Liebert XDP160RC, XDP160RM, XDP160RA user manual Sensor Data screen, page 2

Page 43

Liebert iCOM Control—Firmware Version XP1.00.010.STD

Figure 34 Sensor Data screen, page 2 of 2

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Daily High Temperature

07:49:57

72°F

 

 

 

 

 

 

Daily Low Temperature

07:11:30

64°F

 

 

 

Daily High Humidity

11:31:46

45%

 

 

 

Daily Low Humidity

07:56:18

34%

 

 

 

Daily High Dew Point

07:47:26

45°F

 

 

 

Daily Low Dew Point

08:02:20

37°F

 

 

 

Daily High Refrigerant Temp

13:01:25

69°F

 

 

 

Daily Low Refrigerant Temp

13:01:11

69°F

 

 

 

Daily High CW Temp

14:01:33

55°F

 

 

 

Daily Low CW Temp

14:01:45

55°F

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Daily High Temperature—Shows the highest temperature in a rolling 24 hour period for either remote Sensor A or remote Sensor B.

Daily Low Temperature—Shows the lowest temperature in a rolling 24 hour period for either remote Sensor A or remote Sensor B.

Daily High Humidity—Shows the highest humidity in a rolling 24 hour period for either remote Sensor A or remote Sensor B.

Daily Low Humidity—Shows the lowest humidity in a rolling 24 period for either remote Sensor A or remote Sensor B.

Daily High Dew Point—Shows the highest dew point in a rolling 24 hour period for either remote Sensor A or remote Sensor B.

Daily Low Dew Point—Shows the lowest dew point in a 24 hour period for either remote Sensor A or remote Sensor B.

Daily High Refrigerant Temperature—Shows the highest supply refrigerant temperature in a rolling 24 hour period from the Liebert XDP to the modules.

Daily Low Refrigerant Temperature—Shows the lowest supply refrigerant temperature in a rolling 24 hour period from the Liebert XDP to the modules.

Daily High Chilled Water Temperature—Shows the highest chilled water supply temperature being delivered to the Liebert XDP in a rolling 24 hour period.

Daily Low Chilled Water Temperature—Shows the lowest chilled water return temperature being delivered to the Liebert XDP in a rolling 24 hour period.

