Manuals / Emerson / Computer Equipment / Power Supply

Emerson 400V, 50 and 60 Hz, 30-200kVA user manual SENXA0NBCWXX4LF4x2, Battery Installation, W006

Models: 30-200kVA 400V 50 and 60 Hz

1 132

Download 132 pages 10.43 Kb

Page 49

Figure 22 SENXA0NBCWXX4LF_4x2

Battery Installation

Figure 22 SENXA0NBCWXX4LF_4x2

Tray slave

Tray in Layer 3

Tray master

Tray slave

Tray in Layer 4

master	W002
Tray

W001

W001

W001

W001

W001

W001

SPACE

BCB

W001

W001

W001

W001

W001

W001

W101

W102

Tray slave

W003

Tray in Layer 1

Tray master

		W002
W002	W002	Tray slave

		Tray in Layer 2
W002					Tray master

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W001

W002

W002

W002

W002	NOTES:	1. Please refer to BCB BOX user instructions for cable connection. 2. If no internal Control board used, temp. transport cables should be connected	directly to external BCB control board. Meanwhile, the undervoltage release function for the internal BCB is not needed. 3. Used for: A412/85 F10.

BCB SPACE	Layer 2 Tray slave	Layer 1	Tray slave

connector) (Anderson
	BLACK-PP120/180
W005	W006
W003	W004
connector) (Anderson
	RED-PP120/180

Fuses) (Bussmann 120A/200A-FWP

			J1
	TO BCB BOX		BLUE
TO BCB BOX	TO BCB BOX	GREEN	RED

GND OUT

P12

Temp. transport

Layer 4

Tray master

Layer 3

Tray master

Layer 2

Tray master

Layer 1

Tray master

FRONT VIEW

37

Image 49

Emerson 400V, 50 and 60 Hz, 30-200kVA user manual SENXA0NBCWXX4LF4x2, Battery Installation, W006

