Technical Specifications

ManualsBrandsEmerson ManualsInfrastructure ManagementEmerson Liebert IntelliSlot Unity Communications Interface Card

Liebert

IntelliSlot

Modbus RTU, Modbus TCP, BACnet MSTP and

BACnet IP

Reference Guide

Summary of content (400 pages)

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Liebert® IntelliSlot® Modbus RTU, Modbus TCP, BACnet MSTP and BACnet IP Reference Guide
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TABLE OF CONTENTS 1.0 LIEBERT EQUIPMENT COMPATIBILITY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1 1.1 What’s New in This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1.2 Connectivity to Liebert IntelliSlot Using Modbus RTU, Modbus TCP, BACnet MSTP or BACnet IP. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 1.2.1 1.
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3.2 3.3 Table 18 Liebert XDC™ - Status and Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 Table 19 Liebert XDC™ - Input and Holding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68 Table 20 Liebert XDP™ - Status and Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 70 Table 21 Liebert XDP™ - Input and Holding . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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3.4 Table 52 Liebert HiNet™ - Status and Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160 Table 53 Liebert HiNet - Input and Holding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 160 Table 54 Liebert Nfinity® - Status and Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 161 Table 55 Liebert Nfinity® - Input and Holding . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 252 Table 83 Extra Notes to Table 82 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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Liebert Equipment Compatibility - What’s New in This Manual 1.0 LIEBERT EQUIPMENT COMPATIBILITY 1.1 What’s New in This Manual Emerson Network Power® has introduced a new Liebert IntelliSlot® card platform—the Liebert IntelliSlot Unity™ card. This platform combines the Modbus RTU, Modbus TCP, BACnet MSTP and BACnet IP outputs of existing cards into a common, unified platform. The Liebert IS-UNITY-DP card allows selecting two of the available protocols.
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Liebert Equipment Compatibility - Compatibility with Liebert Equipment 1.
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Liebert Equipment Compatibility - Compatibility with Liebert Equipment Table 1 Liebert Equipment and Compatible Liebert IntelliSlot Cards (continued) Compatible Card Part Number Refer to Controller / Tables: Protocol Product Supported Liebert IntelliSlot Modbus RTU Card Liebert IntelliSlot Web / Modbus RTU Card IS-485S — OC485-ADPT IS-WEBADPT Modbus TCP / BACnet IP • Power Distribution & Power Conditioning Products Liebert EXC™ 37,38, 41 LDMF Liebert FDC™ 37-41 LDMF, CPM ™ Liebert PPC™ 35
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Liebert Equipment Compatibility - Compatibility with Liebert Equipment Table 1 Liebert Equipment and Compatible Liebert IntelliSlot Cards (continued) Compatible Card Part Number Liebert IntelliSlot Modbus RTU Card Liebert IntelliSlot Web / Modbus RTU Card — IS-485X — IS-IPBMX ( Modbus TCP only) Liebert iCOM v4 — — IS-IPBML IS-UNITY-DP MM2 — — 101 L8T — — Liebert APM 102105 — IS-UNITY-DP — IS-UNITY-DP Liebert APS 106109 — IS-UNITY-DP — IS-UNITY-DP Liebert NXC™ 102105 — IS-UN
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Modbus Communications - Implementation Basics 2.0 MODBUS COMMUNICATIONS 2.1 Implementation Basics Modbus protocol provides control and data acquisition, through query and response, between master and slave devices. This protocol comprises the rules for communication, controlling the message format between devices, how master and slave devices initiate communications, as well as unit identification, message-handling and error-checking.
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Modbus Communications - RTU Framing 2.3.2 Function Code The function code field tells the addressed slaves what function to perform. Function codes are designed to invoke a specific action by the slave device. The function code ranges from 1 to 127. Liebert IntelliSlot Modbus server supports the following Modbus function codes. Table 3 Supported Modbus function codes Code Function Description 01 Read Coils Read from 1 to 2000 contiguous status of coils managed by the server.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products 3.0 3.1 MODBUS RTU AND MODBUS TCP PROTOCOLS Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 6 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Units with Liebert iCOM Firmware PA1.04.033.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Data Label Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Data Label Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 8 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 9 Number Extra notes key to Table 8 Description 1 This point is supported on: iCOM controller version 1.04.042.STD 2 This point is supported on: iCOM controller version 2.00.11R for US iCOM controller version 2.00.12R (for Japan and China - language corrections only) 3 This point is supported on: iCOM controller version 2.01.29.03R 4 This point is supported on: iCOM controller version 2.01.29.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary Controller Liebert iCOM® v4 Data Label Data Description Actual Air Temperature Set Point The actual set point being used for air temperature control. This value may differ from [Air Temperature Set Point] if compensation is applied by the control.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description BMS Timeout Period Timeframe within which the Building Management System (or external monitoring system) must communicate with the system to avoid a timeout.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Compressor High Pressure Transducer Issue Compressor high pressure transducer is disconnected or the signal is out of range.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Condenser Fan Reversal Requested Request the condenser fans to rotate in the reverse direction. Condenser Fan Speed Condenser fan speed expressed as a percentage of the maximum rated speed.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Cooling Control Temperature Temperature value being used for cooling capacity control. This value is compared against the temperature set point to determine the amount of cooling to be applied.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Dig Scroll Comp Over Temp Digital scroll compressor is shut down due to head temperature exceeding an upper threshold.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Ext Air Sensor A Over Temp - Event Type The event type for the [External Air Sensor A Over Temperature] event.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Ext Humidifier Lockout - Event Control Enable/disable the activation of the [Ext Humidifier Lockout] event. If set to “disabled,” the event will not be annunciated.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description External Condenser TVSS Issue The condenser Transient Voltage Surge Suppressor or Surge Protection Device has failed, as indicated by an external input signal.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Free Cooling Internal Temperature Delta Minimum temperature delta required between supply fluid and internal ambient air temperatures in order to enable free cooling.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Humidifier Issue - Event Control Enable/disable the activation of the [Humidifier Issue] event. If set to “disabled,” the event will not be annunciated.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Main Fan Overload Main fan is shut down due to thermal overload. Maintenance Completed Maintenance has been completed on the unit. Maintenance Due The calculated maintenance date has been reached.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Remote Sensor System Average Temperature Average value of remote sensor temperature measurements among a group of interconnected units in a single system.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Shutdown - Loss Of Power - Event Type The event type for the [Shutdown - Loss Of Power] event. Shutdown - Loss Of Power System lost power.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 10 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description System Operating State Current operating state of the system. System Static Pressure Static pressure measurement among a group of interconnected units in a single system.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 11 Liebert CRV™ - Status and Coil Controller Data Label Supply Air Over Temperature Supply Air Under Temperature Return Air Over Temperature Supply Air Sensor Issue High Return Humidity Low Return Humidity Humidifier Hours Exceeded Dehumidifier Hours Exceeded Humidifier Under Current Humidifier Over Current Humidifier Low Water Humidifier Cylinder Worn Humidifier Issue Ext Humidifier Lockout Humidifier Control Board Not Detected Retu
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 11 Liebert CRV™ - Status and Coil (continued) Controller Data Label Supply Chilled Water Over Temp Chilled Water Control Valve Position Supply Chilled Water Loss of Flow Supply Fluid Temp Sensor Issue Customer Input 1 Customer Input 2 Customer Input 3 Customer Input 4 Smoke Detected Water Under Floor Service Required Shutdown -Loss Of Power Ext Over Temperature Ext Loss of Flow Ext Condenser Pump High Water Ext Standby Glycol Pump On
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 12 Liebert CRV™ - Input and Holding Controller Liebert iCOM® v4 Data Label Supply Air Temperature Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 12 Liebert CRV™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 12 Liebert CRV™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 12 Liebert CRV™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 13 Liebert CRV™ - Glossary Controller Data Label Air Temperature Control Sensor Air Temperature Dead Band Air Temperature Set Point Auto Restart Delay BMS Communications Timeout BMS Timeout Period Bottom Fan Issue Calculated Next Maintenance Month Calculated Next Maintenance Year Chilled Water Control Valve Failure Clogged Air Filter Compressor 1 High Head Pressure Compressor 1 High Pressure Transducer Issue Compressor 1 Hours Exceed
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 13 Liebert CRV™ - Glossary (continued) Controller Data Label Condenser Refrigerant Pressure Over Threshold Condenser Refrigerant Pressure Sensor Issue Condenser Refrigerant Pressure Under Threshold Condenser Supply Refrigerant Over Temp Condenser Supply Refrigerant Temp Sensor Issue Condenser Supply Refrigerant Under Temp Condenser TVSS Issue Condenser Unit Unspecified General Event Condenser VFD Issue Cooling Capacity (Primary) Cool
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 13 Liebert CRV™ - Glossary (continued) Controller Data Label Fan Speed Proportional Band Fan Speed Heating Proportional Band High Power Shutdown High Return Humidity Threshold High Return Humidity Humidification Proportional Band Humidifier Control Board Not Detected Humidifier Cylinder Worn Humidifier Hours Exceeded Humidifier Issue Humidifier Low Water Humidifier Over Current Humidifier Under Current Humidifier Utilization Humidity
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 13 Liebert CRV™ - Glossary (continued) Controller Data Label Return Air Over Temp Threshold Return Air Over Temperature Return Air Sensor Issue Return Air Temperature Return Dew Point Return Humidity Out Of Proportional Band Return Humidity Server Class Service Required Shutdown - Loss Of Power Smoke Detected Supply Air Over Temp Threshold Supply Air Over Temperature Supply Air Sensor Issue Supply Air Temperature Supply Air Under Tem
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 14 Liebert HPC™ (Chiller) - Status and Coil Controller Liebert iCOM® v4 Status Data Label Coil Number of Bits Notes Extra Notes Compressors Compressor Not Stopping 10001 — 1 Active on Alarm 1, 2 Compressor Superheat Over Threshold 10002 — 1 Active on Alarm 2 Compressor Hours Exceeded 10012 — 1 Active on Alarm 1, 2 Compressor High Head Pressure 10013 — 1 Active on Alarm 1, 2 Compressor Low Suction Pressur
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 14 Liebert HPC™ (Chiller) - Status and Coil (continued) Controller Liebert iCOM® v4 Status Data Label Coil Number of Bits Notes Extra Notes — 1 Active on Alarm 1, 2 Fluid Low Fluid Pressure 10070 Supply (Outlet) Fluid — Supply Fluid Over Temp 10081 — 1 Active on Alarm 1, 2 Supply Fluid Under Temp 10082 — 1 Active on Alarm 1, 2 Supply Fluid Temp Sensor Issue 10083 — 1 Active on Alarm 1, 2 All Pumps Loss
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 15 Liebert HPC™ (Chiller) - Input and Holding Controller Liebert iCOM® v4 Input Holding # of Reg Scale Notes/Units 30385 — 1 — 1 = UPS 2 = AIR 3 = PMP 4 = PDU 1, 2 Compressor Shut Down - Ambient Air Low Temp Limit 30389 40389 1 — Units: deg C Int16 1, 2 Compressor Shut Down - Ambient Air Low Temp Limit 30390 40390 1 — Units: deg F Int16 1, 2 Compressor State 30394 — 1 — 0 = off 1 = on 1, 2 Compressor C
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 15 Liebert HPC™ (Chiller) - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding # of Reg Scale Notes/Units 30417 — 1 — Units: % Uint16 1, 2 Fluid Pressure 30418 — 1 10 Units: bar Int16 1, 2 Fluid Cooling Proportional Band 30419 40419 1 10 Units: deg C Uint16 1, 2 Fluid Cooling Proportional Band 30420 40420 1 10 Units: deg F Uint16 1, 2 Supply Fluid Temp Set Point 1 30424 40424 1
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 15 Liebert HPC™ (Chiller) - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding # of Reg Scale Notes/Units Evaporator Return Fluid Temperature 30469 — 1 10 Units: deg C Int16 1, 2 Evaporator Return Fluid Temperature 30470 — 1 10 Units: deg F Int16 1, 2 Evaporator Return Fluid Over Temp Alarm Threshold 30615 40615 1 — Units: deg C Int16 1, 2 Evaporator Return Fluid Over Temp Alarm Threshol
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 15 Liebert HPC™ (Chiller) - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding # of Reg Scale Notes/Units Return Fluid Temperature 30491 — 1 10 Units: deg C Int16 1, 2 Return Fluid Temperature 30492 — 1 10 Units: deg F Int16 1, 2 Supply Fluid Temperature 30493 — 1 10 Units: deg C Int16 1, 2 Supply Fluid Temperature 30494 — 1 10 Units: deg F Int16 1, 2 Actual Supply Fluid Temp Set
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 16 Number Extra notes key to Table 15 Description 1 This point is supported on iCOM Controller Version 2.02.xxx 2 This point is supported on iCOM Controller Version 2.03.xxx Table 17 Liebert HPC™ (Chiller) - Glossary Controller Liebert iCOM® v4 Data Label Data Description Actual Supply Fluid Temp Set Point The actual set point value being used for the desired fluid temperature at the outlet of the unit.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 17 Liebert HPC™ (Chiller) - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Evaporator Fluid Freeze - Auto Reset Evaporator outlet fluid temperature has dropped below the freeze threshold. Evaporator has been shut down, but will restart when the temperature rises above the threshold.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 17 Liebert HPC™ (Chiller) - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Reheat Utilization Present reheating utilization expressed as a percentage of the maximum rated capacity. Return Fluid Over Temp Alarm Threshold Threshold value used to generate a [Return Fluid Over Temp] alarm. Return Fluid Over Temp Warning Threshold Threshold value used to generate a [Return Fluid Over Temp] warning.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 18 Liebert XDC™ - Status and Coil Controller Liebert iCOM® v4 Status Coil Number of Bits Scale Notes / Units Pump 1 Loss of Flow 10001 — 1 — Active on Alarm Pump 2 Loss of Flow 10002 — 1 — Active on Alarm Fan Issue 10003 — 1 — Active on Alarm System Condensation Detected 10004 — 1 — Active on Alarm Customer Input 1 10005 — 1 — Active on Alarm Supply Refrigerant Over Temp 10006 — 1 — Active on A
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 19 Liebert XDC™ - Input and Holding Controller Data Description Pump 1 State Liebert iCOM® v4 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 19 Liebert XDC™ - Input and Holding (continued) Controller Data Description Liebert iCOM® v4 Input Register Holding Register # of Reg.
