Application Note Issue Date May 25, 2004 Metasys Integrator Liebert Application lntroduction 3 Application Details 3 Component Requirements 10
Application Note Issue Date May 25, 2004 Metasys Integrator® Liebert® Application lntroduction 3 Application Details 3 Component Requirements 10 Vendor Contact Information 12 Design Considerations 13 Cable Connections 15 Cable Pinouts 15 Connecting to SiteLink/NIC Modules 17 Connecting the Cable 19 Metasys Integrator Unit Setup 21 Point Mapping Tables 26 Deluxe System/3 (MCCI Configuration) 26 Small Systems Controller (MCCI Configuration) 28 Liebert ECA2 Level 0 29 Liebert ECA2 Level 10 and Level 15 30 Liebert DCLAN Environmental Unit Level 0 and Level 0 with On/Off Control (L00, L0A, and LSM) 31 Liebert DCLAN Environmental Unit Small Systems Control (L0B) 32 Liebert DCLAN Environmental Unit Level 2, 3, 10, and 15 (L02, L03, L10, L1A, and LAM) 32 Liebert DCLAN Chiller - CW1, CW2, and CW3 34 Liebert DCLAN Chiller with Econocoil - CE1, CE2, and CE3 35 Liebert DCLAN Power Conditioning Unit 36 Liebert DCLAN UPS Series 300 and 600 37 Liebert DCLAN Series 600 Static Control Cabinet (SCC) 38 Liebert DCLAN Contact Closure Module (CCM) 39 Liebert SiteLink/NIC CCM Function Block 40 © 2004 Johnson Controls, Inc. Code No. LIT-6295370 1 www.johnsoncontrols.com Liebert SiteLink/NIC CSE Function Block 41 Liebert SiteLink/NIC CSU Function Block 42 Liebert SiteLink/NIC EDS Function Block 43 Liebert SiteLink/NIC L00 Function Block 45 Liebert SiteLink/NIC L0B Function Block 46 Liebert SiteLink/NIC L10 Function Block 47 Liebert SiteLink/NIC LAM and MM2 Function Blocks 49 Liebert SiteLink/NIC LSM Function Block 51 Liebert SiteLink/NIC MM4 Function Block 52 Liebert SiteLink/NIC MMS Function Block 54 Liebert SiteLink/NIC NPower IMP Function Block 55 Liebert SiteLink/NIC PMP Function Block 57 Liebert SiteLink/NIC RAC Function Block 58 Liebert SiteLink/NIC SC4 Function Block 59 Liebert SiteLink/NIC SCC Function Block 61 Liebert SiteLink/NIC SM3 Function Block 62 Liebert SiteLink/NIC SM4 Function Block 63 Liebert SiteLink/NIC SMS Function Block 65 Liebert SiteLink/NIC THM Function Block 66 Liebert SiteLink/NIC VCF Function Block 67 Liebert SiteLink/NIC VCM Function Block 68 Liebert SiteLink/NIC WDU Function Block 69 Metasys Network Setup 70 Mapping to a CS Object 70 Custom Integration 74 2 Metasys Integrator Liebert Application Application Note lntroduction Application Details This document explains Metasys Integrator® Liebert® applications. Use this document with the Metasys Integrator unit technical bulletins on the Johnson Controls® Product Information site (http://cgproducts.johnsoncontrols.com System Manuals > Integration > Metasys Integrator), which provide information on installing and commissioning the Metasys Integrator unit. For information on Liebert equipment, see Liebert documentation (obtainable from a Liebert representative). Note: If you are using a Universal Packaging Module (UPM) enclosure, you must install the Metasys Integrator unit 300 Series in a two high enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures for this application note. The Metasys Integrator unit allows Liebert equipment to become an integral part of the Metasys® and Metasys Companion Networks. After a Liebert Multi-Channel Communications Interface (MCCI), Environmental Communication Adapter (ECA2), DCLAN BMS, SiteLinkTM Module, or Open Comms Network Interface Card (NIC) is connected to a Metasys or Companion Network via the Metasys Integrator unit, each of its Information Gathering Modules (IGMs) has access to the full complement of Metasys Building Automation System (BAS) features, including Change-of-State (COS) monitoring, alarm notification, trend, and totalization. IGMs maintain Liebert environmental systems to provide precise control of temperature, humidity, filtration, and distribution for heat generating equipment. The Metasys Integrator unit supports applications for many, but not all, SiteLink function blocks. With a Liebert SiteLink module configured for Modbus RTU protocol and downloaded with the appropriate SiteLink function block, the Metasys Integrator unit can communicate with most Liebert products. Liebert equipment equipped with a Liebert OpenComms Network Interface Card use the SiteLink vendor tables. IMPORTANT: For a complete list of products, controllers, and function blocks, see the Liebert Web site (www.liebert.com). Metasys Integrator Liebert Application Application Note 3 You must verify that the product you want to integrate uses a function block that is listed in this document. Table 1 lists examples of products that are supported by the Metasys Integrator unit. Table 1: Liebert SiteLink Products Supported by Metasys Integrator Unit Product Names Controller Name or Identification Environmental Products CSU3000 Chiller CSU3000 with Econocoil® Chiller with Econocoil Deluxe SystemTM 3 Level 0 Levels 3, 10 Levels 15, Advanced Microprocessor, Advanced with Graphics Levels 0 with On/Off Control, and Standard Microprocessor Challenger 3 Level 0 Challenger 3000 Standard Microprocessor Advanced Microprocessor, Advanced with Graphics DataMate Small System Controller Industrial Cooling Series Standard Microprocessor, Advanced Microprocessor Level 10 LogicoolTM Level 0 Mini-Mate Small System Controller Mini-Mate 2 MM2 Mini-Mate Plus Small System Controller Modular Plus Level 1 Level 10 Liebert Monitoring Modules LDS750 and LDS1000 Water Detection LDS750 and LDS1000 RAC2-8 Autochangeover RAC2-8 CCM200 Contact Closure Module CCM200 VSM100 Voltage Sensing Module VSM100 CSM100 Current Sensing Module CSM100 Temperature/Humidity Module THM100 RCM8 Contact Closure Module RCM8 Continued on next page . . . 