Contents

Liebert NX AC Power For Business-Critical ContinuityUser Manual 50 and 60 Hz, 30-200kVA Page 1.0 SINGLE MODULE UPS INSTALLATION TABLE OF CONTENTS2.0 BATTERY INSTALLATION 4.0 EXTERNAL OPTIONAL CABINETS 3.0 UPS MULTI-MODULE INSTALLATION8.0 OPERATOR CONTROL PANEL AND DISPLAY 7.0 OPERATING PROCEDURES10.0 TECHNICAL SPECIFICATIONS 9.0 OPTIONS-FOR ASSEMBLY INSIDE THE UPS CABINET9.1 Protection 9.2 Communication and MonitoringFIGURES Figure 47 Front view doors open-60-80kVA NX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62 Figure 48 Cable terminal layout-60-80kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63 Figure 49 General arrangement-100-120kVA NX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64 Figure 50 Front view, door open-100-120kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65 Figure 51 Parallel logic board location-100-120kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65 Figure 52 Cable terminal layout-100-120kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Figure 53 General arrangement-140-200kVA NX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 66 Figure 54 Front view, door open-140-200kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 Figure 55 Parallel logic board location-140-200kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 Figure 56 Cable terminal layout-140-200kVA NX. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 Figure 57 Optional external Maintenance Bypass Cabinet, 600mm wide . . . . . . . . . . . . . . . . . . . . . . . . . . . 69 Figure 58 Optional external Maintenance Bypass Cabinet, 800mm wide . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Figure 59 Optional External Maintenance Bypass Cabinet, 850mm wide . . . . . . . . . . . . . . . . . . . . . . . . . . 71 Figure 60 Cabling diagram, 30-200kVA, MBP-T cabinet, configuration 1.1.1 . . . . . . . . . . . . . . . . . . . . . . . . 72 Figure 61 Cabling diagram, 30-200kVA, MBP-T cabinet, configuration 1.1.3 . . . . . . . . . . . . . . . . . . . . . . . . 73 Figure 62 Cabling diagram, 30-200kVA, MBP-T cabinet, configuration 1.1.5 . . . . . . . . . . . . . . . . . . . . . . . . 74 Figure 63 Single unit block diagram with split-bypass input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75 Figure 64 1+N multi-module UPS with external maintenance bypass switch . . . . . . . . . . . . . . . . . . . . . . . 77 Figure 65 Example of configuration for single UPS with external Maintenance Bypass Cabinet TABLES Dear Customer Example NXA0A0200U = Figure i Model number nomenclature200kVA module for Europe and Middle East, 400V/230V output Page Conformity and Standards SAFETY PRECAUTIONSFor more details, see 10.0 - Technical Specifications Back-Feed Protection NoticeBattery Voltage Exceeds 400VDC User-Serviceable Parts1.1 Introduction 1.0 SINGLE MODULE UPS INSTALLATION1.2 Preliminary Checks Professional Installation Required1.3 Location 1.3.2 External Battery Room1.3.1 UPS Room 1.3.3 Storage1.4.1 System Cabinets 1.4 Positioning1.4.2 30 to 40kVA UPS 1.4.3 60-200kVA UPS1.5 External Protective Devices 1.4.6 Access1.4.5 Clearances 1.4.7 Final Positioning1.5.1 Rectifier and Bypass Input 1.5.2 External BatteryEarth Leakage RCD 1.5.3 UPS OutputMaximum steady state AC and DC currents 1.6 Power CablesDistance from floor to connection point on the equipment Frequency Converter Mode 1.6.1 Cable TerminationCommon Input Connections Split-Bypass ConnectionsHazardous Battery Terminal Voltage 480VDC Internal UPS Battery Connection 30/40kVA onlyOutput System Connections 1.7 Control Cables and Communication 1.7.1 Monitor Board FeaturesFigure 2 Monitoring board U2 auxiliary terminal block detail 1.8 Dry Contacts X3 Ancillary Control and Alarms1.8.1 Input Dry Contacts X3 IN DRY Environmental, Battery Ground Fault and Generator Contacts1.8.3 External Circuit-Breaker Interface 1.8.2 Maintenance Bypass Cabinet InterfaceTable 5 External circuit-breaker interface Table 4 Maintenance bypass cabinet interface1.8.4 Output Dry Contacts 1.8.5 Emergency Power Off InputFigure 4 Output dry contacts and EPO wiring for firmware before M162 Figure 5 EPO wiring for firmware M200 or later J28X7 External Battery Temperature Detector Interface X5 Auxiliary DC Power OutputX6 Analog Input Interface EPO input contact relaysSerial Ports RS232-1 and RS232-2 1.8.6 External Bypass Switch InterlockIntellislot Web Browser, SNMP, ModBus and Relay Cards Interface 2.1 Introduction 2.0 BATTERY INSTALLATION2.3 Battery Cabinet 2.2 Safety2.3.1 Introduction Hazardous battery voltage present behind covers2.3.3 Dimensions 2.3.2 Temperature Considerations2.3.4 Weight 2.3.5 Circuit Breaker Features2.3.7 Cable Entry 2.3.6 Moving the Battery Cabinets1600 Battery Installation566,5 55 630Front Front FrontFigure 