Contents - Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- INTRODUCTION
- Single UPM and Two UPM Configurations
- Figure 1-2. 600V 2x UPM Configuration
- Single UPM Plus 1 UPM Configuration
- UPS Standard Features
- Advanced Battery Management
- Distributed Bypass System
- Energy Saver and High Alert Modes
- Battery System
- Using This Manual
- Symbols, Controls, and Indicators
- Getting Help
- SAFETY WARNINGS
- UPS INSTALLATION PLAN AND UNPACKING
- Installation Considerations
- V, 400V, 415V, and 480V Model Configurations
- Figure 3-1. Single UPM Configuration Dimensions
- Figure 3-2. Single UPM Configuration, Plus 1 FI-UPM (Dimensions)
- Figure 3-3. Two UPM Configuration (Dimensions)
- V Model Configurations
- Figure 3-5. 600V Single UPM Configuration, Plus 1 FI-UPM
- Figure 3-6. 600V Two UPM Configuration
- Figure 3-7. Side View Dimensions and Center of Gravity Measurements
- UPS System Power Wiring Preparation
- UPS System Interface Wiring Preparation
- Distributed Bypass Power Wiring Preparation
- Figure 3-8. Single UPM Configuration as Shipped on Pallet (380V, 400V, 415V, and 480V)
- Figure 3-9. Two UPM Configuration as Shipped on Pallet (380V, 400V, 415V, and 480V)
- INSTALLATION
- Figure 4-1. Removing the ISBM Section Left Side Shipping Bracket
- Figure 4-2. Removing the ISBM Section Right Side Shipping Bracket
- Mechanically Joining the Sections (600V Models Only)
- Figure 4-4. ISBM and UPM Sections Joined
- Figure 4-5. ISBM Section to UPM Section Joining Brackets
- Electrically Connecting the Sections (600V Models Only)
- Figure 4-6. UPS Intercabinet Interface Harness Locations
- Connecting Intercabinet CAN Cables and Connectors
- Figure 4-8. Pl1 Interface Board Location
- Field Installed UPM Installation
- Installing UPS External and Battery Power Wiring
- External Power Wiring Installation
- Figure 4-12. ISBM and UPM Section Conduit and Wire Entry Locations
- Figure 4-13. Distributed Bypass Wire Length
- Figure 4-14. ISBM Section Power Terminal Locations (380V, 400V, 415V, and 480V Models)
- Figure 4-15. ISBM Section Power Terminal Locations (600V Models)
- Figure 4-16. ISBM Section Power Terminal Detail – Section AA (380V, 400V, 415V, and 480V Models)
- Battery Power Wiring
- Installing Interface Connections
- TB1, TB2, and TB3 Connections (Other than TB1 Battery Interface Connections)
- Figure 4-18. ISBM Section Interface Terminal Locations
- Figure 4-19. Interface Terminal Detail
- Figure 4-21. Terminal Blocks TB1, TB2, and TB3 Connector Assignments
- TB1 Battery Interface Connections
- Figure 4-22. Typical Battery Interface Connection – Common Battery System
- X-Slot Connections
- Installing a REPO Switch
- Figure 4-26. REPO Switch
- Figure 4-27. Normally-Open REPO Switch Wiring
- Figure 4-28. Normally-Closed REPO Switch Wiring
- Installing Options, Accessories, and Distributed Bypass Control Wiring
- INSTALLATION CHECKLIST
- DISTRIBUTED BYPASS INSTALLATION CHECKLIST
- INSTALLING OPTIONS AND ACCESSORIES
- Installing an Optional Hot Sync CAN Bridge Card
- Figure 5-2. Hot Sync CAN Bridge Card Connections
- Installing Distributed Bypass Control Wiring
- Figure 5-3. Distributed Bypass System CAN and Pull-Chain Simplified Interface Wiring
- Figure 5-5. Distributed Bypass Pull-Chain Wiring without MOBs
- Figure 5-6. Distributed Bypass Pull-Chain Wiring with MOBs
- Installing an Optional Remote Monitor Panel II
- Figure 5-7. Remote Monitor Panel II and Relay Interface Module II Terminal Locations
- Figure 5-8. Remote Monitor Panel II, Relay Interface Module II, or Supervisory Contact Module II Wiring
