positive/Negative Logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-11: Jumper Blocks on OPT-A9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-12: Jumper Selection for OPT-A9 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-13: Control Unit Mounting Box . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10
Figure 4-14: Control Unit Installed into the Mounting Box;
Left: Front; Right: Back . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-10
Figure 4-15: Terminals and Connections between ASIC and Driver Board
(CH61, CH62 and CH72) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14
Figure 4-16: Terminals and Connections between ASIC and
Driver Board (CH63) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
Figure 4-17: Terminals and Connections between ASIC and Driver Boards
(CH64 and CH74) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-16
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
List of Figures (Continued)
Figure 4-18: Remove Cover to Access Power Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 4-19: Optical Cable Adapter Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-17
4-18
5-1
Figure 5-1: Control Keypad and Drive Status Indications . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-2: Keypad Pushbuttons . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-3: Keypad Display Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-4: Keypad Navigation Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-5: Monitoring Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-6: Parameter Value Change Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-7: Selection of Control Place . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-8: Normal State, No Faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-9: Fault Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-10: Fault History Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-11: Selection of Language . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-12: Change of Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-13: Storing and Loading of Parameter Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-14: Parameter Copy to Keypad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-15: Parameter Comparison . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-16: Password Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-17: Parameter Locking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-18: Activation of Start-Up Wizard . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-19: Disabling the Change of Multimonitoring Items . . . . . . . . . . . . . . . . . . . . .
Figure 5-20: Keypad Settings Submenu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-21: Default Page Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-22: Timeout Time Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-23: HMI Acknowledge Timeout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-24: Counter Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-25: Applications Info Submenu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-26: Expander Board Information Menus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure 5-27: Expander Board Information Menu . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-1: Main Circuit and Control Diagram, CH3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-2: Main Circuit and Control Diagram, CH4 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-3: Main Circuit and Control Diagram, CH5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-4: Main Circuit and Control Diagram, CH61 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-5: Main Circuit and Control Diagram, CH61, Control . . . . . . . . . . . . . . . . . . . . .
Figure B-6: Main Circuit and Control Diagram, CH63, Module 1 . . . . . . . . . . . . . . . . . . .
Figure B-7: Main Circuit and Control Diagram, CH63, Module 2 . . . . . . . . . . . . . . . . . . .
Figure B-8: Main Circuit and Control Diagram, CH63, Control . . . . . . . . . . . . . . . . . . . . .
Figure B-9: Main Circuit and Control Diagram, CH72 . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-10: Main Circuit and Control Diagram, CH72, Control . . . . . . . . . . . . . . . . . . . .
Figure B-11: Main Circuit and Control Diagram, CH74, Phase U . . . . . . . . . . . . . . . . . . .
Figure B-12: Main Circuit and Control Diagram, CH74, Control . . . . . . . . . . . . . . . . . . . .
Figure B-13: Fan Mounting Pallet — Hot Dip Zinc Coated . . . . . . . . . . . . . . . . . . . . . . . .
Figure B-14: Fan Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-3
5-5
5-6
5-7
5-9
5-10
5-11
5-12
5-14
5-17
5-17
5-18
5-19
5-20
5-21
5-22
5-22
5-23
5-23
5-23
5-24
5-25
5-27
5-28
5-29
5-30
B-1
B-2
B-2
B-3
B-3
B-4
B-4
B-5
B-5
B-6
B-6
B-7
B-8
B-8
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
List of Tables
Table 1-1: LCX9000 Liquid-Cooled Adjustable Frequency Drive
Catalog Numbering System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-2
1-6
Table 1-2: Power Ratings and Dimensions of Liquid-Cooled Drive,
Supply Voltage 380 – 500V AC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 1-3: Power Ratings and Dimensions of Liquid-Cooled Drive,
Supply Voltage 525 – 690V AC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1-8
1-9
2-2
2-5
2-8
2-8
2-9
2-9
Table 1-4: Technical Information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 2-1: One-Module Drive Dimensions (Mounting Base Included). . . . . . . . . . . . . . . .
Table 2-2: Several Module Drive Dimensions (Mounting Bracket Included). . . . . . . . . . .
Table 2-3: Drinking Water Chemical Specification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 2-4: Drinking Water Quality Recommendations — Maximum Values. . . . . . . . . . .
Table 2-5: Drinking Water Quality Recommendations — Desired Values . . . . . . . . . . . . .
Table 2-6: Process Water Specification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 2-7: Information About Cooling Agent and Its Circulation . . . . . . . . . . . . . . . . . . . . 2-11
Table 2-8: Cooling Agent Flow Rates (GPM) in Relation to Power Loss
at Certain Glycol/Water Mixture. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12
Table 2-9: Coolant Volumes and Temperatures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-12
Table 2-10: Liquid Connector Types (All Pressure Values at Nominal Flow). . . . . . . . . . . 2-14
Table 2-11: Pressure Losses — CH6x . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-15
Table 2-12: Pressure Losses — CH7x . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-16
Table 2-13: Flow Switch Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-17
Table 2-14: Maximum Temperatures of Coolant at Switching
Frequency of 3.6 kHz . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-19
Table 2-15: Maximum Temperatures of Coolant at Switching
Frequency of 1.5 kHz . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-19
Table 2-16: Input Choke Dimensioning, 6-Pulse Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-20
Table 2-17: Choke Dimensions Sizes 23 – 145A and 590A . . . . . . . . . . . . . . . . . . . . . . . . . 2-22
Table 2-18: Choke Dimensions Sizes 261 – 1150A. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-23
Table 3-1: Cable Types Required to Meet Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 3-2: Cable Sizes 400 – 500V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 3-3: Cable Sizes 525 – 690V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 3-4: Tightening Torques of Bolts. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 3-5: Fuse Sizes for LCX9000 Liquid-Cooled (500V) Drives . . . . . . . . . . . . . . . . . . . .
Table 3-6: Fuse Sizes for LCX9000 Liquid-Cooled (690V) Drives . . . . . . . . . . . . . . . . . . . .
Table 4-1: Control I/O Terminal Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3-2
3-2
3-4
3-4
3-5
3-6
4-7
Table 4-2: Installing the Control Unit Mounting Box. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-11
Table 4-3: Terminals (CH61, CH62 and CH72) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-14
Table 4-4: Terminals (CH63). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
Table 4-5: Terminals between Driver Boards (CH64 and CH74) . . . . . . . . . . . . . . . . . . . . . 4-16
Table 4-6: Terminals on Adapter Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-18
Table 5-1: Drive Status Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-2: Control Place Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-3: Status LEDs (Green – Green – Red). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-4: Text Lines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-5: Button Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-6: Monitored Signals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-7: Keypad Control Parameters, M3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-2
5-2
5-3
5-3
5-4
5-8
5-9
Table 5-8: Fault Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-12
Table 5-9: Fault Time Recorded Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13
Table 5-10: Real Time Record . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-13
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January 2007
List of Tables (Continued)
Table 5-11: System Menu Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-12: Counter Pages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
5-15
5-26
5-27
5-27
5-28
5-28
5-30
A-1
Table 5-13: Resettable Counters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-14: Software Information Pages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-15: Applications Information Pages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-16: Hardware Information Pages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table 5-17: Expander Board Parameters (Board OPTA1). . . . . . . . . . . . . . . . . . . . . . . . . .
Table A-1: Fault Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Safety
Definitions and Symbols
WARNING
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.
WARNING
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
WARNING
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.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Warnings, Cautions and Notices
Read this manual thoroughly and make sure you understand the procedures before you
®
attempt to install, set up, or operate this Cutler-Hammer LCX9000 Drive from Eaton’s
electrical business.
Warnings
WARNING
Only a competent electrician may carry out the electrical
installation.
WARNING
The LCX9000 Liquid-Cooled drive is meant for fixed installations only.
WARNING
Do not perform any measurements when the drive is connected to
the mains. Prior to measurements on the motor or the motor cable,
disconnect the motor cable from the drive.
WARNING
The drive has a capacitive leakage current.
WARNING
If the drive is used as a part of a machine, the machine
manufacturer is responsible for providing the machine with a main
switch (EN 60204-1).
WARNING
Only spare parts delivered by Eaton can be used.
WARNING
The motor starts at power-up if the start command is “ON”.
Furthermore, the I/O functionalities (including start inputs) may
change if parameters, applications or software are changed.
Disconnect, therefore, the motor if an unexpected start can cause
danger.
WARNING
The components of the power unit of the drive are live when it is
connected to mains potential. Coming into contact with this
voltage is extremely dangerous and may cause death or severe
injury. The control unit is isolated from the mains potential.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
WARNING
The motor terminals U, V, W and the DC-link/brake resistor
terminals are live when the Liquid-Cooled drive is connected to
mains, even if the motor is not running.
WARNING
After disconnecting the drive from the mains, wait until the
indicators on the keypad go out (if no keypad is attached see the
indicators on the cover). Wait 5 more minutes before doing any
work on the Liquid-Cooled drive connections. Do not touch the
enclosure before this time has expired.
WARNING
The control I/O-terminals are isolated from the mains potential.
However, the relay outputs and other I/O-terminals may have a
dangerous control voltage present even when the Liquid-Cooled
drive is disconnected from mains.
Cautions
CAUTION
Always remove all cooling agent from the cooling element(s)
before shipping to avoid damage caused by freezing.
CAUTION
Do not perform any voltage withstand tests on any part of the
Liquid-Cooled drive. There is a certain procedure according to
which the tests shall be performed. Ignoring this procedure may
result in damaged product.
CAUTION
Do not touch the components on the circuit boards. Electrostatic
voltage discharge may damage the components.
CAUTION
Before connecting the Liquid-Cooled drive to mains, ensure the
functionality of the coolant circulation and check the circulation for
possible leaks.
CAUTION
Before connecting the drive to mains make sure that the enclosure
door is closed.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Grounding and Ground Fault Protection
The LCX9000 drive must always be grounded with a ground conductor connected to the
ground terminal.
The ground fault protection inside the drive only protects the drive against ground faults in
the motor or the motor cable. It is not intended for personal safety.
Due to the high capacity currents present in the drive, fault current protective switches may
not function properly.
Motor and Equipment Safety
CAUTION
Before starting the motor, check that the motor is mounted properly
and ensure that the machine connected to the motor allows the
motor to be started.
CAUTION
Set the maximum motor speed (frequency) according to the motor
and the machine connected to it.
CAUTION
Before reversing the motor, make sure that this can be done safely.
CAUTION
Make sure that no power correction capacitors are connected to the
motor cable.
CAUTION
Make sure that the motor terminals are not connected to mains
potential.
CAUTION
Before the Liquid-Cooled drive can be used to control the motor,
the proper functioning of the liquid-cooling system must be
ensured.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Chapter 1 — Overview
Receiving and Inspection
®
The standard delivery of Cutler-Hammer Liquid-Cooled Drives from Eaton’s electrical
business includes all or part of the following components:
●
●
●
power unit
control unit
water connection main line connecting hoses and conduits (1.5m) for CH61 – CH74;
Hoses in different lengths also available
●
●
●
●
●
Tema 1300 series fast connectors for CH3 – CH4
choke
control unit mounting kit
cooling fan for boards (CH4)
optic fiber & cable set (1.5m) for control unit; Optic sets in different lengths also
available
Cutler-Hammer Liquid-Cooled Drives have undergone scrupulous tests and quality checks at
the factory before they are delivered to the customer. However, after unpacking the product,
check that no signs of transport damages are to be found on the product and that the delivery
is complete (compare the type designation of the product to the code below, Table 1-1).
If the drive has been damaged during shipping, please contact the cargo insurance company
or the carrier.
If the delivery does not correspond to your order, contact the supplier immediately.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 1-1: LCX9000 Liquid-Cooled Adjustable Frequency Drive Catalog Numbering System
L C X 0 1 6 A 0 – 4 A 2 B 1
Options
Product Family
Options appear in alphabetical order.
Extended I/O Card Options
LCX = High Performance
Liquid Cooled Drive
A3 = 2 RO, Therm
Current Rating
480V
A4 = Encoder low volt +5V/15V24V
A5 = Encoder high volt +15V/24V
A7 =
016 = 16A
022 = 22A
031 = 31A
038 = 38A
045 = 45A
061 = 61A
520 = 520A
590 = 590A
650 = 650A
730 = 730A
820 = 820A
920 = 920A
A8 = 6 DI, 1 DO, 2 AI, 1AO
B1 = 6 DI, 1 ext +24V DC/EXT +24V DC
B2 = 1 RO (NC/NO), 1 RO (NO), 1 Therm
B4 = 1 AI (mA isolated), 2 AO (mA isolated),
1 ext +24V DC/EXT +24V DC
B5 = 3 RO (NO)
072 = 72A H10 = 1030A
087 = 87A H13 = 1370A
105 = 105A H16 = 1640A
140 = 140A H20 = 2060A
168 = 168A H23 = 2300A
205 = 205A H24 = 2470A
261 = 261A H29 = 2950A
300 = 300A H37 = 3710A
385 = 385A H41 = 4140A
460 = 460A
B8 = 1 ext +24V DC/EXT +24V DC, 3 Pt100
B9 = 1 RO (NO), 5 DI 42 – 240V AC Input
BB = SPI, Absolute Encoder
Communication Cards
CA = Johnson Controls N2
CI = Modbus TCP
C2 = Modbus
C3 = Profibus DP
C4 = LonWorks
C5 = Profibus DP (D9 Connector)
C6 = CANopen (Slave)
C7 = DeviceNet
C8 = Modbus (D9 Type Connector)
D1 = Adapter
D2 = Adapter
D3 = RS-232 with D9 Connection
690V
170 = 170A
208 = 208A
261 = 261A
325 = 325A
385 = 385A
416 = 416A
460 = 460A
502 = 502A
590 = 590A
650 = 650A
750 = 750A
820 = 820A
H10 = 1030A
H11 = 1180A
H13 = 1300A
H15 = 1500A
H18 = 1850A
H21 = 2120A
H23 = 2340A
H27 = 2700A
H31 = 3100A
Board Modifications
1 = Standard Boards
2 = Varnished Boards
Brake Chopper Options
Software Series
A = Standard
N = No Brake Chopper Circuit
B = Internal Brake Chopper
Enclosure Rating
0 = Open Chassis
Input Options
2 = 3-Phase, EMC N
Voltage Rating
Keypad
4 = 380 – 500V
5 = 525 – 690V
A = Alphanumeric
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Storage and Shipping
If the drive is to be kept in storage before use, make sure that the ambient conditions are
acceptable:
Storing temperature -40 – 158°F (-40 – 70°C) (no cooling liquid inside cooling element
allowed below 0º)
Relative humidity
<96%, no condensation
If the storage time exceeds 12 months, the electrolytic DC capacitors need to be charged with
caution. Therefore, such a long storage time is not recommended.
CAUTION
Always remove all cooling agent from the cooling element(s)
before shipping to avoid damage caused by freezing.
Maintenance
In normal conditions, Cutler-Hammer Liquid-Cooled drives are maintenance-free. However, if
the drive is used in conditions with temperatures below the freezing point and the liquid used
for cooling is likely to freeze, be sure to empty the cooling element if the drive must be
moved or if it is taken out of use for a longer time.
It may also be necessary to clean up the coolant ducts in the cooling element. Contact the
factory for more information.
The instructions for the cooling system provided by its manufacturer must be followed.
Technical Data
Figure 1-1 presents the block diagram of the liquid-cooled drive. Mechanically, the product
consists of two units, the Power Unit and the Control Unit. The power unit can contain one to
six modules (cooling plates), depending on the drive size. Instead of air, liquid-cooled drives
use liquid for cooling. A charging circuit is embodied in the drives.
An external three-phase AC-choke (1) at the mains input together with the DC-link capacitor
(2) form an LC-filter. In drives, the LC-filter together with the diode bridge produce the
DC-voltage supply to the IGBT Inverter Bridge (3) block. The AC-choke also functions as a
filter against High Frequency disturbances from the mains as well as against those caused by
the drive to the mains. In addition, it enhances the waveform of the input current to the drive.
In chassis with multiple parallel line-rectifiers (CH74) AC-chokes are required to balance the
line current between the rectifiers.
The power drawn by the drive from the mains is mostly active power.
The IGBT Inverter Bridge produces a symmetrical, three-phase Pulse Width Modulated
AC-voltage to the motor.
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LCX9000 Liquid-Cooled Drives User Manual
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The Motor and Application Control Block is based on microprocessor software. The
microprocessor controls the motor based on the information it receives through
measurements, parameter settings, control I/O and control keypad. The motor and
application control block controls the motor control ASIC which, in turn, calculates the IGBT
positions. Gate drivers amplify these signals for driving the IGBT inverter.
The control keypad constitutes a link between the user and the drive. The control keypad is
used for parameter setting, reading status data and giving control commands. It is
detachable and can be operated externally and connected via a cable to the drive. Instead of
the control keypad, a PC can also be used to control the drive if connected through a similar
cable ( 12V).
You can have your drive equipped with a control I/O board which is either isolated (OPT-A8)
or not isolated (OPT-A9) from the frame. Optional I/O expander boards that increase the
number of inputs and outputs to be used are also available. For more information, contact
Eaton or your local distributor.
The basic control interface and the parameters (the Basic Application) are easy to use. If a
more versatile interface or parameters are required, a more suitable application can be
chosen from the application manual.
An internal brake chopper is available as standard for chassis CH3. For all other sizes the
brake chopper is available as an option and installed externally. The standard product does
not include a brake resistor. It should be ordered separately.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Brake Resistor *
Power Module
(3)
IGBT
Inverter
(1)
Rectifier
(Frequency
Converters Only)
Brake *
Chopper
External
Motor
Choke
Current
Sensors
3~
=
L1
L2
L3
U
V
(2)
Mains
=
W
3~
Charg. Res.
Power
Supply
Measurements
PE
Gate
Drivers
Control Module
Control Keypad
Motor and
Application
Control
Motor
Control
ASIC
RS-232
Control
I/O
Control
I/O
Control
I/O
Control
I/O
Control
I/O
* Brake resistor is available as optional equipment for all sizes (CH3 to CH7).
An internal brake chopper is standard equipment in CH3 only, while in all other sizes it is optional
and installed externally.
Figure 1-1: Liquid-Cooled Drive Principal Block Diagram
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Power Ratings
The Cutler-Hammer Liquid-Cooled product range consists of (AC input, AC output) drives.
The following tables show the drive output values for both in I (current) and shaft power
th
(electrical) as well as the drive losses and mechanical sizes. The power achieved is given as
per the supply voltage.
Drives
Table 1-2: Power Ratings and Dimensions of Liquid-Cooled Drive, Supply Voltage
380 – 500V AC
Drive Output
Current
Electrical Output Power
Thermal Rated
th
(A)
Rated
Cont. I
(A)
Optimum
Motor at I
Optimum
Motor at I
th
500V (kW)
Power Loss
c/a/T
(kW)
Catalog
Number
I
Cont. I
(A)
L
H
th
400V (kW)
Chassis
LCX016A0-4
LCX022A0-4
LCX031A0-4
LCX038A0-4
LCX045A0-4
LCX061A0-4
LCX072A0-4
LCX087A0-4
LCX105A0-4
LCX140A0-4
LCX168A0-4
LCX205A0-4
LCX261A0-4
LCX300A0-4
LCX385A0-4
LCX460A0-4
LCX520A0-4
LCX590A0-4
LCX650A0-4
LCX730A0-4
16
15
20
11
15
7.5
11
11
15
0.4/0.2/0.6
0.5/0.2/0.7
0.7/0.2/0.9
0.8/0.2/1.0
1.0/0.3/1.3
1.3/0.3/1.5
1.2/0.3/1.5
1.5/0.3/1.8
1.8/0.3/2.1
2.3/0.3/2.6
4.0/0.4/4.4
5.0/0.5/5.5
6.0/0.5/6.5
7.0/0.6/7.6
9.0/0.7/9.7
6.5/0.5/7.0
7.5/0.6/8.1
9.0/0.7/9.7
10.0/0.7/10.7
12.0/0.8/12.8
CH3
22
31
CH3
28
21
15
18.5
22
CH3
38
35
25
18.5
22
CH3
45
41
30
30
CH3
61
55
41
30
37
CH3
72
65
48
37
45
CH4
87
79
58
45
55
CH4
105
140
168
205
261
300
385
460
520
590
650
730
95
70
55
75
CH4
127
153
186
237
273
350
418
473
536
591
664
93
75
90
CH4
112
137
174
200
257
307
347
393
433
487
90
110
132
160
200
250
315
355
400
450
500
CH5
110
132
160
200
250
250
315
355
400
CH5
CH5
CH61
CH61
CH72
CH72
CH72
CH72
CH72
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 1-2: Power Ratings and Dimensions of Liquid-Cooled Drive, Supply Voltage
380 – 500V AC (Continued)
Drive Output
Current
Electrical Output Power
Thermal Rated
th
(A)
Rated
Cont. I
(A)
Optimum
Motor at I
Optimum
Motor at I
th
500V (kW)
Power Loss
c/a/T
(kW)
Catalog
Number
I
Cont. I
(A)
L
H
th
400V (kW)
Chassis
LCX820A0-4
LCX920A0-4
LCXH10A0-4
LCXH11A0-4
LCXH13A0-4
LCXH16A0-4
LCXH20A0-4
LCXH23A0-4
LCXH24A0-4
LCXH29A0-4
LCXH37A0-4
LCXH41A0-4
820
745
836
547
613
450
500
560
600
12.5/0.8/13.3
14.4/0.9/15.3
16.5/1.0/17.5
18.5/1.2/19.7
19.0/1.2/20.2
24.0/1.4/25.4
32.5/1.8/34.3
36.3/2.0/38.3
38.8/2.2/41.0
46.3/2.6/48.9
58.2/3.0/61.2
65.0/3.6/68.6
CH63
920
1030
1150
1370
1640
2060
2300
2470
2950
3710
4140
CH63
936
687
560
700
CH63
1045
1245
1491
1873
2091
2245
2681
3372
3763
766
600
750
CH63
913
700
900
CH74
1093
1373
1533
1647
1967
2473
2760
900
1100
1400
1500
1600
1950
2450
2700
CH74
1100
1250
1300
1550
1950
2150
CH74
CH74
2xCH74
2xCH74
2xCH74
2xCH74
I
= Thermal maximum continuous RMS current. Dimensioning can be done according to
th
this current if the process does not require any overloadability or the process does not
include any torque ripple.