4 Metasys Integrator Liebert Application Application Note Product Names (Cont.) Controller Name or Identification Power Products Static Transfer Switch PDU Single Output Breaker, Prior to 1/99 Datawave® Power Monitoring Panel Voltage Current Frequency Monitoring Panel Precision Power Center Power Monitoring Panel Voltage Current Monitoring Panel MPU4000 Voltage Current Frequency Monitoring Panel AP301/302 Single Module UPS SM3 Early Series 300/500/600 Single Module SMS UPS Early Series 500/600 System Control Cabinet SCC Early Series 500/600 Multi-Module UPS MMS Series 600 Single Module UPS with Extended Protocol SM4 Series 600 Multi-Module UPS with Extended Protocol MM4 Series 600 System Control Cabinet SC4 with Extended Protocol Npower® Single Module UPS IMP Metasys Integrator Liebert Application Application Note 5 With the Liebert MCCI, the Metasys Integrator unit supports seven Liebert IGMs: · Deluxe System 3/Level 0 · Deluxe System 3/Level 1 · Deluxe System 3/Level 2 · Deluxe System 3/Level 3 · Deluxe System 3/Level 10 · Deluxe System 3/Level 15 · Small Systems Controller (SSC) With the Liebert ECA2, the Metasys Integrator unit supports three IGMs: · Deluxe System 3/Level 0 · Deluxe System 3/Level 10 · Deluxe System 3/Level 15 With Liebert DCLAN, the Metasys Integrator unit communicates with the following devices: · Environmental Unit Level 0 · Power Conditioning Unit Type and Level 0 with On/Off PMP with IGM, VCMP with Control (L00, L0A, and LSM) IGM · Environmental Unit Small Systems Control (L0B) · Environmental Unit Level 2, 3, 10, and 15 (L02, L03, L10, L1A, and LAM) · Chiller (CW1, CW2, and CW3) · UPS Series 300* and 600-Type Single Module System (SMS), Multi Module System (MMS), and Static Control Cabinet (SCC) · Contact Closure Module (CCM) · Chiller with Econocoil (CE1, CE2, and CE3) *Series 300 with optional SiteScan® Interface Card. The MCCI or ECA2 connects to the Metasys Integrator unit through the RS-232 Bus. Once connected, it is the interface between Liebert equipment and non Liebert devices (such as the Metasys Integrator unit). The Metasys Integrator unit allows status information and commands to be transmitted between the Liebert devices and the Metasys or Companion Network. Each Metasys Integrator vendor port can connect to one MCCI or ECA2. Each MCCI can connect up to 24 Liebert IGMs on 24 individual RS-422 lines. Each ECA2 can connect to two Liebert IGMs on two individual RS-422 lines. 6 Metasys Integrator Liebert Application Application Note The Liebert DC100 can be used in place of the MCCI. The DC100 must be configured to use the MCCI protocol on Port 2, using SS25 software Version 1.05B or later. (The DC100 and MCCI are no longer available from Liebert.) The DCLAN BMS protocol can be used as an interface to monitor and control Environmental Units, chillers, power conditioning units, Uninterruptible Power Supplies (UPSs), and Contact Closure Modules. Liebert SiteLink modules provide a communication link between third-party Modbus devices and Liebert manufactured devices. The Liebert SiteLink-DC12i module has 12 ports. Each port may be connected to a Liebert device. A SiteLink-DC4i module has 4 ports. The OpenComms Network Interface Card has one port and is connected to one Liebert device. The SiteLink module (via downloaded Function Blocks) polls each device connected to it and stores the information in registers that a Modbus device can access. SiteLink modules can also be configured to communicate via DCLAN BMS protocol. Liebert OpenComms Network Interface Cards communicate with Modbus devices via their third-party interface port (2-wire RS-485). This port is connected via an RS-485 converter to a vendor port on the Metasys Integrator unit. Modbus RTU protocol (9600, N, 8, 1 standard) is used for communication with the OpenComms NIC. Figure 1 shows a Metasys Network with the Metasys Integrator unit connected to one MCCI in a star configuration. Figure 2 shows a Metasys Network with a Metasys Integrator unit connected to one DCLAN BMS, which can be connected to 12 control modules such as DC12-422 and DC12-485. For more information about DCLAN configurations, see Configuration Guide-Intermediate by Liebert Corporation. Figure 3 and Figure 4 show Metasys Companion and Liebert integration. Metasys Integrator Liebert Application Application Note 7 N1 LAN Standard NCU RS-232 (50 ft maximum) Metasys Integrator MCCI with 24 RS-422 Ports RS-422 (Belden Cable 3280 ft maximum) Del ux e Sys tem/3 Del ux e Sys tem/3 Del ux e Sys tem/3 Del ux e Sys tem/3 Del ux e Sys tem/3 UNT N2 Bus Deluxe System/3 Small System Controller liebert1 Note: If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures for this application note. Figure 1: Liebert and Metasys System Integration NCM300 Liebert RS-232 SiteLink : DC12I (50 ft