Emerson 30-200kVA, 400V, 50 and 60 Hz user manual

Contents

Main Page TABLE OF CONTENTS Page Page Page FIGURES Page TABL ES Page Figure i Model number nomenclature 200kVA module for Europe and Middle East, 400V/230V output NXa U 0A0200 Page SAFETY PRECAUTIONS Conformity and Standards User-Serviceable Parts Battery Voltage Exceeds 400VDC 1.0 SINGLE MODULE UPS INSTALLATION 1.1 Introduction 1.2 Preliminary Checks 1.3 Location 1.3.1 UPS Room 1.3.2 External Battery Room 1.3.3 Storage !CAUTION 1.4 Positioning 1.4.1 System Cabinets 1.4.2 30 to 40kVA UPS 1.4.3 60-200kVA UPS 1.4.4 Moving the Cabinets 1.5 External Protective Devices 1.5.1 Rectifier and Bypass Input Earth Leakage (RCD) 1.5.2 External Battery 1.5.3 UPS Output NOTE 1.6 Power Cables ! Table 2 Distance from floor to connection point on the equipment 1.6.1 Cable Termination Page 1.7 Control Cables and Communication 1.7.1 Monitor Board Features 1.8 Dry Contacts 1.8.1 Input Dry Contacts X3 Ancillary Control and Alarms 1.8.2 Maintenance Bypass Cabinet Interface 1.8.3 External Circuit-Breaker Interface 1.8.4 Output Dry Contacts 1.8.5 Emergency Power Off Input X5: Auxiliary DC Power Output X6: Analog Input Interface X7: External Battery Temperature Detector Interface Serial Ports RS232-1 and RS232-2 Intellislot Web Browser, SNMP, ModBus and Relay Cards Interface 1.8.6 External Bypass Switch Interlock 2.0 BATTERY INSTALLATION 2.1 Introduction 2.2 Safety 2.3 Battery Cabinet 2.3.1 Introduction 2.3.2 Temperature Considerations 2.3.3 Dimensions 2.3.4 Weight 2.3.5 Circuit Breaker Features 2.3.6 Moving the Battery Cabinets ! 2.3.8 General Arrangement Drawings Page Page Page Figure 10 Wide battery cabinet with fuse or optional circuit breaker locations Page Figure 12 Large battery cabinet with fuse or optional circuit breaker locations Figure 13 SENXA0NBCN4LCB.eps Layer 1 Layer 2 V< Temp. transport directly to external BCB control board. Meanwhile, the undervoltage release function Figure 14 SENXA0NBCN4LF Layer 2 Layer 3 Layer 4 Layer 1 Figure 15 SENXA0NBCN5LCB BCB(125/200A) to external BCB control board. Meanwhile, the undervoltage release function for the 2. If no internal Control board used, temp. transport cables should be connected directly TO UPS Figure 16 SENXA0NBCN5LF Layer 5 2. Used for: UH12V100/A; NPX-150; NPL24-12,38-12; S512/38; 12XLB150; P12V570,875; L12V32. PP120/180-BLACK (Anderson connector) Figure 17 SENXA0NBCWXX3LCB connected directly to external BCB control board. Meanwhile, the V< 2. If no internal Control board used, temp. transport cables should be 3. Used for: A412/32 G6. Figure 18 SENXA0NBCWXX3LF Figure 19 SENXA0NBCWXX4LCB_2x4 undervoltage release function for the internal BCB is not needed. J1 Temp. transport V< Figure 20 SENXA0NBCWXX4LCB_4x2 3. Used for: A412/85 F10. 2. If no internal Control board used, temp. transport cables should be connected directly 1. Please refer to BCB BOX user instructions for cable connection. NOTES: Figure 21 SENXA0NBCWXX4LF_2x4 3. Used for: UH12V270/A,310/A,370/A,500/A; UPS12-270,310,370,475; A412/50,65 G6; (Bussmann Fuses) FWP-120A/200A (Anderson connector) Figure 22 SENXA0NBCWXX4LF_4x2 3. Used for: A412/85 F10. function for the internal BCB is not needed. directly to external BCB control board. Meanwhile, the undervoltage release 2. If no internal Control board used, temp. transport cables should be connected 2.4 Battery Power Cables 2.4.1 Connection Principles 4 3 2.4.2 Fitting the Batteries 2.5 Battery Control 2.6 Battery Circuit Breaker Box Figure 24 Battery circuit breaker box30-120kVA and 140-200kVA Standard cable entry is from bottom side. The baseplate can be rotated to permit top cable entry. Table 10 Battery circuit breaker box legend Figure 25 Battery circuit breaker box connection Battery+ - UPS Battery +-Battery J10 X7 Page 44 Figure 27 Multiple temperature sensors, battery circuit breaker box and UPS module Type: W3 L = 5m Type: W3 L = 30m Cable W3 (L=5m) is packed with the temperature sensor. Cable W3 (L=30m) is packed with the BCB box. 3.0 UPS MULTI-MODULE INSTALLATION 3.1 General EPO 3.2 Paralleled UPS Modules 3.2.1 Cabinet Installation 3.2.2 External Protective Devices 3.2.3 Power Cables Input Distri bution 3.2.4 Control Cables Intermodule Control UPS 1 2 3 4 5 6 3.3 Hot-Standby UPS Modules 3.3.1 Cabinet Installation 3.3.2 External Protective Devices Input Distribution Upstream Downstream 3.4 Dual Bus System 3.4.1 Cabinet Installation 3.4.2 External Protective Devices 3.4.3 Power Cables 3.4.4 Control Wires UPS 