I = Low overloadability current. Allows +10% torque ripple. 10% exceeding can be
L
continuous.
I = High overloadability current. Allows +50% torque ripple. 50% exceeding can be
H
continuous.
All values with cosϕ = 0.83 and efficiency = 97%.
c/a/T: c = power loss into coolant; a = power loss into air; T = total power loss; power losses
of input chokes not included. All power losses obtained using max. supply voltage and
switching frequency of 3.6 kHz.
If some other mains voltage is used, apply the formula P = 3 × Un × In × cosϕ to calculate
the Liquid-Cooled drive output power.
The enclosure class for all Liquid-Cooled drives is IP00.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 1-3: Power Ratings and Dimensions of Liquid-Cooled Drive, Supply Voltage
525 – 690V AC
Drive Output
Current
Electrical Output Power
Thermal Rated
th
(A)
Rated
Cont. I
(A)
Optimum
Motor at I
Optimum
Motor at I
th
690V (kW)
Power Loss
c/a/T
(kW)
Catalog
Number
I
Cont. I
(A)
L
H
th
525V (kW)
Chassis
LCX170A0-5
LCX208A0-5
LCX261A0-5
LCX325A0-5
LCX385A0-5
LCX416A0-5
LCX460A0-5
LCX502A0-5
LCX590A0-5
LCX650A0-5
LCX750A0-5
LCX820A0-5
LCX920A0-5
LCXH10A0-5
LCXH11A0-5
LCXH13A0-5
LCXH15A0-5
LCXH18A0-5
LCXH21A0-5
LCXH23A0-5
LCXH27A0-5
LCXH31A0-5
170
155
189
113
139
110
132
160
200
7.5/0.4/7.9
CH61
208
261
9.0/0.5/9.5
CH61
237
174
160
250
6.5/0.3/6.8
CH61
325
295
217
200
300
7.5/0.4/7.9
CH72
385
350
257
250
355
9.0/0.5/9.5
CH72
416
378
277
250
355
9.4/0.5/9.9
CH72
460
418
307
300
400
10.0/0.5/10.5
12.0/0.6/12.6
13.0/0.7/13.7
16.0/0.8/16.8
18.0/0.9/18.9
19.0/1.0/20.0
21.3/1.2/22.5
22.0/1.1/23.1
25.0/1.3/26.3
31.0/1.6/32.6
38.0/1.9/39.9
39.6/2.0/41.6
45.0/2.4/47.4
55.8/2.9/58.7
68.4/3.4/71.8
—
CH72
502
456
335
355
450
CH72
590
536
393
400
560
CH63
650
591
433
450
600
CH63
750
682
500
500
700
CH63
820
745
547
560
800
CH74
920
836
613
650
850
CH74
1030
1180
1300
1500
1850
2120
2340
2700
3100
936
687
700
1000
1100
1200
1400
1650
1900
2100
2450
2800
CH74
1073
1182
1364
1682
1927
2127
2455
2818
787
800
CH74
867
900
CH74
1000
1233
1413
1560
1800
2066
1000
1250
1450
1600
1850
2150
CH74
2xCH74
2xCH74
2xCH74
2xCH74
2xCH74
I
= Thermal maximum continuous RMS current. Dimensioning can be done according to
th
this current if the process does not require any overloadability or the process does not
include any torque ripple.
I = Low overloadability current. Allows +10% torque ripple. 10% exceeding can be
L
continuous.
I = High overloadability current. Allows +50% torque ripple. 50% exceeding can be
H
continuous.
All values with cosϕ = 0.83 and efficiency = 97%.
c/a/T: c = power loss into coolant; a = power loss into air; T = total power loss; power losses
of input chokes not included. All power losses obtained using max. supply voltage and
switching frequency of 3.6 kHz.
If some other mains voltage is used, apply the formula P = 3 × Un × In × cosϕ to calculate
the Liquid-Cooled drive output power.
The enclosure class for all Liquid-Cooled drives is IP00.
MN04005001E
1-8
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Specifications
Table 1-4: Technical Information
Description
Specification
Mains Connection
Input voltage U
400 – 500V AC; 525 – 690V AC; (-10% – 10%)
465 – 800V DC; 640 – 1100V DC; (-0% – 0%)
in
Input frequency
45 – 66 Hz
Connection to mains
Motor Connection
Once per minute or less
Output voltage
0 – U
in
Continuous output current
Rated current at nominal inflow cooling water temperature
according to dimensioning charts
Output frequency
Frequency resolution
Control Characteristics
Control method
0 – 320 Hz (standard); 7200 Hz (Special software)
Application dependent
Frequency control U/f
Open Loop Sensorless Vector Control
Closed Loop Vector Control
Switching frequency
(see parameter 2.6.9)
480V:
Up to and including 61 Amp Size:
1 – 16 kHz; Factory default 10 kHz
From 72 Amp Size:
1 – 12 kHz; Factory default 3.6 kHz
575V:
1 – 6 kHz; Factory default 1.5 kHz
Note: Derating required if higher switching frequency than the
default is used!
Frequency reference
Analog input
Panel reference
Resolution 0.1% (10-bit), accuracy 1%
Resolution 0.01 Hz
Field weakening point
Acceleration time
Deceleration time
Braking torque
8 – 320 Hz
.1 – 3000 sec
.1 – 3000 sec
DC brake: 30% * T (without brake option)
N
Ambient Conditions
Ambient operating temperature 14°F (-10°C) (no frost) to +122°F (+50°C) (at I )
th
122 – 158°F (50 to 70°C) derating required, see Pages 2-13 and 2-19
Storage temperature
Relative humidity
-40 to +158°F (-40 to +70°C); No liquid in heatsink under 32°F (0ºC)
5 to 96% RH, non-condensing, no dripping water
Air quality:
chemical vapors
mechanical particles
IEC 721-3-3, unit in operation, class 3C2
IEC 721-3-3, unit in operation, class 3S2 (no conductive dust allowed)
No corrosive gases
Altitude
100% load capacity (no derating) up to 1,000m; above 1,000m
derating of 1% per each 100m required
Vibration
EN50178/EN60068-2-6
5 – 150 Hz
Displacement amplitude .25 mm (peak) at 3 – 31 Hz
Max acceleration amplitude 1 G at 31 – 150 Hz
Shock
EN50178, EN60068-2-27
UPS Drop Test (for applicable UPS weights)
Storage and shipping: max 15G, 11 mS (in package)
Enclosure class
IP00/Open Frame standard in entire kW/hp range
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 1-4: Technical Information (Continued)
Description
EMC
Specification
Immunity
Emissions
Safety
Fulfils all EMC immunity requirements
EMC level N; EMC level T for IT networks
Approvals
EN50178, EN60204-1, CE, UL, CUL, FI, GOST R,
(see unit nameplate for more detailed approvals)
Safe disable board
The drive is equipped with OPTAF board for prevention of torque on
motor shaft. Standards: EN954-1, cat. 3 (hardware disable); BGIA
(Safe Disable Function).
Control connections (apply to boards OPT-A1, OPT-A2 and OPT-A3)
Analog input voltage
0 to +10V, R = 200kΩ, (-10V to +10V joystick control)
i
Resolution 0.1%, accuracy 1%
Analog input current
Digital inputs (6)
Auxiliary voltage
0(4) – 20 mA, R = 250Ω differential
Positive or negative logic; 18 – 24V DC
+24V, 10%, max volt. ripple <100 mVrms; max. 250 mA
Dimensioning: max. 1000 mA/control box
1A external fuse required (no internal short-circuit protection on the
control board)
i
Output reference voltage
Analog output
+10V, +3%, max. load 10 mA
0(4) – 20 mA; R max. 500Ω; Resolution 10 bit; Accuracy 2%
L
Digital outputs
Open collector output, 50 mA/48V
Relay outputs
2 programmable change-over relay outputs
Switching capacity: 24V DC/8A, 250V AC/8A, 125V DC/.4A
Min. switching load: 5V/10 mA
Protections
Overvoltage trip limit
Undervoltage trip limit
480V: 911V; 575V: 1200V (all VDC)
480V: 333V; 575V: 461V (all VDC)
Ground fault protection
In case of ground fault in motor or motor cable, only the drive is
protected
Mains supervision
Motor phase supervision
Trips if any of the input phases is missing
Trips if any of the output phases is missing
Unit overtemperature protection Alarm limit: 149°F (65°C) (heatsink); 158°F (70°C) (circuit boards)
Trip limit: 158°F (70°C) (heatsink); 185°F (85°C) (circuit boards)
Overcurrent protection
Motor overload protection
Motor stall protection
Yes
Yes
Yes
Yes
Motor underload protection
Short-circuit protection of +24V Yes
and +10V reference voltages
Liquid Cooling
Allowed cooling agents
Drinking water (see specification on Page 2-7)
Water-glycol mixture
See derating specifications on Page 2-19
Volume
See Page 2-11.
Temperature of cooling agent
32 – 86°F (0 – 30°C) (I )(input); 86 – 149°F (30 – 65°C): derating
th
required, see Page 2-19.
Max. temperature rise during circulation max. 41°F (5°C)
No condensation allowed. See Pages 2-13.
Cooling agent flow rates
See Table 2-7.
System max. working pressure 87 psi
System max. peak pressure 580 psi
Pressure loss (at nominal flow) Varies according to size. See Table 2-10.
MN04005001E
1-10
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Chapter 2 — Installation
Mounting
Liquid-cooled drive modules must be installed into an enclosure. The drives consisting of
one module will be mounted on the mounting plate. The drives that include two or three
modules are mounted inside a mounting bracket, which will then be installed in the
enclosure.
Note: If any other than vertical installation position is required, please contact your
distributor!
On Page 2-2 you will find the dimensions of liquid-cooled drives installed on mounting bases
(plates and brackets).
Lifting the Drive
Eaton recommends use of a jib crane or similar elevating device to lift the drive unit. See
Figure 2-1 for correct lifting points.
Use either the hole(s) in the middle of the mounting plate (Lifting point 1) or the hole in the
H-shaped part of the mounting plate (Lifting point 2) for lifting the drive. See Figure 2-1.
Lifting Point 1
.51 (13.0) Dia.
Lifting Point 1
.51 (13.0) Dia.
Lifting Point 2
.35 (9.0) Dia.
Figure 2-1: Lifting Points for Drives Consisting of One Module (Left) and Several Modules
Approximate Dimensions in Inches (mm)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Liquid-Cooled Dimensions
Drives Consisting of One Module
Table 2-1: One-Module Drive Dimensions (Mounting Base Included)
Approximate Dimensions in Inches (mm)
Weight
in Lbs. (kg)
Chassis
Width
Height
Depth
CH3
6.30 (160)
7.60 (193)
9.69 (246)
9.69 (246)
9.69 (246)
16.97 (431)
19.41 (493)
21.77 (553)
25.91 (658)
42.36 (1076)
9.69 (246)
10.12 (257)
10.39 (264)
14.65 (372)
14.65 (372)
66 (30)
77 (35)
CH4
CH5
88 (40)
CH61/62
CH72
121 (55)
198 (90)
Terminals
9.69
(246)
Water In/Out
16.97
(431)
Dia. .39
(10)
.47
(12)
3.98
1.18
(30)
(101)
3.23
(82)
3.19
(81)
6.30
(160)
2.32
(59)
1.57
(40)
1.57
(40)
2.32
(59)
2.20
(56)
7.64
(194)
Dia. .35
(9)
.59
(15)
.51
(13)
Figure 2-2: LCX9000 Liquid-Cooled Drive, CH3
Approximate Dimensions in Inches (mm)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Dia. .39
(10)
19.41
(493)
1.77
(45)
.63
(16)
Dia. .39
(10)
10.12
(257)
7.60 7.48 3.35
(193) (190) (85)
5.24
(133)
Dia. .35
(9)
.47
(12)
.43
(11)
1.02
(26)
Top View
Bottom View
.39
(10)
.98
(25)
2.60
(66)
4.80
(122)
6.97
(177)
3.03
(77)
M8
Water In/Out
6.57
(167)
M8
Figure 2-3: LCX9000 Liquid-Cooled Drive, CH4
Approximate Dimensions in Inches (mm)
.65
(16.5)
M12
.49
(12.5)
1.18
(30)
.98
(25)
2.24
(57)
10.39
(264)
2.24
(57)
2.48
(63)
Dia. .51
(13)
2.36
(60)
2.72
(69)
4.09
(104)
Bottom
Dia. .51
(13)
.16
(4)
.26
(6.5)
7.87
(200)
3.94
(100)
3.15
(80)
9.69
(246)
.16
(4)
19.88
(505)
1.30
(33)
Top
21.77
(553)
Figure 2-4: LCX9000 Liquid-Cooled Drive, CH5
Approximate Dimensions in Inches (mm)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
3.94
(100)
Dia. .51
(13)
14.69
(373)
23.07
(586)
23.23
(590)
25.91
(658)
9.69
(246)
Bottom
1.30
(33)
3.19
(81)
M12
Dia. .55
(14)
1.38
(35)
6.85
(174)
2.09
(53)
U
V
W
1.57
x
.63
(16)
(40)
L3 L2 L1
.39
(10)
.39
(10)
3.15
(80)
4.06 2.56 2.56
(103) (65) (65)
9.21
Coolant
Outlet
Coolant
Inlet
1.77
(45)
2.01
(51)
x = Grounding Bolt
M8x25
5.91
(150)
(234)
Top
Right Side
Front
Left Side
Figure 2-5: LCX9000 Liquid-Cooled Drive, CH61
Approximate Dimensions in Inches (mm)
Top View
Bottom
6-Pulse Supply
Dia. .55
(14)
1.57
(40)
1.30
(33)
2.56
2.56
14.65
(372)
(65)
2.56
(65)
(65)
9.21
(234)
2.56
(65)
4.06
(103)
4.06
(103)
.55
(14)
.87
(22)
.39
(10)
2.66
(67.5)
2.01
(51)
Coolant In/Out
2.95
(75)
36.65
(931)
1.57
(40)
1.57
(40)
12-Pulse Supply
.79
(20)
.79
(20)
.39
(10)
7.87
(200)
1.18
(30)
Dia. .51
(13)
R .28
(7)
39.37
(1000)
.39
(10)
.39
(10)
41.73
(1060)
3.15
(80)
42.40
(1077)
Figure 2-6: LCX9000 Liquid-Cooled Drive, CH72
Approximate Dimensions in Inches (mm)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Drives Consisting of Several Modules
Liquid-cooled drives consisting of several modules are mounted in a mounting bracket as
presented in Figure 2-7.
Figure 2-7: Drive Mounted Inside Mounting Bracket
Table 2-2: Several Module Drive Dimensions (Mounting Bracket Included)
Approximate Dimensions in Inches (mm)
Weight
in Lbs. (kg)
Chassis
Width
Height
Depth
CH63
CH64
CH74
19.88 (505)
29.37 (746)
29.37 (746)
36.38 (924)
36.38 (924)
46.26 (1175)
14.76 (375)
14.76 (375)
15.16 (385)
264 (120)
396 (180)
617 (280)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Bottom
Top
18.90
(480)
.98
(25)
.39
(10)
1.77
(45)
9.69
(246)
Dia. .43
(11)
1.18 9.21
(30) (234)
2.36
(60)
.39
(10)
6.42
(163)
2.09
(53)
6.85 3.27
(174) (83)
1.34
(34)
3.94 3.94 3.94 3.94
(100) (100) (100) (100)
Dia. .98
(25)
.24
(6)
23.58
(599)
23.94
(608)
36.38
(924)
34.25
(870)
34.41
(874)
1.30
(33)
Dia. .55
(14)
.55
(14)
1.57 11.50
(40) (292)
.98
(25)
.65
8.82 (16.5)
(224)
.20
Dia. .43
(11)
1.97
4.13 2.56 2.56
(105) (65) (65)
1.20
(5)
1.57
.87
2.95
(50)
(30.5)
(40)
(22)
(75)
.59
14.76
(375)
4.06 3.94 3.94
(103) (100) (100)
Coolant
Outlet
4.53 4.69 Coolant
(115) (119) Inlet
(15)
Dia. .55
(14)
13.98
(355)
19.88
(505)
Right Side
Front
Left Side
Figure 2-8: LCX9000 Liquid-Cooled Drive with Mounting Bracket, CH63
Approximate Dimensions in Inches (mm)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Bottom
Top
.63
5.79 Dia. .43
1.3
(16)
6-Pulse Supply
(147)
(11)
(33)
.55
(14)
1.57
(40)
14.72
(374)
3.15
2.56
(65)
4.13
(105)
15.16
(385)
(80)
6.69
29.37
(170)
(746)
28.39
(721)
.39
1.57
(40)
.39
(10)
2.87
(73)
3.46
(88)
(10)
.67
(17)
.47
43.31
.98
(12)
(1100)
(25)
.39
Dia. .18
(4.6)
(10)
.59
1.18
(30)
6.89
(15)
(175)
Dia. .55
(14)
12-Pulse Supply
7.87
(200)
9.69
6.89
.47
(246)
(175)
(12)
7.87
(200)
6.89
.47
9.69
(175)
(12)
1.38
(35)
(246)
29.37
(746)
7.87
(200)
.39
(10)
6.89
(175)
5.51
(140)
3.15
(80)
2.99
(76)
29.29
(744)
.47
(12)
46.26
.39
(10)
(1175)
Figure 2-9: LCX9000 Liquid-Cooled Drive, CH74, IP00
Approximate Dimensions in Inches (mm)
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Cooling
Instead of using air for cooling, Cutler-Hammer Liquid-Cooled drives are cooled with liquid.
The liquid circulation of the drive is usually connected to a heat-exchanger (liquid-liquid/
liquid-air) which cools down the liquid circulating in the cooling elements of the drive. The
cooling agents acceptable for use are drinking water, demineralized water or a mixture
(60/40) of water and glycol. In a closed circulation system, the values in Table 2-3 are
recommended reference values. To avoid electrochemical corrosion, Eaton recommends
adding an inhibitor (e.g. Ferrolix 332/Henkel or Cortec VpCI-649) in the cooling agent.
Note: If no heat-exchanger is used, actions must be taken to avoid electrochemical corrosion.
Specifically no brass or copper elements may be used in the liquid circulation of the drive.
Drinking Water Specification
Table 2-3 provides general guidelines for water quality.
Note: 1 mg/L = 1 ppm.
Table 2-3: Drinking Water Chemical Specification
Quality
Unit
Value
Quality
Unit
Value
Acrylamide
Antimony
Arsenic
Benzene
Benzopyrene
Boron
Bromate
Cadmium
Chromium
µg/L
µg/L
µg/L
µg/L
µg/L
mg/L
µg/L
µg/L
µg/L
0.10
5.0
10
1.0
0.010
1.0
10
5.0
50
Mercury
Nickel
Nitrate [NO3]
Nitrate-Nitrogen [NO3-N]
Nitrite [NO2]
Nitrite-Nitrogen [NO2-N]
Bactericides
Bactericides, total
Polynuclear aromatic
hydrocarbons
µg/L
µg/L
mg/L
mg/L
mg/L
mg/L
µg/L
µg/L
µg/L
1.0
20
50
11.0
0.5
0.15
0.10
0.50
0.10
Copper
Cyanides
mg/L
µg/L
2.0
50
Selenium
Tetrachloroethylene and
trichloroethylene total
µg/L
µg/L
10
10
1,2-Dichloroethane
Epichlorohydrin
Fluoride
µg/L
µg/L
mg/L
µg/L
3.0
0.10
1.5
Trihalomethanes total
Vinyl chloride
Chlorophenols total
µg/L
µg/L
µg/L
100
0.50
10
Lead
10
Table 2-4: Drinking Water Quality
Recommendations — Maximum Values
Max.
Quality
Unit
Value
Aluminum
Ammonium [NH2]
Ammonium [NH2-N]
µg/L
200
0.50
0.40
<100
50
<0.5
250
200
5.0
mg/L
mg/L
mg/L
µg/L
ᕃ
Chloride
Manganese
Iron
µg/L
ᕃᕄ
Sulphate
mg/L
mg/L
mg/L
Sodium
Oxidizability [CODMn-O2]
ᕃ
No aggressive water allowed.
To avoid corrosion of piping, the sulphate content must not
exceed 150 mg/L.
ᕄ
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January 2007
Table 2-5: Drinking Water Quality Recommendations — Desired Values
Quality
Unit
Desired Value
Clostridium perfringens (including spores)
Coliform bacteria
pmy/100 ml
0
pmy/100 ml
0
Bacterial count [22°C]
—
No unusual changes
6 – 8
ᕃ
pH
pH
ᕃ
Electrical conductivity
µS/cm
—
<100
ᕄ
Turbidity
Color
—
No unusual changes
Smell and taste
Total organic carbon (TOC)
Tritium
—
No unusual changes
—
No unusual changes
beg/L
mSv/year
°dH
µm
100
Indicative total dose
Water hardness
Max. particle size in coolant
0.10
3 – 10
300
ᕃ
No aggressive water allowed.
To be approved by user and no unusual changes.
ᕄ
The cleanness of the heat exchanger, and therefore the heat exchanging capacity, depend on
the purity of the process water. The more impure the water, the more frequently the heat
exchanger needs cleaning. The values in Table 2-6 are reference values required of cooling
circuit process water.
Table 2-6: Process Water Specification
Quality
Unit
Value
pH
pH
6 – 9
<20
Water Hardness
Electrical Conductivity
Chlorides (Cl)
Iron (Fe)
°dH
µS/cm
mg/L
mg/L
<100
<100
<.5
The design temperature of the cooling agent entering the drive module(s) is 95°F (35°C).
While circulating inside the cooling element, the liquid transfers the heat produced by the
power semiconductors (and the capacitors). The design temperature rise of the cooling agent
during the circulation is less than 9°F (5°C). Typically, 95% of the power losses is dissipated in
the liquid. Eaton recommends equipping the cooling agent circulation with temperature
supervision.