maximum) (or DC4I) : Liebert Device 1 Liebert Device 2 : : UNT N2 Bus Metasys Integrator (30 ft maximum) RS-232 DCLAN Liebert Liebert Device 12 Liebert DC12, DC4, DC12i, or DC4i Note: liebert8 If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures in this application note. Figure 2: Liebert DCLAN BMS and Metasys System Integration 8 Metasys Integrator Liebert Application Application Note Panel Unit Workstation RS-232 (50 ft maximum) um p Metasys Integrator MCCI with 24 RS-422 Ports RS-422 (Belden Cable 3280 ft maximum) Del ux e Sys tem/3 Del ux e Sys tem/3 Del ux e Sys tem/3 Del ux e Sys tem/3 Del ux e Sys tem/3 UNT N2 Bus Deluxe System/3 Small System Controller Note: Note: A PC version and converter may be substituted for the Panel unit. liebcomp If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures in this application note. Figure 3: Liebert MCCI and Metasys Companion Integration Panel Unit Workstation RS-232 (50 ft maximum) um p Metasys Integrator ECA2 Del ux e Sys tem/3 RS-422 (Belden Cable 3280 ft maximum) Del ux e Sys tem/3 UNT Note: N2 Bus Deluxe System/3 Note: A PC version and converter may be substituted for the Panel unit. liebcom2 If you use a UPM enclosure, you must install the Metasys Integrator unit 300 Series in a two high enclosure (EN-EWC25-0) rather than a one high enclosure (EN-EWC13-0) as shown in the figures in this application note. Figure 4: Liebert ECA2 and Metasys Companion Integration Metasys Integrator Liebert Application Application Note 9 Component Requirements To integrate Liebert equipment, you need the following components: · properly installed Liebert devices · RS-232 cable (for connecting the MCCI, ECA2, DCLAN, or SiteLink module to the Metasys Integrator unit) Note: If connecting a single Metasys Integrator unit to multiple SiteLink modules via the Modbus RTU protocol interface (that is standalone SiteLink modules that are not part of a DCLAN Network), additional RS-232 cables, RS-485 cables, and RS-485/232 converters are needed. See Cable Connections in this document for more information. Connection to one or more OpenComms Network Interface Cards also require a RS-485/232 Converter. · Metasys Integrator unit · N2 Bus (for connecting the Metasys Integrator unit to the Metasys or Companion Network) · portable Personal Computer (PC) for downloading vendor communication tables (.VCT files) and network setup information into the Metasys Integrator unit and for running diagnostics · cable for connecting portable PC to the Metasys Integrator unit · the correct vendor communication table (.VCT file) to download into the Metasys Integrator unit (supplied on Metasys Integrator CD-ROM) This document describes the RS-232 cable and the vendor communication tables. Liebert documentation describes its equipment. The remaining components are described in the Metasys Integrator unit technical on the Johnson Controls Product Information site (http://cgproducts.johnsoncontrols.com System Manuals > Integration > Metasys Integrator). Metasys Release Requirements To integrate Liebert equipment into the Metasys Network, you need: · Metasys Operator Workstation (OWS) software Release 6.0 or later · Metasys Integrator unit software/firmware Release 9.3 or later Metasys Companion Release Requirements To integrate Liebert equipment into the Metasys Companion Network, you need: · Metasys Companion Release 5.0 or later · Metasys Integrator unit software/firmware Release 9.3 or later 10 Metasys Integrator Liebert Application Application Note Vendor Component Requirements Integration between the Metasys Integrator unit and Liebert has been tested with the equipment listed in Table 2. Changes to this equipment or integration of Liebert products not discussed in this document requires additional software development and testing by Systems Products. For information on integrating other products, refer to the Custom Integration section of this document. Table 2: Liebert Part and Software Version Numbers Liebert Product Part Number Firmware Version Number Multi-Channel Communications 129443G1 Interface Revision 2.08 DC100 DC100BMS MCCI Card, Revision 2.08 Deluxe System 3/Level 0 N/A** Lev0 or Lev0A Deluxe System 3/Level 1* N/A** Lev1 Deluxe System 3/Level 2 N/A** Lev2 or Lev2A Deluxe System 3/Level 3 N/A** Lev2 or Lev2A Deluxe System 3/Level 10 N/A** Lev2 or Lev2A Deluxe System 3/Level 15 N/A** Lev2A Single Module NPower UPS N/A*** N/A Small Systems Controller N/A** Lev0B Environmental Communication 4D14081G1 1 Adapter (ECA2) DCLAN BMS Data Concentrator DCLAN BMS for Local Area Network (LAN) Revision 2.0 DC1 IGM Interface Module DC1 -- DC4-422 IGM Interface Module DC4-422 N/A DC12-422 IGM Interface Module DC12-422 N/A SiteLink DC4i-422 IGM Interface SiteLink-DC4i N/A Module SiteLink DC12i-422 IGM Interface SiteLink-DC12i N/A Module OpenComms Network Interface OpenComms NIC N/A Card REPOPT RS-485/232 Converter REPOPT N/A * The System 3/Level 1 IGM requires a Liebert Retrofit Kit with a Liebert Protocol Converter (Part Number KIT-0101). ** Part number varies according to the system in which the System/3 controller is mounted. *** Requires an OpenComms NIC or SiteScan® Optional Module. Metasys Integrator Liebert Application Application Note 11 DCLAN The DCLAN BMS database