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Contents Liebert XDP with Liebert iCOM Control Page Table of Contents Specifications Alarm Descriptions and SolutionsStart the Liebert XDP with Liebert Icom Figures Tables Important Safety Instructions Pumping Unit Redundancy Place holder Revision Level Liebert Example XDP160RA= 460V-3ph-60Hz Place holder Minimum Load General Product InformationEquipment Inspection Product/System DescriptionHandling the Liebert XDP While it is on Skid and Packaged Equipment HandlingUnpacking the Liebert XDP Removing the Unit from the Skid Using a ForkliftUse a forklift to remove the Liebert XDP from the skid Removing the Unit from the Skid using RiggingSpreader Bars Bracket Moving the Liebert XDP Using Piano JacksSecuring the Liebert XDP to piano jacks Removing the Unit from the Piano JacksMechanical Considerations Liebert XDP dimensionsPositioning the Liebert XDP Unit piping outlet connection sizes, inches, OD Cu Electrical ConsiderationsModel Pipe Connection Point 50/60 Hz Front view of Liebert XDP and electrical enclosure Connecting High-Voltage CablesHigh voltage connections-60Hz High voltage connections-50Hz Extra Low Voltage ELV ConnectionsConnecting the remote temperature/humidity sensors DIP switch and jumper settings DIP Switch and Jumper Settings for Remote SensorsLiebert XDP extra low voltage field connections points Field Connections-Optional for All UnitsSuggested remote sensor placement Remote Sensor Installation-Proper PlacementSupply, return pipe sizes for refrigerant loop European Union Fluorinated Greenhouse Gas RequirementsConnection Sizes Recommended Pipe SizeLiebert XDP Piping Installation MethodsPiping Installation-R-134a Pumped Circuit Liebert XDP Interconnection with Liebert XD Cooling ModulesRequired Number of Open Piping MainsBypass Flow Controller Bypass flow controllers for a Liebert XDP-based systemBypass flow controller arrangement Piping Details-Shutoff/Isolation ValvesInsulation Evacuation and Leak Check-R-134a Pumped CircuitFloor Supply Return Liebert System refrigerant charge for the supply and return mains Filling the Pumped Circuit-R-134aCalculating refrigerant charge-example Calculating Refrigerant Charge-ExampleWorksheet to calculate refrigerant charge Checklist for Proper Installation Escape Key Down Arrow Key Liebert iCOM Components and FunctionsKeyboard icons and functions Display Lamp IndicatorsIcon Key Name Function Navigating Through the Liebert iCOM Display Accessing Menus and Settings Viewing DataUnit Sensor a Sensor B Pump Operation Roo m Data Room Data ACK High Chilled Water Temp Cooling Module OverviewEntering the password Entering the PasswordEnglish US Changing Liebert iCOM’s Display SettingsChanging Operational Settings Highlight the setting to be changed by pressing EnterLiebert iCOM User Menu Icons and Legend Graphical Data RecordLiebert XDP User Menu screen Spare Parts Liebert iCOM User Menu ScreensEvent Log SET Alarms page 1 Sensor Data screen, page 1 Sensor Data screen, page 2 U401 U402 XDV8SK OnlineXDO20SK 20 KW XDH32SKSettings Liebert iCOM Service Menu Icons and LegendSetpoints Maintenance Diagnostics Set Alarms Service ModeLiebert XDP Service Menu screen Liebert iCOM Service Menu ScreensLiebert iCOM Control-Firmware Version XP1.00.010.STD Maintenance-Basic Settings screen, page 1 Maintenance-Pump 1 Settings screen, page 2 Maintenance-Pump 2 Settings screen, page 3 Diagnostics/Service Mode screen, page 1 Manual Mode Control Type-Not currently used Diagnostics/Service Mode screen, page 5 Set Alarms screen, page 1 Set Alarms screen, page 2 High Temp Sensor B Enable ALM Delay EN-DIS TypeHigh Temp Sensor a Enable ALM LOW Temp Sensor a Enable ALMLoss of Flow Pump Enable ALM High Refrigerant Temp Enable ALMLOW Refrigerant Temp Enable ALM Supply Refrigerant Sensor Enable ALMSmoke Detected Enable ALM Condensation Detected Enable ALMFAN Failure Enable ALM Customer Input Enable ALMS601 S612 S801 GBP MACUnit System/Network Setup screen-Unit, page 1S834 S835 S401 Sensor Failure Enable ALM Node ID Delay EN-DIS TypeCondensation Detected Enable Local Module Shutdown Enable ALMNode ID Delay EN-DIS Type Liebert XDP pump light indicator-208V and 400V units Checklist for Liebert XDP StartupIndicator Lights Description Green Red System R-134a liquid level at 160kW load Starting the Liebert XDP with Liebert iCOM ControllerAlarm Descriptions Alarm Descriptions and Solutions Unit Is Off By Pump Short Cycle System Shutdown CausesUnit Is Off By Refrig Sens Fail Unit Is Off By High CW TempSymptom Possible Cause Check or Remedy Troubleshooting the Liebert XDPSee Clogged Filter Dryer and/or Impeller symptom Fluorinated Greenhouse Gas Requirements MaintenanceLiebert XDP160 specifications 2006/42/EC 2004/108/EC 2006/95/EC 97/23/EC Liebert Corporation Dearborn Drive Box Columbus, OHCare Ne tIs t Twor k

XDP160RA, XDP160RC, XDP160RM specifications

The Liebert XDP series is an innovative line of uninterruptible power supplies (UPS) designed to safeguard critical IT equipment and ensure reliability in demanding environments. The XDP160RM, XDP160RC, and XDP160RA models are distinguished by their robust features and advanced technologies, making them ideal for data centers, server rooms, and telecommunications.

One of the standout features of the Liebert XDP series is its high power density. The XDP160RM, XDP160RC, and XDP160RA models provide 160 kVA of power in a compact design, occupying minimal floor space. This efficient design maximizes data center performance without compromising on reliability.

All three models utilize advanced digital signal processing (DSP) technology that enhances system performance and efficiency. The DSP technology ensures high efficiency rates, often exceeding 95% in online mode. This not only reduces energy costs but also minimizes heat output, contributing to a more sustainable operational environment.

The Liebert XDP series is equipped with multiple output configurations, allowing for versatile installation options. The modular architecture of the UPS systems allows for easy scalability to meet future power demands without the need for complete system replacement. This flexibility is crucial for businesses expecting growth or changes in IT infrastructure.

Another important aspect of the XDP160RM, XDP160RC, and XDP160RA is their advanced battery management systems, which optimize battery performance and longevity. The integrated smart battery charging technology prevents overcharging and extends battery life, ensuring that the UPS is always ready during power interruptions.

Additionally, the systems are designed with user-friendly interfaces that facilitate ease of monitoring and management. With real-time data on power usage, battery status, and overall system health, IT administrators can quickly address any issues that arise. The monitoring capabilities extend to remote access, enabling users to manage the UPS systems from virtually anywhere.

The Liebert XDP series also incorporates enhanced safety features, including fault detection and automated alerts, which further bolster reliability. With a strong commitment to maintaining uptime and safeguarding critical operations, the XDP models are a wise investment for any organization reliant on continuous power availability.

In conclusion, the Liebert XDP160RM, XDP160RC, and XDP160RA UPS systems are engineered to deliver exceptional power protection through high efficiency, advanced technologies, and user-friendly management features. These models are positioned to meet the rigorous demands of modern IT environments, ensuring that businesses can maintain operations without interruption.
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