The heat exchanging equipment can be located outside the electrical room in which the
drives are located. The connections are made on site. In order to minimize the pressure
drops, the pipings should be made as straight as possible. We further recommend mounting
a regulating valve equipped with a measurement point. This makes the measurement and
regulation of liquid circulation possible in the start-up phase.
In order to prevent dirt particles from accumulating in the connections and gradually
weakening the cooling effect, installation of filters is also recommended.
The highest point of the piping must be equipped with either an automatic or a manual
venting device. The material of the piping must comply with at least AISI 304 (AISI 316 is
recommended).
Prior to the actual connection of the pipes, the bores must be cleaned thoroughly. If cleaning
with water is not possible, pressured air must be used to remove all loose particles and dust.
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
To facilitate the cleaning and venting of the coolant circulation, installation of a bypass valve
in the main line and valves at each drive inlet is recommended. Open the bypass valve and
shut the valves to the drive when cleaning and airing the system. At start-up, the bypass
valve must be closed and the valves to the converters opened.
Figure 2-10 shows a simplified example of the cooling system as well as an example of the
connections between the drives and the cooling system.
TE
30.0°C
18.0°C
*
*
*
*
*
*
FE
FE
FE
=
=
=
≈
=
*
*
34.5°C
26.1°C
Figure 2-10: Example of Cooling System
Eaton recommends equipping the cooling system with pressure and flow supervision (FE).
The flow supervision can be connected to digital input function External fault. If the coolant
flow becomes too low, the drive will be stopped.
The flow supervision and other actuators, e.g. a constant flow valve, are available as options.
The options should be mounted at the junction of the main line and the branching line to the
element, indicated with an asterisk (*) in Figure 2-10.
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January 2007
Cooling Water Inlet
IE
TE
41
PE
41
TI
Drives
DN32
PA01
LS01
PI
LT
40
FV01
PE
42
P01
DN32
W01
LE
40
Cooling Water Outlet
Figure 2-11: Example PI-Diagram of Cooling System and Connections
Table 2-7 shows the specifications related to the cooling agent and its circulation. Also see
Table 1-4, Technical Information on Page 1-9.
Table 2-7: Information About Cooling Agent and Its Circulation
Min. Liquid Flow
Nom. Liquid Flow per
Max. Liquid Flow
per Element (Drive)
in GPM
per Element (Drive) Element (Drive)
in GPM
in GPM
Chassis
A
A
B
C
A
CH3
.8 (.8)
1.3 (1.3)
2.6 (2.6)
4.0 (4.0)
6.6 (6.6)
6.6 (6.6)
6.6 (13.2)
6.6 (19.8)
9.2 (9.2)
9.2 (26.4)
1.4 (1.4)
2.9 (2.9)
4.2 (4.2)
7.1 (7.1)
7.1 (7.1)
7.1 (14.3)
7.1 (21.1)
9.8 (9.8)
9.8 (29.6)
1.5 (1.5)
5.3 (5.3)
5.3 (5.3)
CH4
2.1 (2.1)
2.6 (2.6)
5.3 (5.3)
5.3 (5.3)
5.3 (10.6)
5.3 (15.9)
5.3 (5.3)
5.3 (15.9)
3.2 (3.2)
4.5 (4.5)
CH5
10.6 (10.6)
10.6 (10.6)
10.6 (10.6)
10.6 (21.1)
10.6 (31.7)
10.6 (10.6)
10.6 (31.7)
CH61
CH62
CH63
CH64
CH72
CH74
7.7 (7.7)
7.7 (7.7)
7.7 (15.3)
7.7 (22.7)
10.6 (10.6)
10.3 (32.0)
A = 100% water; B = Water/Glycol mixture 80:20; C = Water/Glycol mixture (60:40)
Definitions: Min. liquid flow = Minimum flow rate to ensure of total venting of the cooling
element
Nom. liquid flow = Flow rate while running the drive at I
th
Max. liquid flow = If flow rate exceeds max. liquid flow, risk of cooling element
erosion increases
Note: Unless minimum liquid flow rate is ensured, air pockets may develop in the cooling
elements.
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January 2007
Table 2-8 will help you to determine the appropriate flows of cooling agent (GPM) with given
power losses (see Page 1-6).
Table 2-8: Cooling Agent Flow Rates (GPM) in Relation to Power Loss at Certain Glycol/
Water Mixture
Glycol:Water Ratio
Power Loss (kW)
100:0
80:20
60:40
40:60
20:80
0:100
1
2
1.16
2.33
3.49
4.66
5.82
6.99
8.15
9.32
10.48
11.65
1.04
2.08
3.12
4.16
5.20
6.24
7.28
8.32
9.36
10.40
0.95
1.89
2.83
3.78
4.72
5.67
6.61
7.56
8.50
9.45
0.87
1.74
2.61
3.48
4.35
5.21
6.08
6.95
7.82
8.69
0.81
1.62
2.43
3.23
4.04
4.85
5.66
6.47
7.28
8.08
0.76
1.52
2.27
3.03
3.79
4.55
5.31
6.07
6.83
7.58
3
4
5
6
7
8
9
10
Table 2-9: Coolant Volumes and Temperatures
Liquid Ref.
Temperature,
Input in °F (°C)
Max. Temp.
Liquid Volume/
Element in Gallons
Rise During
Chassis
Circulation in °F (°C)
CH3
0.03
0.04
0.06
0.10
0.10
0.10
0.10
0.42
0.42
86 (30)
86 (30)
86 (30)
86 (30)
86 (30)
86 (30)
86 (30)
86 (30)
86 (30)
9 (5)
9 (5)
9 (5)
9 (5)
9 (5)
9 (5)
9 (5)
9 (5)
9 (5)
CH4
CH5
CH61
CH62
CH63
CH64
CH72
CH74
Note: In order to ensure sufficient cooling of boards, capacitors and DC-buses, Liquid-Cooled
drives of chassis CH4 are equipped with one additional fan per module. The fan is
placed underneath the module and it is supplied externally. See Page 2-18.
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Condensation
Condensation on the cooling plate of the liquid-cooled drive must be avoided. Therefore, the
temperature of the cooling liquid must be kept higher than the temperature of the electrical
room. Use Figure 2-12 to determine if the drive operating conditions (combination of room
temperature, humidity and cooling liquid temperature) are safe, or, to find the acceptable
temperature for the cooling liquid.
The conditions are safe when the point is below the respective curve. If not, take adequate
precautions by decreasing the room temperature and/or the relative humidity or increase the
cooling liquid temperature. Note that increasing the temperature of the cooling liquid above
figures in loadability charts decreases the nominal output current of the drive. The below
curves are valid at sea level — 14.7 psi (1013 mbar).
Condensation – Safe Operating Area
140 (60)
122 (50)
104 (40)
86 (30)
68 (20)
50 (10)
0
100 95 90 85 80 75 70 65 60 55 50 45 40 35 30 25 20 15 10
5
0
Electrical Room Relative Humidity
Coolant
Temperature
113˚F (45˚C)
104˚F (40˚C)
100˚F (38˚C)
95˚F ()35˚C
86˚F (30˚C)
77˚F (25˚C)
68˚F (20˚C)
Figure 2-12: Safe Operating Conditions in Relation to Condensation
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Cooling System Connections
The external cooling system shall be connected to each one of the cooling elements of the
drive.
Note: The cooling elements must NOT be connected in series.
The cooling elements are equipped with hoses (Technobel Noir Tricoflex, P/N 135855) 1.5m in
length and 16 mm in diameter (CH5, CH6, CH7). The hoses are inserted in 1400 mm UL94V0
approved conduits (type HFX40). These hoses have screw type connectors with internal thread.
The connection of the hoses is made on the aluminum adapter (external thread) of the cooling
element. Avoid any twisting of the hose on the element while connecting the line hose.
Figure 2-13: Aluminum Hose Adapters
Figure 2-14: External Thread of Hose
Adapter
For all other chassis (CH3, CH4), the standard delivery includes fast connectors of type
“Tema”, series 1300 or 1900. The fast connectors are also available as an option also for CH5,
CH6, CH7.
Table 2-10: Liquid Connector Types (All Pressure Values at Nominal Flow)
Thread on
Element
Thread
Pressure Loss
Pressure Loss
(Internal) Connector Type or (Cust.) Max. Pressure (Fast Connector + (Hoses +
ᕃ
ᕄ
Chassis BSPP
Hose Type
BSPP
(Entire System) Element)
Element)
CH3
CH4
CH5
CH6
CH7
G3/8"
G3/8"
G3/4"
G3/4"
G3/4"
1300NE2 1/4"
1300NE2 1/4"
—
—
87 psi (6 bar)
87 psi (6 bar)
87 psi (6 bar)
87 psi (6 bar)
87 psi (6 bar)
3.6 psi (.25 bar)
—
3.6 psi (.25 bar)
—
Technobel 16*23.5 G1/2"
Technobel 16*23.5 G1/2"
Technobel 16*23.5 G1/2"
—
—
—
2.9 psi (.2 bar)
7.3 psi (.5 bar)
10.2 psi (.7 bar)
ᕃ
Use sealing (e.g. Usit-R Metal washer-rubber sealing) for this type of connection.
Use sealant or sealing tape for this type of connection.
ᕄ
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Pressure Losses
Table 2-11: Pressure Losses — CH6x
CH6x with standard 1.5m hoses and optional fast connectors TEMA
Pressure Pressure Loss
Volume Loss
Pressure Pressure Pressure Pressure
Total Inflow
Pressure Loss Total
Flow
Rate
TEMA
Inflow
(psi)
Loss
Loss
Loss
Loss TEMA Hose, Element TEMA, Inflow and
Inflow
Element
Outflow
Outflow
and Outflow
Hose (psi)
Outflow Hoses and
Element (psi)
(GPM)
Hose (psi) (psi)
Hose (psi) (psi)
10.6
7.9
8.56
4.35
1.45
0.87
4.35
2.47
1.31
1.02
4.06
2.32
1.16
0.87
4.06
2.32
1.02
0.44
7.40
3.63
1.31
1.02
12.62
7.12
3.48
2.32
28.43
15.08
6.24
5.3
4.5
4.21
12.5
10.0
7.5
Legend
Pressure loss; TEMA,
inflow (SET-SEL) (bar)
Pressure loss; inflow
hose (SEL-SEE) (bar)
Pressure loss;
element (SEE-PEJ)
Pressure loss; outflow
hose: (PEJ-PLJ) (bar)
Pressure loss; TEMA,
outflow (PLJ-PTJ)(bar)
5.0
Pressure loss total
(inflow hose, element
and outflow hose)
Pressure loss total
(TEMA, inflow and
outflow hoses and
element)
2.5
0.00
5.00
10.00
15.00
20.00
25.00
30.00
Pressure Loss, psi
Figure 2-15: Pressure Loss — CH6x
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 2-12: Pressure Losses — CH7x
CH7x (16) with standard 1.5m hoses and optional fast connectors TEMA
Pressure Pressure Loss
Volume Loss
Pressure Pressure Pressure Pressure
Total Inflow
Pressure Loss Total
Flow
Rate
TEMA
Inflow
(psi)
Loss
Loss
Loss
Loss TEMA Hose, Element TEMA, Inflow and
Inflow
Element
Outflow
Outflow
and Outflow
Hose (psi)
Outflow Hoses and
Element (psi)
(GPM)
Hose (psi) (psi)
Hose (psi) Hose (psi)
10.57
7.93
5.28
8.85
4.50
1.60
4.35
2.47
1.31
4.06
2.47
1.16
4.06
2.23
1.02
7.25
3.77
1.45
12.62
7.25
3.48
28.57
15.52
6.38
12.5
10.0
7.5
Legend
Pressure loss; TEMA,
inflow (SET-SEL) (bar)
Pressure loss; inflow
hose (SEL-SEE) (bar)
Pressure loss;
element (SEE-PEJ)
Pressure loss; outflow
hose: (PEJ-PLJ) (bar)
Pressure loss; TEMA,
outflow (PLJ-PTJ)(bar)
5.0
Pressure loss total
(inflow hose, element
and outflow hose)
Pressure loss total
(TEMA, inflow and
outflow hoses and
element)
2.5
0.00
5.00
10.00
15.00
Pressure Loss, psi
20.00
25.00
30.00
Figure 2-16: Pressure Loss — CH7x
It is strongly recommended that the liquid carrying hoses from the network to the cooling
elements of the drive are electrically non-conducting (to avoid electrical short circuits if the
hose touches live parts). To avoid electrochemical corrosion, we also recommend adding an
inhibitor (e.g. Ferrolix 332/Henkel, Cortec VpCI-649l) in the cooling liquid.
The following main line hose materials are acceptable:
●
●
●
●
plastic (PVC)
rubber (EPDM only)
aluminium
other stainless and acid-proof materials
The hoses must tolerate a peak pressure of 580 psi (40 bar).
Connect the line hose to its counterpart (screw connector or fast connector) on the cooling
element of the drive/inverter. The coolant inlet connector is the one closer to the mounting
plate and the outlet connector is the one closer to the face of the drive, see Figure 2-18. Due
to high pressure in the line hose, it is recommended that the liquid line is equipped with a
shut-off valve, which makes the connection easier. In order to prevent water from spraying in
the installation room, Eaton also recommends wrapping e.g. linters around the connection
during installation.
Eaton also recommends equipping the pipe branches to the cooling elements with valves.
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Installation of Flow Switch
As stated on Page 2-10, Eaton recommends the installation of the flow supervision in the
liquid cooling system. If requested, Eaton delivers the flow switch as an option. The
application of the flow switch as well as notes concerning its installation are given below.
About Flow Switch Installation
Eaton recommends mounting the flow switch on the inflow side of the system (see
Figure 2-10. Pay attention to the direction of flow. The switch reaches the highest accuracy
when it is mounted in horizontal position. If mounted vertically, the mechanical sensor is
affected by the Earth’s gravity which reduces the accuracy according to the data given in
Table 2-13.
Figure 2-17: Flow Switch: Hose Connection, Fast Connector (Electrical),
Fast Connector Lock Screw, Cable Seal and Clamp
Table 2-13: Flow Switch Data
Description
Specification
Hose Connection
Closing
G1/2” female, internal thread ISO228-1
The switch closes if the flow exceeds 5.3 GPM
Switching Accuracy:
Horizontal installation
Vertical Installation
-5 – +15% (5.0 – 6.1 GPM)
5% (5.0 – 5.5 GPM)
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LCX9000 Liquid-Cooled Drives User Manual
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Coolant
Outlet
Coolant
Inlet
Figure 2-18: Direction of Coolant Circulation
External Cooling Fan for CH4
In order to provide sufficient cooling for the power board, capacitors and DC-buses in the
liquid-cooled drive of chassis CH4, one additional cooling fan and a steel pallet for mounting
are included in the standard delivery.
The fan should be mounted underneath the module on the steel pallet with four 5.8 mm
screws and it needs a +24V external power supply.
See Page B-8 for drawings of the fan and the mounting pallet.
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Drive Derating
The tables below state the maximum coolant temperatures for Cutler-Hammer liquid-cooled
drives at given switching frequencies. Drive derating is required if the maximum
temperatures are exceeded.
Table 2-14: Maximum Temperatures of Coolant at Switching Frequency of 3.6 kHz
Max. Coolant Temperature (°C) Max. Coolant Temperature (°C)
Chassis
Type
@ Supply Voltage
@ Supply Voltage
Supply Voltage 400 – 500V AC
CH61
CH62
CH63
CH64
CH64
CH72
CH74
CH74
LCX385A0-4
47 @ 400V
40 @ 400V
38 @ 400V
37 @ 400V
42 @ 400V
42 @ 400V
37 @ 400V
37 @ 400V
43 @ 500V
37 @ 500V
36 @ 500V
34 @ 500V
40 @ 500V
40 @ 500V
34 @ 500V
34 @ 500V
LCX730A0-4
LCXH11A0-4
LCXH20A0-4
LCXH23A0-4
LCX730A0-4
LCXH20A0-4
LCXH23A0-4
Supply Voltage 525 – 690V AC
CH61
CH62
CH63
CH64
CH72
CH74
LCX261A0-5
45 @ 525V
41 @ 525V
42 @ 525V
41 @ 525V
38 @ 525V
41 @ 525V
39 @ 690V
33 @ 690V
36 @ 690V
34 @ 690V
32 @ 690V
34 @ 690V
LCX502A0-5
LCX750A0-5
LCXH15A0-5
LCX502A0-5
LCXH15A0-5
Table 2-15: Maximum Temperatures of Coolant at Switching Frequency of 1.5 kHz
Max. Coolant Temperature (°C) Max. Coolant Temperature (°C)
Chassis
Type
@ Supply Voltage
@ Supply Voltage
Supply Voltage 400 – 500V AC
CH61
CH62
CH63
CH64
CH64
CH72
CH74
CH74
LCX385A0-4
52 @ 400V
47 @ 400V
44 @ 400V
49 @ 400V
44 @ 400V
45 @ 400V
49 @ 400V
44 @ 400V
49 @ 500V
45 @ 500V
42 @ 500V
47 @ 500V
42 @ 500V
43 @ 500V
47 @ 500V
43 @ 500V
LCX730A0-4
LCXH11A0-4
LCXH20A0-4
LCXH23A0-4
LCX730A0-4
LCXH20A0-4
LCXH23A0-4
Supply Voltage 525 – 690V AC
CH61
CH62
CH63
CH64
CH72
CH74
LCX261A0-5
54 @ 525V
52 @ 525V
53 @ 525V
52 @ 525V
51 @ 525V
52 @ 525V
51 @ 690V
47 @ 690V
50 @ 690V
47 @ 690V
46 @ 690V
48 @ 690V
LCX502A0-5
LCX750A0-5
LCXH15A0-5
LCX502A0-5
LCXH15A0-5
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Input Chokes
The input choke carries out several functions in the Cutler-Hammer liquid-cooled drive.
Connection of the input choke is necessary except if you have a component in your system
that performs the same tasks (e.g. a transformer). The input choke is needed as an essential
component for motor control, to protect the input and DC-link components against abrupt
changes of current and voltage as well as to function as a protection against harmonics.
The input chokes are included in the standard delivery of Cutler-Hammer liquid-cooled
drives. However, you can also order your drive without the choke.
The Cutler-Hammer chokes listed in Table 2-16 are meant for supply voltages of 400 – 500V
and 525 – 690V.
Table 2-16: Input Choke Dimensioning, 6-Pulse Supply
Converter
Amperages
(400 – 500V AC)
Converter
Amperages
(690V AC)
Nominal
Thermal
Current (A)
Inductance
Calculated
Loss (W)
ᕃ
Choke Type
(µH) A/B
16 – 22
31 – 38
12 – 23
31 – 38
CHK0023N6A0
CHK0038N6A0
CHK0062N6A0
CHK0087N6A0
CHK0145N6A0
CHK0261N6A0
CHK0400N6A0
23
38
1900
1100
700
145
170
210
250
380
460
610
45 – 61
46 – 62
62
72 – 87
72 – 87
87
480
105 – 140
168 – 261
300 – 385
105 – 140
170 – 261
145
261
400
290
139/187
90/126
325 – 385
820 – 1180
1850 – 2340
460 – 520
1370 (CH74)
416 – 502
1300 – 1500
2700 – 3100
CHK0520N6A0
520
65/95
810
590 – 650
590 – 650
CHK0650N6A0
CHK0750N6A0
CHK0820N6A0
650
750
820
51/71
45/61
39/53
890
970
1640
1700 – 1900
730
2060
820
2300
750
—
1020
920 – 1030
1150
—
—
—
—
—
CHK1030N6A0
CHK1150N6A0
CHK0520N6A0
CHK0650N6A0
CHK0750N6A0
1030
1150
520
30/41
26/36
65/95
51/71
45/61
1170
1420
810
2470 – 2950
3710
4140
650
890
750
970
ᕃ
Inductances for different supply voltages: A = 400 – 480V AC, B = 500 – 690V AC. See Table 2-17.
Converter amperages written in bold italic require three (3) chokes of the designated kind per
unit with 6-pulse supply.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Installation of Input Choke
There are two types of input choke connection in LCX9000 Liquid-Cooled drives. The two
smallest sizes (CH31, CH32; up to 61A) have terminal block connection whereas bigger sizes
use busbar connection. Examples of both connections and the choke dimensions below.
D1
W1
S1
H2
H1
Z
W
Y
V
X
U
W2
D2
Figure 2-19: Example of Input Chokes for Liquid-Cooled Sizes Up to 62A
W1
D1
Mains
H1
H2
Converter
S2
W2
D2
S1
Figure 2-20: Example of Input Chokes for Liquid-Cooled
Sizes 87 – 145A and 590A
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 2-17: Choke Dimensions Sizes 23 – 145A and 590A
Approximate Dimensions in Inches (mm)
H1 H2 W1 W2 D1 D2
Weight
in Lbs. (kg)
Choke Type
S1
S2 Dia.
CHK0023N6A0 7.01 5.51 9.06 8.27 4.76 3.23 .35x.55 (4 pcs)
(178) (140) (230) (210) (121) (82) (9x14)
—
22
(10)
CHK0038N6A0 8.23 6.42 10.63 9.84
(209) (163) (270) (250)
—
—
—
—
—
.35x.55 (6 pcs)
(9x14)
—
—
33
(15)
CHK0062N6A0 8.39 6.10 11.81 11.02 —
(213) (155) (300) (280)
.35x.55 (4 pcs)
(9x14)
44
(20)
CHK0087N6A0 913
6.85 11.81 11.02 6.69
.35x.55 (4 pcs)
(9x14)
.35 (6 pcs)
(9)
57
(26)
(232) (174) (300) (280) (170)
CHK0145N6A0 11.50 9.21 11.81 11.02 7.28
(292) (234) (300) (280) (185)
.35x.55 (4 pcs)
(9x14)
.35 (6 pcs)
(9)
81
(37)
CHK0590N6A0 20.43 —
(519)
15.51 12.44 10.71 6.50 .39x1.38 (4 pcs) .43 (6 pcs)
(394) (316) (272) (165) 10x35 (11)
275
(125)
Always connect the supply cables to the choke terminals marked with #1 (see Figure 2-21).