is factory configured by Liebert. Only databases configured by a Liebert factory are supported. Obtain the following information from the Liebert representative: · the address of each DCLAN BMS, which is configured with units to be monitored by the Metasys Integrator unit · the DCLAN BMS database address of each unit, which includes the unit type (for example: DCLAN BMS Addresses 101 and 102 configured for an environmental unit type LAM) Note: Every CMnet device uses two sequential DCLAN addresses. Liebert supports a maximum of fifty devices per DCLAN BMS. To use SiteLink modules within a DCLAN system, the Liebert representative must configure SiteLink modules for DCLAN communication. DCLAN DC4 and DC12 drivers must be Version 4.7 or later. SiteLink/OpenComms NIC The Liebert representative must supply a Liebert Site Survey, which indicates which function blocks (for example, L00, PMP, EDS, etc.) are involved in the integration. The function blocks correspond to the three-character acronym associated with the name of each Metasys Integrator unit application for Liebert SiteLink. To communicate directly to SiteLink/NIC modules, the Liebert representative must configure each SiteLink/NIC module to communicate via Modbus RTU protocol. The representative must also supply the Modbus address and port numbers for each Liebert device. Vendor Contact Information Liebert P.O. Box 29186 1050 Dearborn Drive Columbus, OH 43085 www.liebert.com Site Application Engineering: Phone: 800-222-5877 12 Metasys Integrator Liebert Application Application Note Design Considerations When integrating Liebert equipment, consider the following: · Make sure all Liebert equipment is set up, started, and running properly before attempting to integrate with the Metasys or Companion Network. (The Liebert representative is responsible for operation of Liebert equipment.) MCCI/ECA2 · If an environmental unit is commanded off at the local controller, it cannot be turned on remotely. · The MCCI/ECA2 baud rate is fixed at 9600 baud. · The RS-232 port jumper settings on the MCCI should be set to DCE. (The Liebert representative is responsible for setting jumper settings on the MCCI.) Note: The DCE jumper pins are on the lower MCCI board and are labeled DTE/DCE. · Cable distance between the master MCCI or ECA2 and the last IGM can be a maximum of 3280 feet. (The Liebert representative is responsible for proper configuration of Liebert equipment.) · Set the DIP switches on SW1 of the ECA2 as follows: 1=On, 2=On, 3=Off, 4=On, 5 (not used), 6=Off, 7=Off, 8=Off. Set SW2 on the ECA2 to Terminal. DCLAN · Liebert representatives must configure the DCLAN Network correctly. · The DCLAN BMS must be configured so that echo is off. · The default baud rate for the Metasys Integrator unit connection to a DCLAN Network is 9600 baud. SiteLink Module/ OpenComms NIC · Liebert representatives must configure each SiteLink/NIC module correctly. If the SiteLink module is directly connected to the Metasys Integrator unit, it must be downloaded with the function blocks and module drivers configured for Modbus. If connected to a DCLAN, it must be downloaded with the function blocks and module drivers configured for DCLAN. · OpenComms NIC modules must be configured for Modbus RTU communication and a unique Modbus Subordinate Address assigned. · The default baud rate for the Metasys Integrator unit connection to a SiteLink/NIC module is 9600 baud. The SiteLink module can also be configured for 38400 baud. · If the SiteLink module supports automatic alarm reset, the auto-restore timer must be set as shown in Table 3 to ensure all hardware-latched alarms are reported. Metasys Integrator Liebert Application Application Note 13 Table 3: SiteLink Auto-Restore Timer Settings Number of SiteLink Modules Number of Minutes Number of Minutes Connected to One Metasys Needed for SiteLink Needed for DCLAN Integrator Port Configuration Configuration 1 1 2 2 to 6 2 4 7 to 10* 3 6 * We do not recommend more than 10 modules be connected to one port because of performance considerations. · The Liebert representative is responsible for configuring the SiteLink module for setpoints and unit on/off control. If a SiteScan system is connected to the SiteLink module along with the Metasys Integrator unit, only one system is allowed to update setpoints (Analog Outputs [AOs]) and the unit on/off control. 14 Metasys Integrator Liebert Application Application Note Cable Connections Cable Pinouts MCCI ECA2 Use the following cable pinouts for the RS-232 connection between the Metasys Integrator unit and the Liebert MCCI: Vendor Port A or B on Metasys Integrator RS-232 Port MCCI (set to DCE) DB-9 Female Signal Pin RD 2 TD 3 DTR 4 GND 5 RTS 7 CTS 8 RS-232 (50 ft maximum) DB-25 Male Pin Signal 3 RD 2 TD 20 DTR 7 GND 4 RTS 5 CTS liebert2 Figure 5: Cable Pinouts (MCCI) Use the following cable pinouts for the RS-232 connection between the Metasys Integrator unit and the Liebert ECA2: Vendor Port A or B on Metasys Integrator RS-232 Port ECA2 DB-9 Female Signal Pin RD 2 TD 3 RTS 7 CTS 8 GND 5 RS-232 (50 ft maximum) DB-25 Female Pin Signal 2 TD 3 RD 5 CTS 4 RTS 7 GND liebert6 Figure 6: Cable Pinouts (ECA2) Metasys Integrator Liebert Application Application Note 15 DC100 DCLAN Use the