7 Narrow battery cabinet with top cable entry location Battery InstallationFront View Side ViewTop View Bottom ViewFigure 9 Wide battery cabinet with bottom cable entry location Bottom View Front ViewBattery Installation 265 150 270Output Battery InstallationBattery Installation Figure 11 Large battery cabinet dimensionsTop View 116 FrontBattery Installation Fuses alternative to BCB Output busbar connections BatteryCircuit Breaker BCB controller board Figure 13 SENXA0NBCN4LCB.eps Battery InstallationBCB125/200A Figure 14 SENXA0NBCN4LF Battery InstallationLayer LayerFigure 15 SENXA0NBCN5LCB Battery InstallationLayer LayerLayer Battery InstallationLayer Layer Layer LayerFigure 17 SENXA0NBCWXX3LCB Battery InstallationUPS TO UPS TO SPACE BCBFigure 18 SENXA0NBCWXX3LF Battery InstallationSPACE BCB Figure 19 SENXA0NBCWXX4LCB2x4 Battery InstallationSPACE SPACE Figure 20 SENXA0NBCWXX4LCB4x2not needed directlyAnderson connector Anderson connectorSENXA0NBCWXX4LF2x4 PP120/180-REDFigure 22 SENXA0NBCWXX4LF4x2 Battery InstallationW006 2.4.3 Connecting the Battery 2.4 Battery Power Cables2.4.4 Battery Room Design 2.4.1 Connection PrinciplesFor details, refer to 1.7 - Control Cables and Communication 2.5 Battery ControlUPS-circuit breaker configurations 2.6 Battery Circuit Breaker BoxTable 10 Battery circuit breaker box legend Figure 24 Battery circuit breaker box-30-120kVA and 140-200kVABattery Installation Circuit Breaker BoxFigure 25 Battery circuit breaker box connection 2.6.1 Battery Temperature Sensor-Optional Type W3 L = 5m Cable W3 L=5m is packed with the temperature sensorType W3 L = 30m Cable W3 L=30m is packed with the BCB box3.1 General 3.0 UPS MULTI-MODULE INSTALLATIONFigure 28 Emergency power off connections UPS2 UPS13.2 Paralleled UPS Modules 3.2.1 Cabinet InstallationInput Distribution 3.2.3 Power Cables3.2.2 External Protective Devices Refer to the instructions in 1.0 - Single Module UPS Installation3.3 Hot-Standby UPS Modules 3.3.1 Cabinet Installation3.2.4 Control Cables Intermodule Control 3.3.2 External Protective DevicesInput Distribution Upstream 3.3.3 Power CablesDownstream 3.4.3 Power Cables 3.4.1 Cabinet Installation3.4 Dual Bus System 3.4.2 External Protective Devices3.4.5 Extended Dual Bus Synchronization Option DBS Interface Box 3.4.4 Control Wires4.2 Interlock with UPS Module 4.1 External Maintenance Bypass Cabinets4.0 EXTERNAL OPTIONAL CABINETS 4.3 Isolation Transformer Option Figure 38 Dual input external isolation transformer cabinet 4.4 Top Cable Entry OptionFigure 39 Output external isolation transformer cabinet Installation Drawings 5.0 INSTALLATION DRAWINGSFigure 40 Electrical connections 7 Fans 8 Operator control and display panel All dimensions are in mm 4 Adjustable fixing feet 5 Seismic anchors Optional 6 Cable entry1 Air inlet grille 2 Air outlet grille 3 Castors for manoevring Installation DrawingsInternal battery trays behind cover 5x 159 x 364 x 685mm HWD Installation Drawings1 Output Switch-Q5 2 Maintenance Bypass Switch-Q34 Battery connections + 4.1 to internal battery Installation Drawings4.2 to external battery 5 Earth All dimensions are in mm2 & 2a. Battery Ground Fault detection, optional Installation Drawings3. Battery start interface, optional Figure 44 Location of parallel logic board M3 and options-30-40kVA NXFigure 45 Internal battery layout and connections-30-40kVA NX BLUEInstallation Drawings 120.5 6857 Fans 8 Operator control and display panel All dimensions are in mm 4 Adjustable fixing feet 5 Seismic anchors Option 6 Cable entryInstallation Drawings 1 Air inlet grille 2 Air outlet grille 3 Castors for manoevring1 Parallel logic board 2 Monitor board 3 Battery start Interface Installation Drawings4 and 4a Battery Ground Fault detection optional Figure 47 Front view doors open-60-80kVA NXFigure 48 Cable terminal layout-60-80kVA NX Front view 3 Castors 4 Adjustable fixing feetSide view Top view1 Input switch Q1 2 Bypass switch Q2 3 Maintenance bypass switch Q3 Installation Drawings4 Output switch Q5 5 Monitor board U2 Figure 50 Front view, door open-100-120kVA NXInstallation Drawings Adjustable fixing feetFigure 52 Cable terminal layout-100-120kVA NX Figure 53 General arrangement-140-200kVA NXParallel Cable Installation DrawingsFigure 54 Front view, door open-140-200kVA NX Figure 55 Parallel logic board location-140-200kVA NXInstallation Drawings U2 V2 W2 N3 OutputBatteryFigure 56 Cable terminal layout-140-200kVA NX N1 U1 V1 W1 Main InputInstallation Drawings Figure 57 Optional external Maintenance Bypass Cabinet, 600mm wideTop View Front View Side ViewFront View Top ViewBottom ViewInstallation Drawings Figure 59 Optional External Maintenance Bypass Cabinet, 850mm wideFront View Installation Drawings Figure 60 Cabling diagram, 