PAGE 76
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 20 Liebert XDP™ - Status and Coil Controller Liebert iCOM® v4 Status Coil Number of Bits Notes Pump 1 Loss of Flow 10001 — 1 Active on Alarm Pump 2 Loss of Flow 10002 — 1 Active on Alarm Pump Short Cycle 10020 — 1 Active on Alarm Fan Issue 10003 — 1 Active on Alarm System Condensation Detected 10004 — 1 Active on Alarm Customer Input 1 10005 — 1 Active on Alarm Shutdown - Loss Of Power 10019 — 1
PAGE 77
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 20 Liebert XDP™ - Status and Coil (continued) Controller Liebert iCOM® v4 Status Coil Number of Bits Notes Ext System Condensation Detected 10053 — 1 Active on Alarm Ext Fan Issue 10054 — 1 Active on Alarm Sensor Issue 10055 — 1 Active on Alarm Ext Remote Shutdown 10056 — 1 Active on Alarm Hot Aisle Temp Out of Range 10057 — 1 Active on Alarm Cold Aisle Temp Out of Range 10058 — 1 Active on Alarm 102
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding Controller Liebert iCOM® v4 Input Holding Pump 1 State 30385 — 1 — 0 = off 1 = on Pump 2 State 30386 — 1 — 0 = off 1 = on Supply Refrigerant Temperature 30387 — 1 10 Units : deg C Supply Refrigerant Temperature 30388 — 1 10 Units : deg F Data Label # of Reg Scale Notes/Units Pumps Refrigerant Supply Refrig Over Temp Threshold 30411 40411 1 10 Units : deg C Supply
PAGE 79
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Data Label Input Holding # of Reg Scale Notes/Units Ext Air Sensor B Dew Point Temp 30402 — 1 10 Units : deg F Minimum Room Temperature Set Point 30403 40403 1 10 Units : deg C Minimum Room Temperature Set Point 30404 40404 1 10 Units : deg F Ext Air Over Temp Threshold 30405 40405 1 10 Units : deg C Ext Air Over Temp Threshold 3
PAGE 80
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Data Label Input Holding # of Reg Scale Notes/Units Ext Remote Shutdown - Event Type 30458 40458 1 — 0 = Message 1 = Warning 2 = Alarm Hot Aisle Over Temp Threshold 30459 40459 1 — Units : deg C Hot Aisle Over Temp Threshold 30460 40460 1 — Units : deg F Hot Aisle Under Temp Threshold 30461 40461 1 — Units : deg C Hot Aisle Under
PAGE 81
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Data Label Input Holding # of Reg Scale Notes/Units Cold Aisle Under Temp Threshold 30493 40493 1 — Units : deg C Cold Aisle Under Temp Threshold 30494 40494 1 — Units : deg F Communication Status 30976 — 1 — 0 = Connected 1 = Not Connected Fan On/Off Control 30977 40977 1 — 0 = off 1 = on Primary Fan Group State 30978 — 1 —
PAGE 82
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31025 — 1 10 Units : deg C Remote Sensor Temperature 31026 — 1 10 Units : deg F Fan State 31032 — 1 — 0 = off 1 = on 2 = economy Fan Economy Mode 31033 41033 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31039 — 1 10 Units : deg C Remote Sensor Temperature 31040 —
PAGE 83
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31130 — 1 10 Units : deg C Remote Sensor Temperature 31131 — 1 10 Units : deg F Fan State 31137 — 1 — 0 = off 1 = on 2 = economy Fan Economy Mode 31138 41138 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31144 — 1 10 Units : deg C Remote Sensor Temperature 31145 —
PAGE 84
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31235 — 1 10 Units : deg C Remote Sensor Temperature 31236 — 1 10 Units : deg F Fan State 31242 — 1 — 0 = off 1 = on 2 = economy Fan Economy Mode 31243 41243 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31249 — 1 10 Units : deg C Remote Sensor Temperature 31250 —
PAGE 85
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31340 — 1 10 Units : deg C Remote Sensor Temperature 31341 — 1 10 Units : deg F Fan State 31347 — 1 — 0 = off 1 = on 2 = economy Fan Economy Mode 31348 41348 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31354 — 1 10 Units : deg C Remote Sensor Temperature 31355 —
PAGE 86
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31445 — 1 10 Units : deg C Remote Sensor Temperature 31446 — 1 10 Units : deg F Fan State 31452 — 1 — 0 = off 1 = on 2 = economy Fan Economy Mode 31453 41453 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31459 — 1 10 Units : deg C Remote Sensor Temperature 31460 —
PAGE 87
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31550 — — 10 Units : deg C Remote Sensor Temperature 31551 — — 10 Units : deg F Fan State 31557 — — — 0 = off 1 = on 2 = economy Fan Economy Mode 31558 41558 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31564 — 1 10 Units : deg C Remote Sensor Temperature 31565 —
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 21 Liebert XDP™ - Input and Holding (continued) Controller Liebert iCOM® v4 Input Holding Remote Sensor Temperature 31655 — 1 10 Units : deg C Remote Sensor Temperature 31656 — 1 10 Units : deg F Fan State 31662 — 1 — 0 = off 1 = on 2 = economy Fan Economy Mode 31663 41663 1 — 0 = disabled 1 = automatic 2 = manual Remote Sensor Temperature 31669 — 1 10 Units : deg C Remote Sensor Temperature 31670 —
PAGE 89
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 22 Liebert XDP™ - Glossary Controller Liebert iCOM® v4 Data Label Data Description Auto Restart Delay If power is lost, the control will delay this amount of time after power is restored before restarting the unit. Calculated Next Maintenance Month Calculated month of the next scheduled maintenance. Used in conjunction with [Calculated Next Maintenance Year].
PAGE 90
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 22 Liebert XDP™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Ext Remote Shutdown Unit is shut down by a remote signal. Ext System Condensation Detected Event Control Enable/disable the activation of the [Ext System Condensation Detected] event. If set to “disabled,” the event will not be annunciated.
PAGE 91
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 22 Liebert XDP™ - Glossary (continued) Controller Liebert iCOM® v4 Data Label Data Description Smoke Detected Smoke detected. Supply Chilled Water Over Temp Threshold Threshold value used in the [Supply Chilled Water Over Temp] event. Supply Chilled Water Over Temp Chilled water temperature is too high, as indicated by an external input signal.
PAGE 92
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 23 Liebert DS™ and Liebert PeX™ - Status and Coil Controller Liebert iCOM™ v3 Status Coil Number of Bits Scale Notes / Units Sleep on Monday 10001 1 1 — — Sleep on Tuesday 10002 2 1 — — Sleep on Wednesday 10003 3 1 — — Sleep on Thursday 10004 4 1 — — Data Description Sleep on Friday 10005 5 1 — — Sleep on Saturday 10006 6 1 — — Sleep on Sunday 10007 7 1 — — Supply Limit Enable 10008 8
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 23 Liebert DS™ and Liebert PeX™ - Status and Coil (continued) Controller Data Description Liebert iCOM™ v3 Status Coil Number of Bits Scale Notes / Units Comp 1 Overload 10039 — 1 — — Comp 1 Pumpdown Fail 10040 — 1 — — Comp 2 High Pressure 10041 — 1 — — Comp 2 Low Pressure 10042 — 1 — — Comp 2 Overload 10043 — 1 — — Comp 2 Pumpdown Fail 10044 — 1 — — Digital Scroll Compressor 1 High Temperatu
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Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 23 Liebert DS™ and Liebert PeX™ - Status and Coil (continued) Controller Data Description Liebert iCOM™ v3 Status Coil Number of Bits Scale Notes / Units HW/HG Hrs Exceeded 10087 — 1 — — Hum Hrs Exceeded 10088 — 1 — — Dehum Hrs Exceeded 10089 — 1 — — Network Failure 10091 — 1 — — No Connection W/Unit 10092 — 1 — — Unit(s) Disconnected 10093 — 1 — — Unit Code Missing 10094 — — — — Unit C
PAGE 95
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 24 Liebert DS™ and Liebert PeX™ - Input and Holding Controller Liebert iCOM® v3 Input Register Holding Register # of Reg.
PAGE 96
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 24 Liebert DS™ and Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM® v3 Input Register Holding Register # of Reg.
PAGE 97
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 24 Liebert DS™ and Liebert PeX™ - Input and Holding (continued) Controller Liebert iCOM® v3 Input Register Holding Register # of Reg.
PAGE 98
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 25 Liebert XDF™ - Status and Coil Controller Liebert iCOM® v3 Data Description Status Coil Number of Bits Scale Notes / Units Temperature Indication 1 10011 11 1 — — Unit Control — 25 1 — — Reset Alarm — 26 1 — — — 27 1 — — 10023 23 1 — — Acknowledge Alarm Cabinet Sensor Alarm Enable Fan On 10025 — 1 — — Cool On 10026 — 1 — — Compressor 1 High Pressure 10037 — 1 — — Compressor 1 Lo
PAGE 99
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 26 Liebert XDF™ - Input and Holding Controller Data Description Vendor ID Device ID Version number UPS/Env/Pwr Temperature Setpoint Delay after safe Temp has been reached Allowable deviation between internal temp sensors High Cabinet Temperature Setpoint Low Cabinet Temperature Setpoint Fan Run Hour Threshold Compressor 1 Run Hour Threshold Service Ramp Operating State 6 Number of Active Events/Alarm Summary Alarm Status 7 Fan Ramp C
PAGE 100
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 27 Liebert Challenger 3000™, Liebert Deluxe System/3™, Liebert Himod™, Liebert ICS™ - Input and Holding - LAM Controller Liebert Products Advanced Microprocessor - LAM Liebert Challenger 3000 Liebert Deluxe System/3 Liebert Himod (LNA version - Using Liebert SiteScan®) Liebert ICS Available Points Input Register Holding Register # of Reg.
PAGE 101
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 27 Liebert Challenger 3000™, Liebert Deluxe System/3™, Liebert Himod™, Liebert ICS™ - Input and Holding - LAM (continued) Controller Liebert Products Data Description Inverter on Bypass Standby Fan On Loss of Emergency Power Local Alarm 1 Local Alarm 2 Off by Remote Shutdown Local Alarm 3 Local Alarm 4 Compressor 1 Run Hours Compressor 2 Run Hours Fan Motor Run Hours Humidifier Run Hours Setpoints (View) Temperature Setpoint Temperat
PAGE 102
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 28 Liebert DataMate™, Liebert Mini-Mate Plus™, Liebert Mini-Mate2™ - Input and Holding - L0B Controller Liebert Products Small Systems - L0B Liebert DataMate Liebert Mini-Mate Plus Liebert Mini-Mate2 Available Points Input Register Holding Register # of Reg.
PAGE 103
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 29 Liebert DataMate™, Liebert Mini-Mate2™ - Input and Holding - MM2 Controller Liebert Products MM2 Liebert DataMate Liebert Mini-Mate2 Available Points Input Register Holding Register # of Reg.
PAGE 104
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 29 Liebert DataMate™, Liebert Mini-Mate2™ - Input and Holding - MM2 (continued) Controller Liebert Products MM2 Liebert DataMate Liebert Mini-Mate2 Available Points Input Register Holding Register # of Reg.
PAGE 105
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 30 Liebert Mini-Mate2™ 8 Ton - Input and Holding - L8T Controller Liebert Products L8T Liebert Mini-Mate2 8 Ton Available Points Input Register Holding Register # of Reg.
PAGE 106
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 30 Liebert Mini-Mate2™ 8 Ton - Input and Holding - L8T (continued) Controller Liebert Products L8T Liebert Mini-Mate2 8 Ton Available Points Input Register Holding Register # of Reg.
PAGE 107
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 31 Liebert Atlas Air™, Liebert Atlas PEC™, Liebert LECS 15™ - Input and Holding - C10 2-step Controller Liebert Products C10 Liebert Atlas Air Liebert Atlas PEC Liebert LECS 15 Available Points Input Register Holding Register # of Reg. Scale Notes / Units Unit Number — 40001 1 — 1-99 Average Return Air Temp. — 40002 1 10 deg C Average Return Air Humidity — 40003 1 10 % Average Supply Air Temp.
PAGE 108
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 31 Liebert Atlas Air™, Liebert Atlas PEC™, Liebert LECS 15™ - Input and Holding - C10 2-step Controller Liebert Products C10 Liebert Atlas Air Liebert Atlas PEC Liebert LECS 15 Available Points Data Description Input Register Holding Register # of Reg.
PAGE 109
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 32 Liebert Atlas Air™, Liebert Atlas PEC™, Liebert CEMS 100™ - Input and Holding - C100 4-step Controller Liebert Products CEMS 100 Liebert Atlas Air Liebert Atlas PEC Liebert CEMS 100 Available Points Data Description Input Register Holding Register # of Reg. Scale Notes / Units Status Points (View) Unit Number — 40001 1 — 1-99 Average Return Air Temp.
PAGE 110
Modbus RTU and Modbus TCP Protocols - Thermal Management Products Table 32 Liebert Atlas Air™, Liebert Atlas PEC™, Liebert CEMS 100™ - Input and Holding - C100 4-step Controller Liebert Products CEMS 100 Liebert Atlas Air Liebert Atlas PEC Liebert CEMS 100 Available Points Data Description Humidity Low Level Input Register Holding Register # of Reg.
PAGE 111
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products 3.2 Power Distribution and Power Conditioning Products Table 33 Liebert FPC™, Liebert PPC™ - Input and Holding Controller Liebert Products Power Monitoring Panel - PMP2 Liebert FPC Liebert PPC Available Points Data Description Input Register Holding Register # of Reg.
PAGE 112
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 33 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products Power Monitoring Panel - PMP2 Liebert FPC Liebert PPC Available Points Data Description Input Register Holding Register # of Reg.
PAGE 113
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 34 Liebert Datawave™, Liebert FPC™, Liebert PPC™ - Input and Holding - PMP Option for Liebert FPC and Liebert PPC Controller Liebert Products Data Description Status Points (View) Voltage In X-Y Voltage In Y-Z Voltage In Z-X Voltage Out A-B Voltage Out B-C Voltage Out C-A Voltage Out A-N Voltage Out B-N Voltage Out C-N Current Out A Current Out B Current Out C Ground Current Neutral Current kVA kW Frequency % C
PAGE 114
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 35 Liebert FPC™, Liebert PPC™ - Status and Coil Controller Liebert Products Liebert iCOM® v4 Liebert FPC, Liebert PPC Available Points Status Data Label Input Power 1 Phase Loss 10001 Phase Rotation Error 10002 Input Power 2 (used only with 2nd VPMP controller) Phase Loss 10013 Phase Rotation Error 10014 Coil Number of Bits Scale Notes / Units — — 1 1 — — Active on Alarm Active on Alarm — — 1 1 — —
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Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 35 Liebert FPC™, Liebert PPC™ - Status and Coil (continued) Controller Liebert Products Liebert iCOM® v4 Liebert FPC, Liebert PPC Available Points Status Coil Number of Bits Scale Notes / Units Panel Summary Alarm Panel Overvoltage Panel Undervoltage Panel Phase Overcurrent Panel Phase Overcurrent Panel Neutral Overcurrent Panel Ground Overcurrent Panel 1 Position 1 Branch Overcurrent Branch Overcurrent Br
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Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 35 Liebert FPC™, Liebert PPC™ - Status and Coil (continued) Controller Liebert Products Data Label Liebert iCOM® v4 Liebert FPC, Liebert PPC Available Points Status Coil Number of Bits Scale Notes / Units 13409 13410 13411 — — — 1 1 1 — — — Active on Alarm Active on Warning Active on Alarm 13422 13423 13424 — — — 1 1 1 — — — Active on Alarm Active on Warning Active on Alarm 14488 14489 14490 —
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Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 118
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Data Label Input Register Holding Register # of Reg.
PAGE 119
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 120
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Data Label Input Register Holding Register # of Reg.
PAGE 121
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 122
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 123
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 124
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 125
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 36 Liebert FPC™, Liebert PPC™ - Input and Holding (continued) Controller Liebert Products VPMP Liebert FPC, Liebert PPC Available Points Input Register Holding Register # of Reg.