following cable pinouts for the RS-232 connection between the Metasys Integrator unit and the Liebert DC100: Vendor Port A or B on Metasys Integrator RS-232 Port DC100 Port 2 (DTE) DB-9 Female DB-25 Female Signal Pin RD 2 TD 3 DTR 4 GND 5 RTS 7 CTS 8 RS-232 (50 ft maximum) Pin Signal 2 TD 3 RD 20 DTR 7 GND 4 RTS 5 CTS liebert5 Figure 7: Cable Pinouts (DC100 Port 2) Use the following cable pinouts for the RS-232 connection between the Metasys Integrator unit and the Liebert DCLAN Port 1. Use a DB-9 female to DB-9 female null modem to connect the Metasys Integrator unit to the Liebert DCLAN Port 2. Vendor Port A or B on Metasys Integrator RS-232 Port 1 DCLAN DB-9 Female Signal Pin DCD 1 RD 2 TD 3 DTR 4 GND 5 RS-232 (50 ft maximum) DB-25 Female Pin Signal 8 DCD 2 TD 3 RD 20 DTR 7 GND liebert7 Figure 8: Cable Pinouts (DCLAN) 16 Metasys Integrator Liebert Application Application Note Connecting to SiteLink/NIC Modules Direct RS-232 Connection RS-485 Connection Use the following cable pinout for the RS-232 connection between the Metasys Integrator unit and a single Liebert SiteLink module: Vendor Port A or B on Metasys Integrator RS-232 Port on SiteLink (DTE) DB-9 Female DB-9 Female Signal Pin RD 2 TD 3 GND 5 P2 or P3 on Panel RS-232 (50 ft maximum) Pin Signal 3 2 RD 5 GND Third Party Interface Port Liebert9 Figure 9: Cable Pinouts for Single SiteLink Module Use Figures 10 through 12 to wire multiple SiteLink/OpenComms NIC modules using Liebert REPOPT RS-232 to RS-485 Converters: Vendor Port A or B on Metasys Integrator Liebert REPOPT RS-232 to RS-485 Converter DB-9 Female DB-9 Female Signal Pin RD 2 TD 3 GND 5 P2 or P3 on Panel RS-232 (50 ft maximum) Pin Signal 3 2 RD 5 GND RS-232 Connector Lieb11 Figure 10: Cable Pinout for Liebert REPOPT RS-232 to RS-485 Converter Metasys Integrator Liebert Application Application Note 17 REPOPT RS-232 to RS-485 Converter RS-485 (4000 ft maximum) RS-485 Daisy-chained REPOPTs Liebert12 Figure 11: RS-485 Network of REPOPTs REPOPT RS-232 to RS-485 Converter DB-9 Female RS 232 Connector on SiteLink Module DB-9 Female Signal Pin RD 2 TD 3 GND 5 RS-232 Connector on Daisy-chained REPOPT RS-232 (50 ft maximum) Pin Signal 3 2 RD 5 GND Liebert13 Figure 12: Null Modem Cable from Liebert REPOPT to SiteLink Module 18 Metasys Integrator Liebert Application Application Note Connecting the Cable Connect the female end of the RS-232 cable to either Vendor Port A or Vendor Port B on the Metasys Integrator unit. Connect the other end of the cable to the RS-232 port on the MCCI, DC100, ECA2, DCLAN or SiteLink module. Metasys Integrator Vendor Port A or B RS-232 Liebert MCCI. ECA2, DC100, DCLAN, or SiteLink RS-232 Port Connection to Multiple SiteLink Modules Liebert3 Figure 13: Port-to-Port Connection Metasys RS-232 Liebert Integrator REPOPT RS-485 Liebert RS-232 Liebert REPOPT SiteLink Liebert RS-232 Liebert REPOPT SiteLink Liebert15 Figure 14: Connecting Metasys Integrator Unit to Multiple SiteLink Modules Metasys Integrator Liebert Application Application Note 19 Connecting Metasys Integrator Unit to OpenComms Network Interface Cards Metasys Integrator Unit RS-232 Liebert REPOPT RS-485 OpenComms Network Interface Card OpenComms Network Interface Card Liebert15a Figure 15: Connecting Metasys Integrator Unit to OpenComms Network Interface Card 20 Metasys Integrator Liebert Application Application Note Metasys Integrator Unit Setup To set up the Metasys Integrator unit, use a portable PC connected to Metasys Integrator Terminal Port. Metasys Integrator unit setup involves: · downloading the correct vendor communication table (.VCT file) · setting up the ports · assigning network addresses to the controllers Tables 4 through 7 provide setup information specific to Liebert applications. For detailed procedures, see the Metasys Integrator unit technical bulletins on the Johnson Controls Product Information site (http://cgproducts.johnsoncontrols.com System Manuals > Integration > Metasys Integrator). Table 4: Metasys Integrator Unit Setup for Liebert MCCI Applications Vendor Communication Table (.VCT File) System 3/Level 0 and 1 LI_LEV0.VCT System 3/Level 2, 3, 10, and 15 LI_LEV2.VCT System 3/Level 10 and 15 with On/Off Control LI_LEV2A.VCT Small Systems Controller LI_SSC.VCT Port Setup Baud Rate 9600 Word Length 8 Stop Bits 1 Parity None Interface RS-232 Network Setup Vendor Address Port Number (1-24) Timeout Value 4000 ms Poll Delay 0 ms Performance Guide System 3/Environmental Units 8 seconds Small Systems Controller 8 seconds Metasys Integrator Liebert Application Application Note 21 Table 5: Metasys Integrator Unit Setup for Liebert ECA2 Applications Vendor Communication Table (.VCT File) Environmental Communication Adapter LI_ECA2.VCT (ECA2) Level 0 Environmental Communication Adapter LIECA210.VCT (ECA2) Levels 10 and 15 Port Setup Baud Rate 9600 Word Length 8 Stop Bits 1 Parity None Interface RS-232 Network Setup Vendor Address Channel (1-2) Timeout Value 4000 ms Poll Delay 0 ms Performance Guide ECA2 Environmental Communication Adapter 8 seconds 22 Metasys Integrator Liebert Application Application Note Table 6: Metasys Integrator Unit Setup for Liebert DCLAN Applications Vendor Communication Table (.VCT File) Environmental Units Level 00 (L00) LIDCLL00.VCT Small