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Emerson Series 610 manual Remote Emergency Power Off, Scct, Emergency power off

Models: Series 610

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3.3.8Remote Emergency Power Off

Operation

3.3.8Remote Emergency Power Off

The Remote Emergency Power Off (REPO) mode is used to remove all power from the critical load.

The Remote Emergency Power Off control is a switch located remotely from the UPS system. It will normally be in the same room as the critical load equipment. This mode can also be initiated by an automatic contact closure in the same external circuit as the manually operated switch.

When you operate the Remote Emergency Power Off switch, all UPS circuit breakers are opened, including the bypass circuit breaker. All power through the UPS is removed from the load. Typically, the REPO circuit also opens the circuit breakers that provide power to the bypass lines and the UPS controls.

Refer to 3.4.5 - Shutdown Procedures.

Figure 60 Emergency power off

RIB

RIB

RIB

BFB

UPS #3

UPS #2

UPS

#1

CB1

CB1

CB1

SBS

BIB

R

R

R

SBB

I

I

I

MBB

CB2

CB2

CB2

System

SKRU

Controls

Output

MIB

										SCCT
										To Critical Load
										To Critical Load
			MBD			MBD				MBD
										SCCT
	Battery			Battery			Battery			SCCT
	Battery			Battery			Battery			(can accommodate up to 6 UPS modules)
										(can accommodate up to 6 UPS modules)