Choose the converter connection according to Figure 2-21.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
D2
W1
1
1
1
S2
H1 H2
3
2
3
2
3
2
D3
D1
W2
W3
S1
Converter
Connection
(Terminal No.)
Supply
Voltage
Terminal Numbers
400 – 480V AC 2
500V AC
575 – 690V AC 3
3
W4
W4
Figure 2-21: Example of Input Chokes for Liquid-Cooled Sizes 261 – 1150A
Table 2-18: Choke Dimensions Sizes 261 – 1150A
Approximate Dimensions in Inches (mm)
Weight
in Lbs.
S2 Dia. (kg)
Choke Type
H1
H2
W1
W2
W3
W4
D1
D2
D3
S1
CHK0261N6A0 12.56 14.06 13.94 5.91 10.83 4.72 9.06 8.11 4.25 .35x.55 .35x.55 117
(319) (357) (354) (150) (275) (120) (230) (206) (108) (9x14) (9x14) (53)
(8 pcs) (9 pcs)
CHK0400N6A0 15.08 16.57 13.78 5.91 10.83 4.72 10.31 9.37 5.51 .35x.55 .43x.59 185
(383) (421) (350) (150) (275) (120) (262) (238) (140) (9x14) (11x15) (84)
(8 pcs) (9 pcs)
CHK0520N6A0 15.71 17.56 19.57 7.87 15.75 6.50 9.61 8.03 5.71 .51 dia. .43x.59 253
(399) (446) (497) (200) (400) (165) (244) (204) (145) (13)
(11x15) (115)
(8 pcs) (9 pcs)
CHK0650N6A0 17.68 19.53 19.57 7.87 15.75 6.50 9.61 8.11 5.71 .51 dia. .43x.59 286
(449) (496) (497) (200) (400) (165) (244) (206) (145) (13) (11x15) (130)
(8 pcs) (9 pcs)
CHK0750N6A0 19.25 20.75 19.57 7.87 15.75 6.50 10.75 9.09 6.69 .51 dia. .51x.71 374
(489) (527) (497) (200) (400) (165) (273) (231) (170) (13) (13x8) (170)
(8 pcs) (9 pcs)
CHK0820N6A0 19.33 20.83 19.57 7.87 15.75 6.50 10.75 9.09 6.69 .51 dia. .51x.71 374
(491) (529) (497) (200) (400) (165) (273) (231) (170) (13) (13x8) (170)
(8 pcs) (9 pcs)
CHK1030N6A0 24.80 26.65 19.57 7.87 15.75 6.50 12.09 9.49 6.69 .51 dia. .51x.71 469
(630) (677) (497) (200) (400) (165) (307) (241) (170) (13) (13x8) (213)
(8 pcs) (36 pcs)
CHK1150N6A0 24.80 26.65 19.57 7.87 15.75 6.50 12.09 9.49 6.69 .51 dia. .51x.71 469
(630) (677) (497) (200) (400) (165) (307) (241) (170) (13) (13x8) (213)
(8 pcs) (36 pcs)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
If you have ordered the input chokes for the liquid-cooled drive separately, pay attention to
the following instructions:
1. Protect the chokes from dripping water. You may even need to use plexiglass for
protection because jets of water may occur when working with the connections.
2. Connection of cables:
Types CHK0023N6A0, CHK0038N6A0, CHK0062N6A0 (chokes with terminal blocks)
The terminals are marked with letters U, V, W and X, Y and Z such that terminals U and
X, V and Y as well as W and Z form pairs of which one is an input and the other an
output. Furthermore, terminals U, V and W must all be used as either input or output.
The same applies to terminals X, Y and Z. See Figure 2-19.
Example: If you connect the mains cable of one phase to terminal X, the other two
phases must be connected to Y and Z. Accordingly, the choke output cables are
connected to their corresponding input pairs: phase 1 ➔ U, phase 2 ➔ V and
phase 3 ➔ W.
Other types (chokes with busbar connection)
Connect the mains cables to the upper busbar connectors (see Figures 2-20 and 2-21)
with bolts. The cables to the drive are bolted to the lower connectors. See Table 2-18 for
bolt sizes.
MN04005001E
2-24
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Chapter 3 — Power Wiring
How the power connections of LCX9000 Liquid-Cooled units are implemented depends on
the size of the unit. The smallest liquid-cooled unit (CH3) has terminal blocks for the
connections. In all other units, the connection is established using cables and cable clips or
bolting the busbars together.
The main circuit diagrams of each Liquid-Cooled drive chassis are in Appendix B.
Power Connections
Use cables with heat resistance of at least +158°F (+70°C). The cables and the fuses must be
sized according to the drive nominal OUTPUT current that you can find on the rating plate.
Sizing according to the output current is recommended because the drive input current never
significantly exceeds the output current. Installation of cables according to UL regulations is
presented on Page 3-10.
In chassis CH5 and greater, the field cables (both motor and mains) should be connected to a
specific cable connection block (optional equipment). However, inside a switchgear, the cable
connection can be made directly to the drive.
Table 3-5 shows the minimum sizes of the Cu-cables and the corresponding aR fuse sizes.
If the motor temperature protection of the drive (see the application manual) is used as an
overload protection, the cable should be chosen accordingly. If three or more cables are used
in parallel, each cable requires a separate overload protection.
These instructions apply only to cases with one motor and one cable connection from the
drive to the motor. In any other case, ask Eaton for more information.
Mains Cable
The mains cables of size CH31 are connected to terminal blocks (see Figure 2-2), whereas
busbar connection is used for larger sizes, see drawings on Pages 2-2 to 2-7. Mains cable
type for EMC level N is in Table 3-1.
Motor Cable
In order to avoid current sharing disbalance, it is imperative to use symmetrical motor
cables. Eaton also recommends always using shielded cable whenever possible.
The motor cables of size CH31 are connected to terminal blocks (see Figure 2-2), whereas
busbar connection is used for larger sizes, see drawings on Pages 2-2 to 2-7. Motor cable
type for EMC level N is in Table 3-1.
Ask Eaton for more information on the use of ferrite cores with the motor cable in order to
protect the motor bearings against motor bearing currents.
For information on control cables see Page 4-6 and Table 3-1.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 3-1: Cable Types Required to Meet Standards
Cable Type
Level N/T
Mains Cable
Power cable intended for fixed installation and the specific mains voltage.
Shielded cable not required.
Motor Cable
Power cable intended for fixed installation and the specific mains voltage.
Shielded cable not required.
Control Cable
Screened cable equipped with compact low-impedance shield.
Cable Data
Table 3-2: Cable Sizes 400 – 500V
Terminal Cable Size
Mains and
Catalog
Chassis Number
Motor Cable Main Terminal Ground Terminal Max. Number of
2
2
2
I
Cu (mm )
(mm ), Max.
(mm )
Cables/Bolt Size
th
ᕅ
ᕅ
ᕅ
ᕅ
CH3
LCX016A0-4
16
22
31
3x2.5+2.5
3x4+4
50
50
50
1 – 10
1 – 10
1 – 10
6 – 35
LCX022A0-4
LCX031A0-4
3x6+6
LCX038A0-4
LCX045A0-4
38 – 45 3x10+10
50 Cu
50 Al
ᕅ
LCX061A0-4
LCX072A0-4
LCX087A0-4
61
72
87
3x16+16
3x25+16
3x35+16
3x50+25
50 Cu
50 Al
6 – 35
6 – 70
6 – 70
6 – 70
CH4
50 Cu
50 Al
1/M8
1/M8
1/M8
50 Cu
50 Al
LCX105A0-4 105
50 Cu
50 Al
LCX140A0-4 140
LCX168A0-4 168
LCX205A0-4 205
LCX261A0-4 261
3x70+35
3x95+50
3x150+70
95 Cu/Al
185 Cu/Al
185 Cu/Al
25 – 95
25 – 95
25 – 95
25 – 95
1/M8
CH5
2/M10
2/M10
2/M10
3x185+95 or 185 Cu/Al 2
2x(3x120+70)
ᕃ
CH61
LCX300A0-4 300
LCX385A0-4 385
3x240+120
25 – 185
25 – 185
25 – 185
25 – 185
25 – 185
2/M12
2/M12
4/M12
4/M12
4/M12
ᕃ
2x(3x120+70)
ᕄ
CH62/72 LCX460A0-4 460
LCX520A0-4 520
2x(3x150+70)
ᕄ
2x(3x185+95)
ᕄ
LCX590A0-4 590
LCX650A0-4 650
3x(3x150+70)
ᕄ
LCX730A0-4 730
3x(3x150+70)
25 – 185
4/M12
ᕃ
Number of bolt connections = 2.
Number of bolt connections = 4.
See Main Terminal Cable Size.
ᕄ
ᕅ
MN04005001E
3-2
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 3-2: Cable Sizes 400 – 500V (Continued)
Terminal Cable Size
Mains and
Catalog
Chassis Number
Motor Cable
Main Terminal Ground Terminal Max. Number of
2
2
2
I
Cu (mm )
(mm ), Max.
(mm )
Cables/Bolt Size
th
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
CH63
LCX820A0-4
LCX920A0-4
820 3x(3x185+95)
920 4x(3x185+95)
8/M12
8/M12
8/M12
8/M12
8/M12
8/M12
8/M12
4/M12
4/M12
4/M12
4/M12
LCXH10A0-4 1030 4x(3x185+95)
LCXH13A0-4 1370 5x(3x185+95)
LCXH16A0-4 1640 6x(3x185+95)
LCXH20A0-4 2060 7x(3x185+95)
LCXH23A0-4 2300 8x(3x185+95)
LCXH13A0-4 1370 5x(3x185+95)
LCXH16A0-4 1640 6x(3x185+95)
LCXH20A0-4 2060 7x(3x185+95)
LCXH23A0-4 2300 8x(3x185+95)
CH64
ᕃ
CH74
ᕃ
Due to insufficient number of terminal bolt connections for required number of cables, the cabinet must be equipped with an
external flexible cable connection block at both mains and motor ends if stiff cable type is used. See also Page 3-7, Step 5.
Number of bolt connections = 4.
ᕄ
ᕅ
Three grounding terminals per mounting plate, see Page 3-10.
Units with 6-pulse supply:
Note that all other sizes have three input terminals except for size CH74, which has nine input
terminals.
Units with 12-pulse supply:
12-pulse supply can be used with drives of sizes CH72 and CH74. The number of input
terminals for both is six.
If 12-pulse supply is used, also consider the fuse selection, see Pages 3-5 and 3-6.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 3-3: Cable Sizes 525 – 690V
Terminal Cable Size
Mains and
Catalog
Chassis Number
Motor Cable
Main Terminal Ground Terminal Max. Number of
2
2
2
I
Cu (mm )
(mm ), Max.
(mm )
Cables/Bolt Size
th
CH61
LCX170A0-5
170 3x95+50
185 Cu/Al
185 Cu/Al
25 – 95
25 – 95
25 – 95
25 – 185
25 – 185
25 – 185
25 – 185
2/M12
2/M12
2/M12
4/M12
4/M12
4/M12
4/M12
4/M12
8/M12
8/M12
8/M12
4/M12
4/M12
4/M12
4/M12
4/M12
4/M12
LCX208A0-5
LCX261A0-5
208 3x150+70
261 3x185+95
185 Cu/Al 2
ᕄ
CH62/72 LCX325A0-5
LCX385A0-5
325 2x(3x95+50)
385 2x(3x120+70)
416 2x(3x150+70)
460 2x(3x185+95)
502 2x(3x185+95)
590 3x(3x150+70)
650 3x(3x150+70)
750 3x(3x185+95)
820 4x(3x150+70)
920 4x(3x185+95)
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
ᕄ
LCX416A0-5
LCX460A0-5
LCX502A0-5
25 – 185
ᕅ
CH63
CH74
LCX590A0-5
LCX650A0-5
LCX750A0-5
LCX820A0-5
LCX920A0-5
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕅ
ᕃ
LCXH10A0-5 1030 4x(3x185+95)
LCXH11A0-5 1180 5x(3x185+95)
LCXH13A0-5 1300 5x(3x185+95)
LCXH15A0-5 1500 6x(3x185+95)
ᕃ
Due to insufficient number of terminal bolt connections for required number of cables, the cabinet must be equipped with an
external flexible cable connection block at both mains and motor ends if stiff cable type is used. See also Page 3-7, Step 5.
Number of bolt connections = 4.
ᕄ
ᕅ
Three grounding terminals per mounting plate, see Page 3-10.
See the tightening torques of bolts in Table 3-4.
Table 3-4: Tightening Torques of Bolts
Tightening Torque in in-lb
Max. Inward Thread Length
(mm)
Bolt
(Nm)
M8
177 (20)
354 (40)
620 (70)
10
22
22
M10
M12
We recommend a low-impedance grounding of the motor cable shield for better
performance.
Because of several possible cable installations and environmental conditions, it is very
important to consider local regulations and the IEC/EN standards.
MN04005001E
3-4
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Fuse Sizes, Drives
The fuse sizing in the tables below is based on Bussman aR fuses. We recommend use of
these fuses. Sufficient protection against short circuit cannot be guaranteed if other fuse
types are used.
Table 3-5: Fuse Sizes for LCX9000 Liquid-Cooled (500V) Drives
DIN43620
aR Fuse
Part No.
DIN43653 (80 mm)
DIN43653 (110 mm)
Fuse Fuse Qty. of
Catalog
Chassis Number
I
Fuse
Size
aR Fuse
Part No.
Fuse
Size
aR Fuse
Part No.
Fuse
Size
U
I
n
Fuses per
Phase 3~
th
n
(A)
(V)
(A)
CH3
LCX016A0-4
16 170M1565 DIN000 170M1415 000T/80
22 170M1565 DIN000 170M1415 000T/80
31 170M1565 DIN000 170M1415 000T/80
38 170M1565 DIN000 170M1415 000T/80
45 170M1567 DIN000 170M1417 000T/80
—
—
—
—
—
—
—
—
—
—
—
—
690
690
690
690
690
690
63 1
63 1
63 1
LCX022A0-4
LCX031A0-4
LCX038A0-4
LCX045A0-4
LCX061A0-4
LCX072A0-4
LCX087A0-4
63 1
100 1
100 1
200 1
200 1
200 1
200 1
400 1
400 1
400 1
700 1
700 1
61 170M1567 DIN000 170M1417 000T/80
ᕃ
CH4
CH5
72 170M3815 DIN1
87 170M3815 DIN1
170M3065 1xTN/80 170M3215 1xTN/110 690
170M3065 1xTN/80 170M3215 1xTN/110 690
170M3065 1xTN/80 170M3215 1xTN/110 690
170M3065 1xTN/80 170M3215 1xTN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
ᕃ
ᕃ
ᕃ
ᕃ
ᕃ
ᕃ
LCX105A0-4 105 170M3815 DIN1
LCX140A0-4 140 170M3815 DIN1
LCX168A0-4 168 170M3819 DIN1
LCX205A0-4 205 170M3819 DIN1
LCX261A0-4 261 170M3819 DIN1
LCX300A0-4 300 170M5813 DIN2
LCX385A0-4 385 170M5813 DIN2
LCX460A0-4 460 170M6814 DIN3
LCX460A0-4 460 170M5813 DIN2
LCX520A0-4 520 170M6814 DIN3
LCX520A0-4 520 170M5813 DIN2
LCX590A0-4 590 170M6814 DIN3
LCX590A0-4 590 170M5813 DIN2
LCX650A0-4 650 170M8547 3SHT
LCX650A0-4 650 170M5813 DIN2
LCX730A0-4 730 170M8547 3SHT
LCX730A0-4 730 170M5813 DIN2
LCX820A0-4 820 170M6812 DIN3
LCX920A0-4 920 170M6812 DIN3
LCXH10A0-4 1030 170M6814 DIN3
LCXH11A0-4 1150 170M6814 DIN3
LCXH13A0-4 1370 170M6814 DIN3
LCXH13A0-4 1370 170M6812 DIN3
LCXH16A0-4 1640 170M6814 DIN3
LCXH16A0-4 1640 170M6812 DIN3
LCXH20A0-4 2060 170M8547 3SHT
LCXH20A0-4 2060 170M6814 DIN3
LCXH23A0-4 2300 170M8547 3SHT
LCXH23A0-4 2300 170M6814 DIN3
CH61
CH72
170M6064 3TN/80 170M6214 3TN/110 690 1000 1
170M5063 2TN/80 170M5213 2TN/110 690 700 2
170M6064 3TN/80 170M6214 3TN/110 690 1000 1
170M5063 2TN/80 170M5213 2TN/110 690 700 2
170M6064 3TN/80 170M6214 3TN/110 690 1000 1
170M5063 2TN/80 170M5213 2TN/110 690 700 2
170M6066 3TN/80 170M6216 3TN/110 690 1250 1
170M5063 2TN/80 170M5213 2TN/110 690 700 2
170M6066 3TN/80 170M6216 3TN/110 690 1250 1
ᕄ
ᕄ
170M5063 2TN/80 170M5213 2TN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M6064 3TN/80 170M6214 3TN/110 690 1000 2
170M6064 3TN/80 170M6214 3TN/110 690 1000 2
170M6064 3TN/80 170M6214 3TN/110 690 1000 3
700 2
800 2
800 2
CH63
CH74
170M6062 3TN/80 170M6212 3TN/110 690
170M6064 3TN/80 170M6214 3TN/110 690 1000 3
170M6062 3TN/80 170M6212 3TN/110 690 800 4
170M6066 3TN/80 170M6216 3TN/110 690 1250 3
170M6064 3TN/80 170M6214 3TN/110 690 1000 4
170M6066 3TN/80 170M6216 3TN/110 690 1250 3
170M6064 3TN/80 170M6214 3TN/110 690 1000 4
800 2
ᕄ
ᕄ
ᕃ
Tj = 77°F (25°C).
ᕄ
SHT fuses can be assembled into DIN fuse base of the corresponding size.
Note: Data in italic refer to drives with 12-pulse supply.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Table 3-6: Fuse Sizes for LCX9000 Liquid-Cooled (690V) Drives
DIN43620
DIN43653 (80 mm) DIN43653 (110 mm)
Qty. of
Fuse Fuse Fuses per
n
(V)
Catalog
Chassis Number
I
aR Fuse
(A) Part No.
Fuse
Size
aR Fuse
Part No.
Fuse
Size
aR Fuse
Part No.
Fuse
Size
U
I
n
Phase
(A) 3~
th
ᕃ
ᕃ
ᕃ
CH61
LCX170A0-5 170 170M3819 DIN1
LCX208A0-5 208 170M3819 DIN1
LCX261A0-5 261 170M3819 DIN1
LCX325A0-5 325 170M5813 DIN2
LCX325A0-5 325 170M3819 DIN1
LCX385A0-5 385 170M5813 DIN2
LCX385A0-5 385 170M3819 DIN1
LCX416A0-5 416 170M6812 DIN3
LCX416A0-5 416 170M3819 DIN1
LCX460A0-5 460 170M6812 DIN3
LCX460A0-5 460 170M3819 DIN1
LCX502A0-5 502 170M6812 DIN3
LCX502A0-5 502 170M3819 DIN1
LCX590A0-5 590 170M6814 DIN3
LCX650A0-5 650 170M8547 3SHT
LCX750A0-5 750 170M8547 3SHT
LCX820A0-5 820 170M5813 DIN2
LCX820A0-5 820 170M6812 DIN3
LCX920A0-5 920 170M5813 DIN2
LCX920A0-5 920 170M6812 DIN3
LCXH10A0-5 1030 170M5813 DIN2
LCXH10A0-5 1030 170M6814 DIN3
LCXH11A0-5 1180 170M5813 DIN2
LCXH11A0-5 1180 170M6814 DIN3
LCXH13A0-5 1300 170M6814 DIN3
LCXH13A0-5 1300 170M8547 3SHT
LCXH15A0-5 1500 170M6814 DIN3
LCXH15A0-5 1500 170M8547 3SHT
170M3069 1xTN/80 170M3219 1xTN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M3069 1xTN/80 170M3219 1xTN/110 690
170M6064 3TN/80 170M6214 3TN/110 690
170M6066 3TN/80 170M6216 3TN/110 690
170M6066 3TN/80 170M6216 3TN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M6062 3TN/80 170M6212 3TN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M6064 3TN/80 170M6214 3TN/110 690
170M5063 2TN/80 170M5213 2TN/110 690
170M6064 3TN/80 170M6214 3TN/110 690
170M6064 3TN/80 170M6214 3TN/110 690
170M6066 3TN/80 170M6216 3TN/110 690
170M6064 3TN/80 170M6214 3TN/110 690
170M6066 3TN/80 170M6216 3TN/110 690
400 1
400 1
400 1
700 1
400 2
700 1
400 2
800 1
400 2
800 1
400 2
800 1
400 2
CH72
ᕃ
ᕃ
ᕃ
ᕃ
ᕃ
CH63
CH74
1100 1
1250 1
1250 1
700 3
ᕄ
ᕄ
800 2
700 3
800 2
700 3
1000 2
700 3
1000 2
1000 3
1250 2
1000 3
1250 2
ᕄ
ᕄ
ᕃ
Tj = 77°F (25°C).
ᕄ
SHT fuses can be assembled into DIN fuse base of the corresponding size.
Note: Data in italic refer to drives with 12-pulse supply.
Fuse information
Max fuse ambient temperature +122°F (+50ºC).
Fuse sizes can differ in the same chassis. Fuses can be chosen according to the highest
current rating of the chassis to minimize fuse variants.
Check the current rating of the fuse bases according to the input current of the drive.
The physical size of the fuse is chosen on the basis of the fuse current: Current <400 amps
(size 2 fuse or smaller), current <400 amps (size 3 fuse).
MN04005001E
3-6
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Cable Installation Instructions
1. Before starting the installation, check that none of the components of the drive is live.
2. LCX9000 Liquid-Cooled drive must always be installed in an enclosure, a separate
cubicle or an electrical room.