Systems Control (L0B) LIDCLL0B.VCT Level 02 (L02) and Level 03 (L03) LIDCLL02.VCT Level 0 with On/Off Control (L0A) and Standard Microprocessor (LSM) LIDCLL0A.VCT Level 10 without On/Off Control (L10) LIDCLL10.VCT Level 10 with On/Off Control (L1A) and Level 15 with On/Off Control (LAM) LIDCLL1A.VCT Chillers Single Module (CW1) LIDCLCW1.VCT Two Module (CW2) LIDCLCW2.VCT Three Module (CW3) LIDCLCW3.VCT Chillers with Econocoil-Single Module LIDCLCE1.VCT (CE1) Chillers with Econocoil-Two Module LIDCLCE2.VCT (CE2) Chillers with Econocoil-Three Module LIDCLCE3.VCT (CE3) Power Conditioning Units Power Monitoring Panel (PMP) LIDCLPMP.VCT UPS Series 300 and 600 Single Module System (SMS) LIDCLSMS.VCT Series 600 Multi Module System (MMS) LIDCLMMS.VCT Series 600 Static Control Cabinet (SCC) LIDCLSCC.VCT Contact Closure Module (CCM) LIDCLCCM.VCT Port Setup Baud Rate 9600 Word Length 8 Stop Bits 1 Parity None Interface RS-232 Continued on next page . . . Metasys Integrator Liebert Application Application Note 23 Network Setup (Cont.) Vendor Address D,aaa* where D is: the address of the DCLAN (`1' - `9', `A' - `Z', or `a' - `y'); where aaa is: the DCLAN configured address (101 - 199); each unit uses two consecutive DCLAN addresses**, only the first address is entered. For example, to address the first DCLAN device in DCLAN 1, enter 1,101. Timeout Value 1000 ms Poll Delay 0 ms Performance Guide DCLAN BMS Units 2 seconds * The comma (,) between D and aaa of the Vendor Address is a required delimiter, which must be included in the vendor address. ** For the latest information on obtaining addressing information, please refer to The Advisor. It may be displayed or printed as needed. 24 Metasys Integrator Liebert Application Application Note Table 7: Metasys Integrator Unit Setup for Liebert SiteLink/NIC Applications Vendor Communication Table (.VCT) CCM Function Block LiSL_CCM.VCT CSE Function Block LiSL_CSE.VCT CSU Function Block LiSL_CSU.VCT EDS Function Block IMP Function Block LiSL_EDS.VCT LiSL_IMP.VCT L00 Function Block L0B Function Block L10 Function Block LAM Function Block LSM Function Block MM4 Function Block MMS Function Block PMP Function Block RAC Function Block SC4 Function Block SCC Function Block SM3 Function Block SM4 Function Block SMS Function Block THM Function Block VCF Function Block VCM Function Block WDU Function Block LiSL_L00.VCT LiSL_L0B.VCT LiSL_L10.VCT LiSL_LAM.VCT LiSL_LSM.VCT LiSL_MM4.VCT LiSL_MMS.VCT LiSL_PMP.VCT LiSL_RAC.VCT LiSL_SC4.VCT LiSL_SCC.VCT LiSL_SM3.VCT LiSL_SM4.VCT LiSL_SMS.VCT LiSL_THM.VCT LiSL_VCF.VCT LiSL_VCM.VCT LiSL_WDU.VCT Port Configuration Baud Rate 9600 (38400 also can be used if the SiteLink module is configured for it.) Word Length 8 Stop Bits 1 Parity None Interface RS-232 Network Configuration Vendor Address <Modbus Address>, <Port #> (for example, 3, 12) SiteLink Modbus Address 1-255, Port 1-12 NIC Modbus Address 1-255, Port 1 For example: If the SiteLink Modbus address is 3, and the IGM is connected to Port 12, enter 3,12. If NIC Modbus address is 4, enter 4, 1 Note: <Modbus Address> defaults to 3. Timeout Value 500 ms Poll Delay 50 ms Retries 3 Approximate Scan Time (for a single Metasys Integrator device) SiteLink/NIC Modbus 1 second Metasys Integrator Liebert Application Application Note 25 Point Mapping Tables Deluxe System/3 (MCCI Configuration) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Percent Heating point is AI3. Use the following point mapping tables to map Metasys objects to the Liebert Deluxe System/3 IGMs. Table 8 applies to System/3 Levels 0, 1, 2, 3, 10, and 15. Table 8: Deluxe System/3 (MCCI Configuration) NPT1 NPA2 Unit Description AI 1 DegF Temperature AI 2 %RH Humidity AI 3 AI 4 AI 5 AI 6 % Step % Step Percent Heating Stages Heating Percent Cooling Stages Cooling AO 1 DegF Temperature Setpoint (40 to 85) AO 2 DegF Temperature Tolerance (1 to 5) AO 3 AO 4 %RH Humidity Setpoint (40 to 60) %RH Humidity Tolerance (1 to 10) BI 1 Cooling 0-Heat, 1-Cool BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI 24 Glycol Humidifying Dehumidifying High Head Pressure Compressor 1 High Head Pressure Compressor 2 Loss of Airflow Standby Glycol Pump On Water Under Floor Change Filters High Temperature Alarm Low Temperature Alarm High Humidity Alarm Low Humidity Alarm High Water in Humidifier Pan No Water in Humidifier Pan Compressor #1 Overload Compressor #2 Overload Main Fan Overload Manual Override Smoke Detected Loss of Water Flow Standby Unit On Low Suction Pressure 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 1 Network Point Type 2 Network Point Address Continued on next page . . . 26 Metasys Integrator Liebert Application Application Note NPT1 NPA2 Unit Description (Cont.) BI 25 Short Cycle Alarm 0-Normal, 1-Alarm BI 26 Loss of Power Alarm 0-Normal, 1-Alarm BI 27 Local Alarm 1 0-Normal, 1-Alarm BI 28 BI 29 BI 30 BI 31 BO 1 BO 2 BD 1 BD 2 Local Alarm 2 User Alarm 1 User Alarm 2 Alarm Condition Exists Reset All Alarms3 Unit Mode4 Unit Start Status4 Local Command Status4 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-Normal, 1-Alarm 0-N/A, 1-Reset 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 1 Network Point Type 2 Network Point Address 3 The Reset All Alarms command has no effect on the System/3 Level 10. If you want to reset alarms on the Level 10, reset them directly on the System/3 controller panel. Do not map these points to Companion Binary Output (BO) points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. 