Liebert 600TTM installation manual Appendix a Site Planning Data, 500-750kVA Multi-Module Systems

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12.0APPENDIX A - SITE PLANNING DATA

500-750kVA Multi-Module Systems

12.1Notes

1.Nominal rectifier AC input current (considered continuous) is based on full rated output load. Maximum current includes nominal input current and maximum battery recharge current (considered noncontinuous). Continuous and noncontinuous current limit are defined in NEC 100. Maximum input current is controlled by current limit setting which is adjustable. Values shown are for maximum setting of 125%. Standard factory setting is 115%.

2.Nominal AC output current (considered continuous) is based on full rated output load. Maximum current includes nominal output current and overload for 10 minutes.

3.Bypass AC input current (considered continuous) is based on full rated output load.

4.Feeder protection (by others in external equipment) for rectifier AC input and bypass AC input is recommended to be provided by separate overcurrent protection devices.

5.UPS output load cables must be run in separate conduit from input cables.

6.Power cable from module DC bus to battery should be sized for a total maximum 2.0 volt line drop (measured at the module) at maximum discharge current.

7.Grounding conductors to be sized per NEC 250-122. Neutral conductors to be sized for full capacity for systems with 4-wire loads and half capacity for systems with 3-wire loads. NOTE: A neutral conductor is required from each Multi-Module Unit output to the System Control Cabinet.

8.Rectifier AC Input: 3-phase, 3-wire, plus ground

AC Output, SCC to Load: 3-phase, 3 or 4-wire, plus ground

Bypass AC Input: 3-phase, 3 or 4-wire, plus ground

Module DC Input from Battery: 2-wire, (positive and negative)

9.All wiring is to be in accordance with National and Local Electrical Codes.

10.Minimum clearance is 2 feet above UPS.

11.Top or bottom cable entry through removable access plates. Cut plate to suit conduit size.

12.Control wiring and power cables must be run in separate conduits. Control wiring must be stranded tinned conductors.

13.7% maximum input harmonic current and 0.92 lagging input power factor at full load with 6- pulse rectifier and optional input filter (4% with 12-pulse rectifier and input filter).

30% maximum input harmonic current and 0.85 lagging input power factor at full load without optional input filter (9% with 12-pulse rectifier).

14.Dimensions and weights do not include the System Control Cabinet required for Multi- Module Systems.

80 Appendix A - Site Planning Data

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Contents Power Protection Series 600T UPSArning Hazard Table of Contents Page List of Figures Page Important Safety Instructions Page Safety Precautions Installation Considerations Handling CabinetUPS Multi-Module Unit Block Diagram Types of System Control Cabinets System Control CabinetsUnloading and Handling Inspections External InspectionsInternal Inspections Equipment Location Battery Safety Precautions Battery InstallationBattery Installation Battery Installation Matching Battery Cabinets Non-Standard BatteriesConfiguring Your Neutral and Ground Connections Configuring Your Neutral and Ground Connections Grounding Configuration with Ungrounded Delta Source Input Preferred Grounding Configuration with Power-Tie Switchgear Preferred Grounding Configuration, Power-Tie SystemsGrounding Configurations, Battery Systems Battery Cabinet Grounding ConfigurationWiring Considerations Power Wiring Control Wiring Battery Wiring EquipmentScct Scci / Sccc BFB BIB CB1 CB2 MBB MBD Mbfb MIB RIB SBB SBS For Battery Cabinets Wiring Inspection Power Wiring Terminals Factory SuppliedCopper Aluminum or Copper-Clad Aluminum Installation Drawings Outline Drawing, 500 kVA Multi-Module UPS, 6-Pulse RectifierInstallation Drawings Installation Drawings Installation Drawings Outline Drawing, System Control Cabinet SCCT, 200-1200 Amps Outline Drawing, System Control Cabinet SCCT, 1600-2500 Amps Outline Drawing, System Control Cabinet SCCT, 3000 Amps Outline Drawing, System Control Cabinet Scct 4000 Amps Battery Power Pack, Size a Battery Power Pack, Size B Battery Power Pack, Three-Pack System Base Mounting Patterns, 500 kVA Module, 12-Pulse Rectifier Base Mounting Patterns, 625-750 kVA Module, 6-Pulse Installation Drawings Installation Drawings Installation Drawings Base Mounting Patterns SCCT, 3000 Amps Base Mounting Patterns SCCT, 4000 Amps Installation Drawings Installation Drawings Installation Drawings Terminal Details, 500 kVA Module, 6-Pulse Rectifier Terminal Details, 500 kVA Module, 12-Pulse Rectifier Installation Drawings Installation Drawings Installation Drawings Control Connection Location, 500 kVA Modules Control Connection Location Diagram, 625 & 750 kVA Modules Control Connection Location Diagram, Sccc & Scci Control Connection Location Diagram, Scct Installation Drawings Installation Drawings Installation Drawings Installation Drawings Installation Drawings Option Wiring, Maintenance Bypass Interlock Option Wiring, Remote Status Panel Interface Option Wiring, Internal Modem Installation Drawings Installation Drawings Option Wiring, Battery Temperature Sensor Option Wiring, Snmp Interface External Interconnections, Module 1/SCC, Cable Groups 21 External Interconnections, Module 2/SCC, Cable Groups 21 Wiring Configurations, UPS Video Display Terminal Installation Drawings Installation Drawings Remote Status Panel, Surface Mount Circuit Breaker Schedule, Multi-Module UPS, 300-750 kVA Installation Drawings Installation Drawings Appendix a Site Planning Data 500-750kVA Multi-Module SystemsSeries 600T Multi-Module Systems, 500-750 kVA 480 Volt Input Series 600T Multi-Module Systems, 500-750 kVA 600 Volt Input Appendix B Field Supplied Lugs One-Hole LugsAppendix B Field Supplied Lugs Series 600T UPS
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