Always use a jib crane or similar lifting device to lift the drive. For safe and appropriate
lifting, see Page 2-1.
3. Place the motor cables far enough from other cables:
●
Avoid placing the motor cables in long parallel lines with other cables.
●
If the motor cables run in parallel with other cables, note the minimum distances
between the motor cables and other cables given in table below.
●
The given distances also apply between the motor cables and signal cables of other
systems.
Distance between
Parallel Running
Cables in Feet (m)
Shielded
Cable
in Feet (m)
10 (.3)
≤164 (50)
3.3 (1.0)
≤656 (200)
●
●
The maximum length of the motor cables is 984 feet (300m).
The motor cables should cross other cables at an angle of 90 degrees.
4. If cable insulation checks are needed, see Page 3-11.
5. Connect the cables:
●
For chassis CH5 and greater, an external flexible cable connection block must be
used at both mains and motor ends if stiff cable type (EMCMK, MCMK) is used. See
Page 3-1.
●
●
Strip the cables at a sufficient distance if needed.
Connect the mains, motor and control cables to their respective terminals (see
Chapter 2). If busbar connection is used, bolt the bars and the terminals together.
See bolt sizes on Pages 2-2 to 2-7.
●
●
●
Also take the maximum terminal stresses shown in Figure 3-1 into account.
For information on cable installation according to UL regulations see Page 3-10.
Make sure that the control cable wires do not come in contact with the electronic
components of the unit.
●
●
●
If an external brake resistor (option) is used, connect its cable to the appropriate
terminal (CH3 only).
Check the connection of the ground cable to the motor and the drive terminals
marked with
.
Connect the separate shield of the power cable to the ground terminals of the drive,
motor and the supply center.
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
6. Liquid cooling connection:
The standard delivery of the LCX9000 Liquid-Cooled drive includes hoses on the cooling
element 4.9 feet (1.5m) in length and .59 inches (15 mm) in diameter. The hoses are
inserted in 55 inch (1400 mm) UL94V0 approved conduits. Connect the line hose branch
to its counterpart (screw or fast connector) of the Cutler-Hammer Liquid-Cooled drive.
Due to high pressure in the line hose, equipping the liquid line with a shut-off valve is
recommended, which makes the connection easier. In order to prevent water from
spraying in the installation room we also recommend wrapping e.g. linters around the
connection during installation. For more information on the liquid connection, see Page
2-14.
When the installation in the enclosure is completed, the liquid pump can be started. See
Start-Up of the drive in Chapter 6.
Note: Do not switch on the power before ensuring proper function of the liquid cooling
system.
2,3 kN
2,3 kN
2,3 kN
1 kN
2,3 kN
2,3 kN
1 kN
2,3 kN
AC Drives
2,3 kN
Maximum Terminal Stress
2,3 kN
Figure 3-1: Maximum Terminal Stresses
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Installation Space
Enough free space must be left above and below the drive to ensure practical and
appropriate electrical and cooling connections. The minimum dimensions are given in the
table below. No space is required to the left and right of the drive.
A
Approximate Dimensions
in Inches (mm)
Chassis
A
B
CH3
3.94 (100)
3.94 (100)
3.94 (100)
3.94 (100)
3.94 (100)
7.87 (200)
7.87 (200)
7.87 (200)
7.87 (200)
5.91 (150)
CH4
7.87 (200)
7.87 (200)
CH5
CH61
CH62
CH63
CH64
CH72
CH74
11.81 (300)
15.75 (400)
15.75 (400)
19.69 (500)
15.75 (400)
19.69 (500)
ᕃ
ᕃ
ᕃ
ᕃ
ᕃ
ᕃ
Distance to the cable connection block. Additional
space must be reserved for ferrite rings, if used.
See Page 3-1.
B
Figure 3-2: Installation Space
MN04005001E
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3-9
LCX9000 Liquid-Cooled Drives User Manual
January 2007
Grounding of Power Unit
The mains cables are connected to the protective ground of the switchgear enclosure.
We recommend connecting the motor cables to the common PE of the cabinet/cabinet
system.
For grounding of the drive itself, use the grounding terminal on the drive mounting plate (see
Figure 3-3).
Figure 3-3: Grounding Terminal on Mounting Plate
Cable Installation and the UL Standards
To meet the UL (Underwriters Laboratories) regulations, a UL-approved copper cable with a
minimum heat resistance of +140/167°F (+60/75°C) must be used.
The tightening torques of the terminals are given in Table 3-4.
MN04005001E
3-10
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Cable and Motor Insulation Checks
1. Motor cable insulation checks
Disconnect the motor cable from terminals U, V and W of the drive and from the motor.
Measure the insulation resistance of the motor cable between each phase conductor as
well as between each phase conductor and the protective ground conductor.
The insulation resistance must be at least 1 – 2MΩ.
2. Mains cable insulation checks
Disconnect the mains cable from terminals L1, L2 and L3 of the drive and from the
mains. Measure the insulation resistance of the mains cable between each phase
conductor as well as between each phase conductor and the protective ground
conductor.
The insulation resistance must be at least 1 – 2MΩ.
3. Motor insulation checks
Disconnect the motor cable from the motor and open the bridging connections in the
motor connection box. Measure the insulation resistance of each motor winding. The
measurement voltage must equal at least the motor nominal voltage but not exceed
1000V. The insulation resistance must be at least 1 – 2MΩ.
MN04005001E
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January 2007
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Chapter 4 — Control Wiring and Internal Connections
The control unit of the Cutler-Hammer Liquid-Cooled drive is installed into a mounting box. It
contains the control board and additional boards (see Figures 4-1 and 4-2) connected to the
five slot connectors (A to E) of the control board. The control unit and the ASIC of the power
unit are connected through cables (and an adapter board). For more information, see Page
4-17.
The mounting box with the control unit is mounted inside an enclosure. See the mounting
instructions on Page 4-10.
Figure 4-1: Control Board
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
E
D
C
B
A
Figure 4-2: Basic and Option Board Connections of the Control Board
Usually, when the drive is delivered from the factory, the control unit includes at least the
standard compilation of two basic boards (I/O board and relay board) which are normally
installed in slots A and B. On the next pages you will find the arrangement of the control I/O
and the relay terminals of the two basic boards, the general wiring diagram and the control
signal descriptions. The I/O boards mounted at the factory are indicated in the catalog
number.
The control board can be powered externally (+24V, 10%) by connecting the external power
source to either of the bidirectional terminals, #6 or #12, see Page 4-7. This voltage is
sufficient for parameter setting and for keeping the fieldbus active.
Note: If the 24V inputs of several drives are parallel connected, we recommend using a diode
in terminal #6 (or #12) in order to avoid the current flowing in opposite directions. This
might damage the control board. See Figure 4-3.
External
+
24V
+
6
+
6
+
6
+
6
–
7
–
7
–
7
–
7
#
#
#
#
#
#
#
#
Figure 4-3: Drives Connected in Parallel
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Control Board Power-Up
The control board can be powered (+24V) in two different ways: either 1) directly from the
power board ASIC, terminal X10; or 2) externally using the customer’s own power source.
This voltage is sufficient for parameter setting and for keeping the fieldbus active.
By factory default, the control unit is powered using the terminal X10 on the power board.
However, if an external supply is used to power up the control unit, a load resistor must be
connected to terminal X10 on the power board. This applies to all chassis ≥CH61.
Notice
IMPORTANT NOTE FOR CHASSIS CH3, CH4 and CH5: If you power
the control board from the power board be sure to connect the
cable to the correct terminal. Terminal J2 on the power board is
reserved for this purpose. Do not connect the cable to terminal J1.
See Figures 4-4 and 4-5.
Figure 4-4: Connection of Control Board Cable from the Power Board
WRONG: Terminal J1 (Upper)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Figure 4-5: Connection of Control Board Cable from the Power Board
CORRECT: Terminal J2 (Lower)
Control Connections
The basic control connections for boards A9 and A2 are shown in Table 4-1 on Page 4-7.
The signal descriptions are presented in the application manual.
Board OPT-A9 in Slot A
Board OPT-A2 in Slot B
Figure 4-6: I/O Terminals of the Two Basic Boards
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Basic I/O Board A9
+10Vref
1
2
Input Reference
(Voltage)
+
AI1
GND
3
+
AI2
4
Input Reference
(Current)
-
AI2
5
6
Control Voltage Output
24Vout
GND
7
DIN1
8
DIN2
9
24V
DIN3
10
11
12
13
14
15
16
17
18
19
GND
[x
CMA
24Vout
GND
DIN4
DIN5
DIN6
CMB
24V
[x
GND
+
AO1
0 (4)/20 mA
-
AO1
Ω
RC<500
U<+48V
I<50 mA
+
DO1 20
Indicates Connections for Inverted Signals
Figure 4-7: General Wiring Diagram of the Basic I/O Board (OPT-A9)
Basic Relay Board OPT-A2
21
22
23
RO1/1
RO1/2
RO1/3
RL
AC / DC
Switching:
RO2/1
RO2/2
RO2/3
24
25
26
<8A / 24V DC
<0.4A / 125V DC
<2kVA / 250V AC
Continuously
<2 Arms
Figure 4-8: General Wiring Diagram of the Basic Relay Board (OPT-A2)
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Control Cables
2
The control cables should be at least 20 AWG (.5 mm ) screened multicore cables, see Table
2
3-1. The maximum terminal wire size is 14 AWG (2.5 mm ) for the relay terminals and 16
2
AWG (1.5 mm ) for other terminals.
Galvanic Isolation Barriers
The control connections are isolated from the mains potential and the GND terminals are
permanently connected to ground. See Figure 4-9.
The digital inputs are galvanically isolated from the I/O ground. The relay outputs are
additionally double-isolated from each other at 300V AC (EN-50178).
Gate Drivers
+
10Vref
GND
L1 L2 L3
+
GND
24V
Control I/O
Ground
AI1
+
AI2
AI2
-
Control
Panel
DIN1...
DIN3
CMA
Digital Input
Group A
DIN4...
DIN6
CMB
Digital Input
Group A
Power
Board
Control
Board
+
AO1
AO2
Analog
Output
-
Digital
Output
DO1
RO1/1
RO1/2
RO1/3
RO2/1
RO2/2
RO2/3
U
V
W
+
–
TI1
TI1
Figure 4-9: Galvanic Isolation Barriers
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Control Terminal Signals
Table 4-1: Control I/O Terminal Signals
Terminal
Signal
Technical Information
OPT-A9
1
2
+10 V
Reference voltage
Maximum current 10 mA
ref
AI1+
Analog input,
voltage or current
Selection V or mA with jumper block X1 (see Page 4-9):
Default: 0 to +10V (Ri = 200 kΩ)
(-10V to 10V Joystick control, selected with a jumper)
0 – 20 mA (Ri = 250 Ω)
3
4
GND/AI1–
AI2+
Analog input common
Differential input if not connected to ground;
Allows 20V differential mode voltage to GND
Analog input,
voltage or current
Selection V or mA with jumper block X2 (see Page 4-9):
Default: 0 – 20 mA (Ri = 250 kΩ)
0 – 10V (Ri = 200 kΩ)
(-10V to 10V Joystick control, selected with a jumper)
5
6
GND/AI2–
Analog input common
24V auxiliary voltage
Differential input if not connected to ground;
Allows 20V differential mode voltage to GND
24 V
±15%, maximum current 250 mA
Can also be used as external power backup for the control unit
(and fieldbus)
out
(bidirectional)
7
8
GND
DIN1
DIN2
DIN3
CMA
I/O ground
Ground for reference and controls
Digital input 1
Digital input 2
Digital input 3
R = min. 5kΩ
i
18 – 30V = “1”
9
10
11
Digital input common A for
DIN1, DIN2 and DIN3
Must be connected to GND or 24V of I/O terminal or to external
24V or GND
Selection with jumper block X3 (see Page 4-9):
12
24 V
24V auxiliary voltage
Same as terminal #6
out
(bidirectional)
13
14
15
16
17
GND
I/O ground
Same as terminal #7
DIB4
Digital input 4
Digital input 5
Digital input 6
R = min. 5 kΩ
i
DIB5
DIB6
CMB
Digital input common B for
DIB4, DIB5 and DIB6
Must be connected to GND or 24V of I/O terminal or to external
24V or GND
Selection with jumper block X3 (see Page 4-9):
18
19
AO1+
AO1–
Analog signal (+output)
Analog output common
Output signal range:
Current 0(4) – 20 mA, R max 500Ω or
L
Voltage 0 – 10V, R >1kΩ
L
Selection with jumper block X6 (see Page 4-9):
20
DO1
Open collector output
Relay output 1
Maximum U = 48V DC
in
Maximum current = 50 mA
OPT-A2
21
RO1/1
RO1/2
RO1/3
Max. switching voltage 250V AC, 125V DC
Max. switching current 8A/24V DC,
0.4A/250V DC
22
23
Min. switching load
5V/10 mA
24
25
26
RO2/1
RO2/2
RO2/3
Relay output 2
Max. switching voltage 250V AC, 125V DC
Max. switching current 8A/24V DC,
0.4A/250V DC
Min. switching load
5V/10 mA
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Digital Input Signal Inversions
The active signal level depends on which potential the common inputs CMA and CMB
(terminals 11 and 17) are connected to. The alternatives are either +24V or ground (0V). See
Figure 4-10.
The 24V control voltage and the ground for the digital inputs and the common inputs (CMA,
CMB) can be either internal or external.
1
2
3
+
24V
Ground
DIN1
DIN2
DIN1
DIN2
DIN3
CMA
DIN3
CMA
+
Ground
24V
Figure 4-10: Positive/Negative Logic
ᕃ
ᕄ
ᕅ
Positive logic (+24V) is the active signal) = the input is active when the switch is closed.
Negative logic (0V is the active signal = the input is active when the switch is closed.
Requires setting of jumper X3 to position “CMA/CMB isolated from ground.”
Jumper Selections on the OPT-A9 Basic Board
The user is able to customize the functions of the drive to better suit his needs by selecting
certain positions for the jumpers on the OPT-A9 board. The positions of the jumpers
determine the signal type of analogue and digital inputs.
On the A9 basic board, there are four jumper blocks X1, X2, X3 and X6 each containing eight
pins and two jumpers. The selectable positions of the jumpers are shown in Figure 4-12.
Figure 4-11: Jumper Blocks on OPT-A9
MN04005001E
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Jumper Block X1:
AI1 Mode
Jumper Block X2:
AI2 Mode
A
B
C
D
A
B
C
D
AI1 Mode: 0...20mA; Current Input
AI2 Mode: 0...20mA; Current Input
A
B
C
D
A
B
C
D
AI1 Mode: Voltage Input; 0...10V
AI2 Mode: Voltage Input; 0...10V
A
B
C
D
A
B
C
D
AI1 Mode: Voltage Input; 0...10V (Differential)
AI2 Mode: Voltage Input; 0...10V (Differential)
A
B
C
D
A
B
C
D
AI1 Mode: Voltage Input; -10...10V
AI2 Mode: Voltage Input; -10...10V
Jumper Block X6:
AO1 Mode
Jumper Block X3:
CMA and CMB Grounding
A
B
C
D
CMB Connected to GND
CMA Connected to GND
CMB Isolated from GND
CMA Isolated from GND
AI1 Mode: 0...20mA; Current Output
CMB and CMA
Internally Connected Together,
Isolated from GND
A
B
C
D
AO1 Mode: Voltage Output; 0...10V
= Factory Default
Figure 4-12: Jumper Selection for OPT-A9
Note: If you change the AI signal content also remember to change the corresponding board
parameter in menu M7.
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Control Unit Mounting Box
R .20
(5)
Top
5.67
(144)
1.77
(45)
2.32
(59)
12.95
(329)
Figure 4-13: Control Unit Mounting Box
Approximate Dimensions in Inches (mm)
Installing the Control Unit Mounting Box
The control unit of the LCX9000 Liquid-Cooled drive is mounted into a metal box which then
can be placed inside the enclosure. The keypad can be used to control the drive. The keypad
is connected to the control unit with an RS-232 cable and mounted on the enclosure door.
Pay special attention to the grounding of the cable, see instructions below.
Figure 4-14: Control Unit Installed into the Mounting Box;
Left: Front; Right: Back
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Table 4-2: Installing the Control Unit Mounting Box
1. If the keypad sits in its place on the
control unit, remove the keypad.
2. Connect the male end of the keypad
cable to the D-connector of the control
unit. Use RS-232 cable included in the
delivery.
3. Run the cable over the top of the box
and secure with plastic band on the
backside.
4. Grounding of keypad cable: Ground the
keypad cable in the mounting box frame
by fixing the branch cable with a screw
underneath the control unit.
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Table 4-2: Installing the Control Unit Mounting Box (Continued)
5. Mount the control unit mounting box in
the front-left corner of the enclosure
using two screws.
Note: Do not install the mounting box
floating (with e.g. plastic screws).
6. Connect the optical cables (or the flat
cable) to the power unit. See Page 4-17.
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Table 4-2: Installing the Control Unit Mounting Box (Continued)
7. Connect the female end of the keypad
cable to keypad on the enclosure door.
8. Use a cable channel for the cable run.
Internal Connections
As a general rule, all internal electrical and communications connections are made at the
factory. However, if modules have to be moved, for example, and the connections therefore
removed, you will have to re-establish the connections between 1) the Power Unit ASIC and
the Driver Board(s) on the one hand and 2) the Power Unit ASIC and the Optical Cable
Adapter Board on the other.
Connections between Power Unit ASIC and Driver Boards
See the figures and tables on the following pages for the correct connection of internal
electrical and communications connections.
Note: The minimum optical cable bending radius is 1.97 inches (50 mm).
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DC+
DC-
ASIC Board
Internal Fan
Driver Board
Figure 4-15: Terminals and Connections between ASIC and Driver Board
(CH61, CH62 and CH72)
Table 4-3: Terminals (CH61, CH62 and CH72)
Terminal Description
Terminal Description
Terminals on ASIC Board
Terminals on ASIC Board (Continued)
X9
OEVA feedback
UH
UL
VH
VL
Connect to UH on driver board
X15
X6
Charging relay output
DC terminal
Connect to UL on driver board
Connect to VH on driver board
Connect to VL on driver board
X29
X26
Flow supervision input
Star Coupler terminal for drives greater WH
than CH61
Connect to WH on driver board
Connect to WL on driver board
WL
X10
X3
X4
X5
X1
+24V to control board
Terminal X1 on Driver Board
Connect to terminal X13 on driver board X1
Connect to terminal X14 on driver board
Connect to terminal X15 on driver board
Driver board fan power connection
DC terminal
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DC- DC+
X9 X15
X29
H1 H2 H3 H4 H5 H6 H7
X6
ASIC Board
X1
X26
X10
UH
VH
WH
VL WL X3 X4 X5
UL
UH
UL
VH
VL
WH
WL
Driver Board,
Phase U
Driver Board,
Phases V & W
X2
X2
X6
X6
Module 1
Module 2
Internal Fan
Internal Fan
Figure 4-16: Terminals and Connections between ASIC and Driver Board (CH63)
Table 4-4: Terminals (CH63)
Terminal Description
Terminal Description
Terminals on ASIC Board
Terminals on ASIC Board (Continued)
X9
OEVA feedback
UH
UL
VH
VL
Connect to UH on Phase U driver board
X15
X6
Charging relay output
DC terminal
Connect to UL on Phase U driver board
Connect to VH on Phase V/W driver board
Connect to VL on Phase V/W driver board
X29
X26
Flow supervision input
Star Coupler terminal for drives greater WH
than CH61
Connect to WH on Phase V/W driver
board
X10
X3
+24V to control board
WL
Connect to WL on Phase V/W driver board
Connect to terminal X6 on phase U
driver board
Terminal X2 on Phase U Driver Board
X2 Internal fan power connection for Mod. 1
X4
X5
X1
Connect to terminal X2 on phase V/W
driver board
Connect to terminal X6 on phase V/W
driver board
Internal fan power connection for Mod. 2
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DC- DC+
X6
X9 X15
X29
H1 H2 H3 H4 H5 H6 H7
ASIC Board
X1
X26
X10
UH
VH
WH
VL WL X3 X4 X5
UL
UH
UL
VH
VL
WH
X2
WL
Driver Board,
Phase U
Driver Board,
Phase V
Driver Board,
Phase W
X2
X2
X1
X1
X1
Module 1
Module 2
Module 3
Internal Fan
Internal Fan
Internal Fan
Figure 4-17: Terminals and Connections between ASIC and Driver Boards (CH64 and CH74)
Table 4-5: Terminals between Driver Boards (CH64 and CH74)
Terminal Description
Terminal Description
Terminals on ASIC Board
Terminals on ASIC Board (Continued)
X9
OEVA feedback
UH
UL
VH
VL
Connect to UH on Phase U driver board
X15
X6
Charging relay output
DC terminal
Connect to UL on Phase U driver board
Connect to VH on Phase V driver board
Connect to VL on Phase V driver board
Connect to WH on Phase W driver board
Connect to WL on Phase W driver board
X29
X26
Flow supervision input
Star Coupler terminal for drives greater WH
than CH61
WL
X10
X3
+24V to control board
Terminal X2 on Phase Driver Boards
Connect to terminal X1 on phase U
driver board
X2
Internal fan power connection
X4
X5
Connect to terminal X1 on phase V
driver board
Connect to terminal X1 on phase W
driver board
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Connections between Power Unit ASIC and the Control Unit
The communication connections between the liquid-cooled drive power unit and the control
unit (see Page 6-1) can be established using either the conventional round cable (standard in
chassis CH3, CH4 and CH5) or optical cable (all chassis). Note that for chassis CH61 and
larger, only optical cables can be used.
Connections with Round Cable
The communication connection between the drive power unit and the control unit in chassis
CH3, CH4 and CH5 are primarily made with conventional round cable and D-connectors at
both ends.