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Image 87

Emerson Series 610 manual Remote Emergency Power Off, Scct, Emergency power off

Contents

Liebert Series 610 UPS AC PowerFor Business-Critical Continuity CONTACTING LIEBERT FOR SUPPORT BATTERY CABINET PRECAUTIONSTABLE OF CONTENTS 5.0 SPECIFICATIONS 4.0 MAINTENANCEFIGURES TABLES SAVE THESE INSTRUCTIONS IMPORTANT SAFETY INSTRUCTIONS1.1 System Description 1.0 INTRODUCTIONFigure 1 Multi-Module UPS, 100-500kVA Figure 2 Multi-Module UPS, 500-750kVA Figure 3 System Control Cabinets 1.2 ReliabilityTypes of System Control Cabinets SCCs Designed for SuccessOther Factors to Consider 1.3 Safety Precautions1.4.2 Input Power Failure 1.4 Modes of Operation1.4.4 Overload 1.4.7 Maintenance Bypass1.4.8 Off-Battery 1.4.3 RechargeIntroduction 1.6 Options 1. Battery2. Battery Racks or Cabinets 2.1 General Component Descriptions 2.0 THEORY OF OPERATION2.1.1 System Control Cabinet 2.1.3 Battery Plant Figure 6 UPS module block diagram2.1.2 UPS Module 2.2 Detailed Component Descriptions 2.2.1 Controls HardwareSoftware Input Circuit Breaker Input Power Factor2.2.2 Rectifier/Charger OperationBattery Equalize Charge Circuit 2.2.3 Battery Charging CircuitBattery Disconnect Battery Charge Current LimitingOperation Non-Linear Load CharacteristicsUnbalanced Load Characteristics 2.2.4 InverterShorted SCR Monitoring Figure 7 System Control Cabinet block diagram2.2.5 Static Bypass Fuse ProtectionStatic Switch Isolation Pulsed Parallel OperationLoad Transfers 3. Transfer Inhibited Transfer and Retransfer Conditions1. Automatic Transfers to Bypass 2. Manual Transfers6. Retransfer Inhibited 2.2.6 Redundant ModeFeatures 3.1 Display Screen and Operator Controls3.0 OPERATION 500kVA Figure 8 Typical operator controlsTypical operator controls OperationFigure 9 Operator controls, typical SCCT System Control Cabinet Typical SCCT System Control Cabinet operator controlsOperation Figure 10 Liebert Series 610 UPS and SCC operator control panels Liebert Series 610 UPS and SCC operator control panelsOperation Figure 11 Switches behind SCC control panel door Liebert Series 610 UPS and SCC operator control panelsOperation Figure 12 Menu tree 3.2 Menu Tree NavigationFigure 13 SCC and module master menu screens 3.2.1 Master Menu ScreenFrom any primary screen accessed directly from the Master Menu, pushing the Select pad once will return you to the Master Menu. From any secondary screen, pushing the Select pad twice will return you to the Master Menu Figure 14 SCC Monitor/Mimic display screen 3.2.2 SCC Monitor/Mimic Display ScreenInput Metering Displays Output Metering DisplaysItem 6 - System Status Messages Status/Alarm Message AreasItem 7 - Alarm Messages Item 5 - Module Status MessagesOutput Metering Displays BATTERY VOLTS AMPS 15 CHARG3.2.3 Module Monitor/Mimic Display Screen Input Metering DisplaysItem 5 - Alarm Messages Alarm MessagesModule Display Figure 16 Monitor/Mimic display example Normal power flowOperation SCC DisplayOperation Figure 17 Monitor/Mimic display example Utility failOperation 270 kVA / 217 kW325A 325A 325A 50.0Hz 5060..00Hz OperationMOD 1 ON LINE MVODLTS2 OFF540 LINE SUM ALM MODAMPS3 75ON15 CHARGLINE A B C 953A3780A 953A3780A 953A378A0AMODAMPS3 75OFFCHARGLINE SUM ALM OperationFigure 21 Walk-in display screen during start-up 3.2.4 Walk-In Display ScreenRefer to 3.2.15 - Communication Interfaces 3.2.5 Status Reports ScreensPresent Status Each of the four Status Reports can be displayed on a remote terminalOperation Event HistoryFigure 23 Present status report screens, SCC above and module Figure 24 Event history report screenFigure 25 History status report screens History StatusTable 5 Alarm conditions that freeze history data gathering Alarm in SCCAlarm in Module System Status Figure 26 Battery cycle monitor screenDate Figure 27 Battery cycle monitoring summary screenBattery Cycle Monitoring Summary EventFigure 29 SCC system configuration screen 3.2.6 System Configuration ScreensFigure 30 Date screen DateFigure 31 Time screen TimeAuto Dial Figure 32 Auto dial setting screenFigure 34 Maximum auto-retransfer attempts screen Modem Baud RateMaximum Auto-Retransfer Attempts Figure 33 Modem baud rateFigure 35 SCC system options screen System Current RatingLanguage Selection System OptionsFigure 37 Battery test screen-MMU only Figure 38 Battery test results screenContinuous Duty Static Switch Optional Figure 39 Monitor/Mimic display example Continuous Duty Static Switch Remote MonitorSCC and module remote monitor indications Figure 40 Module alarm limit settings screen 3.2.7 Alarm Limit Settings ScreenTemperature Limit Setting Optional Battery Float VoltageFigure 41 Load transfer procedures screen 3.2.8 Load Transfer Procedures ScreenFigure 42 SCC start- up procedures screen 3.2.9 Start-Up Procedures ScreenFigure 43 Module start- up procedures screens 