4 Available only on units that include start/stop control. Metasys Integrator Liebert Application Application Note 27 Small Systems Controller (MCCI Configuration) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Percent Heating point is AI3. Table 9: Small Systems Controller (MCCI Configuration) NPT1 NPA2 Unit Description AI 1 DegF Temperature AI 2 %RH Humidity AI 3 % Percent Heating AI 4 AI 5 AI 6 Step % Step Stages Heating Percent Cooling Stages Cooling BI 1 Coolon 0-Heat, 1-Cool BI 2 Glyavail 0-Off, 1-On BI 3 Humidifying 0-Off, 1-On BI 4 Dehumidifying 0-Off, 1-On BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI 24 BI BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 31 BO 1 High Head Pressure Compressor 1 High Head Pressure Compressor 2 Loss Of Airflow Standby Glycol Pump On Water Under Floor Change Filters High Temperature Alarm Low Temperature Alarm High Humidity Alarm Low Humidity Alarm High Water In Humidifier Pan No Water In Humidifier Pan Compressor 1 Overload Compressor 2 Overload Main Fan Overload Manual Override Smoke Detected Loss Of Water Flow Standby Unit On Low Suction Pressure Short Cycle Alarm Loss Of Power Alarm Local Alarm 1 Local Alarm 2 User Alarm 1 User Alarm 2 Alarm Condition Exists Reset Alarms3 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-Normal, 0-N/A, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Reset 1 Network Point Type 2 Network Point Address 3 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. 28 Metasys Integrator Liebert Application Application Note Liebert ECA2 Level 0 To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Humidity Reading point is AI2. Table 10: Liebert ECA2 Level 0 NPT1 NPA2 Unit Description AI 1 DegF Temperature Reading AI 2 % RH Humidity Reading AI 3 AI 4 % Step Percent Heating/Cooling Stages Heating/Cooling AO 1 DegF Temperature Setpoint 40-85 AO 2 DegF Temperature Sensitivity 1-5 AO 3 AO 4 % RH Humidity Setpoint % RH Humidity Sensitivity 40-60 1-10 BI 1 Cooling 0-Heat, 1-Cool BI 2 Glycol 0-Off, 1-On BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI 24 BI BI 25 BI 26 27 BO 1 Humidifying Dehumidifying High Head Pressure Compressor 1 High Head Pressure Compressor 2 Loss Of Airflow Standby Glycol Pump On Water Under Floor Change Filters High Temperature Alarm Low Temperature Alarm High Humidity Alarm Low Humidity Alarm High Water In Humidifier Pan No Water In Humidifier Pan Compressor 1 Overload Compressor 2 Overload Main Fan Overload Manual Override On Smoke Detected Loss Of Water Flow Standby Unit On Low Suction Pressure Short Cycle Alarm Loss Of Power Alarm Alarm Present Reset All Alarms3 0-Off, 0-Off, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-N/A, 1-On 1-On 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Reset BO 2 Unit Mode 0-Off, 1-On 1 Network Point Type 2 Network Point Address 3 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. Metasys Integrator Liebert Application Application Note 29 Liebert ECA2 Level 10 and Level 15 To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Humidity Reading point is AI2. Table 11: Liebert ECA2 Level 10 and Level 15 NPT1 NPA2 Unit Description AI 1 DegF Temperature Reading AI 2 %RH Humidity Reading AI 3 % Percent Heating/Cooling AI 4 Step Stages Heating/Cooling AI 5 Hours Compressor 1 Run Hours AI 6 Hours Compressor 2 Run Hours AI 7 Hours Glycol Hours AO 1 DegF Temperature Setpoint AO 2 DegF Temperature Sensitivity AO 3 %RH Humidity Setpoint AO 4 %RH Humidity Sensitivity AO 5 DegF High Temperature Alarm Setpoint AO 6 DegF Low Temperature Alarm Setpoint AO 7 %RH High Humidity Alarm Setpoint AO 8 %RH Low Humidity Alarm Setpoint BI 1 Cooling BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI 24 BI BI 25 BI 26 27 Glycol Humidifying Dehumidifying High Head Pressure Compressor 1 High Head Pressure Compressor 2 Loss Of Airflow Standby Glycol Pump On Water Under Floor Change Filters High Temperature Alarm Low Temperature Alarm High Humidity Alarm Low Humidity Alarm High Water In Humidifier Pan No Water In Humidifier Pan Compressor 1 Overload Compressor 2 Overload Main Fan Overload Manual Override On Smoke Detected Loss Of Water Flow Standby Unit On Low Suction Pressure Short Cycle Alarm Loss Of Power Alarm Alarm Present 1 Network Point Type 2 Network Point Address Continued on next page . . . 