Remove the protective cover to reveal the D-connector on the power unit. Connect one end of
the communication cable to the D-connector of the power unit and the other end to the
control unit. If the Optical Cable Adapter Board (see below) sits on the D-connector of the
control unit, you have to remove it first. See Figure 4-18 below.
Connections with Optical Cable
If optical cables are used to link the power unit and the control board, a special Optical Cable
Adapter Board connected to the control board D-connector must be used. To connect the
optical cables to the power unit, you will have to remove the protective cover first. See
Figure 4-18. Connect the optical cables as shown in Figure 4-19. Also see Page 4-10, Control
Unit Mounting Box. The maximum length of the optical cable is 33 feet (10m).
Optical
Terminals
D-Connector
Figure 4-18: Remove Cover to Access Power Unit
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H7
H6
H5
H4
H3
H2
H1
X1
H7
H6
DC- DC+
X1
X9 X15
X2 X3
H1 H2 H3 H4 H5 H6 H7
H5
X6
ASIC Board
X29
H4
H3
X1
H2
H1
X26
VH
X10
UH
WH
UL
VL
WL X3 X4 X5
X2
X3
Figure 4-19: Optical Cable Adapter Board
Table 4-6: Terminals on Adapter Board
Terminal Description
Terminal Description
Other Terminals on Adapter Board
Optical Terminals on Optical Cable Adapter Board
H1
H2
H3
H4
H5
H6
H7
Gate control enable
X1
X2
Control board connection
Phase U control
Supply voltage 24V (from power unit
in
ASIC)
Phase V control
Phase W control
X3
Supply voltage 24Vin (customer);
●
Max. current 1A
ADC synchronization
Bus data from control board to ASIC
Bus data from ASIC to control board
●
Terminal #1: +
●
Terminal #2: -
Note: The minimum optical cable bending radius is 1.97 inches (50 mm).
Note: Terminals X2 and X3 can be in use simultaneously. However, if the +24V supply from
the control I/O terminals (e.g. from board OPT-A1) is used, this terminal must be
protected with a diode.
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Chapter 5 — Menu Information
Keypad Operation
The control keypad is the link between the LCX9000 drive and the user. The control keypad
features an alphanumeric display with seven indicators for the Run status (RUN, counter-
clockwise, clockwise, READY, STOP, ALARM, FAULT) and three indicators for the control
place (I/O term/Keypad/BusComm). There are also three Status Indicator LEDs (green – green
– red), see Page 5-3.
The control information, i.e. the menu number, description of the menu or the displayed
value and the numeric information are presented on three text lines.
The drive is operable through the nine pushbuttons of the control keypad. Furthermore, the
buttons can be used in setting parameters and monitoring values.
The keypad is detachable and isolated from the input line potential.
Indicators on the Keypad Display
Figure 5-1: Control Keypad and Drive Status Indications
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Drive Status Indicators
The drive status symbols tell the user the status of the motor and the drive. In addition, they
tell about possible irregularities detected by the motor control software in motor or drive
functions.
Table 5-1: Drive Status Indicators
Indicator
Description
RUN
Motor is running; Blinks when the stop command has been given but the
frequency is still ramping down.
Indicates the direction of motor rotation.
STOP
Indicates that the drive is not running.
READY
Lights up when AC power is on. In case of a trip, the symbol will not light up.
ALARM
Indicates that the drive is running outside a certain limit and a warning is
given.
FAULT
Indicates that unsafe operating conditions were encountered due to which
the drive was stopped.
Control Place Indicators
The symbols I/O term, Keypad and Bus/Comm (see Table 5-2) indicate the choice of control
place made in the Keypad control menu (M3) (see Page 5-9).
Table 5-2: Control Place Indicators
Indicator
Description
I/O Terminal
I/O terminals are selected as the control place i.e. START/STOP commands or
reference values etc. are given through the I/O terminals.
Keypad
Control keypad is selected as the control place i.e. the motor can be started or
stopped, or its reference values etc. altered from the keypad.
Bus/Comm
The drive is controlled through a fieldbus.
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Status LEDs (Green – Green – Red)
The status LEDs light up in connection with the READY, RUN and FAULT drive status
indicators.
Table 5-3: Status LEDs (Green – Green – Red)
Indicator
Description
Lights up with the AC power connected to the drive. Simultaneously, the
drive status indicator READY is lit up.
Lights up when the drive is running. Blinks when the STOP button has been
pushed and the drive is ramping down.
Lights up when unsafe operating conditions were encountered due to which
the drive was stopped (Fault Trip). Simultaneously, the drive status indicator
FAULT blinks on the display and the fault description can be seen, see
Page 5-11, Active faults.
Text Lines
The three text lines provide the users with information on their present location in the keypad
menu structure as well as with information related to the operation of the drive.
Table 5-4: Text Lines
Indicator
Description
Location indicator: displays the symbol and number of the menu, parameter,
etc. Example: M2 = Menu 2 (Parameters); P2.1.3 = Acceleration time.
Description line: Displays the description of the menu, value or fault.
Value line: Displays the numerical and textual values of references,
parameters, etc. and the number of submenus available in each menu.
Keypad Pushbuttons
The alphanumeric control keypad has nine pushbuttons that are used for controlling the
drive (and motor), setting parameters and monitoring values.
Figure 5-2: Keypad Pushbuttons
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Table 5-5: Button Descriptions
Indicator
Description
RESET
This button is used to reset active faults (see Page 5-11).
SELECT
This button is used to switch between the two latest displays. This may be
useful when you want to see how the changed new value influences some
other value.
ENTER
The ENTER button is used for:
• confirmation of selections
• fault history reset (2 – 3 seconds)
Browser Button Up
Browse the main menu and the pages of different submenus.
Edit values.
Browser Button Down
Browse the main menu and the pages of different submenus.
Edit values.
Menu Button Left
Move backward in menu.
Move cursor left (in parameter menu).
Exit edit mode.
Press for 2 to 3 seconds to return to main menu.
Menu Button Right
Move forward in menu.
Move cursor right (in parameter menu).
Enter edit mode.
START Button
Pressing this button starts the motor if the keypad is the active control place.
See Page 5-10.
STOP Button
Pressing this button stops the motor (unless disabled by parameter R3.4/
R3.6). See Page 5-10.
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Menu Navigation
The data on the control keypad is arranged in menus and submenus. The menus are used for
the display and editing of measurement and control signals, parameter settings and
reference value and fault displays. Through the menus, you can also adjust the contrast of
the display.
Location
Description
Monitor
Number of Items
Available; Item Value
V1 V14
Figure 5-3: Keypad Display Data
The first menu level consists of menus M1 to M7 and is called the Main menu. The user can
navigate in the main menu with the Browser buttons up and down. The desired submenu can
be entered from the main menu with the menu buttons. When there still are pages to enter
under the currently displayed menu or page, you can see an arrow in the lower right corner
of the display and can reach the next menu level by pressing Menu Button Right.
The control keypad navigation chart is shown in Figure 5-4. Please note that menu M1 is
located in the lower left corner. From there you will be able to navigate your way up to the
desired menu using the menu and browser buttons.
You will find more detailed descriptions of the menus later in this chapter.
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:
:
Expander boards
A OPTA1
A Parameters
G1 G5
G1 G1
P1 P3
Change
value
System Menu
S1 S9
Language
English
Browse
Fault history
H1 H3
11 Output phase
Operation days
T1
T7
17
Active faults
11 Output phase
T1 T7
Operation days
or:
F0
F
17
Keypad control
Control Place
I/O Terminal
Change
Browse
P1
P3
value
Parameters
Basic parameters
P1 P15
Min Frequency
Change
value
Browse
G1 G9
13.95 Hz
Monitor
V1 V15
Output Frequency
No editing!
13.95 Hz
Figure 5-4: Keypad Navigation Chart
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Monitoring Menu (M1)
You can enter the Monitoring menu from the Main menu by pressing Menu Button Right
when the location indication M1 is visible on the first line of the display. Figure 5-5 shows
how to browse through the monitored values.
The monitored signals carry the indication V#.# and they are listed in Table 5-6. The values
are updated once every .3 seconds.
This menu is meant only for signal checking. The values cannot be altered here. For changing
values of parameters, see Page 5-8.
FreqReference
13.95 Hz
Monitor
V1 V14
Output frequency
13.95 Hz
Figure 5-5: Monitoring Menu
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Table 5-6: Monitored Signals
Code
Signal Name
Unit
Description
V7.1
Output frequency
Hz
Frequency to the motor
V7.2
Frequency reference Hz
V7.3
Motor speed
rpm
Calculated motor speed
Measured motor current
V7.4
Motor current
Motor torque
A
V7.5
%
Calculated torque based/nominaltorque of the unit
Calculated actual power/nominal power of the unit
Calculated motor voltage
Measured DC-link voltage
Heatsink temperature
V7.6
Motor power
%
V7.7
Motor voltage
DC-link voltage
Unit temperature
Motor temperature
Voltage input
V
V7.8
V
V7.9
°C
%
V7.10
V7.11
V7.12
V7.13
V7.14
V7.15
V7.16
Calculated motor temperature
AI1
V
Current input
mA
—
—
—
mA
AI2
DIN1, DIN2, DIN3
DIN4, DIN5,DIN6
DO1, RO2, RO3
Digital input statuses
Digital input statuses
Digital and relay output statuses
AO1
Analog output
current
M1.17
Multimonitoring
items
Displays three selectable monitoring values. See
Page 5-23.
Note: Applications may embody more monitoring values.
Parameter Menu (M2)
Parameters are the way of conveying the commands of the user to the drive. Parameter
values can be edited by entering the Parameter Menu from the Main Menu when the location
indication M2 is visible on the first line of the display. The value editing procedure is
presented in Figure 5-6.
Pressing Menu Button Right once takes you to the Parameter Group Menu (G#). Locate the
desired parameter group by using the Browser buttons and press Menu Button Right again
to see the group and its parameters. Use the Browser buttons to find the parameter (P#) you
want to edit. Pressing Menu Button right takes you to the edit mode. As a sign of this, the
parameter value starts to flash. You can now change the value in two different ways:
●
Set the desired value with the Browser buttons and confirm the change with the ENTER
button. Consequently, the blinking stops and the new value is visible in the value field.
●
Press Menu Button Right once more. Now you will be able to edit the value digit by
digit. This may come in handy, when a relatively greater or smaller value than that on
the display is desired. Confirm the change with the ENTER button.
The value will not change unless the ENTER button is pressed. Pressing Menu Button Left
takes you back to the previous menu.
Several parameters are locked, i.e. cannot be edited, when the drive is in RUN status. If you
try to change the value of such a parameter the text *Locked* will appear on the display. The
drive must be stopped to edit these parameters.
The parameter values can also be locked using the function in menu M6 (see Page 5-22).
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You can return to the Main menu any time by pressing Menu Button Left for 1 to 2 seconds.
The basic application package includes seven applications with different sets of parameters.
You will find the parameter lists in the application manual.
Once in the last parameter of a parameter group, you can move directly to the first parameter
of that group by pressing Browser button up.
See the diagram for parameter value change procedure in Figure 5-6.
Input signals
G1 G8
Parameters
G1 G8
Basic parameters
P1 P18
Min Frequency
13.95 Hz
Min Frequency
Min Frequency
13.95 Hz
14.45 Hz
Figure 5-6: Parameter Value Change Procedure
Keypad Control Menu (M3)
In the Keypad Control Menu, you can choose the control place, edit the frequency reference
and change the direction of the motor. You can enter the submenu level by pressing Menu
Button Right.
Table 5-7: Keypad Control Parameters, M3
Code Parameter
Min.
Max.
Unit Default Cust. ID Note
P3.1 Control place
1
3
1
125 1 = I/O terminal
2 = Keypad
3 = Fieldbus
P3.2 Keypad reference Par. 2.1.1 Par. 2.1.2 Hz
P3.3 Direction
(on keypad)
0
1
0
1
123 0 = Forward
1 = Reverse
R3.4 Stop button
0
1
114 0 = Limited function of Stop
button
1 = Stop button always
enabled
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Selection of Control Place
There are three different places (sources) where the drive can be controlled. For each control
place, a different symbol will appear on the alphanumeric display:
●
●
●
I/O terminals
Keypad (panel)
Fieldbus
You can change the control place by entering the edit mode with Menu Button Right. The
options can then be browsed with the Browser buttons. Select the desired control place with
the ENTER button. See Figure 5-7.
M3
Keypad control
Control Place
Control Place
P1 P4
I/O Remote
I/O Remote
Control Place
Control Place
Keypad
Keypad
Figure 5-7: Selection of Control Place
Keypad Reference
The keypad reference submenu (P3.2) displays and allows the operator to edit the frequency
reference. The changes will take place immediately. This reference value will not, however,
influence the rotation speed of the motor unless the keypad has been selected as the source
of reference.
Note: The maximum difference in RUN mode between the output frequency and the keypad
reference is 6 Hz. The program automatically monitors the keypad reference value.
You may edit the reference value (pressing the ENTER button is not necessary).
Keypad Direction
The keypad direction submenu displays and allows the operator to change the rotating
direction of the motor. This setting will not, however, influence the rotation direction of the
motor unless the keypad has been selected as the active control place.
Note: For additional information on controlling the motor with the keypad, see Pages 5-3 and
6-2.
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STOP Button Activated
By default, pushing the STOP button will always stop the motor regardless of the selected
control place. You can disable this function by giving parameter 3.4 the value 0. If the value of
this parameter is 0, the STOP button will stop the motor only when the keypad has been
selected as the active control place.
Note: There are some special functions that can be performed in menu M3:
Select the keypad as the active control place by pressing start for 3 seconds when the motor
is running. The keypad will become the active control place and the current frequency
reference and direction will be copied to the keypad.
Select the keypad as the active control place by pressing stop for 3 seconds when the motor
is stopped. The keypad will become the active control place and the current frequency
reference and direction will be copied to the keypad.
Copy the frequency reference set elsewhere (I/O, fieldbus) to the panel by pressing enter for
3 seconds.
Note: If you are in any other menu than menu M3, these functions will not work.
If you are in some other menu than menu M3 and try to start the motor by pressing the
START button when the keypad is not selected as the active control place, you will get an
error message: Keypad Control NOT ACTIVE.
Active Faults Menu (M4)
You can enter the Active Faults menu from the Main menu by pressing Menu Button Right
when the location indication M4 is visible on the first line of the keypad display.
When a fault brings the drive to a stop, the location indication F1, the fault code, a short
description of the fault, and the fault type symbol (see below) will appear on the display. In
addition, the indication FAULT or ALARM (see Table 5-1) is displayed and, in case of a FAULT,
the red LED on the keypad starts to flash. If several faults occur simultaneously, the list of
active faults can be browsed with the Browser buttons.
The memory of active faults can store a maximum of 10 faults in the order of appearance.
The display can be cleared with the RESET button and the read-out will return to the same
state it was in before the fault trip. The fault remains active until it is cleared with the RESET
button or with a reset signal from the I/O terminal.
Note: Remove external Start signal before resetting the fault to prevent unintentional restart
of the drive.
MH
Active faults
F0
Figure 5-8: Normal State, No Faults
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Fault Types
The drive has four types of faults. These types differ from each other on the basis of the
subsequent behavior of the drive. See Table 5-8.
Operation hours
34:21:05
11 Output phase
Operation days
Fault Type
Symbol
F
T1 T13
17
Figure 5-9: Fault Display
Table 5-8: Fault Types
Fault Type Symbol
Meaning
A (Alarm)
This type of fault is a sign of an unusual operating condition. It does not cause
the drive to stop, nor does it require any special actions. The “A fault” remains
in the display for about 30 seconds.
F (Fault)
An “F fault” makes the drive stop. Actions need to be taken to restart the drive.
AR (Fault Autoreset) If an “AR fault” occurs the drive will stop immediately. The fault is reset
automatically and the drive tries to restart the motor. Finally, if the restart is not
successful, a fault trip (FT, see below) occurs.
FT (Fault Trip)
If the drive is unable to restart the motor after an AR fault an FT fault occurs.
The “FT fault” has basically the same effect as the F fault: the drive is stopped.
Note: Fault Codes are listed in Appendix A.
Fault Time Data Record
When a fault occurs, the information described in Figure 5-8 is displayed. By pressing Menu
Button Right, you will enter the Fault time data record menu indicated by T.1➔T.#. In this
menu, some selected important data valid at the time of the fault are recorded. This feature
will help the user or the service person in determining the cause of the fault.
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The data available are:
Table 5-9: Fault Time Recorded Data
Data
Units
Description
T.1
T.2
D
Counted operation days (Fault 43: Additional code)
hh:mm:ss
(d)
Counted operation hours
(Fault 43: Counted operation days)
T.3
Hz
Output frequency
hh:mm:ss
(Fault 43: Counted operation hours)
T.4
T.5
T.6
T.7
T.8
A
V
%
%
V
Motor current
Motor voltage
Motor power
Motor torque
DC bus voltage
T.9
T.10
T.11
T.12
T.13
°C
—
—
—
—
Unit temperature
Run status
Direction
Warnings
ᕃ
Zero speed
ᕃ
Tells the user if the drive was at zero speed (<0.01 Hz) when the fault occurred
Real Time Record
If real time is set to run on the drive, the data items T1 and T2 will appear as follows:
Table 5-10: Real Time Record
Data
Units
Description
T.1
T.2
yyyy-mm-dd
Counted operation days
Counted operation hours
hh:mm:SS,sss
Fault History Menu (M5)
You can enter the Fault History menu from the Main menu by pressing Menu Button Right
when the location indication M5 is visible on the first line of the keypad display.
All faults are stored in the Fault History menu where you can browse them with the Browser
buttons. Additionally, the Fault Time Data Record pages (see Page 5-12) are accessible for
each fault. You can return to the previous menu any time by pressing Menu Button Left.
The memory of the drive can store a maximum of 30 faults in order of appearance. The
number of faults currently in the fault history is shown on the value line of the main page
(H1➔H#). The order of the faults is indicated by the location indication in the upper left corner
of the display. The latest fault is indicated by F5.1, the one before that by F5.2 and so on. If
there are 30 uncleared faults in the memory, the next fault will erase the oldest fault from the
memory.
Pressing the ENTER button for about 2 to 3 seconds resets the whole fault history. The
symbol H# will change to 0.
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5 ChargeSwitch
Operation hours
13:25:43
Fault history
11 Output phase
Operation days
H1 H3
T1
T7
17
PUSH
to Reset
Figure 5-10: Fault History Menu
System Menu (M6)
You can enter the System menu from the Main menu by pressing Menu Button Right when
the location indication M6 is visible on the first line of the keypad display.
The controls associated with the general use of the drive, such as application selection,
customized parameter sets or information about the hardware and software are located
under the System menu. The number of submenus and subpages is shown with the symbol
S (or P) on the value line.
Table 5-11 has a list of the functions available in the System menu.
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Table 5-11: System Menu Functions
Code
Function
Min
Max
Unit
Default
Cust
Selections
S6.1
Selection of
language
English
English
Deutsch
Suomi
Svenska
Italiano
S6.2
Application
selection
Basic
Application
Basic Application
Standard Application
Local/Remote control Appl.
Multi-Step Application
PID Control Application
Multi-Purpose Control Appl.
Pump and Fan Control Appl.
S6.3
Copy parameters
Parameter sets
S6.3.1
Store set 1
Load set 1
Store set 2
Load set 2
Load factory defaults
S6.3.2
S6.3.3
Load to keypad
All parameters
Load from keypad
All parameters
All but motor parameters
Application parameters
P6.3.4
S6.4
Parameter backup
Yes
Yes
No
Parameter
comparison
S6.4.1
S6.4.2
S6.4.3
S6.4.4
S6.5
Set1
Not used
Not used
Set2
Factory settings
Keypad set
Security
S6.5.1
P6.5.2
Password
Parameter locking
Not used
0=Not used
Change
Enabled
Change Enabled
Change Disabled
S6.5.3
S6.5.4
Start-Up Wizard
No
Yes
Multimonitoring
items
Change
Enabled
Change Enabled
Change Disabled
S6.6
Keypad settings
Default page
P6.6.1
P6.6.2
Default page/
Operating Menu
P6.6.3
P6.6.4
P6.6.5
S6.7
Timeout time
Contrast
0
65535
31
s
30
18
10
0
Backlight time
Hardware settings
Always
65535 min
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Table 5-11: System Menu Functions (Continued)
Code
Function
Min
Max
Unit
Default
Cust
Selections
P6.7.3
HMI acknowledg.
HMI: no. of retries
System information
Total counters
200
1
5000
10
ms
200
5
P6.7.4
S6.8
S6.8.1
C6.8.10.1
C6.8.10.2
MWh counter
kWh
Power On day
counter
C6.8.1.3
Power On hour
counter
hh:mm:ss
kWh
S6.8.2
Trip counters
T6.8.2.1
T6.8.2.2
T6.8.2.3
MWh counter
Clear MWh counter
Operating days
counter
T6.8.2.4
T6.8.2.5
S6.8.3
Operating hours
counter
hh:mm:ss
Clear operating
hour counter
Software
information
S6.8.3.1
S6.8.3.2
Software package
System software
version
S6.8.3.3
S6.8.3.4
S6.8.4
Firmware interface
System load
Applications
S6.8.4.#
Name of
application
D6.8.4.#.1
D6.8.4.#.2
Application ID
Applications:
version
D6.8.4.#.3
Applications:
firmware interface
S6.8.5
I6.8.5.1
I6.8.5.2
I6.8.5.3
I6.8.5.4
S6.8.6
S6.8.7
Hardware
Unit power
Unit voltage
Info: Brake chopper
Info: Brake resistor
Expander boards
Debug menu
For application programming
only. Contact Eaton.
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Selection of Language
The control keypad allows you to control the drive through the keypad in the language of
your choice.
Locate the language selection page under the System menu. Its location indication is S6.1.
Press Menu Button Right once to enter the edit mode. As the name of the language starts to
flash, you can select another language for the keypad texts. Confirm with the ENTER button.
The flashing stops and all text information on the keypad is presented in the selected
language.
You can return to the previous menu any time by pressing Menu Button Left.