- Installing an Optional Relay Interface Module II
- Installing an Optional Supervisory Contact Module II
- Figure 5-10. Supervisory Contact Module II Terminal Location
- Accessory Mounting Dimensions
- Figure 5-12. Remote Monitor Panel II Dimensions
- Figure 5-13. Relay Interface Module II Dimensions
- Figure 5-14. Supervisory Contact Module II Dimensions
- UNDERSTANDING UPS OPERATION
- Single UPS
- Figure 6-2. Path of Current Through the UPS in Online Mode
- Energy Saver System (ESS) Mode
- Bypass Mode
- Battery Mode
- Figure 6-4. Path of Current Through the UPS in Battery Mode
- Single UPS Unit System Oneline Configurations
- Figure 6-5. One UPM, Rectifier Feed, Battery System, Dual-Feed Configuration, Continuous Static Switch
- Figure 6-6. One UPM, Common Rectifier Feed, Common Battery, Dual-Feed Configuration, Continuous Static Switch FI-UPM
- Figure 6-7. One UPM, Common Rectifier Feed, Separate Battery, Dual-Feed Configuration, Continuous Static Switch FI-UPM
- Figure 6-8. Two UPM, Common Rectifier Feed, Common Battery, Dual-Feed Configuration, Continuous Static Switch
- Figure 6-9. Two UPM, Common Rectifier Feed, Separate Battery, Dual-Feed Configuration, Continuous Static Switch
- Figure 6-10. One UPM, Rectifier Feed, Battery System, IOM Configuration
- Figure 6-11. One UPM, Common Rectifier Feed, Common Battery, IOM Configuration, FI-UPM
- Figure 6-12. One UPM, Common Rectifier Feed, Separate Battery, IOM Configuration, FI-UPM
- Figure 6-13. Two UPM, Common Rectifier Feed, Common Battery, IOM Configuration
- Figure 6-14. Two UPM, Common Rectifier Feed, Separate Battery, IOM Configuration
- Figure 6-15. Simplified Dual-Feed UPS with Maintenance Bypass Panel
- Multiple UPS Distributed Bypass System
- Online Mode - Distributed Bypass
- Bypass Mode – Distributed Bypass
- Battery Mode - Distributed Bypass
- Figure 6-18. Path of Current through the UPSs in Battery Mode - Distributed Bypass
- Multiple UPS Distributed Bypass System Oneline Configurations
- Figure 6-19. Typical Distributed Bypass System - Continuous Static Switch, 1+1 and 2+0 Configurations
- Figure 6-20. Typical Distributed Bypass System -Continuous Static Switch, 2+1 and 3+0 Configurations
- Figure 6-21. Typical Distributed Bypass System -Continuous Static Switch, 3+1 and 4+0 Configurations
- UPS OPERATING INSTRUCTIONS
- Circuit Breakers
- Status Indicators
- Figure 7-3. Parts of the Touch Screen
- Figure 7-4. Sign In or Password Request Screen
- Using the Main Menu Buttons
- Power Maps Screen (Online Mode)
- Figure 7-8. Average Efficiency Screen from Home Screen
- Power Maps Screen (Bypass Mode)
- Meters Summary Screen
- Input Meters Screen
- Figure 7-15. Output Meters Screen
- Input Meters Detail Screen
- Battery Meters Screens
- Figure 7-20. Battery Log Detail
- System Events Main Screen
- Figure 7-23. User Log Screen
- System Status Screen and Controls
- Figure 7-27. Module Control Detail Screen
- Settings Screen
- Configuration Options Screen
- Figure 7-33. Disable ESS Screen
- Statistics Basic Screen
- ESS Comparison Screen
- System Overview Screen
- UPS Operation using the Color Touchscreen Control Panel
- Using the Remote Emergency Power-off Switch
- Figure 7-40. REPO Operation
- Multiple UPS Distributed Bypass Operation
- Starting the Distributed Bypass System in Bypass Mode
- Single UPM Shutdown
- Single UPS Shutdown using Load Off
- Single UPS Shutdown using UPM Shutdown
- Single UPS Restart
- UPS and Critical Load Shutdown
- Using the UPS LOAD OFF Pushbutton
- Using the UPS LOAD OFF Command