30-200kVA, MBP-T cabinet, configurationInstallation Drawings Figure 61 Cabling diagram, 30-200kVA, MBP-T cabinet, configurationInstallation Drawings Figure 62 Cabling diagram, 30-200kVA, MBP-T cabinet, configuration6.0 OPERATION 6.1 IntroductionFigure 63 Single unit block diagram with split-bypass input Maintenance Bypass Isolator Q6.1.3 Battery Circuit Breaker 6.1.2 Static Transfer Switch6.1.4 Battery Temperature Compensation 6.1.5 Redundant Control Power Supply Board6.2 Multi Module UPS-1+N 6.2.1 Features of NX Multi-Module UPS ConfigurationsDistribution Cabinet 6.3.2 Battery Mode Stored Energy Mode 6.3.1 Normal Mode6.3.3 Auto-Restart Mode 6.3 Modes of Operation6.3.5 Maintenance Mode Manual Bypass 6.3.4 Bypass Mode6.3.6 ECO Mode Single UPS Only 6.3.7 Parallel Redundancy Mode System Expansion6.5 Battery Protection settings by commissioning engineer 6.4 Battery Management-Set During CommissioningBattery Self-Test and Self-Service 6.4.1 Normal Function7.0 OPERATING PROCEDURES 7.2 Startup in Normal Mode7.1 Introduction Mains Voltage will be applied to UPS output terminals 7.4 Battery Test Mode Procedures 7.3 Startup into ECO Mode7.4.1 Test Procedure 7.5.1 UPS Self-Test Procedure 7.6 Maintenance Bypass Procedure and UPS Shutdown7.5 UPS Self-Test Risk of Load InterruptionHazardous Voltage at UPS terminals Do not press any remote EPO button7.7.1 Multi-Module Systems With External Output CB1 7.7 Isolation of One Module in a Multi-Module SystemHazardous Battery Voltage 7.7.2 Multi-Module System Without External Output Circuit Breaker7.8 Insertion of One Module in a Multi-Module System 7.10 Emergency Shutdown With EPO 7.9 Shutdown Procedure-Complete UPS and Load ShutdownExcept in an emergency situation, do not press any remote EPO button 7.12 Auto Restart 7.13 Language Selection 7.15 Command Password7.14 Changing the Current Date and Time 8.0 OPERATOR CONTROL PANEL AND DISPLAY 8.1 IntroductionFigure 67 UPS control and display panel Table 12 UPS control and display panel components8.1.2 Audible Alarm Buzzer 8.1.1 Mimic Power FlowRectifier indicator-1 Battery indicator-28.1.4 LCD Monitor and Menu keys 8.1.3 Direct Access Push Buttons KeysTable 20 Menu key Icons and their meaning Figure 68 Graphic LCD monitor windows and keypadOperator Control Panel and Display Figure 69 Menu treehistory log Table 21 UPS system window 8.1.5 Detailed Description of Menu ItemsDescription ExplanationFreshening Charge Table 22 Descriptions of UPS menus and data window items continuedStop Freshening Charge Operator Control Panel and DisplayCurrent Record Window 8.2 All Status and Event Messages Displayed on the UPS Front PanelUPS messages Operator Control Panel and Display UPS messagesOperator Control Panel and Display UPS messagesOperator Control Panel and Display UPS messagesPrompt to press “enter” key to acknowledge that the UPS will be disconnected from Operator Control Panel and Display UPS messagesTable 24 Prompt windows, meanings 8.3 Prompt Pop-Up WindowsOperator Control Panel and Display 8.5 Default Screen Saver 8.4 Dynamic Energy Flow Chart and UPS Help ScreenFigure 71 Default screen Figure 70 Help screen9.1.4 Battery Start Facility 9.0 OPTIONS-FOR ASSEMBLY INSIDE THE UPS CABINET9.1 Protection 9.1.1 Redundant Back-Feed Protection9.1.5 Bypass Current Sharing Inductors Battery CabinetFigure 72 Battery Start Option for UPS with external battery Table 26 Bypass current sharing inductors-dimensions, valuesFigure 73 Bypass current sharing inductances Static SwitchInput Output9.1.6 Battery Ground Fault Detection BatteryBCB or Batt-N9.1.7 Replacing Dust Filters 9.1.8 Redundant Fan for Power ModuleBracket Sems s crewOptions-For Assembly Inside the UPS Cabinet 9.2 Communication and MonitoringFigure 76 Communication bays and cable location Figure 78 OC Web Card battery data summary 9.2.1 OC Web Card - SNMP/HTTP Network Interface CardFigure 77 OC Web Card data summary window Table 28 Relay Card pin configuration 9.2.2 Relay CardFigure 79 SiteNet MultiPort4 Intellislot pin configuration 9.2.3 Multiport-4 CardTable 30 SiteNet MultiPort4 Intellislot pin assignment 9.2.4 OC485 Web Card - Modbus, Jbus, IGM Net 9.2.5 Remote Alarm MonitorFigure 80 OC485 Web card Table 31 NX communication options 10.1 Conformity and Standards 10.0 TECHNICAL SPECIFICATIONSTable 33 Environmental characteristics Table 32 Compliance with European, international standardsTechnical Specifications Table 35 Mechanical characteristicsTable 34 Efficiency, AC/AC Table 36 Rectifier AC input mainsTechnical Specifications Table 37 Intermediate DC circuit, batteryTable 38 Inverter output to critical load Technical SpecificationsTable 39 Bypass input Technical Specifications0f Mission-Critical Data And Applications Ensuring The High Availabilitythat from