PAGE 126
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 37 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Status and Coil Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Data Label Status Coil Number of Bits Scale Notes / Units Panel 1 – Panelboard Main 1 (if panelboards are installed) Panel Summary Al
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Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 37 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Status and Coil (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Status Coil Number of Bits Scale Notes / Units Branch Overcurrent 11225 — 1 — Active on Alarm Branch Overcurrent 112
PAGE 128
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 37 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Status and Coil (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Data Label Status Coil Number of Bits Scale Notes / Units 14501 — 1 — Active on Alarm Subfeed 1 Subfeed Phase Overcu
PAGE 129
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 130
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 131
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 132
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 133
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 134
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 135
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 38 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Input and Holding (continued) Controller Liebert Products Liebert LDMF Liebert EXC, Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC, Liebert RX, Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 136
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 39 Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™ - Status and Coil Controller Liebert Products Liebert CPM Liebert FDC, Liebert FPC, Liebert PPC, Liebert RDC Available Points Data Label Status Coil Number of Bits Scale Notes / Units Panel 1 – Panelboard Main 1 (if panelboards are installed) Panel Summary Alarm 10065 — 1 — Active on Alarm Panel Overvoltage 10066 — 1 — Active on Alarm
PAGE 137
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 40 Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™ - Input and Holding Controller Liebert Products Data Label Panel 1 Columns of Breakers Number of Breakers Panel Main Voltage X-Y Panel Main Voltage Y-Z Panel Main Voltage Z-X Panel Main Voltage X-N Panel Main Voltage Y-N Panel Main Voltage Z-N Panel Main Current Ix Panel Main Current Iy Panel Main Current Iz Panel Main Neutral Current Panel Main Ground C
PAGE 138
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 40 Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™ - Input and Holding (continued) Controller Liebert Products Data Label Panel Main Output Percent Load Panel Main Voltage Vx THD Panel Main Voltage Vy THD Panel Main Voltage Vz THD Panel Main Current Ix THD Panel Main Current Iy THD Panel Main Current Iz THD Panel Main Current Ix Crest Factor Panel Main Current Iy Crest Factor Panel Main Current Iz Crest
PAGE 139
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 41 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Glossary Data Label Data Description Branch Current Phase 1 Branch breaker Phase 1 RMS current Branch Current Phase 2 Branch Breaker Phase 2 RMS current Branch Current Phase 3 Branch breaker Phase 3 RMS current Branch Output Percent Load Branch breaker percent load of rated current Branch Output P
PAGE 140
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 41 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Glossary (continued) Data Label Data Description Output Undervoltage Unit voltage is less than the limit. Output Voltage THD Unit output Voltage Total Harmonic Distortion has exceeded the limit. Output Voltage Vx THD Unit Voltage Total Harmonic Distortion for phase X.
PAGE 141
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 41 Liebert EXC™, Liebert FDC™, Liebert FPC™, Liebert PPC™, Liebert RDC™, Liebert RX™, Liebert STS2/PDU™ - Glossary (continued) Data Label Data Description Phase Loss Voltage and/or Frequency on one or more of the phases is outside the limit. Phase Rotation Error Unit input phase sequence is not A, B, C. The phase sequence should be verified and corrected.
PAGE 142
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 42 Liebert® STS™, Liebert STS/PDU™ - Input and Holding - STS Controller Liebert Products STS Liebert STS Liebert STS/PDU Available Points Input Register Holding Register # of Reg.
PAGE 143
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 42 Liebert® STS™, Liebert STS/PDU™ - Input and Holding - STS (continued) Controller Liebert Products STS Liebert STS Liebert STS/PDU Available Points Data Description Input Register Holding Register # of Reg.
PAGE 144
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 43 Liebert® STS2™, Liebert STS2/PDU™ - Input and Holding - STS2 Controller Liebert Products STS2 Liebert STS2 Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 145
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 43 Liebert® STS2™, Liebert STS2/PDU™ - Input and Holding - STS2 (continued) Controller Liebert Products STS2 Liebert STS2 Liebert STS2/PDU Available Points Input Register Holding Register # of Reg.
PAGE 146
Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 43 Liebert® STS2™, Liebert STS2/PDU™ - Input and Holding - STS2 (continued) Controller Liebert Products STS2 Liebert STS2 Liebert STS2/PDU Available Points Data Description Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Power Distribution and Power Conditioning Products Table 43 Liebert® STS2™, Liebert STS2/PDU™ - Input and Holding - STS2 (continued) Controller Liebert Products STS2 Liebert STS2 Liebert STS2/PDU Available Points Data Description Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems 3.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 44 Liebert APM™, Liebert NXC™, Liebert NXR™- Status and Coil (continued) Data Label Status Coil Number of Bits Scale Notes / Units User Operation Invalid 10050 — 1 — Active on Alarm Power Sub Module Fault 10051 — 1 — Active on Alarm Battery Discharging 10052 — 1 — Active on Alarm UPS Output on Bypass 10053 — 1 — Active on Alarm Output Load on Maint.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 45 Liebert APM™, Liebert NXC™, Liebert NXR™- Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 46 Liebert APM™, Liebert NXC™, Liebert NXR™ - Glossary Data Label Data Description Battery Auto Test In Progress Automatic battery test is in progress Battery Capacity Low Battery capacity is low Battery Charging Error The battery is not charging properly Battery Charging Inhibited Battery charging is inhibited due to an external inhibit signal Battery Converter Failure Battery converter failure.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 46 Liebert APM™, Liebert NXC™, Liebert NXR™ - Glossary (continued) Data Label Data Description Load Sharing Fault Difference between any phase inverter current of unit and the relevant average output current of parallel system is more than a specific percent of nominal current. Main Battery Disconnect Open Main battery disconnect is open Mains Input Neutral Lost Loss of neutral in the input source is detected.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 46 Liebert APM™, Liebert NXC™, Liebert NXR™ - Glossary (continued) Data Label Data Description System Output Power Factor Phs B The system output power factor of phase B System Output Power Factor Phs C The system output power factor of phase C System Output Power The sum total power of all system output phases System Output RMS Current Phs A The system output RMS current for Phase A System Output RMS Current Phs B The system output RMS c
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 47 Liebert APS™ - Status and Coil (continued) Status Coil Number of Bits Notes Output Overload 10050 — 1 Active on Alarm Output Off Pending 10051 — 1 Active on Alarm System Output Off 10052 — 1 Active on Alarm Data Label Output System Shutdown - Transformer Over Temperature 10053 — 1 Active on Alarm Inverter Shutdown - Overload 10054 — 1 Active on Alarm System Shutdown - Output Short 10055 — 1 Active on Alarm System
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 48 Liebert APS™ - Input and Holding Data Label Protocol Server Class Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 48 Liebert APS™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 48 Liebert APS™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 48 Liebert APS™ - Input and Holding (continued) Data Label Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 48 Liebert APS™ - Input and Holding (continued) Data Label BatteryModule 2 Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 49 Liebert APS™ - Glossary Data Label Data Description Accumulated Discharge Time The highest accumulated battery discharge time among installed battery modules. Accumulated Discharge Time Total accumulated discharge time for the Battery Module since it was made. Auto Battery Test Interval The time between automatic battery tests.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 49 Liebert APS™ - Glossary (continued) Data Label Data Description Frame Capacity Total system capacity supported when the maximum number of power modules are installed. Frame Fan Fault The frame top outlet fan has failed. Inverter On/Off State inverter on/off state Inverter Shutdown - Overload The inverter has shutdown due to a sustained overload Inverter Status Status of the inverter output.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 49 Liebert APS™ - Glossary (continued) Data Label Data Description Output Qualification Status output qualification status Power Module Failure One or more conditions indicate a power module failure, service is required. Power Module Fan Fault The Power Module has detected a fan fault. Power Module Over Temperature The Power Module has detected an over temperature condition.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 49 Liebert APS™ - Glossary (continued) Data Label Data Description System Output Power L2 The system output power on Line 2.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 50 Liebert GXT2™ and Liebert GXT3™ - Status and Coil Data Description Audible Alarm Enabled Automatic Battery Test Enabled DC-to-DC Converter On Battery Charge Compensation Inverter Ready Power Factor Correction State Load Circuit 1 State Load Circuit 2 State Load Circuit 3 State Load Circuit 4 State Load Circuit 5 State Load Circuit 6 State Load Circuit 7 State Load Circuit 8 State Load Circuit 9 State Load Circuit 10 State Load Circuit 11 State Lo
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 51 Liebert GXT2™ and Liebert GXT3™ - Input and Holding Input Register Holding Register # of Reg. Scale Notes / Units Number of Input Lines 30004 40004 1 — Bits 12 - 15 Number of Bypass Lines 30004 40004 1 — Bits 4 - 7 Number of Output Lines 30004 40004 1 — Bits 8 - 11 Number of SubModules 30009 40009 1 — — Data Description Load Circuit Present 30013 40013 1 — There are 16 possible Load Circuits.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 51 Liebert GXT2™ and Liebert GXT3™ - Input and Holding (continued) Data Description Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 54 Liebert Nfinity® - Status and Coil Data Description Status Coil Number of Bits Scale Notes / Units Automatic Battery Test Enabled 10003 3 1 — — Battery Charger On 10044 — 1 — — Inverter Ready 10047 — 1 — — Power Factor Correction State 10050 — 1 — — Load on Inverter 10073 — 1 — — Bypass Active 10074 — 1 — — Replace Battery 10081 — 1 — — Battery Under Test 10082 — 1 — — Load on Battery 10128
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 55 Liebert Nfinity® - Input and Holding Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 56 Liebert NX™ - Status and Coil Data Description Status Coil Number of Bits Scale Notes / Units Economode 10005 5 — — — DC-To-DC Converter On 10042 — — — — Battery Charge Compensation 10046 — — — — Inverter Ready 10047 — — — — Power Factor Correction State 10050 — — — — Battery Charge Mode 10051 — — — — Load On Inverter 10073 — — — — Bypass Active 10074 — — — — Battery Under Test 10082 — — —
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 56 Liebert NX™ - Status and Coil (continued) Data Description Status Coil Number of Bits Scale Notes / Units DC Bus Balancer Fault 10240 — — — — DC Bus 1 Power Supply Fail 10251 — — — — Rectifier Fuse Fail 10257 — — — — Rectifier Startup Failure 10258 — — — — Rectifier Fault 10259 — — — — Rectifier Current Limit 10260 — — — — Inverter DC Voltage Low Shutdown 10262 — — — — Inverter Fault 10263 — — —
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 57 Liebert NX™ - Input and Holding Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 57 Liebert NX™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 58 Liebert NX 225-600kVA UPS - Input and Holding 3 Input Holding Register # of Reg Scale Notes/Units Modbus Protocol Version — 40002 1 — XX.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 58 Liebert NX 225-600kVA UPS - Input and Holding 3 (continued) Data Description Input Holding Register # of Reg Scale Notes/Units Output Source — 40050 1 — 1 = Other 2 = None 3 = Normal 4 = Bypass 5 = Battery 6 = Booster 7 = Reducer Frequency — 40051 1 10 Units: Hz Number Lines — 40052 1 — — Voltage L1 — 40053 1 — Units: V Voltage L2 — 40054 1 — Units: V Voltage L3 — 40055 1 — Units: V Current L1 — 40056
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 58 Liebert NX 225-600kVA UPS - Input and Holding 3 (continued) Input Holding Register # of Reg Scale Notes/Units Diagnostic Test Failed — 40089 1 — Bit 3 Communications Lost — 40089 1 — Bit 4 Data Description Shutdown Pending — 40089 1 — Bit 6 Test In Progress — 40090 1 — Bit 0 General Warning — 40090 1 — Bit 2 — 0 = Bypass not present 1 = Bypass on 2 = Bypass off 3 = Bypass fault 4 = Bypass not prepared — 0 = I
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 59 Liebert NXL™ - 60Hz, UL version (Model 40) - Status and Coil Data Label Status Coil # of Bits Notes NXL Type Battery Self Test 10082 — 1 Active on Alarm N+1, 1+N, 1+1, SMS Battery Low Shutdown 10092 — 1 Active on Alarm N+1, 1+N, 1+1, SMS System Shutdown - REPO 10093 — 1 Active on Alarm N+1, 1+N, 1+1, SMS UPS Output on Bypass 10129 — 1 Active on Alarm SCC, N+1, 1+N, 1+1, SMS Output Load on Maint.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 59 Liebert NXL™ - 60Hz, UL version (Model 40) - Status and Coil (continued) Data Label Status Coil # of Bits Notes NXL Type Battery Over Temperature 10350 — 1 Active on Warning N+1, 1+N, 1+1, SMS DC Bus Ground Fault - Positive 10351 — 1 Active on Alarm N+1, 1+N, 1+1, SMS DC Bus Ground Fault - Negative 10352 — 1 Active on Alarm N+1, 1+N, 1+1, SMS System Output Low Power Factor 10353 — 1 Active on Alarm N+1, 1+N, 1+1, SMS
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 59 Liebert NXL™ - 60Hz, UL version (Model 40) - Status and Coil (continued) Data Label Status Coil # of Bits Notes NXL Type Controls Reset Required 10397 — 1 Active on Alarm SCC, N+1, 1+N, 1+1, SMS Battery Test Failed 10398 — 1 Active on Alarm N+1, 1+N, 1+1, SMS Auto Restart Inhibited - Ext 10399 — 1 Active on Alarm SCC, SMS Battery Test Inhibited 10400 — 1 Active on Alarm N+1, 1+N, 1+1, SMS Battery Equalize 10401 —
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding Data Label System Date and Time Input Holding # of Register Register Regs Scale 30005 — 2 Units / Notes NXL Types — Masks: Year 0xFFFF 0000 Mon 0x0000 FF00 Day 0x0000 00FF SCC, N+1, 1+N, 1+1, SMS SCC, N+1, 1+N, 1+1, SMS System Date and Time 30007 — 2 — Masks: Hour 0xFF00 0000 Min 0x00FF 0000 Sec 0x0000 FF00 Output Apparent Power Rating 30021 — 2 — kVA SCC, N+1, 1+
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types System Output Pct Power Phase A 30165 — 1 — % N+1, 1+N, 1+1, SMS System Output Power Factor Phs A 30166 — 1 100 — N+1, 1+N, 1+1, SMS System Input RMS B-C 30201 — 1 — VAC N+1, 1+N, 1+1, SMS System Input RMS Current Phase B 30204 — 1 — A AC N+1, 1+N, 1+1, SMS By
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Battery Total Discharge Time 30316 — 1 — hr N+1, 1+N, 1+1, SMS Battery Discharge Power 30317 — 1 — W N+1, 1+N, 1+1, SMS Battery Last Discharge Date 30318 — 2 — Masks: Year 0xFFFF 0000 Mon 0x0000 FF00 Day 0x0000 00FF N+1, 1+N, 1+1, SMS — Masks: Hour 0xFF00 0000 Min 0
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Rectifier Active Filter 30340 — 1 — 0 = Not Installed 1 = Installed N+1, 1+N, 1+1, SMS Rectifier Status 30341 — 1 — 0 = off 1 = on N+1, 1+N, 1+1, SMS — 1 = Normal Operation 2 = Startup 8 = Normal with Warning 16 = Normal with Alarm 32 = Abnormal Operation SCC, N+1, 1+N, 1
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Battery Volts for Cabinet 4 30361 — 1 — VDC N+1, 1+N, 1+1, SMS Battery Volts for Cabinet 5 30362 — 1 — VDC N+1, 1+N, 1+1, SMS Battery Volts for Cabinet 6 30363 — 1 — VDC N+1, 1+N, 1+1, SMS Battery Volts for Cabinet 7 30364 — 1 — VDC N+1, 1+N, 1+1, SMS Battery
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Maintenance Isolation Breaker (MIB) 30383 — 1 — 0 = Open 1 = Close 2 = Not Installed SCC, 1+N, 1+1, SMS Output Series Static Switch 30384 — 1 — 0 = Open 1 = Close 2 = Not Installed LEU/LAP only Module Output Breaker (MOB) 30385 — 1 — 0 = Open 1 = Close 2 = Not Installe
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Configuration Description 30497 — 1 — 0 = Single Module System 33 1 = Single Module System 34 2 = Single Module System 44 3 = 1+1 33 4 = 1+1 34 5 = 1+1 44 6 = 1+N 33 7 = 1+N 34 8 = 1+N 44 9 = N+1 33 10 = N+1 34 11 = N+1 44 12 = SCC w/Continuous Duty SS 33 13 = SCC w/ Continuous Duty
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Sum of MMS Output RMS Currents for Phase B 30512 — 1 — Units : A AC 1+N, SCC Sum of MMS Output RMS Currents for Phase C 30513 — 1 — Units : A AC 1+N, SCC MMS Output Frequency 30514 — 1 10 Units : Hz 1+N, SCC MMS Output Power 30515 — 1 — Units : kW 1+N, SCC MMS