- COMMUNICATION
- PredictPulse
- Power Management Software
- Remote Monitor Panel II
- Relay Interface Module II
- Supervisory Contact Module II
- UPS MAINTENANCE
- Performing Preventive Maintenance
- Figure 9-1. ISBM and UPM Section Air Filter Locations - Continuous Static Switch
- Figure 9-2. FI-UPM Air Filter Location
- PERIODIC Maintenance
- Installing Batteries
- Maintenance Training
- PRODUCT SPECIFICATIONS
- UPS Output
- UPS Environmental
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Eaton ® Power Xpert® 9395P-300 (300kVA, 300kW) UPS Installation and Operation Manual P-164000563—Rev 04 www.eaton.com/powerquality 9-1Chapter 9 UPS MaintenanceThe components inside the UPS cabinet are secured to a sturdy metal frame. All repairable parts andassemblies are located for easy removal, with very little disassembly. This design allows authorized servicepersonnel to perform routine maintenance and servicing quickly.You must schedule periodic performance checks of your UPS system to keep it running properly. Regularroutine checks of operation and system parameters enable your system to function efficiently for manytrouble-free years.9.1 Important Safety InstructionsRemember that your UPS system is designed to supply power EVEN WHEN DISCONNECTED FROM THEUTILITY POWER. The UPS module interiors are unsafe until the DC power source is disconnected and theelectrolytic capacitors are discharged. After disconnecting the utility power and the DC power, authorizedservice personnel should wait at least five minutes for capacitor bleedoff before attempting internal access tothe UPS module.WARNINGl Servicing and maintenance should be performed by qualified service personnel only.l LETHAL VOLTAGE PRESENT. This unit should not be operated with the cabinet doors open orprotective panels removed. Do not make any assumptions about the electrical state of anycabinet in the UPS system.AVERTISSEMENT!l L’installation et l’entretien ne doivent être effectués que par du personnel qualifié.l PRÉSENCE DE TENSIONS MORTELLES. Ne pas faire fonctionner cette unité lorsque les portesde l’armoire sont ouvertes ou si les panneaux de protection ne sont pas en place. Ne jamaisfaire de suppositions au sujet de l’état électrique des armoires du système d’onduleurBecause each battery string is an energy source in itself, opening the battery circuit breaker does notde-energize the voltage within the battery string. DO NOT ATTEMPT TO ACCESS ANY INTERNAL AREA OFTHE BATTERY STRING YOURSELF. VOLTAGES ARE ALWAYS PRESENT IN THE BATTERY STRING. Ifyou suspect that a battery string needs service, contact an Eaton service representative.If the string requires service, refer to the battery manufacturer's operating manual for instructions on batterymaintenance or contact an Eaton service representative.Observe these precautions when working on or around batteries:l Remove watches, rings, or other metal objects.l Use tools with insulated handles.l Wear rubber gloves and boots.l Do not lay tools or metal parts on top of batteries.l Disconnect the charging source prior to connecting or disconnecting terminals.l Determine if the battery is inadvertently grounded. If it is, remove the source of the ground. Contact withany part of a grounded battery can result in electrical shock. The likelihood of such shock is reduced if suchgrounds are removed during installation and maintenance.l When replacing batteries, use the same number of sealed, lead-acid batteries.l Proper disposal of batteries is required. Refer to your local codes for disposal requirements. |