3.2.10 Shutdown Procedures ScreenFigure 45 Module shutdown procedures screen Figure 44 SCC shutdown procedures screenFigure 46 Battery time screen 15 minute discharge 3.2.11 Battery Time Screen Module OnlyTime Figure 47 Battery time screen 45-minute dischargeFigure 48 Accuracy range of values for calculated battery times RemainingBad or weak cells Low acid levels in flooded cells Battery age Excessive battery discharge/recharge cyclesLoose electrical connections Ambient temperature extremes Dirty battery jar coversFigure 49 Meter calibration screen 3.2.12 Meter Calibration ScreenFigure 50 Battery equalize screen 3.2.13 Battery Equalize Screen3.2.14 Alarm and Status Messages Module Status Messages Figure 51 SCC status and alarm message areasSystem Status Messages Alarm Messages Table 8 Abbreviations used in alarm messagesLoad Block Messages Operation Alarm messages - meaning and corrective actionOperation Alarm messages - meaning and corrective action continuedAlarm messages - meaning and corrective action continued Refer to 3.2.14 - Alarm and Status MessagesOperation Alarm messages - meaning and corrective action continued OperationDetermine the cause of the emergency condition and correct it if possible Special Functions Table 10 Alarm messages - summaryAlarm Message OperationRequesting Information 3.2.15 Communication InterfacesWorldwide Reporting Auto-DialLocal Reporting to a Terminal Local Reporting to a MonitorSite Reporting SiteScan or SNMP Table 11 Liebert Series 610 terminal commands Remote Monitor PanelSeparate / Simultaneous Outputs Circuit Breaker 3.3 Modes of OperationTable 12 Circuit breaker abbreviations AbbreviationFigure 52 Load on bypass, UPS not available 3.3.1 Load on Bypass3.3.2 OK to Transfer SCCTFigure 54 Load on UPS, bypass available SCCTSCCT Figure 53 Load on bypass, UPS availableSCCT Figure 55 Momentary overload, pulsed static bypass switchSCCT 3.3.3 Momentary Overloads3.3.4 Input Power Failure-Load on Battery Figure 56 Input power fail-load on batterySCCT 3.3.5 One Module Off-Line SCCTFigure 57 One module off-line, load on UPS 3.3.6 Off Battery Figure 58 Load on UPS-battery not availableSCCT 3.3.7 Emergency Modules Off SCCTFigure 59 Emergency modules off 3.3.8 Remote Emergency Power Off Figure 60 Emergency power offSCCT Figure 61 System shutdown 3.3.10 Maintenance Bypass3.3.9 System Shutdown SCCTSCCT Figure 62 Load on maintenance bypass, two breakersFigure 63 Load on maintenance bypass, three breakers SCCT3.4.1 SCC Start-Up Procedure 3.4 Manual ProceduresStep 1. Before you apply power to the UPS modules, determine the position of the following circuit breakers and switches 5. Set the Static Switch Disconnects to ON closed Figure 64 SCC start-up procedures screen 3.4.2 UPS Module Start-Up Figure 65 Module start-up procedures screen The Battery block in the Monitor/Mimic Display indicates the battery voltage and charge current Figure 66 Load transfer procedures screen 3.4.3 Load Transfer Procedures3.4.4 Maintenance Bypass Load Transfers If the load is on Maintenance BypassIf the load is on the UPS System Bypass Figure 67 SCC shutdown procedures screen 3.4.5 Shutdown Procedures System Shutdown ProcedureFigure 68 Module shutdown procedures screen Module Shutdown ProcedureRemote Emergency Power Off REPO 3.5 Automatic OperationsLocal Emergency Modules Off LEMO 3.5.1 Overloads Without Transfer 3.5.2 Automatic Transfers to BypassFigure 69 Current-versus-time curves of module overload capacity 3.5.3 Automatic Retransfers to UPS 3.5.4 Automatic Module Off-Line3.5.5 Automatic Emergency Modules Off 4.0 MAINTENANCE 4.1 Safety PrecautionsTraining 4.2 Liebert Global ServicesMaintenance Agreements The Signature Program Professional Start-Up4.3 Routine Maintenance 4.3.1 Record Log4.3.2 Air Filters 4.3.3 Limited Life Components 4.4.1 Battery Safety Precautions 4.4 Battery MaintenanceConserver Ces Instructions Battery Safety Precautions In French Per CSA RequirementsAVERTISSEMENT Instructions Importantes Concernant La SécuritéNominal Matching Battery Cabinets OptionalBattery Voltage VDC Number of CellsTable 13 Battery retorque values Table 14 Battery voltage recordRack-Mounted Batteries Table 15 Torque specifications unless otherwise labeled 4.5 Detection of Trouble4.4.2 Torque Requirements 4.8 Recommended Test Equipment 4.6 Reporting a Problem4.9 Upstream Feeder Circuit Breaker Setting Inspections 4.7 Corrective Actions5.0 SPECIFICATIONS Figure 70 Output power envelope for 0.8 and 0.9 pf rated units5.1 Rating Table 17 Specifications applicable to environment Specifications5.2 Environmental Conditions 5.4 Battery Operation 5.3 Adjustments5.5 Electrical Specifications SpecificationsSystem overload capacity depends on Specifications Page reduced capital equipment and operating costs Ensuring The High AvailabilityOf Mission-Critical Data And Applications Technical Support / Service