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types Bypass Isolation Breaker for Module 1 (BIB1) 30537 — 1 — 0 = Open 1 = Close 2 = Not Installed SCC, SMS, 1+N Bypass Isolation Breaker for Module 2 (BIB2) 30538 — 1 — 0 = Open 1 = Close 2 = Not Installed SCC, SMS, 1+N Bypass Isolation Breaker for Module 3 (BIB3) 30539 — 1
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label MMS Module Output Voltage Status MMS Module Output Source Input Holding # of Register Register Regs Scale 30557 30558 — — 1 1 Units / Notes NXL Types — 0 = Fail 1 = Marginal Low 2 = Normal 3 = Marginal High 1+N, SCC — 0 = Off 1 = Normal 2 = Bypass 3 = Maintenance Bypass 1+N, SCC MMS Module Total kW Output 30559 — 1 — Units : kW SCC MMS Mod
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types MMS Module Total kVA Output 30651 — 1 — Units : kVA SCC MMS Module DC Bus Voltage 30652 — 1 — Units : VDC SCC MMS Module Battery Current 30653 — 1 — Units : A DC SCC MMS Module Battery Time Remaining 30654 — 1 — Units : min SCC Intelligent Parallel Operation S
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 60 Liebert NXL™ - 60Hz, UL version (Model 40) - Input and Holding (continued) Data Label Input Holding # of Register Register Regs Scale Units / Notes NXL Types EcoModeSchedule 2 Schedule Operation State - ECO Mode 30682 — 1 — 0 = disabled 1 = enabled SMS, 1+N, SCC Schedule Action - ECO Mode 30683 — 1 — 0 = stop 1 = start SMS, 1+N, SCC SMS, 1+N, SCC Schedule Day of Week - ECO Mode 30684 — 1 — 0 = Unknown 1 = Monday 2 = Tuesda
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 61 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary Data Label Data Description Auto Restart In Progress Auto restart is in progress Auto Restart Inhibited - Ext Auto restart inhibited due to an external signal Auto Retransfer Time Remaining Time remaining before an inverter overload or inverter fault can be cleared and auto retransfer from the bypass to the inverter can take place Automatic Restart Failed Automatic restart failed Bac
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 61 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Battery Total Discharge Time The cumulative battery discharge time Battery Volts at Main Disconnect The voltage between the positive and the negative battery terminals of the common battery disconnect Battery Volts for Cabinet The voltage between the positive and negative battery terminals of a battery cabinet Bypass - Excess Auto Retransfers Th
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 61 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Inlet Air Temperature The temperature of the inlet air Input Breaker (CB1/RIB) Input breaker (CB1/RIB) Input Contact 01 The external input contact 1 Input Contact 02 The external input contact 2 Input Contact 03 The external input contact 3 Input Contact 04 The external input contact 4 Input Contact 05 The external input contact 5 Input C
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 61 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Multiple Fan Failure Multiple fan failure On Generator A generator is supplying the power to the system Output Amp Over User Limit-Phs A The phase A output has exceeded the user amperage threshold Output Amp Over User Limit-Phs B The phase B output has exceeded the user amperage threshold Output Amp Over User Limit-Phs C The phase C output has
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 61 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description System Input RMS Current Phase C The system input RMS current for Phase C System Output Apparent Power The sum total apparent power of all system output phases System Output Fault A fault has been detected in the system output System Output Frequency The system output frequency System Output Low Power Factor The system output power factor is l
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 62 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Status and Coil Data Description Input System Input Power Problem System Input Phs Rotation Error System Input Current Limit System Input Current Imbalance Bypass Bypass Not Available Bypass Overload Phase A Bypass Overload Phase B Bypass Overload Phase C Bypass Auto Retransfer Failed Bypass Static Switch Overload Bypass Static Switch Unavailable Bypass Auto Transfer Failed Bypass Frequency Err
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 62 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Status and Coil Data Description DC Bus DC Bus Low Fault Output System Shutdown - EPO System Shutdown - REPO System Output Low Power Factor Output Amp Over User Limit-Phs A Output Amp Over User Limit-Phs B Output Amp Over User Limit-Phs C System Output Fault Output Of/Uf Inverter Inverter Failure Inverter Overload Phase A Inverter Overload Phase B Inverter Overload Phase C Inverter Inhibit - Ex
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 62 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Status and Coil Data Description Internal Communications Failure UPS Output on Bypass Output Load on Maint.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding Input Holding # of Reg Scale Notes/Units System Input RMS A-B 30385 — 1 10 Units : VAC Uint16 System Input RMS B-C 30386 — 1 10 Units : VAC Uint16 System Input RMS C-A 30387 — 1 10 Units : VAC Uint16 System Input RMS Current Phase A 30388 — 1 — Units : A AC Uint16 System Input RMS Current Phase B 30389 — 1 — Units : A AC Uint16 System Input RM
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Data Label Input Holding # of Reg Scale Notes/Units Battery Volts for Cabinet 4 30428 — 1 — Units : VDC Uint16 Battery Volts for Cabinet 5 30429 — 1 — Units : VDC Uint16 Battery Volts for Cabinet 6 30430 — 1 — Units : VDC Uint16 Battery Temperature for Cabinet 30431 — 1 10 Units : deg C Int16 Battery Temperature for Cabinet 1 30432 —
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Input Holding # of Reg Scale Notes/Units DC Bus Voltage 30465 — 1 — Units : VDC Uint16 DC Bus Current 30466 — 1 — Units : A DC Int16 DC Bus Qualification Status 30467 — 1 — 0 = Fail 1 = Marginal Low 2 = Normal 3 = Marginal High System Output Voltage RMS A-B 30478 — 1 10 Units : VAC Uint16 System Output Voltage RMS B-C 30479 — 1 10 U
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Data Label Input Holding # of Reg Scale Notes/Units 30510 — 1 — Units : sec Uint16 Inverter Inverter Overload Time Remaining Inverter Output Qualification Status 30511 — 1 — 0 = Fail 1 = Marginal Low 2 = Normal 3 = Marginal High Inverter On/Off State 30512 — 1 — 0 = off 1 = on Inlet Air Temperature 30523 — 1 — Units : deg C Int16 Inlet
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Data Label Input Holding # of Reg Scale Notes/Units Output Wire Configuration 30556 — 1 — 0 = Two Wire (single phase + return) 1 = Two Wire (2 phase, no neutral) 2 = Three Wire (2 phase + neutral) 3 = Three Wire (3 phase, no neutral) 4 = Four Wire (3 phases + neutral) Static Switch Type 30557 — 1 — 0 = Not Applicable 1 = Continuous Duty 2 = Momenta
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Input Holding # of Reg Scale Notes/Units Bypass Nominal Voltage 30576 — 1 — Units : VAC Uint16 System Input Nominal Voltage 30577 — 1 — Units : VAC Uint16 System Input Nominal Frequency 30578 — 1 10 Units : Hz Uint16 System Output Nominal Voltage 30579 — 1 — Units : VAC Uint16 System Output Nominal Frequency 30580 — 1 10 Units : Hz
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Data Label Input Holding # of Reg Scale Notes/Units Module Output Breaker 30609 — 1 — 0 = Open 1 = Close 2 = Not Installed Multi-module System Output Voltage RMS A-B 30620 — 1 10 Units : VAC Uint16 Multi-module System Output Voltage RMS B-C 30621 — 1 10 Units : VAC Uint16 Multi-module System Output Voltage RMS C-A 30622 — 1 10 Units : V
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Data Label Input Holding # of Reg Scale Notes/Units Module Output Breaker for Module 3 30646 — 1 — 0 = Open 1 = Close 2 = Not Installed Module Output Breaker for Module 4 30647 — 1 — 0 = Open 1 = Close 2 = Not Installed Module Output Breaker for Module 5 30648 — 1 — 0 = Open 1 = Close 2 = Not Installed Module Output Breaker for Module 6 306
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Data Label Input Holding # of Reg Scale Notes/Units 30665 — 1 — 1 = Other 2 = Off 3 = Normal 4 = Bypass 5 = Battery 6 = Booster 7 = Reducer MMS Inter-Module Comm Status 30676 — 1 — 0 = Failed 1 = Normal MMS Event Summary 30677 — 1 — 0 = None 1 = Alarm 2 = Fault MMS Module Inverter Status 30678 — 1 — 0 = off 1 = on — 0 = Fail 1 = Margin
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Input Holding # of Reg Scale Notes/Units Intelligent Parallel Operation State 30796 — 1 — 0 = disabled 1 = enabled Intelligent Parallel Minimum Redundancy 30797 — 1 — Uint16 Intelligent Parallel Maximum Time in Standby 30798 — 1 — Units : day Uint16 ECO Mode Operation State 30809 40809 1 — 0 = disabled 1 = enabled Continuous Operation -
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 63 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Input and Holding (continued) Input Holding # of Reg Scale Notes/Units Schedule Operation State - ECO Mode 31019 — 1 — 0 = disabled 1 = enabled Schedule Action - ECO Mode 31020 — 1 — 0 = stop 1 = start Data Label EcoModeSchedule 14 Schedule Day of Week - ECO Mode 31021 — 1 — 0 = Unknown 1 = Monday 2 = Tuesday 3 = Wednesday 4 = Thursday 5 = Friday 6 = Saturday 7 = Sunday S
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description Auto Restart In Progress Auto restart is in progress Auto Restart Inhibited - Ext Auto restart inhibited due to an external signal Auto Retransfer Time Remaining Time remaining before an inverter overload or inverter fault can be cleared and auto retransfer from the bypass to the inverter can take place Automatic Restart Failed Automatic restart fai
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description Battery Time Remaining The calculated available time on battery Battery Total Discharge Time The cumulative battery discharge time Battery Volts at Main Disconnect The voltage between the positive and the negative battery terminals of the common battery disconnect Battery Volts for Cabinet The voltage between the positive and negative battery termin
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description DC Bus Voltage The voltage between the positive and negative terminals of the DC bus at the battery input ECO Mode Active Conditions for Activation or Automatic Reactivation have been satisfied. ECO Mode Operation State This setting is used to enable or disable ECO Mode. ECO Mode Suspended ECO Mode session is suspended.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description Inverter Overload Phase B Inverter is operating with an overload on phase B Inverter Overload Phase C Inverter is operating with an overload on phase C Inverter Overload Time Remaining The calculated time remaining before inverter shutdown Inverter Shutdown - Overload The inverter has shutdown due to a sustained overload Inverter Static Switch SCR
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description MMS Output Power The sum total power of all system output modules MMS Overload Multi-module system overload MMS UPS Output Source Multi-module UPS output source Module Output Breaker for Module 1 Module output breaker for module 1 Module Output Breaker for Module 2 Module output breaker for module 2 Module Output Breaker for Module 3 Module outp
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description Program Input Contact 04 When the signal from [Program Input Contact 04] is active the function assigned to this contact is executed. Program Input Contact 05 When the signal from [Program Input Contact 05] is active the function assigned to this contact is executed.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description Sum of MMS Output RMS Currents for Phase C The sum of the multi-module system output RMS currents for phase C System Breaker(s) Close Failure One or more breakers in the system failed to close System Breaker(s) Open Failure One or more breakers in the system failed to open System Controller Error System controller internal error System Date and Tim
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 64 Liebert NXL™ - 50Hz, CE version (Models 48 and 49) - Glossary Data Label Data Description System Output Power The sum total power of all system output phases System Output RMS Current Phs A The system output RMS current for Phase A System Output RMS Current Phs B The system output RMS current for Phase B System Output RMS Current Phs C The system output RMS current for Phase C System Output Voltage RMS A-B The system output RMS voltage
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 65 Liebert PowerSure™ Interactive (before July 2008) - Status and Coil Data Description Status Coil Number of Bits Scale Notes / Units Audible Alarm Enabled 10002 2 1 — — Automatic Battery Test Enabled 10003 3 1 — — Battery Charge Compensation 10046 — 1 — — Inverter Ready 10047 — 1 — — Load Circuit 1 State 10057 — 1 — — Load Circuit 2 State 10058 — 1 — — Load Circuit 3 State 10059 — 1 — — Load Circuit
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 66 Liebert PowerSure™ Interactive (before July 2008) - Input and Holding Input Register Holding Register # of Reg. Scale Notes / Units Number of Input Lines 30004 40004 1 — Bits 12 - 15 Number of Bypass Lines 30004 40004 1 — Bits 4 - 7 Data Description Number of Output Lines 30004 40004 1 — Bits 8 - 11 Number of SubModules 30009 40009 1 — - Load Circuit Present 30013 40013 1 — There are 16 possible Load Circuits.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 67 Liebert PowerSure™ Interactive 2 - Status and Coil Applies only to PSI units manufactured before June 1, 2008 (Julian date 08153) Data Description Audible Alarm Enabled Automatic Battery Test Enabled DC-To-DC Converter On Battery Charger On Load Circuit 1 State Load Circuit 2 State Load Circuit 3 State Load Circuit 4 State Load Circuit 5 State Load Circuit 6 State Load Circuit 7 State Load Circuit 9 State Load Circuit 10 State Load Circuit 11 Sta
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 68 Liebert PowerSure™ Interactive 2 - Input and Holding Applies only to PSI units manufactured before June 1, 2008 (Julian date 08153) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 69 Liebert Series 300™ UPS - Status and Coil Data Description Status Coil Number of Bits Scale Notes / Units Automatic Restart Enabled 10001 1 1 — — Battery Charge Compensation 10046 — 1 — — Inverter Ready 10047 — 1 — — Load Circuit 1 State 10057 — 1 — — Load Circuit 2 State 10058 — 1 — — Load Circuit 3 State 10059 — 1 — — Load Circuit 4 State 10060 — 1 — — Load Circuit 5 State 10061 — 1 — — Load
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 70 Liebert Series 300™ UPS - Input and Holding Input Register Holding Register # of Reg. Scale Notes / Units Number of Input Lines 30004 40004 1 — Bits 12 - 15 Number of Bypass Lines 30004 40004 1 — Bits 4 - 7 Data Description Number of Output Lines 30004 40004 1 — Bits 8 - 11 Number of SubModules 30009 40009 1 — — Load Circuit Present 30013 40013 1 — There are 16 possible Load Circuits.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 70 Liebert Series 300™ UPS - Input and Holding (continued) Data Description Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 71 Liebert Series 600™ UPS - Status and Coil Data Description Status Coil Number of Bits Scale Notes / Units Auto Retransfer Primed 10049 — 1 — — Load On Inverter 10073 — 1 — — Load On Bypass 10074 — 1 — — Battery data Buffer Full 10084 — 1 — — Shutdown Reason - Hardware 10096 — 1 — — Load On Battery 10128 — 1 — — Load On Bypass 10129 — 1 — — Manual Reset Transfer 10130 — 1 — — Emergency Transfer
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 72 Liebert Series 600™ UPS - Input and Holding Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 73 Liebert Series 610™ SCC UPS - Status and Coil Data Description Status Coil Number of Bits Scale Notes / Units Auto Retransfer Primed 10049 — 1 — — Load On Inverter 10073 — 1 — — Load On Bypass 10074 — 1 — — Load On Bypass 10129 — 1 — — Manual Reset Transfer 10130 — 1 — — Emergency Transfer 10134 — 1 — — Output Switch open 10138 — 1 — — SBS Unable 10148 — 1 — — Output Frequency Off 10153 — 1
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 74 Liebert Series 610 SCC UPS - Input and Holding Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 75 Liebert HiPulse™, Liebert SICE 7200™- Input and Holding - SMM/SSM Controller Liebert Products Multi Module Series - SMM Liebert HiPulse Liebert SICE 7200 Available Points Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 75 Liebert HiPulse™, Liebert SICE 7200™- Input and Holding - SMM/SSM (continued) Controller Liebert Products Multi Module Series - SMM Liebert HiPulse Liebert SICE 7200 Available Points Data Description Rectifier Block Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 76 Liebert SICE 7200™ - Input and Holding - SSC Controller Liebert Products System Control Cabinet - SSC Liebert SICE 7200 Available Points Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 76 Liebert SICE 7200™ - Input and Holding - SSC (continued) Controller Liebert Products System Control Cabinet - SSC Liebert SICE 7200 Available Points Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 77 Liebert Npower™ - Input and Holding - IMP Controller Liebert Products Single Module Series - SMS Liebert Npower - SMS Available Points Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - UPS Systems Table 77 Liebert Npower™ - Input and Holding - IMP (continued) Controller Liebert Products Single Module Series - SMS Liebert Npower - SMS Available Points Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products 3.