8 A B 8 UPS 4.0 EXTERNAL OPTIONAL CABINETS 4.1 External Maintenance Bypass Cabinets 4.2 Interlock with UPS Module 4.3 Isolation Transformer Option 4.4 Top Cable Entry Option 5.0 INSTALLATION DRAWINGS Figure 40 Electrical connections POWER CABLES BCB BOX UPS POWER BUSBARS Page Figure 42 Front view, door open30-40kVA NX Figure 43 Cable terminal layout30-40kVA NX 348 323 299 258 Page Figure 45 Internal battery layout and connections30-40kVA NX RED 120.5 364 685 BLUE 1 3 Page Page Page Front view Side view Base viewTop view Figure 50 Front view, door open100-120kVA NX Figure 51 Parallel logic board location100-120kVA NX Figure 52 Cable terminal layout100-120kVA NX Figure 53 General arrangement140-200kVA NX Page Page Figure 57 Optional external Maintenance Bypass Cabinet, 600mm wide Side View Bottom View Top View Front View Bottom View Side View Front View Top View Figure 59 Optional External Maintenance Bypass Cabinet, 850mm wide Page Page Page 6.0 O 6.1 Introduction 6.1.1 Split-Bypass Input 6.1.2 Static Transfer Switch 6.1.3 Battery Circuit Breaker 6.1.4 Battery Temperature Compensation 6.1.5 Redundant Control Power Supply Board 6.2 Multi Module UPS1+N 6.2.1 Features of NX Multi-Module UPS Configurations 6.2.2 Requirements for Paralleling of UPS Modules 6.3 Modes of Operation 6.3.1 Normal Mode 6.3.2 Battery Mode (Stored Energy Mode) 6.3.3 Auto-Restart Mode 6.3.4 Bypass Mode 6.3.5 Maintenance Mode (Manual Bypass) 6.3.6 ECO Mode (Single UPS Only) 6.3.7 Parallel Redundancy Mode (System Expansion) 6.3.8 Hot-Standby Mode 6.4 Battery ManagementSet During Commissioning 6.4.1 Normal Function 6.5 Battery Protection (settings by commissioning engineer) 7.0 OPERATING PROCEDURES 7.1 Introduction 7.2 Startup in Normal Mode Page 7.3 Startup into ECO Mode 7.4 Battery Test Mode Procedures 7.4.1 Test Procedure 7.5 UPS Self-Test 7.5.1 UPS Self-Test Procedure 7.6 Maintenance Bypass Procedure and UPS Shutdown Page 7.7 Isolation of One Module in a Multi-Module System 7.7.1 Multi-Module Systems With External Output CB1 7.7.2 Multi-Module System Without External Output Circuit Breaker 1 7.8 Insertion of One Module in a Multi-Module System 7.9 Shutdown ProcedureComplete UPS and Load Shutdown 7.10 Emergency Shutdown With EPO 7.11 Reset After Shutdown for Emergency Stop (EPO Action) or Other Conditions 7.12 Auto Restart 7.13 Language Selection 7.14 Changing the Current Date and Time 7.15 Command Password Operator Control Panel and Display 92 8.0 OPERATOR CONTROL PANEL AND DISPLAY F2 F3 F4 HELPF1 8 7 45 8.1.1 Mimic Power Flow UPS activity is accompanied by the following sounds 8.1.2 Audible Alarm (Buzzer) Table 13 Rectifier indicator1 Table 14 Battery indicator2 ? ESC ? F2 F3 F4 HELPF1 4 - Current Record Page 8.1.5 Detailed Description of Menu Items Table 21 UPS system window Description Explanation Table 22 Descriptions of UPS menus and data window items Freshening Charge Stop Freshening Charge Table 22 Descriptions of UPS menus and data window items (continued) 8.2 All Status and Event Messages Displayed on the UPS Front Panel Page Page Page Page 8.3 Prompt (Pop-Up) Windows 8.4 Dynamic Energy Flow Chart and UPS Help Screen 8.5 Default Screen Saver 9.0 OPTIONSFOR ASSEMBLY INSIDE THE UPS CABINET 9.1 Protection 9.1.1 Redundant Back-Feed Protection 9.1.2 Seismic Anchors 9.1.3 Degree of Protection for the UPS Enclosure UPS 106 Figure 72 Battery Start Option for UPS with external battery Batt-N WxLxH, mm (in) Inductor UPS 1 9.1.6 Battery Ground Fault Detection BCB or Contactor Battery Batt-N 9.1.7 Replacing Dust Filters Sems screw Bracket 9.1.8 Redundant Fan for Power Module 9.2 Communication and Monitoring Figure 76 Communication bays and cable location Page 9.2.2 Relay Card Table 29: 9.2.3 Multiport-4 Card UPS 9.2.4 OC485 Web Card Modbus, Jbus, IGM Net 9.2.5 Remote Alarm Monitor Table 31 NX communication options 10.0 TECHNICAL SPECIFICATIONS 10.1 Conformity and Standards The UPS has been designed to conform to the following European and international standards: Table 32 Compliance with European, international standards Table 33 Environmental characteristics Table 34 Efficiency, AC/AC Input and output voltage 400VAC, battery charged, full rated linear load Table 35 Mechanical characteristics Table 36 Rectifier AC input (mains) Table 37 Intermediate DC circuit, battery Table 38 Inverter output to critical load Table 39 Bypass input Ensuring The High Availability 0f Mission-Critical Data And Applications. 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