Emerson NX manual Automatic Transfers to Bypass Overload Condition

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Operation

2.6.2Automatic Transfers to Bypass (Overload Condition)

The UPS system will initiate an automatic load transfer to the bypass line if an overload condition exceeds the current-versus-time curve of overload capacity or if specified UPS system faults occur.

The Overload Transfer and Output Undervoltage alarm messages will initiate an automatic transfer to bypass. Other UPS system faults will initiate an automatic transfer to bypass followed immediately by the shutdown and isolation of the UPS system. Refer to 2.6.3 - Automatic Transfers to Bypass, UPS System Faults.

NOTE

A load transfer to the bypass line will be completed whenever an automatic transfer to bypass is initiated. If the OK to Transfer condition is present, the load transfer will be uninterrupted. If the Static Switch Unable alarm message is present for any reason, the automatic transfer will be interrupted for 40 to 120 milliseconds. Because of the reliability of the UPS components, an interrupted load transfer is a very unlikely occurrence.

2.6.3Automatic Transfers to Bypass, UPS System Faults

For specified UPS system faults, the control logic will initiate an automatic transfer to bypass followed immediately by a shutdown and isolation of the UPS system. The DC source (MBD) and input circuit breakers are open. The bypass static switch will be closed if the bypass line is available.

NOTE

The bypass line is usually not available during Low Battery Shutdown.

The following UPS system faults will initiate an automatic transfer to bypass:

DC Overvoltage Shutdown

Inverter Fault

Low-Battery Shutdown

Output Overvoltage and Undervoltage

Overload Shutdown

Equipment Overtemperature

Rectifier Fuse Blown

NOTE

A load transfer to the bypass line will be completed whenever an automatic transfer to bypass is initiated and the bypass line is available. If the OK to Transfer condition is present, the load transfer will be uninterrupted. If the Static Switch Unable alarm message is present for any reason, the automatic transfer will be interrupted for 40 to 120 milliseconds. Because of the reliability of the UPS components, an interrupted load transfer is a very unlikely occurrence.

Some installations may include a Remote Emergency Power Off mode that can be initiated automatically by a contact closure in the critical load equipment. Refer to 2.4.4 - Remote Emergency Power Off.

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Liebert®NX

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Contents Liebert NX Product Warranty Registration Table of Contents Specifications MaintenanceOptions Figures Page Important Safety Instructions Battery Cabinet Precautions General Description Typical single module UPS system one-line diagramMaintenance Bypass Normal ModeBypass Mode Battery ModeOptions Main component locations-225 to 300kVA Liebert NX FeaturesFront Doors Removed Main display screen, typical Main Display Screen Touchscreen NavigationSystem Status Measures Menu Rectifier Bypass Inverter Chg/Boost Battery LoadStatus Events Log MenuBattery Status Battery MenuBattery Test Battery parameters Battery MeasuresLife menu Life MenuAbout Menu Settings MenuAnimated One Line Mimic Rectifier Functional BlockLoad on bypass, UPS available Load on BypassOff DC Source Input Power Failure-Load on DC SourceManual Operations-All Systems Remote Emergency Power OffStartup-Single Module System Startup-1+N System Retransfer Procedure Transfer ProcedureLoad Transfer and Retransfer-Single Module System 6 1+N System Transfer load from UPS to Bypass Shut Down-Single Module UPS System 7 1+N System Transfer load from Bypass to UPS9 1+N System Shutdown Load Transfer-1+N System Add a UPS to the System Collective Load Transfer-1+N System Remove a UPS from System CollectiveOverloads Without Transfer Automatic OperationsCurrent-versus-time curves of overload capacity Automatic Transfers to Bypass Overload Condition Automatic Transfers to Bypass, UPS System FaultsAutomatic Retransfers to UPS MopUPS Shutdown and Monitoring Software Remote Alarm UnitConnectivity Manage UPS AdapterConnectivity combinations Available Selectable Output Contacts Available Selectable Input ContactsSafety Precautions Training Liebert ServicesMaintenance Agreements The Signature Program Professional StartupRecord Log Routine MaintenanceAir Filters Component Expected Life Replace Battery MaintenanceUPS component service life Limited Life ComponentsBattery Safety Precautions Number of Cells Nominal Float 240 480 527 Matching Battery Cabinets-OptionalBattery voltage, nominal and float Battery Voltage, VDCRetorque Value Battery retorque valuesBattery Mfr Battery Model # In-lb N-m Other DC SourcesItems to check include Reporting a ProblemUpstream Feeder Circuit Breaker Setting Inspections Detecting TroubleOther DC Sources Battery OperationEnvironmental specifications DC SourcesPhysical specifications Electrical specificationsSpecifications LiebertNX Page Care Ne tIs t Twor k
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