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products Table 78 Alber® BDSU™ - Status and Coil Status Coil Number of Bits Notes / Units Thermal Runaway Charger Current Level One Event String 1 - 32 13297-13328 — 1 Active on Alarm Thermal Runaway Charger Current Level Two Event String 1 - 32 13329-13360 — 1 Active on Alarm Ground Fault Detected String 1 - 32 14041-14072 — 1 Active on Alarm Low Cell Voltage Cell 1 - 320 10673-10992 — 1 Active on Alarm High Cell Voltage Cel
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products Table 79 Alber® BDSU™ - Input and Holding Data Description Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products Table 79 Alber® BDSU™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products Table 79 Alber® BDSU™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products Table 79 Alber® BDSU™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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Modbus RTU and Modbus TCP Protocols - Battery Monitoring Products Table 79 Alber® BDSU™ - Input and Holding (continued) Input Register Holding Register # of Reg.
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BACnet Communications - BACnet Protocol Implementation Conformance Statement 4.0 BACNET COMMUNICATIONS 4.1 BACnet Protocol Implementation Conformance Statement The Liebert IntelliSlot Web IS-IPBML, IS-WEBADPT and the IS-UNITY-DP™ cards provide BACnet IP to Emerson Network Power® devices via the BACnet protocol. The IS-UNITY-DP card also supports the BACnet MSTP protocol. The IS-UNITY-DP card also supports the BACnet MSTP protocol.
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BACnet Communications - BACnet Protocol Implementation Conformance Statement 4.1.
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BACnet Communications - BACnet Protocol Implementation Conformance Statement 4.1.
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BACnet Communications - BACnet Protocol Implementation Conformance Statement 4.1.4 Object Properties The following object properties are supported. NOTE All properties are read-only unless otherwise noted Device Object The Device object represents the agent (the card) rather than the managed device. Comments Device Object Property Object_Identifier The card must be configured with a unique Device Instance Number to avoid interference with other cards on the same BACnet network. Object_Name Writable.
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BACnet Communications - BACnet Protocol Implementation Conformance Statement Analog Object Analog Object Property Analog Analog Analog Input Output Value Comments Object_Identifier x x x — Object_Name x x x — Object_Type x x x — Writable if any of these conditions apply: • Object is Analog Output • Object is Analog Value and associated device Data Description is writable • Out_Of_Service is True Present_Value x x x Description x x x — Status_Flags x x x — Event_State x x
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BACnet Communications - BACnet Protocol Implementation Conformance Statement Binary Object Properties Binary Object Property Binary Binary Binary Input Output Value Comments Object_Identifier x x x — Object_Name x x x — Object_Type x x x — Present_Value x x x Writable if any of these conditions apply: • Object is Binary Output • Object is Binary Value and associated device Data Description is writable • Out_Of_Service is True Description x x x — Status_Flags x x x — Event_S
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BACnet Communications - Thermal Management Products 4.
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Data Description Object Type Instance Object Name Access Notes Extra Notes Compressor Hours Exceeded Binary_Value 77 5269_1_1 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Compressor High Head Pressure Binary_Value 78 5
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Data Description Object Type Instance Object Name Access Notes Extra Notes Free Cooling Valve Hours Exceeded Binary_Value 117 5306_1 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Ext Free Cooling Lockout Binary_Value 118
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Fan Hours Exceeded Binary_Value 205 5054_1 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Main Fan Overload Binary_Value 206 5376_1 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8,
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Data Description Object Type Instance Object Name Access Notes Extra Notes High Power Shutdown Binary_Value 268 5121_1 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Smoke Detected Binary_Value 269 4720_1 RD Active on
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Binary_Value 327 5417_1_1 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Binary_Value 338 5417_1_2 RD Active on Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Binary_Value 349 5417_1_3 RD
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Remote Sensor Over Temperature Binary_Value 432 5597_1_5 RD Active on Alarm 2, 3, 4, 5, 6, 7, 8, 9 Remote Sensor Under Temperature Binary_Value 433 5598_1_5 RD Active on Ala
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Static Pressure Sensor Issue Binary_Value 563 5629_1 RD Active on Alarm 3, 4, 5, 7, 8, 9 High Static Pressure Binary_Value 564 5630_1 RD Active on Alarm 3, 4, 5, 7, 8, 9 L
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Data Description Liebert iCOM® v4 Object Type Instance Object Name Access Notes Extra Notes Liebert Condensers (Previously called Global Condensers) Condenser Unit Unspecified General Event Binary_Value 643 5637_1 RD Active on Alarm 3, 4, 5
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BACnet Communications - Thermal Management Products Table 80 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Binary Data (continued) Controller Liebert iCOM® v4 Data Description Object Type Instance Object Name Access Notes Extra Notes Condenser Supply Refrigerant Under Temp Binary_Value 1113 5543_1_2 RD Active on Alarm 4, 9 Condenser Supply Refrigerant Over Temp Binary_Value 1
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Extra Notes Object Type Instance Object Name Access Notes Air Temperature Set Point Analog_Value 1 5008_1 RW Units: deg C 1, 2, 3, 4, 5, 6, 7, 8, 9 Air Temperature Set Point Analog_Value 10001 5008_1_deg_F RW Units: deg F 1, 2, 3,
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Extra Notes Object Type Instance Object Name Access Notes Return Air Temperature Analog_Value 31 4291_1_1 RD Units: deg C 1, 2, 3, 4, 5, 6, 7, 8, 9 Return Air Temperature Analog_Value 10031 4291_1_1_deg_F RD Units: deg F 1, 2, 3,
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Extra Notes Object Type Instance Object Name Access Notes Return Humidity Analog_Value 60 5028_1 RD Units: % RH 1, 2, 3, 4, 5, 6, 7, 8, 9 Humidity Set Point Analog_Value 61 5029_1 RW Units: % RH 1, 2, 3, 4, 5, 6, 7, 8, 9 Return H
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Extra Notes Object Type Instance Object Name Access Notes Compressor Hours Analog_Value 97 5267_1_1 RW Units: hr 1, 2, 3, 4, 5, 6, 7, 8, 9 Compressor Hours Threshold Analog_Value 98 5268_1_1 RW Units: hr 1, 2, 3, 4, 5, 6, 7, 8, 9
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Extra Notes Object Type Instance Object Name Access Notes Electric Reheater Hours Analog_Value 150 5366_1_1 RW Units: hr 1, 2, 3, 4, 5, 6, 7, 8, 9 Electric Reheater Hours Threshold Analog_Value 151 5367_1_1 RW Units: hr 1, 2, 3, 4
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Notes Extra Notes Object Type Instance Object Name Access Analog_Value 246 5378_3 RD 1, 2, 3, 4, 5, 6, 7, 8, 9 Analog_Value 257 5378_4 RD 1, 2, 3, 4, 5, 6, 7, 8, 9 BMS Timeout Period Analog_Value 268 5075_1 RW Units: min 1, 2,
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Extra Notes Data Label Object Type Instance Object Name Access Notes Dew Point Set Point Analog_Value 10295 5575_1_deg_F RW Units: deg F 2, 3, 4, 5, 6, 7, 8, 9 Cooling Control Temperature Analog_Value 296 5615_1 RD Units: deg C 2
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Remote Sensors - Remote Sensor 3 Remote Sensor Temperature Analog_Value 353 5059_1_3 RD Units: deg C 2, 3, 4, 5, 6, 7, 8, 9 Remote Sensor Temperature Analog_Value
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Pump Hours Analog_Value 526 5298_1_2 RW Units: hr 7, 8, 9 System Input RMS A-N Analog_Value 810 4096_1 RD Units: VAC 5 System Input RMS B-N Analog_Value 811
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes System Input RMS B-C Analog_Value 1922 4099_3 RD Units: VAC 5 System Input RMS C-A Analog_Value 1923 4101_3 RD Units: VAC 5 System Input RMS A-N Analog_Value
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes System Input RMS B-C Analog_Value 1952 4099_6 RD Units: VAC 5 System Input RMS C-A Analog_Value 1953 4101_6 RD Units: VAC 5 Fluid 1 Fluid Input Temperature A
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Data Label Condenser Low Noise Mode Full Days Object Type Analog_Value Instance Object Name Extra Notes Access Notes 3, 4, 5, 6, 7, 8, 9 534 5551_1_1 RW 1 = Monday 2 = Tuesday 4 = Wednesday 8 = Thursday 16 = Friday 32 = Saturday 64 = S
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BACnet Communications - Thermal Management Products Table 82 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Analog Data Controller Liebert iCOM® v4 Object Type Data Label Instance Object Name Access Notes Extra Notes Liebert Condensers - Condenser 2 Fan 2 Condenser Fan Speed Analog_Value 2023 5276_1_2_2 RD Units: % 4, 9 Condenser Fan Power Analog_Value 2031 5538_1_2_2 RD Unit
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Protocol MultiState_Value 1 4553_1 RD 1 = UPS 2 = AIR 3 = PMP 4 = PDU Air Temperature Control Type MultiState_Value 12 5324_1 RW 1 = Proportional 2 = Prop+Integr
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Fan Fan Control Mode MultiState_Value 82 5373_1 RW 1 = Auto 2 = Manual 3 = Economy 4 = Delta Fan Control Sensor MultiState_Value 83 5586_1 RW 1 = Supply 2 = Rem
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes System Event Configuration Customer Input 1 - Event Control MultiState_Value 126 4718_1 RW 1 = disabled 2 = enabled 1, 2, 3, 4, 5, 6, 7, 8, 9 Customer Input 1 - Eve
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Ext Over Temperature - Event Control MultiState_Value 146 5090_1 RW 1 = disabled 2 = enabled 1, 2, 3, 4, 5, 6, 7, 8, 9 Ext Over Temperature - Event Type MultiState
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Clogged Air Filter - Event Control MultiState_Value 166 5135_1 RW 1 = disabled 2 = enabled 1, 2, 3, 4, 5, 6, 7, 8, 9 Clogged Air Filter - Event Type MultiState_Val
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Compressor Low Suction Pressure - Event Type MultiState_Value 205 5319_1_2 RW 1 = Message 2 = Warning 3 = Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Compressor Pump Down Issue
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes High Return Humidity - Event Type MultiState_Value 235 5138_1_1 RW 1 = Message 2 = Warning 3 = Alarm 1, 2, 3, 4, 5, 6, 7, 8, 9 Low Return Humidity - Event Control
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes System Events System Event Acknowledge/ Reset MultiState_Value 292 4717_1 WO 1 = Reset 2 = Acknowledge 1, 2, 3, 4, 5, 6, 7, 8, 9 MultiState_Value 304 5580_1 RW
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BACnet Communications - Thermal Management Products Table 84 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Extra Notes Cold Aisle Force Max Fan/ Cooling - Ext Control MultiState_Value 441 6084_1 RD 1 = disabled 2 = enabled — Static Pressure Control Enable MultiState_Value 442 609
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary Data Label Data Description Actual Air Temperature Set Point The actual set point being used for air temperature control. This value may differ from [Air Temperature Set Point] if compensation is applied by the control.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Chilled Water Control Valve Failure Chilled water valve out of position. Chilled water control valve position does not match expected value.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Compressor Hours Operating hours for compressor since last reset of this value. If operating hours exceeds 32,000, this client will continue to display 32,000, but the iCOM display will show the actual value.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Condenser Issue - Event Type The event type for the [Condenser Issue] event. Condenser Issue Condenser is not operating within its operational parameters.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Cooling Control Temperature Temperature value being used for cooling capacity control. This value is compared against the temperature set point to determine the amount of cooling to be applied. Cooling State Cooling operational state.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Digital Scroll Compressor Loading Present digital scroll compressor utilization expressed as a percentage of the maximum rated capacity. EEV Unspecified General Event One or more unspecified electronic expansion valve events active.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Ext Air Sensor A Under Temp Event Control Enable/disable the activation of the [Ext Air Sensor A Under Temperature] event. If set to “disabled,” the event will not be annunciated.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Ext Loss of Air Blower Loss of air blower is detected, as indicated by an external input signal. Ext Loss of Flow - Event Control Enable/disable the activation of the [Ext Loss of Flow] event.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Fan Issue - Event Control Enable/disable the activation of the [Fan Issue] event. If set to “disabled,” the event will not be annunciated.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description High Return Humidity - Event Control Enable/disable the activation of the [High Return Humidity] event. If set to “disabled,” the event will not be annunciated.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Humidity Proportional Control Type Type of algorithm to use for proportional control of output humidity. Humidity Proportional Control Type Type of algorithm to use for proportional control of output humidity.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Pump State Pump operational state. Pump Unspecified General Event One or more unspecified pump events active. See local unit display for further details. RAM Battery Issue RAM or RAM backup battery is not operating correctly.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Return Air Under Temp - Event Control Enable/disable the activation of the [Return Air Under Temperature] event. If set to “disabled,” the event will not be annunciated.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Supply Air Under Temp Threshold Threshold value used in the [Supply Air Under Temperature] event. Supply Air Under Temperature Supply air low temperature event. Supply Chilled Water Loss of Flow Supply chilled water flow is too low.
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BACnet Communications - Thermal Management Products Table 86 Liebert Challenger 3000™, Liebert Challenger ITR™, Liebert CW™, Liebert Deluxe System/3™, Liebert DS™, Liebert DSE™, Liebert HPM™, Liebert PeX™, Liebert PDX™ - Glossary (continued) Data Label Data Description Unit Partial Shutdown An event has occurred requiring some system components to be shutdown and disabled. Unit Shutdown An event has occurred requiring the unit to be shutdown and disabled to prevent damage to the system.