System Menu
S1 S11
Language
English
Language
English
Langue
Francais
Figure 5-11: Selection of Language
Application Selection
The user can select the desired application on the Application selection page (S6.2). To enter
the page, press Menu Button Right on the first page of the System menu. To change the
application, press Menu Button Right once more. The name of the application starts to flash.
Now you can browse the applications with the Browser buttons and select the desired
application with the ENTER button.
Changing the application will reset all parameters. After application change, you will be
asked if you want the parameters of the new application to be uploaded to the keypad. If you
want to do this, press the ENTER button. Pressing any other button leaves the parameters of
the previously used application saved in the keypad.
For more information about the application, see the application manual.
56.2
Application
System Menu
S1 S11
Standard
56.2
Application
56.2
Application
Standard
Multi-step
Figure 5-12: Change of Application
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Copy Parameters
The parameter copy function is used when the operator wants to copy one or all parameter
groups from one drive to another or to store parameter sets in the internal memory of the
drive. All the parameter groups are first uploaded to the keypad, then the keypad is
connected to another drive and then the parameter groups are downloaded to it (or possibly
back to the same drive).
Before any parameters can be successfully copied from one drive to another, the drive has to
be stopped when the parameters are downloaded to it.
The parameter copy menu (S6.3) contains four functions:
Parameter Sets (S6.3.1)
The user can reload the factory default parameter values and store and load two customized
parameter sets (all parameters included in the application).
On the Parameter Sets page (S6.3.1), press Menu Button Right to enter the edit mode. The
text LoadFactDef begins to flash and you can confirm the loading of factory defaults by
pressing the ENTER button. The drive resets automatically.
Alternatively, you can choose any other storing or loading functions with the Browser
buttons. Confirm with the ENTER button. Wait until “OK” appears on the display.
Confirm
56.3.1
Parameter sets
56.3.1
Parameter sets
Select
LoadFactDef
Cancel
56.3.1
Parameter sets
56.3.1
Parameter sets
Wait. . .
OK
Figure 5-13: Storing and Loading of Parameter Sets
Upload parameters to keypad (To keypad, S6.3.2)
This function uploads all existing parameter groups to the keypad provided that the drive is
stopped.
Enter the To Keypad page (S6.3.2) from the Parameter Copy menu. Pressing Menu Button
Right takes you to the edit mode. Use the Browser buttons to select the option All Parameters
and press the ENTER button. Wait until “OK” appears on the display.
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Confirm
56.3
Copy Parameters
56.3.2
Up to keypad
56.3.2
Up to keypad
Change Value
Cancel
Select P1
P4
Select
All param.
56.3.2
Up to keypad
56.3.2
Up to keypad
Wait. . .
OK
Figure 5-14: Parameter Copy to Keypad
Download parameters to drive (From keypad, S6.3.3)
This function downloads one or all parameter groups uploaded to the keypad to a drive
provided that the drive is in STOP status.
Enter the From Keypad page (S6.3.2) from the Parameter Copy menu. Pressing the Menu
Button Right takes you to the edit mode. Use the Browser buttons to select either All
Parameters or Application Parameters and press the ENTER button. Wait until “OK” appears
on the display.
The procedure to download the parameters from keypad to drive is similar to that of from
drive to keypad. See Figure 5-14.
Automatic Parameter Backup (P6.3.4)
On this page you can activate or inactivate the parameter backup function. Enter the edit
mode by pressing Menu Button Right. Select Yes or No with the Browser buttons.
When the Parameter backup function is activated, the control keypad makes a copy of the
parameters of the presently used application. Every time a parameter is changed, the keypad
backup is automatically updated.
When applications are changed, you will be asked if you wish the parameters of the new
application to be uploaded to the keypad. If you want to do this, press the ENTER button. If
you wish to keep the copy of the parameters of the previously used application saved in the
keypad, press any other button. Now you will be able to download these parameters to the
drive following the instructions given in Copy Parameters on Page 5-18.
If you want the parameters of the new application to be automatically uploaded to the
keypad, you have to do this for the parameters of the new application once on page 6.3.2 as
instructed. Otherwise the panel will always ask for permission to upload the parameters.
Note: Parameters saved in the parameter settings on page S6.3.1 will be deleted when
applications are changed. If you want to transfer the parameters from one application
to another, you have to upload them first to the keypad.
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Parameter Comparison
In the Parameter Comparison submenu (S6.4), you can compare the actual parameter values
to the values of your customized parameter sets and those loaded to the control keypad.
You can compare the parameter by pressing Menu Button Right in the Compare Parameters
submenu. The actual parameter values are first compared to those of the customized
parameter Set1. If no differences are detected, “0” is displayed on the lowermost line. If any
of the parameter values differ from those of Set1, the number of the deviations is displayed
together with symbol P (for example, P1➔P5 = five deviating values). By pressing Menu
Button Right once more, you can enter pages where you can see both the actual value and
the value it was compared to. In this display, the value on the description line (in the middle)
is the default value and the one on the value line (lowermost) is the edited value.
Furthermore, you can also edit the actual value with the Browser buttons in the edit mode
which you can enter by pressing Menu Button Right once.
In the same way, you can perform the comparison of the actual values to Set2, Factory
Settings and Keypad Set.
56.4
ParamComparison
56.4.1
Set1
C1
C3
0
Or
56.4.1
Set1
56.4.1.1
P2.1.2= 50.0
P1
P6
20.0 Hz
56.4.1.1
P2.1.2= 50.0
Edit Value
Confirm Change
20.0 Hz
Figure 5-15: Parameter Comparison
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Security
Note: The Security submenu is protected with a password. Store the password in a safe
place!
Password (S6.5.1)
The application selection can be protected against unauthorized changes with the Password
function (S6.5.1).
By default, the Password function is not in use. If you want to activate the function, enter the
edit mode by pressing Menu Button Right. A flashing zero appears in the display and you can
set a password with the Browser buttons. The password can be any number between 1 and
65535.
Note: You can also set the password by digits. In the edit mode, push Menu Button Right
again and another zero appears on the display. Set ones first. To set the tens, press
Menu Button Right, and so on. Confirm the password with the ENTER button. After
this, you have to wait until the Timeout time (P6.6.3) (see Page 5-24) has expired before
the password function is activated.
If you try to change applications or the password itself, you will be prompted for the current
password. Enter the password with the Browser buttons.
You can deactivate the password function by entering the value 0.
56.5.1
Password
56.5.1
Password
56.5.1
Password
Or
Not in use
0
00
Figure 5-16: Password Setting
Note: Store the password in a safe place! No changes can be made unless a valid password
is entered.
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Parameter Lock (P6.5.2)
This function allows the user to prohibit changes to the parameters.
If the parameter lock is activated, the text *locked* will appear on the display if you try to edit
a parameter value.
Note: This function does not prevent unauthorized editing of parameter values.
Enter the edit mode by pressing Menu Button Right. Use the Browser buttons to change the
parameter lock status. Confirm the change with the ENTER button or go back to the previous
level by pressing Menu Button Left.
56.5.2
Parameter Lock
M6
System Menu
Security
P1
ChangeEnable
S1
S9
P4
56.5.2
Parameter Lock
56.5.2
Parameter Lock
ChangeEnable
ChangeDisabl
Figure 5-17: Parameter Locking
Start-Up Wizard (P6.5.3)
The Start-Up Wizard facilitates the commissioning of the drive. If active, the Start-Up Wizard
prompts the operator for the language and application of his/her choice, plus for the values
of parameters common to all applications, as well as for a set of application-specific
parameters.
While in the Start-Up Wizard, the ENTER button accepts values and the Browser buttons
scroll options or change values.
Activating the Start-Up Wizard: In the System Menu, find page P6.5.3. Press Menu Button
Right once to enter the edit mode. Use the Browser buttons to select Yes and confirm the
selection with the ENTER button. If you want to deactivate the function, follow the same
procedure and give the parameter value “NO”.
P6.5.3
Startup wizard
P6.5.3
Startup wizard
P6.5.3
Startup wizard
Confirm
Cancel
No
No
Yes
Figure 5-18: Activation of Start-Up Wizard
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Multimonitoring Items (P6.5.4)
The alphanumeric keypad features a display where you can monitor up to three actual values
at the same time — see Monitoring Menu (M1) on Page 5-7 and the manual of the application
you are using. On page P6.5.4 of the System Menu, you can define whether the operator can
replace the values monitored with other values. See below.
56.5.4
Multimon. items
56.5.4
Multimon. items
56.5.4
Multimon. items
ChangeEnable
ChangeEnable
ChangeDisable
Figure 5-19: Disabling the Change of Multimonitoring Items
Keypad Settings
In the Keypad Settings submenu under the System menu, you can further customize your
drive’s operator interface.
Locate the Keypad Setting submenu (S6.6). Under the submenu, there are four pages (P#)
associated with the keypad operation:
5.6.6
Keypad settings
P6.6.
Default page
P1
P5
0.
Figure 5-20: Keypad Settings Submenu
Default Page (P6.6.1)
Here you can set the location (page) to which the display automatically moves when the
Timeout Time (see below) has expired or the power is switched on to the keypad.
If the default page is 0, the function is not activated, i.e. the latest displayed page remains on
the keypad display. Pressing Menu Button Right takes you to the edit mode. Change the
number of the Main menu with the Browser buttons. To edit the number of the submenu/
page, press Menu Button Right. If the page you want to move to by default is at the third
level, repeat the procedure. Confirm the new default page with the ENTER button. You can
return to the previous menu at any time by pressing Menu Button Left.
Confirm Change
P6.6.
Default page
P6.6.
Default page
P6.6.
Default page
Repeat to Set
Default Submenu/Page
Cancel
0.
0.
1.
Figure 5-21: Default Page Function
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Default page in the operating menu (P6.6.2)
Here you can set the location (page) in the Operating menu (in special applications only) to
which the display automatically moves to when the set Timeout Time (see below) has expired
or the power is switched on to the keypad.
See how to set the Default page in Figure 5-21.
Timeout Time (P6.6.3)
The Timeout Time setting defines the time after which the keypad display returns to the
Default page (P6.6.1).
Enter the edit mode by pressing Menu Button Right. Set the desired timeout time and
confirm it with the ENTER button. You can return to the previous menu at any time by
pressing Menu Button Left.
P6.6.3
Timeout time
P6.6.3
Timeout time
P6.6.3
Timeout time
Confirm Change
Cancel
90 s
90 s.
60 s.
Figure 5-22: Timeout Time Setting
Note: If the Default page value is 0, the Timeout Time setting has no effect.
Contrast Adjustment (P6.6.4)
In case the display is unclear, you can adjust its contrast through the same procedure as for
the timeout time setting (see above).
Backlight Time (P6.6.5)
By giving a value for the Backlight time, you can determine how long the backlight stays on
before going out. You can select any time between 1 and 65535 minutes or “Forever.” For the
value setting procedure, see Timeout Time above.
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Hardware Settings
Note: The Hardware settings submenu is protected with a password. Store the password in a
safe place!
In the Hardware Settings submenu (S6.7) under the System menu, you can further control
some functions of the hardware in your drive. The functions available in this menu are HMI
acknowledge timeout and HMI retry.
HMI Acknowledge Timeout (P6.7.3)
This function allows the user to change the timeout of the HMI acknowledgement time. The
drive waits for the HMI acknowledgment in accordance with the value of this parameter.
Note: If the drive has been connected to the PC with a normal cable, the default values of
parameters 6.7.3 and 6.7.4 (200 and 5) must not be changed.
If the drive has been connected to the PC via a modem and there is a delay in transferring
messages, the value of parameter 6.7.3 must be set according to the delay as follows:
Example:
●
●
●
Transfer delay between the drive and the PC = 600 ms
The value of par. 6.7.3 is set to 1200 mS (2 x 600, sending delay + receiving delay)
The corresponding setting shall be entered in the [Misc] part of the file NCDrive.ini:
– Retries = 5
– AckTimeOut = 1200
– TimeOut = 6000
●
It must also be considered that intervals shorter than the AckTimeOut time cannot be
used in NC-Drive monitoring.
Enter the edit mode by pressing Menu Button Right. The current value starts to flash. Use the
Browser buttons to change the acknowledgement time. Confirm the change with the ENTER
button or return to the previous level with Menu Button Left.
P6.7.3
HMI ACK timeout
P6.7.3
HMI ACK timeout
200ms
200ms
Figure 5-23: HMI Acknowledge Timeout
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Number of retries to receive HMI acknowledgement (P6.7.4)
With this parameter you can set the number of times the drive will try to receive
acknowledgement if it does not receive acknowledgement within the acknowledgement time
(P6.7.3) or if the received acknowledgement is faulty.
You can change value through the same procedure as for P6.7.3 (see above).
Note: Changes to P6.7.3 and P6.7.4 become effective after the next start-up.
System info
In the System info submenu (S6.8) you can find drive-related hardware and software
information.
Total Counters
The Total counters menu (S6.8.1) contains information on the drive operation times i.e. the
total number of MWh, operating days and operating hours. Unlike the counters in the Trip
counters menu, these counters cannot be reset.
Note: The Power On time counter (days and hours) always runs when the power is on.
Table 5-12: Counter Pages
Page
Counter
Example
C6.8.10.1 MWh counter
—
C6.8.10.2 Power On day counter
C6.8.1.3. Power On hour counter
1.013 means the drive has operated for 1 year and 13 days
7:05:16 means the drive has operated for 7 hours,
5 minutes and 16 seconds
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Trip Counters
Trip counters (menu S6.8.2) are counters the values of which can be reset, i.e. restored to
zero. You can use the resettable counters in Table 5-12.
Note: The trip counters run only when the motor is running.
Table 5-13: Resettable Counters
Page
Counter
T6.8.2.1
T6.8.2.3
T6.8.2.4
MWh counter
Operation day counter
Operation hour counter
The counters can be reset on pages 6.8.2.2 (Clear MWh counter) and 6.8.2.5 (Clear Operating
time counter).
Example: When you want to reset the operation counters, see Figure 5-24.
56.8.2
Trip counters
P6.8.2.5
Clr Optime cntr
P6.8.2.5
Clr Optime cntr
Not reset
Not reset
T1
T5
P6.8.2.5
Clr Optime cntr
P6.8.2.5
Clr Optime cntr
P6.8.2.5
Clr Optime cntr
Reset
Reset
Not reset
Figure 5-24: Counter Reset
Software (S6.8.3)
The Software information page includes information on the following drive software related
topics:
Table 5-14: Software Information Pages
Page
Counter
6.8.3.1
6.8.3.2
6.8.3.3
6.8.3.4
Software packages
System software version
Firmware interface
System load
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Applications (S6.8.4)
At location S6.8.4, you can find the Applications submenu containing information on the
application currently in use and all other applications loaded into the drive. The following
information is available:
Table 5-15: Applications Information Pages
Page
Counter
6.8.4.#
Name of application
Application ID
Version
6.8.4.#.1
6.8.4.#.2
6.8.4.#.3
Firmware interface
In the Applications information page, press Menu Button Right to enter the Application
pages. There are as many Application pages as there are applications loaded into the drive.
Locate the desired application with the Browser buttons and then enter the Information
pages with Menu Button Right. Use the Browser buttons to see the different pages.
Standard
D1 D3
Version
2.01
56.8.4
Applications
R6.8.4.
Basic
R6.8.4. .
Application id
FIFF01
A1 A7
D1 D3
Figure 5-25: Applications Info Submenu
Hardware (S6.8.5)
The Hardware information page provides information on the following hardware-related
topics:
Table 5-16: Hardware Information Pages
Page
Counter
6.8.5.1
6.8.5.2
6.8.5.3
6.8.5.4
Nominal power of the unit
Nominal voltage of the unit
Brake chopper
Brake resistor
MN04005001E
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Expander Boards (S6.8.6)
The Expander boards submenu contains information about the basic and option boards (see
Chapter 4).
You can check the status of each board slot by entering the Expander Boards page with Menu
Button Right. Use the Browser buttons to view the status of each board slot. The description
line of the keypad will display the type of the expansion board and the text “Run” is shown
below it. If no board is connected to the slot, the text “no board” will be shown. If a board is
connected to a slot but the connection is lost for some reason, the text “no conn.” is
displayed. For more information, see Chapter 4.
For more information on expander board related parameters, see below.
B:OPTA2
E1
Software version
10001.0
E2
E2
56.8.6
Expander boards
E6.8.6.
A:OPTA1
E6.8.6. .
State
Run
E1
E5
E1
Figure 5-26: Expander Board Information Menus
Debug Menu (S6.8.7)
This menu is meant for advanced users and application designers. Contact Eaton for any
assistance needed.
Expander Board Menu (M7)
In the Expander board menu the user can 1) see the expander boards connected to the
control board and 2) see and edit the parameters associated with the expander boards.
Go to the next menu level (G#) with Menu Button Right. At this level, you can browse through
slots A to E with the Browser buttons to see which expander boards are connected to the
control board. On the lowermost line of the display, you will also see the number of
parameters associated with the board. You can view and edit the parameter values as
described on Page 5-8. See Table 5-17 and Figure 5-27.
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Expander Board Parameters
Table 5-17: Expander Board Parameters (Board OPTA1)
Code
Parameter
Min
Max
Default
Cust
Selections
P7.1.1.1
AI1 mode
1
5
3
1 = 0 to 20 mA
2 = 4 to 20 mA
3 = 0 to 10V
4 = 2 to 10V
5 = -10 to +10 V
P7.1.1.2
P7.1.1.3
AI2 mode
1
1
5
4
1
1
See P7.1.1.1
AO1 mode
1 = 0 to 20 mA
2 = 4 to 20 mA
3 = 0 to 10V
4 = 2 to 10V
D:OPTC2
Monitor
G1 G2
V1 V2
M7
G7.3
C:OPTC1
G7.3.
Parameters
Expander boards
Run
G1 G5
G1 G2
P1
P4
G7.3. .
Slave address
G7.3. .
Change Value
Confirm Change
126
126
Baud rate
Auto
Figure 5-27: Expander Board Information Menu
Further Keypad Functions
The control keypad contains additional application-related functions. See the application
manual for more information.
MN04005001E
5-30
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Chapter 6 — Start-Up
Safety Precautions
Before start-up, note the following directions and warnings:
WARNING
Internal components and circuit boards of the drive are live
when the drive is connected to mains potential. Coming
into contact with this voltage is extremely dangerous and
may cause death or severe injury.
1
The motor terminals U, V, W and the DC-link/brake resistor
terminals B+/R+, R- are live when the drive is connected to
mains, even if the motor is not running.
2
3
The control I/O-terminals are isolated from the mains
potential. However, the relay outputs and other I/O-
terminals may have a dangerous control voltage present
even when the drive is disconnected from mains.
Do not make any connections when the drive is connected
to the mains.
4
5
After having disconnected the drive, wait until the
indicators on the keypad go out (if no keypad is attached
see the indicator through the keypad base). Wait 5 more
minutes before doing any work on drive connections. Do
not even open the cover before this time has expired.
Before connecting the drive to the mains, make sure that
the coolant is circulating and has no leaks.
6
7
Before connecting the drive to the mains, make sure that
the switchgear enclosure door is closed.
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Sequence of Operation
1. Carefully read the safety instructions in the front of this manual and above and follow
them.
2. After the installation, make sure that:
●
●
●
both the drive and the motor are grounded.
the mains and motor cables comply with the requirements given in Chapter 3.
the control cables are located as far as possible from the power cables (see
Chapter 2) and the shields of the shielded cables are connected to protective ground.
The wires may not touch the electrical components of the drive.
●
the common inputs of digital input groups are connected to +24V or ground of the
I/O terminal or the external supply.
3. Check liquid cooling connections and system operation.
●
●
●
Open the shut-off valves.
Check the quality and quantity of the cooling liquid (Chapter 2).
Ensure the proper operation of liquid circulation system.
4. Perform the cable and motor insulation checks, see Page 3-11.
5. Check the drive for condensation.
6. Check that all Start/Stop switches connected to the I/O terminals are in Stop position.
7. Connect the drive to mains.
8. Set the parameters of group 1 according to the requirements of your application (see
application manual). At least the following parameters should be set:
●
●
●
●
motor nominal voltage
motor nominal frequency
motor nominal speed
motor nominal current
You will find the values needed for the parameters on the motor rating plate.
MN04005001E
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9. Perform run test without motor.
Perform either Test A or Test B:
Test A — Controls from the I/O terminals:
●
●
●
Turn the Start/Stop switch to ON position.
Change the frequency reference (potentiometer).
Check in the Monitoring Menu M1 that the value of Output Frequency changes
according to the change of frequency reference.
●
Turn the Start/Stop switch to OFF position.
Test B — Control from the Control keypad:
●
●
●
Change the control from the I/O terminals to the keypad as advised on Page 5-10.
Press the START button on the keypad.
Move over to the Keypad Control Menu M3 and Keypad Reference submenu (see
Keypad Reference on Page 5-10) and change the frequency reference with the
Browser buttons.
●
●
Check in Monitoring Menu M1 that the value of Output Frequency changes
according to the change of frequency reference.
Press the STOP button on the keypad.
10. Run the start-up tests without the motor being connected to the process, if possible. If
this is not possible, make sure that running each test is safe prior to running it. Inform
your co-workers of the tests.
●
Switch off the supply voltage and wait until the drive has stopped as advised on
Page 6-1, Safety Precautions.
●
●
●
●
Connect the motor cable to the motor and to the motor cable terminals of the drive.
Make sure that all Start/Stop switches are in Stop positions.
Switch the supply voltage ON.
Repeat test 9A or 9B.
11. Connect the motor to the process (if the start-up test was run without the motor being
connected).
●
●
●
Before running the tests, make sure that this can be done safely.
Inform your co-workers of the tests.
Repeat test 9A or 9B.
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MN04005001E
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Appendix A — Fault Codes
When a fault is detected by the drive’s control electronics, the drive is stopped and the
symbol F together with the ordinal number of the fault, the fault code and a short fault
description appear on the display. The fault can be reset with the RESET button on the
control keypad or via the I/O terminal. The faults are stored in the Fault History Menu M5,
which can be browsed. Table A-1 contains all the fault codes.