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BACnet Communications - Thermal Management Products Table 87 Liebert CRV™ - Binary Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Air Temperature Supply Air Over Temperature Binary_Value 1 5015_1 RD Active on Alarm Supply Air Under Temperature Binary_Value 2 5019_1 RD Active on Alarm Return Air Over Temperature Binary_Value 3 5023_1 RD Active on Alarm Supply Air Sensor Issue Binary_Value 4 5026_1 RD Active on Alarm Return Air Sensor
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BACnet Communications - Thermal Management Products Table 87 Liebert CRV™ - Binary Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Binary_Value 151 5060_10 RD Active on Alarm Compressor 1 High Head Pressure Binary_Value 162 4669_1 RD Active on Alarm Compressor 1 Low Suction Pressure Binary_Value 163 5062_1 RD Active on Alarm Compressor 1 Hours Exceeded Binary_Value 164 5063_1 RD Active on Alarm Data Label Remote Sensors 10 Remote Senso
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BACnet Communications - Thermal Management Products Table 87 Liebert CRV™ - Binary Data (continued) Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Unit Partial Shutdown Binary_Value 237 5112_1 RD Active on Alarm Unit Shutdown Binary_Value 238 5113_1 RD Active on Alarm Water Leakage Detector Sensor Issue Binary_Value 239 5114_1 RD Active on Alarm BMS Communications Timeout Binary_Value 240 5115_1 RD Active on Alarm Maintenance Due Binary
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BACnet Communications - Thermal Management Products Table 88 Liebert CRV™ - Analog Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Air Temperature Supply Air Temperature Analog_Value 1 5002_1 RD Units: deg C Supply Air Temperature Analog_Value 10001 5002_1_deg_F RD Units: deg F Return Air Temperature Analog_Value 2 4291_1 RD Units: deg C Return Air Temperature Analog_Value 10002 4291_1_deg_F RD Units: deg F Return Dew Point Analog_V
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BACnet Communications - Thermal Management Products Table 88 Liebert CRV™ - Analog Data (continued) Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Access Notes Remote Sensors 1 Remote Sensor Temperature Analog_Value 56 5059_1 RD Units: deg C Remote Sensor Temperature Analog_Value 10056 5059_1_deg_F RD Units: deg F Remote Sensor Temperature Analog_Value 67 5059_2 RD Units: deg C Remote Sensor Temperature Analog_Value 10067 5059_2_deg_F RD Units: deg F
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BACnet Communications - Thermal Management Products Table 88 Liebert CRV™ - Analog Data (continued) Controller Liebert iCOM® v4 Data Label Condenser Low Noise Mode - Interval Days Object Type Analog_Value Instance 287 Object Name 5550_1_1 Access Notes RW 1 = Monday 2 = Tuesday 4 = Wednesday 8 = Thursday 16 = Friday 32 = Saturday 64 = Sunday Condenser Low Noise Mode - Full Days Analog_Value 288 5551_1_1 RW 1 = Monday 2 = Tuesday 4 = Wednesday 8 = Thursday 16 = Friday 32 = Saturday 64 = Su
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BACnet Communications - Thermal Management Products Table 89 Liebert CRV™ - Multistate Data Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes MultiState_Value 1 4553_1 RD 1 = UPS 2 = AIR 3 = PMP 4 = PDU Air Temperature Control Sensor MultiState_Value 12 5012_1 RW 1 = Supply 2 = Remote 3 = Return Remote Sensor Temperature Calculation MultiState_Value 13 5013_1 RW 1 = Average 2 = Maximum Fan Control Mode MultiState_Value 24 5047_1 RW 1 = Internal (Auto) 2
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BACnet Communications - Thermal Management Products Table 89 Liebert CRV™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes System Event Acknowledge/Reset MultiState_Value 171 4717_1 WO 1 = Reset 2 = Acknowledge Smoke Detected - Event Control MultiState_Value 172 4721_1 RW 1 = disabled 2 = enabled Smoke Detected - Event Type MultiState_Value 173 4722_1 RW 1 = Message 2 = Warning 3 = Alarm Water Under Floor - Event Control Multi
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BACnet Communications - Thermal Management Products Table 89 Liebert CRV™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Ext Reheat Lockout - Event Type MultiState_Value 191 5085_1 RW 1 = Message 2 = Warning 3 = Alarm Ext Humidifier Lockout - Event Control MultiState_Value 192 5086_1 RW 1 = disabled 2 = enabled Ext Humidifier Lockout - Event Type MultiState_Value 193 5087_1 RW 1 = Message 2 = Warning 3 = Alarm Ext Compressor
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BACnet Communications - Thermal Management Products Table 90 Liebert CRV™ - Glossary Data Label Data Description Air Temperature Control Sensor Sensor from which air temperature measurements will be used for cooling and heating control. Air Temperature Dead Band Value that is divided evenly to form a temperature range above and below [Air Temperature Set Point]. If measured air temperature is within this range, no heating or cooling will occur. Air Temperature Set Point Desired air temperature.
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BACnet Communications - Thermal Management Products Table 90 Liebert CRV™ - Glossary (continued) Data Label Data Description Condenser Low Noise Mode Stop Time The time of day at which the condenser will transition out of low noise mode. Condenser Max Fan Speed Override Fan speed exceeding the maximum set point in order to alleviate a high temperature or pressure condition. Condenser Normal Mode Max Fan Speed Maximum fan speed when condenser is not in low noise mode.
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BACnet Communications - Thermal Management Products Table 90 Liebert CRV™ - Glossary (continued) Data Label Data Description Customer Input 3 - Event Type The event type for the [Customer Input 3] event. Customer Input 3 Customer input 3. Customer Input 4 - Event Control Enable/disable the activation of the [Customer Input 4] event. If set to “disabled,” the event will not be annunciated. This implies that the event will not be placed in any active event list or in any event history list.
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BACnet Communications - Thermal Management Products Table 90 Liebert CRV™ - Glossary (continued) Data Label Data Description Fan Hours Exceeded Operating hours for the unit blower fan have exceeded the threshold. Fan Speed Manual Set Point Manual fan speed. Fan Speed Maximum Set Point Maximum fan speed. Fan Speed Minimum Set Point Minimum fan speed. Fan Speed Proportional Band Temperature control band above the temperature set point calculated for proportional fan speed control.
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BACnet Communications - Thermal Management Products Table 90 Liebert CRV™ - Glossary (continued) Data Label Data Description Remote Sensor Temperature Calculation Calculation method applied to temperature readings from the remote sensors to determine a single temperature measurement value for cooling and heating control. Remote Sensor Temperature Air temperature as measured by remote sensor. Return Air Over Temp Threshold Threshold value used in the [Return Air Over Temperature] event.
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BACnet Communications - Thermal Management Products Table 90 Liebert CRV™ - Glossary (continued) Data Label Data Description System Operating State Current operating state of the system. System Status The operating status for the system Top Fan Issue The top fan is not operating within its normal parameters. Unit Off Unit was turned off. Unit On Unit was turned on. Unit Partial Shutdown An event has occurred requiring some system components to be shutdown and disabled.
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BACnet Communications - Thermal Management Products Table 91 Liebert HPC™ - Binary Data Controller Data Label Compressors Compressor Not Stopping Compressor Superheat Over Threshold Compressors - Compressor 1 Compressor Hours Exceeded Compressor High Head Pressure Compressor Low Suction Pressure Compressor Thermal Overload Compressor Low Oil Pressure Compressor Loss of Differential Pressure Compressor Capacity Reduced Compressor Capacity Normal Compressor Contactor Issue Compressors - Compressor 2 Compre
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BACnet Communications - Thermal Management Products Table 91 Liebert HPC™ - Binary Data (continued) Controller Data Label Fluid - Supply (Outlet) Fluid Supply Fluid Over Temp Supply Fluid Under Temp Supply Fluid Temp Sensor Issue Pumps All Pumps Loss of Flow Pump 1 Loss of Flow Pump 2 Loss of Flow Pumps - Pump 1 Pump Hours Exceeded Pumps - Pump 2 Pump Hours Exceeded Free Cooling Free Cooling Valve Hours Exceeded Ambient Air Temperature Sensor Issue Evaporators Evaporator Inlet Temp Sensor Issue Evaporato
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BACnet Communications - Thermal Management Products Table 92 Liebert HPC™ - Analog Data Controller Liebert iCOM® v4 Data Label Compressors Compressor Shut Down - Ambient Air Low Temp Limit Compressor Shut Down - Ambient Air Low Temp Limit Compressors - Compressor 1 Compressor Head Pressure Compressor Hours Compressor Hours Threshold Compressors - Compressor 2 Compressor Head Pressure Compressor Hours Compressor Hours Threshold Compressors - Compressor 4 Compressor Head Pressure Compressor Hours Compresso
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BACnet Communications - Thermal Management Products Table 92 Liebert HPC™ - Analog Data (continued) Controller Liebert iCOM® v4 Data Label Free Cooling Free Cooling External Temperature Delta Free Cooling External Temperature Delta Free Cooling Valve Open Position Free Cooling Valve Hours Free Cooling Valve Hours Threshold Evaporators Evaporator Return Fluid Temperature Evaporator Return Fluid Temperature Evaporator Return Fluid Over Temp Alarm Threshold Evaporator Return Fluid Over Temp Alarm Threshold
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BACnet Communications - Thermal Management Products Table 93 Liebert HPC™ - Multistate Data Controller Liebert iCOM® v4 Data Label Object Type Instance Object Name Extra Notes Access Notes 1, 2 Protocol MultiState_Value 1 4553_1 RD 1 = UPS 2 = AIR 3 = PMP 4 = PDU Compressor State MultiState_Value 12 5264_1_1 RD 1 = off 2 = on 1, 2 Compressor Capacity Control State MultiState_Value 13 5265_1_1 RD 1 = off 2 = on 1, 2 Compressor State MultiState_Value 24 5264_1_2 RD 1 = off 2
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BACnet Communications - Thermal Management Products Table 94 Number Extra Notes Description 1 This point is supported on: FDM v32 iCOM Controller Version 2.02.xxx 2 This point is supported on: FDM v101 iCOM Controller Version 2.03.xxx Table 95 Liebert HPC™ - Glossary Data Label Data Description Actual Supply Fluid Temp Set Point The actual set point value being used for the desired fluid temperature at the outlet of the unit.
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BACnet Communications - Thermal Management Products Table 95 Liebert HPC™ - Glossary (continued) Data Label Data Description Customer Input 1 Customer input 1. Customer Input 2 Customer input 2. Customer Input 3 Customer input 3. Customer Input 4 Customer input 4. EEV Unspecified General Event One or more unspecified electronic expansion valve events active. See local unit display for further details.
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BACnet Communications - Thermal Management Products Table 95 Liebert HPC™ - Glossary (continued) Data Label Data Description Pump Hours Threshold Threshold value used in the [Pump Hours Exceeded] event. Pump Hours Operating hours for pump since last reset of this value. RAM Battery Issue RAM or RAM backup battery is not operating correctly. Reheat Utilization Present reheating utilization expressed as a percentage of the maximum rated capacity.
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BACnet Communications - Thermal Management Products Table 96 Liebert XDP™, Liebert XDC™ - Binary Data Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Ext Air Sensor A Over Temperature Binary_Value 1 4601_1 RD — Ext Air Sensor B Over Temperature Binary_Value 2 4604_1 RD — Ext Air Sensor A Under Temperature Binary_Value 3 4608_1 RD — Data Label External Air Ext Air Sensor B Under Temperature Binary_Value 4 4611_1 RD — Ext Dew Point Over Temperature B
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BACnet Communications - Thermal Management Products Table 96 Liebert XDP™, Liebert XDC™ - Binary Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Ext System Condensation Detected Binary_Value 112 5492_1 RD — Ext Fan Issue Binary_Value 113 5495_1 RD — Sensor Issue Binary_Value 114 5060_1 RD — Ext Remote Shutdown Binary_Value 115 5500_1 RD — Hot Aisle Temp Out of Range Binary_Value 116 5505_1 RD — Cold Aisle Temp Out of Range Bin
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BACnet Communications - Thermal Management Products Table 97 Liebert XDP™, Liebert XDC™ - Analog Data Controller Liebert iCOM® v4 Object Type Instance Object Name Dew Point Temperature Analog_Value 1 Minimum Room Temperature Set Point Analog_Value 2 Ext Air Sensor A Temperature Analog_Value Ext Air Sensor A Humidity Ext Air Sensor A Dew Point Temp Access Notes 4867_1 RD — 4709_1 RW — 3 4594_1 RD — Analog_Value 4 4595_1 RD — Analog_Value 5 4596_1 RD — Ext Air Sensor B Tem
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BACnet Communications - Thermal Management Products Table 97 Liebert XDP™, Liebert XDC™ - Analog Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Notes Analog_Value 143 5059_1_4 RD — Cooling Capacity Analog_Value 154 5490_2 RD — Cooling Capacity Analog_Value 155 5491_2 RD — Hot Aisle Over Temp Threshold Analog_Value 156 5503_2 RW — Hot Aisle Under Temp Threshold Analog_Value 157 5504_2 RW — Cold Aisle Over Temp Threshold Analog_Value
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data Controller Liebert iCOM® v4 Object Type Instance Object Name Access Ext Air Sensor A Over Temp - Event Control Multistate_Value 1 4602_1 RW 1 = Disabled 2 = Enabled Ext Air Sensor A Over Temp - Event Type Multistate_Value 2 4603_1 RW 1 = Message 2 = Warning 3 = Alarm Ext Air Sensor B Over Temp - Event Control Multistate_Value 3 4605_1 RW 1 = Disabled 2 = Enabled Ext Air Sensor B
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Supply Refrig Over Temp - Event Control Multistate_Value 41 4635_1 RD 1 = Disabled 2 = Enabled Supply Refrig Over Temp - Event Type Multistate_Value 42 4636_1 RW 1 = Message 2 = Warning 3 = Alarm Supply Refrig Under Temp - Event Control Multistate_Value 43 4638_1 RD 1 = Disabled 2 = Enabled Supply Ref
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Compressor 1A State Multistate_Value 91 4665_1 RD 1 = Off / 2 = On Compressor 1B State Multistate_Value 92 4666_1 RD 1 = Off / 2 = On Compressor 2A State Multistate_Value 93 4667_1 RD 1 = Off / 2 = On Compressor 2B State Multistate_Value 94 4668_1 RD 1 = Off / 2 = On Compressor 1A High Head Pres
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Multistate_Value 114 4698_1 RW 1 = Message 2 = Warning 3 = Alarm Hot Gas Solenoid Valve 1 Position Multistate_Value 125 4701_1 RD 1 = Closed 2 = Open Hot Gas Solenoid Valve 2 Position Multistate_Value 126 4702_1 RD 1 = Closed 2 = Open Communication Status Multistate_Value 137 5486_1 RD 1 = Connect
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Fan Button Control Multistate_Value 175 5488_2 RW 1 = Enabled 2 = Disabled Visual ID Control Multistate_Value 176 5489_2 RW 1 = Disabled 2 = Enabled Ext System Condensation Detected - Event Control Multistate_Value 177 5493_2 RW 1 = Disabled 2 = Enabled Ext System Condensation Detected - Event Type Mu
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Sensor Issue - Event Type Multistate_Value 812 5499_20 RW 1 = Message 2 = Warning 3 = Alarm Ext Remote Shutdown - Event Control Multistate_Value 813 5501_20 RW 1 = Disabled 2 = Enabled Ext Remote Shutdown - Event Type Multistate_Value 814 5502_20 RW 1 = Message 2 = Warning 3 = Alarm Fan State Multist
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BACnet Communications - Thermal Management Products Table 98 Liebert XDP™, Liebert XDC™ - Multistate Data (continued) Controller Liebert iCOM® v4 Object Type Instance Object Name Access Smoke Detected - Event Type Multistate_Value 859 4722_1 RW 1 = Message 2 = Warning 3 = Alarm Water Under Floor - Event Control Multistate_Value 860 4724_1 RW 1 = Disabled 2 = Enabled Water Under Floor - Event Type Multistate_Value 861 4725_1 RW 1 = Message 2 = Warning 3 = Alarm Service Required - Even
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BACnet Communications - Thermal Management Products Table 99 Liebert XDP™, Liebert XDC™ - Glossary (continued) Data Label Data Description Cold Aisle Temp Out of Range The air temperature in the cold aisle is either above [Cold Aisle Over Temp Threshold] or below [Cold Aisle Under Temp Threshold]. Cold Aisle Under Temp Threshold Lower threshold value used in the [Cold Aisle Temp Out of Range] event. Communication Status Communication status of remote device.
PAGE 330
BACnet Communications - Thermal Management Products Table 99 Liebert XDP™, Liebert XDC™ - Glossary (continued) Data Label Data Description Compressor 2B Short Cycle - Event Control Enable/disable the activation of the [Compressor 2B Short Cycle] event. If set to “disabled,” the event will not be annunciated. This implies that the event will not be placed in any active event list or in any event history list.
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BACnet Communications - Thermal Management Products Table 99 Liebert XDP™, Liebert XDC™ - Glossary (continued) Data Label Data Description Ext Air Sensor B Temperature Air temperature as measured by external air sensor B. Ext Air Sensor B Under Temp - Event Control Enable/disable the activation of the [Ext Air Sensor B Under Temperature] event. If set to “disabled,” the event will not be annunciated.
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BACnet Communications - Thermal Management Products Table 99 Liebert XDP™, Liebert XDC™ - Glossary (continued) Data Label Data Description Hot Gas Valve 2 Open Position Hot gas valve 2 open position. Maintenance Completed Maintenance has been completed on the unit. Maintenance Due The calculated maintenance date has been reached. Maintenance Ramp The ratio of operations performed to the calculated operations available between maintenance intervals.
PAGE 333
BACnet Communications - Thermal Management Products Table 99 Liebert XDP™, Liebert XDC™ - Glossary (continued) Data Label Data Description Shutdown - Loss Of Power System lost power. This event becomes active when the unit is powered on following an unexpected loss of power. Smoke Detected - Event Control Enable/disable the activation of the [Smoke Detected] event. If set to “disabled,” the event will not be annunciated.
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BACnet Communications - Thermal Management Products Table 99 Liebert XDP™, Liebert XDC™ - Glossary (continued) Data Label Data Description Supply Refrig Temp Sensor Issue - Event Type The event type for the [Supply Refrigerant Temp Sensor Issue] event. Supply Refrig Under Temp Control - Event Enable/disable the activation of the [Supply Refrigerant Under Temp] event. If set to “disabled,” the event will not be annunciated.
PAGE 335
BACnet Communications - Thermal Management Products Table 100 Liebert DataMate™, Liebert Mini-Mate2™ - MM2 Controller Liebert Products MM2 Liebert DataMate Liebert Mini-Mate2 BACnet Instance Notes Temperature BS01_x — Humidity BS02_x — Cooling BS03_x 1=On / 0=Off Heating BS04_x 1=On / 0=Off Data Description Status Points (View) Humidification BS05_x 1=On / 0=Off Dehumidification BS06_x 1=On / 0=Off Econ-o-Cycle BS07_x 1=On / 0=Off Stages BS08_x — % Capacity BS09_x — Unit On/O
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BACnet Communications - Thermal Management Products Table 101 Liebert Mini-Mate2™ 8 Ton - L8T Controller Liebert Products Data Description L8T Liebert Mini-Mate2 8 Ton BACnet Instance Notes Status Points (View) Temperature BS01_x — Humidity BS02_x — Cooling BS03_x 1=On / 0=Off Heating BS04_x 1=On / 0=Off Humidification BS05_x 1=On / 0=Off De-humidification BS06_x 1=On / 0=Off Econ-O-Cycle BS07_x 1=On / 0=Off Stages BS08_x — % Capacity BS09_x — Unit Status (On / Off) BS18_x 1
PAGE 337
BACnet Communications - UPS Systems 4.
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BACnet Communications - UPS Systems Table 102 Liebert APM™, Liebert NXC™, Liebert NXR™ - Binary Data (continued) Data Label Object Type Instance Object Name Access Notes Power Sub Module Fault Binary_Value 51 5158_1 RD Active on Alarm Battery Discharging Binary_Value 52 4168_1 RD Active on Alarm UPS Output on Bypass Binary_Value 53 4298_1 RD Active on Alarm Output Load on Maint.
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BACnet Communications - UPS Systems Table 103 Liebert APM™, Liebert NXC™, Liebert NXR™ - Analog Data (continued) Data Label Object Type Instance Object Name Access Notes System Output RMS Current Phs B Analog_Value 57 4205_1 RD Units: A AC System Output RMS Current Phs C Analog_Value 58 4206_1 RD Units: A AC System Output Frequency Analog_Value 59 4207_1 RD Units: Hz System Output Voltage RMS A-B Analog_Value 60 4201_1 RD Units: VAC System Output Voltage RMS B-C Analog_Value
PAGE 340
BACnet Communications - UPS Systems Table 105 Liebert APM™, Liebert NXC™, Liebert NXR™ - Glossary Data Label Data Description Battery Auto Test In Progress Automatic battery test is in progress Battery Capacity Low Battery capacity is low Battery Charging Error The battery is not charging properly Battery Charging Inhibited Battery charging is inhibited due to an external inhibit signal Battery Converter Failure Battery converter failure.
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BACnet Communications - UPS Systems Table 105 Liebert APM™, Liebert NXC™, Liebert NXR™ - Glossary (continued) Data Label Data Description Load Sharing Fault Difference between any phase inverter current of unit and the relevant average output current of parallel system is more than a specific percent of nominal current.
PAGE 342
BACnet Communications - UPS Systems Table 105 Liebert APM™, Liebert NXC™, Liebert NXR™ - Glossary (continued) Data Label Data Description System Output Pct Power Phase B The system output power on phase B as a percentage of the rated capacity System Output Pct Power Phase C The system output power on phase C as a percentage of the rated capacity System Output Power Factor Phs A The system output power factor of phase A System Output Power Factor Phs B The system output power factor of phase B Sys
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BACnet Communications - UPS Systems Table 106 Liebert APS™ - Binary Data Object Type Instance Object Name Access Notes Rectifier Failure Binary_Value 1 4295_1 RD Active on Alarm System Input Power Problem Binary_Value 2 4122_1 RD Active on Alarm System Input Current Imbalance Binary_Value 3 4382_1 RD Active on Alarm Binary_Value 14 4298_1 RD Active on Alarm Data Label Input Bypass UPS Output on Bypass Output Load on Maint.
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BACnet Communications - UPS Systems Table 106 Liebert APS™ - Binary Data (continued) Data Label Object Type Instance Object Name Access Notes PowerModule 1 Power Module Fan Fault Binary_Value 99 5838_1 RD Active on Alarm Power Module Over Temperature Binary_Value 100 5839_1 RD Active on Alarm Power Module Shutdown - Over Temperature Binary_Value 101 5840_1 RD Active on Alarm Binary_Value 112 5838_2 RD Active on Alarm PowerModule 2 Power Module Fan Fault Power Module Over Temper
PAGE 345
BACnet Communications - UPS Systems Table 107 Liebert APS™ - Analog Data Object Type Instance Object Name Access Notes System Input RMS L1-N Analog_Value 1 4096_1 RD Units: VAC System Input RMS L2-N Analog_Value 2 4098_1 RD Units: VAC System Input RMS L3-N Analog_Value 3 4100_1 RD Units: VAC System Input RMS L1-L2 Analog_Value 4 4097_1 RD Units: VAC System Input RMS L2-L3 Analog_Value 5 4099_1 RD Units: VAC System Input RMS L3-L1 Analog_Value 6 4101_1 RD Units: VAC
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BACnet Communications - UPS Systems Table 107 Liebert APS™ - Analog Data (continued) Data Label Object Type Instance Object Name Access Notes System Output Apparent Power L2 Analog_Value 71 5869_1 RD Units: kVA System Output Power Analog_Value 72 4208_1 RD Units: kW System Output Power L1 Analog_Value 73 5859_1 RD Units: kW System Output Power L2 Analog_Value 74 5860_1 RD Units: kW System Output Pct Power L1 Analog_Value 75 4223_1 RD Units: % System Output Pct Power L2
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BACnet Communications - UPS Systems Table 108 Liebert APS™ - Multistate Data Data Label Object Type Instance Object Name Access Notes Protocol Server Class MultiState_Value 1 4553_1 RD 1 = UPS 2 = AIR 3 = PMP 4 = PDU MultiState_Value 12 4737_1 RD 1 = Fail 2 = Marginal Low 3 = Normal 4 = Marginal High Bypass Bypass Qualification Status Battery UPS Battery Status MultiState_Value 23 4871_1 RD Battery is MultiState_Value 24 5799_1 RD Automatic Battery Test MultiState_Value 25 5803_
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BACnet Communications - UPS Systems Table 108 Liebert APS™ - Multistate Data (continued) Data Label Auto Restart Minimum Battery Setting Object Type MultiState_Value Instance Object Name Access 64 5832_1 RW Notes 1 = 0% 2 = 10% 3 = 20% 4 = 30% 5 = 40% 6 = 50% 7 = 60% 8 = 70% 9 = 80% 10 = 90% PowerModule 1 Module Operating Status MultiState_Value 75 5833_1 RD Inverter Status MultiState_Value 76 5864_1 RD 1 = Normal 2 = Warning 3 = Alarm 4 = Fault 1 = Inverter Inactive 2 = Inverter Active
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BACnet Communications - UPS Systems Table 109 Liebert APS™ - Glossary Data Label Data Description Accumulated Discharge Time The highest accumulated battery discharge time among installed battery modules. Accumulated Discharge Time Total accumulated discharge time for the Battery Module since it was made. Auto Battery Test Interval The time between automatic battery tests.
PAGE 350
BACnet Communications - UPS Systems Table 109 Liebert APS™ - Glossary (continued) Data Label Data Description DC Bus Current The current at the battery input terminals. In charging mode, the current will be a positive value. In discharging mode, the current will be a negative value Frame Capacity Total system capacity supported when the maximum number of power modules are installed. Frame Fan Fault The frame top outlet fan has failed.
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BACnet Communications - UPS Systems Table 109 Liebert APS™ - Glossary (continued) Data Label Data Description Output Load on Maint. Bypass The output power is supplied by the maintenance bypass Output Off Pending Output off pending - shutdown imminent. Output On Delay When a value is written to this point the output will be turned on after the specified time has elapsed. Output Overload An overload exists on the output.
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BACnet Communications - UPS Systems Table 109 Liebert APS™ - Glossary (continued) Data Label Data Description System Output Off The system output is off System Output Pct Power L1 The system output power on Line 1 as a percentage of the rated capacity System Output Pct Power L2 The system output power on Line 2 as a percentage of the rated capacity System Output Power Factor L1 The system output power factor of Line 1 System Output Power Factor L2 The system output power factor of Line 2 System
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BACnet Communications - UPS Systems Table 110 Liebert NXL™- 60Hz, UL version (Model 40) - Binary Data Object Type Instance Object Name Access Notes System Input Power Problem Binary_Value 1 4122_1 RD Active on Alarm SMS, 1+N, N+1 System Input Phs Rotation Error Binary_Value 2 4146_1 RD Active on Alarm SMS, 1+N, N+1 System Input Current Limit Binary_Value 3 4147_1 RD Active on Alarm SMS, 1+N, N+1 System Input Current Imbalance Binary_Value 4 4382_1 RD Active on Alarm SMS, 1+N
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BACnet Communications - UPS Systems Table 110 Liebert NXL™- 60Hz, UL version (Model 40) - Binary Data (continued) Object Type Instance Object Name Access Notes Battery Self Test Binary_Value 46 4741_1 RD Active on Alarm SMS, 1+N, N+1 Main Battery Disconnect Open Binary_Value 47 4173_1 RD Active on Alarm SMS, 1+N, N+1 Battery Low Binary_Value 48 4162_1 RD Active on Alarm SMS, 1+N, N+1 Battery Temperature Sensor Fault Binary_Value 49 4174_1 RD Active on Alarm SMS, 1+N, N+1 Ba
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BACnet Communications - UPS Systems Table 110 Liebert NXL™- 60Hz, UL version (Model 40) - Binary Data (continued) Object Type Instance Object Name Access Notes Output Amp Over User Limit-Phs A Binary_Value 91 4286_1 RD Active on Alarm SMS, 1+N, SCC Output Amp Over User Limit-Phs B Binary_Value 92 4287_1 RD Active on Alarm SMS, 1+N, SCC Output Amp Over User Limit-Phs C Binary_Value 93 4288_1 RD Active on Alarm SMS, 1+N, SCC System Output Fault Binary_Value 94 4389_1 RD Active
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BACnet Communications - UPS Systems Table 110 Liebert NXL™- 60Hz, UL version (Model 40) - Binary Data (continued) Object Type Instance Object Name Access Notes Input Contact 09 Binary_Value 146 4278_1 RD Active on Alarm SMS, 1+N, N+1, SCC Input Contact 10 Binary_Value 147 4279_1 RD Active on Alarm SMS, 1+N, N+1, SCC Input Contact 11 Binary_Value 148 4280_1 RD Active on Alarm SMS, 1+N, N+1, SCC Input Contact 12 Binary_Value 149 4281_1 RD Active on Alarm SMS, 1+N, N+1, SCC In
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BACnet Communications - UPS Systems Table 110 Liebert NXL™- 60Hz, UL version (Model 40) - Binary Data (continued) Object Type Instance Object Name Access Notes Input Filter Cycle Lock Binary_Value 192 4755_1 RD Active on Alarm SMS, 1+N, N+1 EMO Shutdown Binary_Value 193 5769_1 RD Active on Alarm SMS, 1+N, N+1, SCC Service Code Active Binary_Value 194 4756_1 RD Active on Alarm SMS, 1+N, N+1 LBS Active Binary_Value 195 4757_1 RD Active on Alarm Deprecated LBS Inhibited Binary
PAGE 358
BACnet Communications - UPS Systems Table 111 Liebert NXL™ - 60Hz, UL version (Model 40) - Analog Data Object Type Instance Object Name Access Notes System Input RMS A-B Analog_Value 1 4097_1 RD Units: VAC SMS, 1+N, N+1 System Input RMS B-C Analog_Value 2 4099_1 RD Units: VAC SMS, 1+N, N+1 System Input RMS C-A Analog_Value 3 4101_1 RD Units: VAC SMS, 1+N, N+1 System Input RMS Current Phase A Analog_Value 4 4113_1 RD Units: A AC SMS, 1+N, N+1 System Input RMS Current Phase
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BACnet Communications - UPS Systems Table 111 Liebert NXL™ - 60Hz, UL version (Model 40) - Analog Data (continued) Data Label Object Type Instance Object Name Access Notes Battery Volts for Cabinet 8 Analog_Value 45 4155_1_8 RD Units: VDC SMS, 1+N, N+1 Battery Temperature for Cabinet 1 Analog_Value 46 4156_1_1 RD Units: deg C SMS, 1+N, N+1 Battery Temperature for Cabinet 1 Analog_Value 10046 4156_1_1_deg_F RD Units: deg F SMS, 1+N, N+1 Battery Temperature for Cabinet 2 Analog_
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BACnet Communications - UPS Systems Table 111 Liebert NXL™ - 60Hz, UL version (Model 40) - Analog Data (continued) Object Type Instance Object Name Access Notes DC Bus Voltage Analog_Value 72 4148_1 RD Units: VDC SMS, 1+N, N+1 DC Bus Current Analog_Value 73 4149_1 RD Units: A DC SMS, 1+N, N+1 System Output Voltage RMS A-B Analog_Value 84 4201_1 RD Units: VAC SMS, 1+N, N+1, SCC System Output Voltage RMS B-C Analog_Value 85 4202_1 RD Units: VAC SMS, 1+N, N+1, SCC System Outp
PAGE 361
BACnet Communications - UPS Systems Table 111 Liebert NXL™ - 60Hz, UL version (Model 40) - Analog Data (continued) Object Type Instance Object Name Access Notes Inlet Air Temperature Analog_Value 126 4291_1 RD Units: deg C SMS, 1+N, N+1 Inlet Air Temperature Analog_Value 10126 4291_1_deg_F RD Units: deg F SMS, 1+N, N+1 Total System Operating Time Analog_Value 127 4292_1 RD Units: hr CE models only System Date and Time Analog_Value 128 4293_1 RW — SMS, 1+N, N+1, SCC Total k
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BACnet Communications - UPS Systems Table 111 Liebert NXL™ - 60Hz, UL version (Model 40) - Analog Data (continued) Object Type Instance Object Name Access Notes Liebert NXL Type Multi-module System Output Voltage RMS A-B Analog_Value 177 4801_1 RD Units: VAC 1+N, SCC Multi-module System Output Voltage RMS B-C Analog_Value 178 4802_1 RD Units: VAC 1+N, SCC Multi-module System Output Voltage RMS C-A Analog_Value 179 4803_1 RD Units: VAC 1+N, SCC Multi-module System Output Voltage
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BACnet Communications - UPS Systems Table 111 Liebert NXL™ - 60Hz, UL version (Model 40) - Analog Data (continued) Object Type Instance Object Name Access Notes Liebert NXL Type MMS Module Total kW Output Analog_Value 226 4861_2 RD Units: kW SCC MMS Module Total kVA Output Analog_Value 227 4862_2 RD Units: kVA SCC MMS Module DC Bus Voltage Analog_Value 228 4863_2 RD Units: VDC SCC MMS Module Battery Current Analog_Value 229 4864_2 RD Units: A DC SCC MMS Module Battery Tim
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BACnet Communications - UPS Systems Table 112 Liebert NXL™ - 60Hz, UL version (Model 40) - Multistate Data Data Label Input Object Type Object Name Instance Liebert NXL Type Access Notes SMS, 1+N, N+1 MultiState_Value 1 4735_1 RD 1 = Fail 2 = Marginal Low 3 = Normal 4 = Marginal High Static Bypass Switch MultiState_Value 12 4736_1 RD 1 = off SMS, 1+N, SCC Bypass Qualification Status MultiState_Value 13 4737_1 RD 1 = Fail 2 = Marginal Low 3 = Normal 4 = Marginal High SMS, 1+N, SCC