Table A-1: Fault Codes
Fault
Code Fault
Possible Cause
Solution
1
Overcurrent
Drive has detected too high a current Check loading.
in the motor cable:
Check motor.
Check cables.
• sudden heavy load increase
• short circuit in the motor cables
• unsuitable motor
2
3
Overvoltage
Ground Fault
The DC-link voltage has exceeded
Set the deceleration time longer.
Add a brake chopper or brake
resistor.
the limits defined in Table 1-4:
• too short a deceleration time
• high overvoltage spikes in supply
ᕃ
Current measurement has detected Check motor cables and motor.
that the sum of motor phase currents
is not zero.
• insulation failure in cables or
motor
5
Charging Switch
The charging switch is open, when
the START command has been
given.
Reset the fault and restart.
Should the fault re-occur, contact
your Cutler-Hammer distributor.
• faulty operation
• component failure
6
7
Emergency stop
Saturation trip
Stop signal has been given from the
option board.
Various causes:
• component failure
Cannot be reset from the keypad.
Switch off power.
• brake resistor short circuit or
DO NOT RE-CONNECT POWER!
Contact Eaton.
overload
If this fault appears simultaneously
with Fault 1, check motor cables and
motor.
8
System fault
• component failure
• faulty operation
Note: exceptional fault data record,
see Page 5-12.
Reset the fault and restart.
Should the fault reoccur, contact
your Cutler-Hammer distributor.
ᕃ
Programmable.
MN04005001E
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Table A-1: Fault Codes (Continued)
Fault
Code Fault
Possible Cause
Solution
ᕃ
9
Undervoltage
DC-link voltage is under the voltage In case of temporary supply voltage
limits defined in Table 1-4.
break, reset the fault and restart the
drive. Check the supply voltage. If it
is adequate, an internal failure has
occurred.
• most probable cause: too low a
supply voltage
• drive internal fault
Contact your Cutler-Hammer
distributor.
10
11
Input line
Input line phase is missing.
Check supply voltage and cable.
ᕃ
supervision
Output phase
supervision
Current measurement has detected Check motor cable and motor.
that there is no current in one motor
phase.
ᕃ
12
Brake chopper
supervision
• no brake resistor installed
• brake resistor is broken
• brake chopper failure
Check brake resistor.
If the resistor is ok, the chopper is
faulty. Contact your Cutler-Hammer
distributor.
13
14
Drive
Heatsink temperature is under 14°F
undertemperature (-10°C)
Drive
overtemperature
• Heatsink temperature is over
Check that values for I (Page 1-6)
th
158°F (70°C). Overtemperature
warning is issued when the
heatsink temperature exceeds
149°F (65°C).
are not exceeded.
Check the correct coolant flow and
temperature. Also check the
circulation for possible leaks.
Check the ambient temperature.
Make sure that the switching
frequency is not too high in relation
to ambient temperature and motor
load.
• Circuit board temperature is over
185°F (85°C). Overtemperature
warning is issued when the board
temperature exceeds 158°F (70°C).
Circulation of air in the drive is
blocked. The cooling fans are
defective.
ᕃ
15
16
Motor stalled
Motor stall protection has tripped.
Check motor.
Motor
• motor overheating has been
detected by drive motor
temperature model
Decrease the motor load.
If no motor overload exists, check the
temperature model parameters.
ᕃ
ᕃ
overtemperature
• motor is overloaded
17
22
Motor underload Motor underload protection has
tripped.
EEPROM
Parameter save fault
• faulty operation
• component failure
ᕄ
checksum fault
24
25
Counter fault
Values displayed on counters are
incorrect.
Microprocessor
watchdog fault
• faulty operation
• component failure
Reset the fault and restart.
Should the fault re-occur, contact
your Cutler-Hammer distributor.
26
Start-up
prevented
Start-up of the drive has been
prevented.
Cancel prevention of start-up.
ᕃ
Programmable.
“A” faults only
ᕄ
MN04005001E
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Table A-1: Fault Codes (Continued)
Fault
Code Fault
Possible Cause
Solution
ᕃ
29
Thermistor fault
The thermistor input of option board Check motor cooling and loading
has detected increase of the motor
temperature.
Check thermistor connection
(If thermistor input of the option
board is not in use, it has to be short
circuited)
31
34
IGBT temperature IGBT Inverter Bridge
Check loading.
(hardware)
overtemperature protection has
Check motor size.
detected too high a short term
overload current.
CAN bus
communication
Sent message not acknowledged.
Ensure that there is another device
on the bus with the same
configuration.
36
37
Control unit
Control Unit can not control Power
Unit and vice versa.
Change control unit.
Device change
(same type)
• option board or control unit
Reset
ᕄ
changed.
Note: No fault time data record!
• same type of board or same
power rating of drive
38
39
Device added
(same type)
• option board or drive added.
Reset
ᕄ
Note: No fault time data record!
• drive of same power rating or
same type of board added
ᕄ
Device removed
Device unknown
• option board removed
• drive removed
Reset
Note: No fault time data record!
40
41
Unknown option board or drive.
Contact your Cutler-Hammer
distributor.
IGBT temperature IGBT Inverter Bridge
overtemperature protection has
Check loading.
Check motor size.
detected too high a short term
overload current.
42
43
Brake resistor
overtemperature protection has detected too heavy
braking.
Brake resistor overtemperature
Set the deceleration time longer.
Use external brake resistor.
ᕃ
Encoder fault
Note: the exceptional fault data
record, see Page 5-12. Additional
codes:
Check encoder channel connections.
Check the encoder board.
1 = Encoder 1 channel A is missing
2 = Encoder 1 channel B is missing
3 = Both encoder 1 channels are
missing
4 = Encoder reversed
44
Device changed
(different type)
• option board or control unit
Reset.
ᕄ
changed
Note: No Fault Time Data Record is
• option board of different type or made.
different power rating of drive
Note: Application parameter values
restored to default.
ᕃ
Programmable.
“A” faults only.
ᕄ
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Table A-1: Fault Codes (Continued)
Fault
Code Fault
Possible Cause
Solution
45
Device added
(different type)
• option board or device added
Reset.
ᕄ
• option board of different type or
drive of different power rating
added
Note: No Fault Time Data Record is
made.
Note: Application parameter values
restored to default.
50
Analog input
Current at the analog input is
<4 mA.
• control cable is broken or loose
• signal source has failed.
Check the current loop, signal source
and wiring.
sel. signal range
ᕃ
4 to 20 mA)
51
52
External fault
Digital input failed.
Check source of trigger.
Keypad
communication
fault
There is no connection between the Check the keypad connection and
control keypad and the drive.
keypad cable.
53
54
Fieldbus fault
Slot fault
The data connection between the
fieldbus master and the fieldbus
board is broken.
Check installation.
If installation is correct contact your
Cutler-Hammer distributor.
Defective option board or slot.
Check that the board is properly
installed and seated in slot. If the
installation is correct, contact your
Cutler-Hammer distributor.
56
PT100 board
Temperature limit values set for the Determine the cause of the high
temperature fault PT100 board parameters have been temperature.
exceeded.
ᕃ
Programmable.
“A” faults only.
ᕄ
Load Test with Motor
1. Connect the motor cables and check the right phase order. Also check that the motor
rotates freely.
2. Check liquid cooling system operation
3. Turn on the supply voltage and ensure that all input phases are connected to the unit.
4. Check DC link voltage by measuring with multimeter and compare the value to the one
on monitoring page V1.8.
5. Select the application of your choice and set the needed parameters.
6. Start the operation with lower Current Limit value and long Acceleration/Deceleration
times.
7. If Closed Loop control mode is used, check direction of encoder and make necessary
Closed Loop parameter settings. Check the correct operation of the encoder by running
the system in open loop and check the signals in the expander board menu.
8. Run the motor without load between minimum and maximum frequencies and check
the unit output current with a current clamp. Compare the value to the one on
monitoring page V1.4.
9. Load the motor to nominal value if possible and repeat the current measurement.
Follow the Unit Temperature value on page V1.9.
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DC Link Test (without Motor)
WARNING
There will be dangerous voltages present during this test!
1. Carefully read the safety instructions in the front of this manual and above and follow
them.
2. Connect a variable DC power supply to DC+ and DC- terminals. Make sure that all
polarities are correct.
3. Slowly charge up the DC link to nominal voltage. Allow the system to remain at this
level for at least one minute and check current.
4. If possible, continue increasing the DC link voltage up to the trip limit. Fault F2 (see
Table A-1) should occur at 911V DC (400 – 500V units) and at 1200V DC (525 – 690V
units). Do not increase the voltage over the trip limit.
5. Bring the power supply voltage back to zero. Allow sufficient time for the capacitors to
discharge.
6. Check the DC bus voltage with a multimeter. When you read zero volts, disconnect the
power supply and reconnect all wires to the phase module.
7. If the phase module has been de-energized for an extended period of time (six months
or longer) allow this voltage to remain for a minimum of 30 minutes — even 4 hours if
time permits.
Through the above test procedure, two things are achieved: 1) It allows the caps to partially
reform due to storage and shipping; 2) It allows any device failures to evidence themselves
with a low power failure.
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MN04005001E
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Appendix B — Technical Reference
Main Circuit and Control Diagrams
–
DC
+
DC
R
–
B
+/
B
+
R
R
–
Pow
J1
J3
DC
U_HI
V_HI
W_HI
+
X3
X4
X5
U
V
W
U/T1
V/T2
W/T3
L1
L2
L3
Skiip
81...83
AC
Skiip
81...83
AC
X10
–
DC
U_LO
V_LO W_LO
Brk
J2
PE
X2
Fan
Connector
X17
Measurements
+
DC
–
DC
Power Board
X6
37
Fiber Adapter
Board
H1...H7
Optic
Control
Panel
Control Board
X1
X1
Fibers
7
9
X1
X7
X2
2
37
X3
X4
X5
X6
External +24V
(Slot A) (Slot B) (Slot C) (Slot D) (Slot E)
Adapter
Board
Option Option Option Option Option
Board
Board Board Board Board
Figure B-1: Main Circuit and Control Diagram, CH3
MN04005001E
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K1
X5
K2
K3
X7 X8 X9
SKiM 4
L1
L2
L3
U3
U2
U1
U/T1
V/T2
W/T3
X1
X2
X3
X12
X7
6
X6
X11
X1
X6
PE
X4
Power Board
K1, K2, K3
X13
Measurements
DC+
DC-
3
Rectifier Board
X8
37
J1
Fiber Adapter Board
H1...H7
Optic
Control
Panel
Control Board
X1
37
Fibers
7
9
X1
X6
X1
X7
X2
2
X3
X4
X5
External +24V
(Slot A) (Slot B) (Slot C) (Slot D) (Slot E)
Adapter
Board
Option Option Option Option Option
Board
Board Board Board Board
Figure B-2: Main Circuit and Control Diagram, CH4
X12
K1
X5 X7
K2
X8
K3
X9
2
SKiM5
L1
U3
U2
U/T1
V/T2
W/T3
X1
X2
X3
4
L2
L3
U1
4
4
4
X6
X4
X1
X6
PE
Measurements
DC+
DC-
Rectifier Board
Power + 24 V
K1, K2, K3
X13
X3
37
3
Board
J2
Fiber
Adapter
Board
X1
Optic
Fibers
H1...H7
Control
Panel
Control Board
7
X1
X6
X7
9
X2
X3
X4
X5
X1
37
2
External +24 V
(Slot A) (Slot B) (Slot C) (Slot D) (Slot E)
Adapter
Board
Option
Board
Option
Board
Option
Board
Option
Board
Option
Board
Figure B-3: Main Circuit and Control Diagram, CH5
MN04005001E
B-2
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K1
K2
X10
K3
X11
Module Right Side
X12
DC+
X9
L1
L2
L3
U/T1
V/T2
W/T3
X1
X2
X3
X8
DC-
5
5
5
X41
X4
Mains Voltage
Supervision
L8...
X12
X1...
X5
500/VB00459
690/VB00460
PE
Measurement
500/VB00526
690/VB00524
Board 1
X13
X6
X50
Rectifier Board
5
ASIC/
X2
ASIC/
X6
SP+
SP-
SPP
With SPU-024 option only
X1
Driver Board
X13...X15
SPF1
X20
3 x 10
6
ASIC/
X3...X5
VB00481
X1/+: Connected to DC+
if SPU-024 not in use
ASIC/
H4...H9
H8...H13
Internal
Fans
UH...WL
ASIC/
X1
Figure B-4: Main Circuit and Control Diagram, CH61
ASIC
Board
1
2
3
X6
DC+
DC-
VB00451
X9
+24V
25
26
Charge
5
Rect/X13
Feedback X2
X15
10
10
10
Driver/X13
Driver/X14
Driver/X15
X3
X4
X5
21
22
23
Charge
Relay
Control Unit
Control
Panel
X11
Fan
ControlUH H8
Driver/H4
Driver/H5
X1
9
UL H9
Opto
Adapter
Board
VH H10
Driver/H6
Driver/H7
2
7
X10
VL H11
X2
+24V
Control Board
X7
Driver/H8
Driver/H9
WH H12
WL H13
X1
VB00228
37 X1
X2
X3
X4
X5
X6
H1...H7
+24V
H1...H7
X1
(Slot A)
(Slot B)
(Slot C)
(Slot D)
(Slot E)
+24V for
+24V
Internal Fans
GND
X3
1
2
Option
Option
Option
Option
Option
Board
Board
Board
Board
Board
Ext +24V
Figure B-5: Main Circuit and Control Diagram, CH61, Control
MN04005001E
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B-3
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
U/T1
K1
X9
K2
X10
K3
X11
X12
DC+
DC-
2
L1
L2
L3
2
X1
X2
X3
4
4
4
X8
X41
X4
Mains Voltage
Supervision
PE
Measurement
500/VB00530
690/VB00528
Board 1
Rectifier Board
X13
X6
X7
X8
X10
X11
X12
VB00489
Module
X1
ASIC/X2
ASIC/X3
2/SPP
Driver Board U
X6
10
Module
X30
X15
X16
X2
2/SPF1
ASIC/H8
ASIC/H9
Internal
Fans
Figure B-6: Main Circuit and Control Diagram, CH63, Module 1
V/T2
W/T3
DC+
2
2
3
DC-
PE
4
4
4
4
4
4
Measurement
500/VB00529
690/VB00527
X6
Measurement
500/VB00530
690/VB00528
Board 2
Board 3
X7
X8
X6
X7
X8
X7
X8
X9
X10
X11
X12
Driver Board V
Driver Board W
VB00491
X1
X15
SP+
X20
X2
H2 H4
X30
X6
H15 H16
Module 1/SPP
SP-
With
SPU-024
Option
Only
10
SPP
SPF3
SPF2
ASIC/X4
ASIC/H10
ASIC/H11
ASIC/X5
10
SPF1
X1/+ and X15/+:
Connected to DC+
if SPU-24 not in use
ASIC/H12
ASIC/H13
Module 1/SPF1
Figure B-7: Main Circuit and Control Diagram, CH63, Module 2
MN04005001E
B-4
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January 2007
ASIC
Board
1
2
3
X6
DC+
DC-
VB00451
X9
+24V
25
26
Charge
5
RECT/X13
Feedback X2
X15
10
10
10
Driver U/X6
Driver V/X2
Driver W/X6
X3
X4
X5
21
22
23
Charge
Relay
Control Unit
Control
Panel
X11
Fan
ControlUH H8
Driver U/H15
Driver U/H16
X1
9
UL H9
Opto
Adapter
Board
VH H10
Driver V/H2
Driver V/H4
2
7
X10
VL H11
X2
+24V
Control Board
X7
Driver W/H15
Driver W/H16
WH H12
WL H13
X1
VB00228
37 X1
X2
X3
X4
X5
X6
H1...H7
+24V
H1...H7
X1
(Slot A)
(Slot B)
(Slot C)
(Slot D)
(Slot E)
+24V
GND
X3
1
2
Option
Option
Option
Option
Option
Module 2
Board
Board
Board
Board
Board
Internal Fans
Ext +24V
Figure B-8: Main Circuit and Control Diagram, CH63, Control
K1
K2
X10
K3
X11
Module Right Side
X12
DC+
3
X9
2
L1
L2
L3
X1
X2
X3
DC-
5
5
5
X8
X41
X4
X8...
X12
X1...
X5
U/T1
V/T2
W/T3
Mains Voltage
Supervision
500/VB00459
PE
690/VB00460
Measurement
500/VB00526
690/VB00524
X13
X6 X50
Rectifier Board
5
Board 1
ASIC/
Module Left Side
X2
SP+
ASIC/
2
X6
SP-
With SPU-024
option only
3
SPP
X1/+: Connected to B+
if SPU-024 not in use
X1
Driver
X20
SPF1
3 x 10
6
5
5
5
Board
X13...X15
VB00487
ASIC/
X3...
X7
X1...
X5
X3...X5
ASIC/
H8...H13
Measurement
500/VB00525
690/VB00523
H4...H9
Board 2
UH...WL
ASIC/
Internal
Fans
X1
Figure B-9: Main Circuit and Control Diagram, CH72
MN04005001E
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January 2007
ASIC
1
2
3
Board
X6
DC+
DC-
VB00451
X9
+24V
Charge
Feedback X2
25
26
5
RECT/X13
Driver/X13
Driver/X14
X15
10
10
10
X3
X4
X5
21
22
23
Charge
Relay
Control Unit
Control
X11
Panel
Driver/X15
Driver/H4
Fan
ControlUH H8
X1
UL H9
Driver/H5
Opto
Adapter
Board
9
VH H10
Driver/H6
Driver/H7
2
7
X10
VL H11
X2
+24V
Control Board
X7
Driver/H8
Driver/H9
WH H12
WL H13
X1
VB00228
37 X1
X2
X3
X4
X5
X6
H1...H7
+24V
H1...H7
X1
(Slot A)
(Slot B)
(Slot C)
(Slot D)
(Slot E)
+24V for
+24V
Internal Fans
GND
X3
1
2
Option
Option
Option
Option
Option
Board
Board
Board
Board
Board
Ext +24V
Figure B-10: Main Circuit and Control Diagram, CH72, Control
RECT Board
Connections:
To Other
Phase Modules
U
X6
V
X13
X6
W
X13
X50 X50 X50
Open Open Close
K1
K2
X10
K3
X11
Module Right Side
X12
DC+
X9
2
L1
L2
L3
X1
X2
X3
3
DC-
5
5
5
X8
X4
X10...
X12
X6...
X8
U/T1
Mains Voltage
Supervision
(V/)T2
(W/)T3
500/VB00459
690/VB00460
PE
Measurement
500/VB00530
690/VB00528
X13
X6 X50
Rectifier Board
5
Board 1
ASIC/
Module Left Side
X2
SP+
SP-
ASIC/
2
X6
With SPU-024
option only
3
SPP
X1/+: Connected
to DC+ if SPU-024
not in use
SPF1
X30 X13
(2, 3)
5
5
5
Driver
Board
ASIC/
10
X3, X4 (X5)
X1
VB00493
ASIC/
X7...
X9
X6...
X8
H8, X10 (H13)
H2 U (V, W) H
H4 U (V, W) L
ASIC/
H9, H11 (H13)A
Measurement
500/VB00529
690/VB00527
X2
Board 2
Internal
Fans
Figure B-11: Main Circuit and Control Diagram, CH74, Phase U
MN04005001E
B-6
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January 2007
ASIC
Board
1
2
3
X6
DC+
DC-
VB00451
X9
+24V
DEVA
25
26
5
X2
X3
RECT/X13
Driver/X1
X15
10
Phase
21
22
23
Charge
Relay
Module U
Driver/H2
Driver/H4
UH H8
UL H9
X11
Control Unit
Fan
Control
Control
Panel
10
10
X4
VH H10
VL H1
Driver/X1
Driver/H2
Driver/H4
Phase
X1
9
Module V
Opto
Adapter
Board
2
7
X10
Driver/X1
Driver/H2
Driver/H4
X5
X2
+24V
Control Board
X7
Phase
WH H12
Module W
X1
VB00228
37 X1
WL H13
X2
X3
X4
X5
X6
H1...H7
H1...H7
(Slot A)
(Slot B)
(Slot C)
(Slot D)
(Slot E)
X1
+24V
+24V
GND
X3
1
2
Option
Option
Option
Option
Option
Board
Board
Board
Board
Board
Ext +24V
Figure B-12: Main Circuit and Control Diagram, CH74, Control
MN04005001E
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B-7
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
Fan Dimensions
29.45
(748)
.51
.51
(13)
(13)
30.12
(765)
.18
.18
(4.5)
(4.5)
1.46
(37)
R .23
(5.8)
1.46
(37)
.01
(3)
.87
27.56
R .11
(2.9)
(22)
(700)
2.72
(69)
2.95
(75)
.41
.75
Dia. .43 Dia. .17
(11) (4.2)
.75
.01 .49
(3) (12.5)
Typ.
.87 .98
(10.5)
(19)
(19)
28.98
(736)
(22) (25)
30.47
(774)
Figure B-13: Fan Mounting Pallet — Hot Dip Zinc Coated
Approximate Dimensions in Inches (mm)
.30
(7.5)
5.91
(150)
Dia. .23
(5.8)
1.50
(38)
6.50
1.46
(37)
.26
(165)
.85
.85
(6.5)
(21.5)
(21.5)
.98
4.80
(25)
(122)
105°
.75
(19)
5.39
(137)
4.92
4.13
(125)
(105)
Dia. 4.53
(115)
4.13
(105)
2.46
(62.5)
2.46
(62.5)
.39
(10)
.39
4.13
.39
(10)
(105)
(10)
4.92
(125)
Figure B-14: Fan Support
MN04005001E
B-8
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LCX9000 Liquid-Cooled Drives User Manual
January 2007
MN04005001E
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B-9
LCX9000 Liquid-Cooled Drives User Manual
January 2007
MN04005001E
B-10
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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 2006 sales of $12.4 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 60,000 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
© 2007 Eaton Corporation
All Rights Reserved
Printed in USA
Publication No. MN04005001E/CPG
January 2007
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