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BACnet Communications - UPS Systems Table 112 Liebert NXL™ - 60Hz, UL version (Model 40) - Multistate Data (continued) Data Label System Object Type Object Name Instance Access UPS Module Type MultiState_Value 84 4303_1 RD Bypass Input Wire Configuration MultiState_Value 85 4304_1 RD Output Wire Configuration MultiState_Value 86 4305_1 RD Static Switch Type MultiState_Value 87 4306_1 RD Configuration Description MultiState_Value 88 4751_1 RD UPS System Output Source MultiStat
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BACnet Communications - UPS Systems Table 112 Liebert NXL™ - 60Hz, UL version (Model 40) - Multistate Data (continued) Data Label Object Type Object Name Instance Access System Status MultiState_Value 91 4123_1 RD UPS Output Source MultiState_Value 92 4872_1 RD Peak kW Demand Period MultiState_Value 93 5795_1 RD MultiState_Value 104 4266_1 RD Backfeed Breaker MultiState_Value 115 4764_1 RD SBS Load Disconnect MultiState_Value 116 4765_1 RD Input Breaker (CB1/RIB) MultiSta
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BACnet Communications - UPS Systems Table 112 Liebert NXL™ - 60Hz, UL version (Model 40) - Multistate Data (continued) Object Type Instance Object Name Access Module Output Breaker for Module 1 (MOB1) MultiState_Value 137 4836_1 RD Module Output Breaker for Module 2 (MOB2) MultiState_Value 138 4837_1 RD Module Output Breaker for Module 3 (MOB3) MultiState_Value 139 4838_1 RD Module Output Breaker for Module 4 (MOB4) MultiState_Value 140 4839_1 RD Module Output Breaker for Module 5 (
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BACnet Communications - UPS Systems Table 112 Liebert NXL™ - 60Hz, UL version (Model 40) - Multistate Data (continued) Object Type Instance Object Name Access SCC Event Summary MultiState_Value 156 4855_1 RD MMS UPS Battery Status MultiState_Value 157 4873_1 RD MMS UPS Output Source MultiState_Value 158 4874_1 RD MultiState_Value 169 4856_1 RD MMS Event Summary MultiState_Value 170 4857_1 RD MMS Module Inverter Status MultiState_Value 171 4858_1 RD MMS Module Output Voltage
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BACnet Communications - UPS Systems Table 112 Liebert NXL™ - 60Hz, UL version (Model 40) - Multistate Data (continued) Object Type Instance Object Name Access MMS Module Output Voltage Status MultiState_Value 277 4859_8 RD MMS Module Output Source MultiState_Value 278 4860_8 RD MultiState_Value 289 5448_1 RD MultiState_Value 290 5449_1 RD MultiState_Value 301 5454_1 RW 302 5455_1 RD 313 5461_1_1 RD 314 5462_1_1 RD 326 5461_1_2 RD Data Label Intelligent Paralleling Int
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary Data Label Data Description Auto Restart In Progress Auto restart is in progress Auto Restart Inhibited - Ext Auto restart inhibited due to an external signal Auto Retransfer Time Remaining Time remaining before an inverter overload or inverter fault can be cleared and auto retransfer from the bypass to the inverter can take place Automatic Restart Failed Automatic restart failed Backfeed Breaker O
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Battery Time Remaining The calculated available time on battery Battery Total Discharge Time The cumulative battery discharge time Battery Volts at Main Disconnect The voltage between the positive and the negative battery terminals of the common battery disconnect Battery Volts for Cabinet The voltage between the positive and negative battery terminals of a ba
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Continuous Operation - ECO Mode This setting gives the user the ability to Enable/Disable ECO Mode continuous operation. Controls Reset Required A controls reset is required due to one or more critical settings changing DC Bus Current The current at the battery input terminals. In charging mode, the current will be a positive value.
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Intelligent Parallel Minimum Redundancy This is the minimum Number of Redundant Modules that the system will allow before bringing one or more modules back to normal operation and terminating Intelligent Paralleling.
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description MMS Module DC Bus Voltage DC bus voltage of this module in a multi-module system MMS Module Inverter Status Multi-module inverter status of this module (on/off) MMS Module Number MMS module number MMS Module Output Source Module output source in a multi-module system (normal/bypass/ maintenance bypass/off) MMS Module Output Voltage Status Output voltage stat
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description Multi-module System Output Voltage RMS A-N Multi-module system output RMS voltage between phase B and Neutral Multi-module System Output Voltage RMS B-C Multi-module system output RMS voltage between phases B and C Multi-module System Output Voltage RMS B-N Multi-module system output RMS voltage between phase B and Neutral Multi-module System Output Voltage RMS
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description SCC Event Summary Summary of any active user alarms or faults on the SCC Schedule Action - ECO Mode This setting gives the user the ability to choose the action of a schedule entry to be either stop or start. Schedule Day of Week - ECO Mode This setting represents the day of the week when an associated ECO Mode schedule entry action will take effect.
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BACnet Communications - UPS Systems Table 113 Liebert NXL™ - 60Hz, UL version (Model 40) - Glossary (continued) Data Label Data Description System Output Frequency The system output frequency System Output Low Power Factor The system output power factor is low, resulting in reduced output capacity System Output Maximum Amp Rating System output maximum amperage rating System Output Nominal Frequency The nominal (or rated) system output frequency System Output Nominal Voltage The nominal (or rated
PAGE 378
BACnet Communications - UPS Systems Table 114 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Binary Data Object Type Instance Object Name Access Notes System Input Power Problem Binary_Value 1 4122_1 RD Active on Alarm System Input Phs Rotation Error Binary_Value 2 4146_1 RD Active on Alarm System Input Current Limit Binary_Value 3 4147_1 RD Active on Alarm System Input Current Imbalance Binary_Value 4 4382_1 RD Active on Alarm Data Label Input Bypass Bypass Not Available
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BACnet Communications - UPS Systems Table 114 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Binary Data (continued) Object Type Instance Object Name Access Notes Binary_Value 74 5563_1 RD Active on Alarm Binary_Value 85 4213_1 RD Active on Alarm System Shutdown - REPO Binary_Value 86 4214_1 RD Active on Alarm System Output Low Power Factor Binary_Value 88 4230_1 RD Active on Alarm Output Amp Over User Limit-Phs A Binary_Value 89 4286_1 RD Active on Alarm Output Amp Ov
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BACnet Communications - UPS Systems Table 114 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Binary Data (continued) Data Label Object Type Instance Object Name Access Notes System System Fan Failure - Redundant Binary_Value 174 4749_1 RD Active on Alarm Multiple Fan Failure Binary_Value 175 4750_1 RD Active on Alarm Internal Communications Failure Binary_Value 176 4300_1 RD Active on Alarm UPS Output on Bypass Binary_Value 177 4298_1 RD Active on Alarm Output Load on Mai
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BACnet Communications - UPS Systems Table 114 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Binary Data (continued) Data Label Object Type Instance Object Name Access Notes Binary_Value 251 5567_1 RD Active on Alarm Binary_Value 262 5456_1 RD Active on Alarm Intelligent Paralleling IP Inhibit ECO Mode ECO Mode Active ECO Mode Suspended Binary_Value 263 5457_1 RD Active on Alarm Excess ECO Suspends Binary_Value 264 5458_1 RD Active on Alarm 375 Liebert® IntelliSlot® Modbus
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BACnet Communications - UPS Systems Table 115 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Analog Data Object Type Instance Object Name Access Notes System Input RMS A-B Analog_Value 1 4097_1 RD Units: VAC System Input RMS B-C Analog_Value 2 4099_1 RD Units: VAC System Input RMS C-A Analog_Value 3 4101_1 RD Units: VAC System Input RMS Current Phase A Analog_Value 4 4113_1 RD Units: A AC Data Label Input System Input RMS Current Phase B Analog_Value 5 4114_1 RD Unit
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BACnet Communications - UPS Systems Table 115 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Analog Data (continued) Object Type Instance Object Name Access Notes DC Bus Voltage Analog_Value 66 4148_1 RD Units: VDC DC Bus Current Analog_Value 67 4149_1 RD Units: A DC Analog_Value 78 4201_1 RD Units: VAC Data Label DC Bus Output System Output Voltage RMS A-B System Output Voltage RMS B-C Analog_Value 79 4202_1 RD Units: VAC System Output Voltage RMS C-A Analog_Value 80 4
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BACnet Communications - UPS Systems Table 115 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Analog Data (continued) Data Label Object Type Instance Object Name Access Notes Analog_Value 155 4801_1 RD Units: VAC MultiModule Multi-module System Output Voltage RMS A-B Multi-module System Output Voltage RMS B-C Analog_Value 156 4802_1 RD Units: VAC Multi-module System Output Voltage RMS C-A Analog_Value 157 4803_1 RD Units: VAC Multi-module System Output Voltage RMS A-N Analog_Val
PAGE 385
BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data Data Label Object Type Instance Object Name Access Notes Input MultiState_Value 1 4735_1 RD 1 = Fail 2 = Marginal Low 3 = Normal 4 = Marginal High Static Bypass Switch MultiState_Value 12 4736_1 RD 1 = off 2 = on Bypass Qualification Status MultiState_Value 13 4737_1 RD 1 = Fail 2 = Marginal Low 3 = Normal 4 = Marginal High Input Qualification Status Bypass Battery UPS B
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BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data (continued) Data Label Object Type Instance Object Name Access Notes RD 1 = Single Module System 2 = Module (1 + 1) 3 = Module (1 + N) 4 = Module (N + 1) 5 = System Control Cabinet 6 = Main Static Switch RD 1 = Two Wire (single phase + return) 2 = Two Wire (2 phase, no neutral) 3 = Three Wire (2 phase + neutral) 4 = Three Wire (3 phase, no neutral) 5 = Four Wire (3 phases + neutral) R
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BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data (continued) Data Label Object Type Instance Object Name Access Notes Configuration Description MultiState_Value 91 4751_1 RD 1 = Single Module System 33 2 = Single Module System 34 3 = Single Module System 44 4 = 1+1 33 5 = 1+1 34 6 = 1+1 44 7 = 1+N 33 8 = 1+N 34 9 = 1+N 44 10 = N+1 33 11 = N+1 34 12 = N+1 44 13 = SCC w/ Continuous Duty SS 33 14 = SCC w/ Continuous Duty SS 44 15 = SC
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BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data (continued) Object Type Instance Object Name Access Notes MultiState_Value 109 4266_1 RD 1 = Not Installed 2 = Installed Backfeed Breaker MultiState_Value 120 4764_1 RD 1 = Open 2 = Close 3 = Not Installed SBS Load Disconnect MultiState_Value 121 4765_1 RD 1 = Open 2 = Close 3 = Not Installed Input Breaker MultiState_Value 122 4766_1 RD 1 = Open 2 = Close 3 = Not Inst
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BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data (continued) Object Type Instance Object Name Access Notes Module Output Breaker for Module 7 MultiState_Value 147 4842_1 RD 1 = Open 2 = Close 3 = Not Installed Module Output Breaker for Module 8 MultiState_Value 148 4843_1 RD 1 = Open 2 = Close 3 = Not Installed Bypass Isolation Breaker for Module 1 MultiState_Value 149 4844_1 RD 1 = Open 2 = Close 3 = Not Installed Bypa
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BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data (continued) Object Type Instance Object Name Access Notes MMS Inter-Module Comm Status MultiState_Value 173 4856_1 RD 1 = Failed 2 = Normal MMS Event Summary MultiState_Value 174 4857_1 RD 1 = None 2 = Alarm 3 = Fault MMS Module Inverter Status MultiState_Value 175 4858_1 RD 1 = off 2 = on MMS Module Output Voltage Status MultiState_Value 176 4859_1 RD 1 = Fail 2 = M
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BACnet Communications - UPS Systems Table 116 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Multistate Data (continued) Object Type Instance Object Name Access Notes ECO Mode Operation State MultiState_Value 304 5454_1 RW 1 = disabled 2 = enabled Continuous Operation - ECO Mode MultiState_Value 305 5455_1 RD 1 = disabled 2 = enabled Schedule Operation State - ECO Mode MultiState_Value 316 5461_1_1 RD 1 = disabled 2 = enabled Schedule Action - ECO Mode MultiState_Value 317 54
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary Data Label Data Description Auto Restart In Progress Auto restart is in progress Auto Restart Inhibited - Ext Auto restart inhibited due to an external signal Auto Retransfer Time Remaining Time remaining before an inverter overload or inverter fault can be cleared and auto retransfer from the bypass to the inverter can take place Automatic Restart Failed Automatic restart failed Backfeed Br
PAGE 393
BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description Battery Volts at Main Disconnect The voltage between the positive and the negative battery terminals of the common battery disconnect Battery Volts for Cabinet The voltage between the positive and negative battery terminals of a battery cabinet Bypass - Manual Rexfr Inhibited Manual transfer from bypass to inverter is inhibited.
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description ECO Mode Operation State This setting is used to enable or disable ECO Mode. ECO Mode Suspended ECO Mode session is suspended. EMO Shutdown An Emergency Module Off command has been detected. Equipment Temperature Sensor Fail One or more temperature sensors report a temperature outside of the range of expected operation.
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description Inverter Overload Phase C Inverter is operating with an overload on phase C Inverter Overload Time Remaining The calculated time remaining before inverter shutdown Inverter Shutdown - Overload The inverter has shutdown due to a sustained overload Inverter Static Switch SCR Short The system has detected a short across one or more inverter static switch S
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description MMS Output Power The sum total power of all system output modules MMS Overload Multi-module system overload MMS UPS Output Source Multi-module UPS output source Module Output Breaker for Module 1 Module output breaker for module 1 Module Output Breaker for Module 2 Module output breaker for module 2 Module Output Breaker for Module 3 Module output b
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description Program Input Contact 03 When the signal from [Program Input Contact 03] is active the function assigned to this contact is executed. Program Input Contact 04 When the signal from [Program Input Contact 04] is active the function assigned to this contact is executed.
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description Sum of MMS Output RMS Currents for Phase A The sum of the multi-module system output RMS currents for phase A Sum of MMS Output RMS Currents for Phase B The sum of the multi-module system output RMS currents for phase B Sum of MMS Output RMS Currents for Phase C The sum of the multi-module system output RMS currents for phase C System Breaker(s) Close Fa
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BACnet Communications - UPS Systems Table 117 Liebert NXL™ - 50 Hz, CE version (Models 48 and 49)—Glossary (continued) Data Label Data Description System Output Pct Pwr (VA) Phs B The system output apparent power on phase B as a percentage of the rated capacity System Output Pct Pwr (VA) Phs C The system output apparent power on phase C as a percentage of the rated capacity System Output Power Factor Phs A The system output power factor of phase A System Output Power Factor Phs B The system output
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