40-85 1-5 40-60 1-10 40-85 40-85 40-60 40-60 0-Heat, 1-Cool 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 30 Metasys Integrator Liebert Application Application Note NPT1 (Cont.) BO NPA2 1 Unit Description Reset All Alarms3 0-N/A, 1-Reset BO 2 Unit Mode 0-Off, 1-On 1 Network Point Type 2 Network Point Address 3 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. Liebert DCLAN Environmental Unit Level 0 and Level 0 with On/Off Control (L00, L0A, and LSM) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Humidity Reading point is AI3. Table 12: Liebert DCLAN Environmental Unit Level 0 and Level 0 with On/Off Control (L00, L0A, and LSM) NPT1 NPA2 Unit Description AI 1 DegF Temperature Reading (F) AI 2 DegC Temperature Reading (C) AI 3 %RH Humidity Reading AO 1 DegF Temperature Setpoint (F) 35-95 AO 2 DegC Temperature Setpoint (C) 1-35 AO 3 Deg Temperature Tolerance Setpoint 1-10 AO 4 AO 5 %RH Humidity Setpoint %RH Humidity Tolerance Setpoint 35-65 1-10 BI 1 Alarm Present 0-No, 1-Alarm BI 2 Humidifying On 0-Off, 1-On BI 3 Dehumidifying On 0-Off, 1-On BI 4 BI 5 Cooling On Heating On 0-Off, 1-On 0-Off, 1-On BD 1 High Temperature 0-Ok, 1-Alarm BD 2 Low Temperature 0-Ok, 1-Alarm BD 3 High Humidity 0-Ok, 1-Alarm BD 4 BD 5 BD 6 BD 7 BD 8 BO 1 Low Humidity Loss Of Air Flow Water Under Floor Change Filters High Head Pressure Unit Run3 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Off, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-On 1 Network Point Type 2 Network Point Address 3 Only for L0A Metasys Integrator Liebert Application Application Note 31 Liebert DCLAN Environmental Unit Small Systems Control (L0B) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Humidity point is AI3. Table 13: Liebert DCLAN Environmental Unit Small Systems Control (L0B) NPT1 NPA2 Unit Description AI 1 DegF Temperature (F) AI 2 DegC Temperature (C) AI 3 %RH Humidity BI 1 Alarm Present 0-No, 1-Alarm BD 1 High Temperature 0-Ok, 1-Alarm 2 Low Temperature 0-Ok, 1-Alarm 3 High Humidity 0-Ok, 1-Alarm 4 Low Humidity 0-Ok, 1-Alarm BO 1 Unit Run 0-Off, 1-On 1 Network Point Type 2 Network Point Address Liebert DCLAN Environmental Unit Level 2, 3, 10, and 15 (L02, L03, L10, L1A, and LAM) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Humidity point is AI3. Table 14: Liebert DCLAN Environmental Unit Level 2, 3, 10, and 15 (L02, L03, L10, L1A, and LAM) NPT1 NPA2 Unit Description AI 1 Deg Temperature Reading (F) AI 2 Deg Temperature Reading (C) AI 3 %RH Humidity AO 1 Deg Temperature Setpoint (F) 35-95 AO 2 Deg Temperature Setpoint (C) 1-35 AO 3 Deg Temperature Tolerance Setpoint 1-10 AO 4 %RH Humidity Setpoint 35-65 AO 5 %RH Humidity Tolerance Setpoint 1-10 AO 6 DegF High Temperature Alarm Setpoint (F) 30-90 AO 7 DegF High Temperature Alarm Setpoint (C) -1-32 AO 8 DegF Low Temperature Alarm Setpoint (F) 30-90 AO 9 Deg F Low Temperature Alarm Setpoint (C) -1-32 AO 10 %RH High Humidity Alarm Setpoint AO 11 %RH Low Humidity Alarm Setpoint AO 12 Min Auto Restart Delay Setpoint AO 13 Min CW Flush Cycle Setpoint3 35-65 30-90 0-99 0-99 1 Network Point Type 2 Network Point Address 3 Available only for Level 02 and 03. Continued on next page . . . 32 Metasys Integrator Liebert Application Application Note NPT1 NPA2 Unit Description BI 1 Alarm Present 0-No, 1-Alarm BI 2 Humidifying On 0-Off, 1-On BI 3 Dehumidifying On 0-Off, 1-On BI 4 BI 5 Cooling On Heating On 0-Off, 1-On 0-Off, 1-On BD 1 High Temperature 0-Ok, 1-Alarm BD 2 Low Temperature 0-Ok, 1-Alarm BD 3 BD 4 BD 5 BD 6 BD 7 BD 8 BD 9 BD 10 BD 11 BD 12 BD 13 BD 14 BD 15 BD 16 BD 17 BD 18 BD 19 BD 20 BD 21 BD 22 BD 23 BD 24 BO 1 BO 2 High Humidity Low Humidity Loss Of Air Flow Water Under Floor Change Filters High Head Pressure 1 High Head Pressure 2 High Water Humidifier Pan Manual Override Customer Alarm 1 Customer Alarm 2 Standby Glycol Pump On Compressor 1 Overloaded Compressor 2 Overloaded Main Fan Overloaded Smoke Detected Loss Of Water Flow Standby Unit On Low Suction Pressure Short Cycle Loss Of Power Low Water Humidifier Pan3 Alarm Reset5 Unit Run4 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-N/A, 0-Off, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Reset 1-On 1 Network Point Type 2 Network Point Address 3 Available only for Level 02 and 03. 4 Available only for devices which have on/off control. 5 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. Metasys Integrator Liebert Application Application Note 33 Liebert DCLAN Chiller - CW1, CW2, and CW3 To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Module 3 Start point is BI8. Table 15: Liebert DCLAN Chiller - CW1, CW2, and CW3 NPT1 NPA2 Unit Description BI 1 Alarm Present 0-No, 1-Alarm BI 2 Module 1 Start 0-Off, 1-On BI 3 Module 1 Pump On 0-Off, 1-On BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 Module 1 Cooling On Module 2 Start3 Module 2 Pump On3 Module 2 Cooling On3 Module 3 Start4 Module 3 Pump On4 Module 3 Cooling On4 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 1-On 1-On 1-On 1-On 1-On 1-On 1-On BD 1 High Head Pressure Module 1 0-Ok, 1-Alarm BD 2 No Water Flow Module 1 0-Ok, 1-Alarm BD 3 High Water Temperature Module 1 0-Ok, 1-Alarm BD 4 BD 5 BD 6 BD 7 BD 8 BD 9 BD 10 BD 11 BD 12 BD 13 BD 14 BD 15 Low Water Temperature Module 1 No Power Module 1 High Head Pressure Module 23 No Water Flow Module 23 High Water Temperature Module 23 Low Water Temperature Module 23 No Power Module 23 High Head Pressure Module 34 No Water Flow Module 34 High Water Temperature Module 34 Low Water Temperature Module 34 No Power Module 34 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1 Network Point Type 2 Network Point Address 3 Available for CW2 (two module unit) or CW3 (three module unit). 4 Available for CW3. 34 Metasys Integrator Liebert Application Application Note Liebert DCLAN Chiller with Econocoil CE1, CE2, and CE3 To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Module 2 Start point is BI6. Table 16: Liebert DCLAN Chiller with Econocoil CE1, CE2, and CE3 NPT1 NPA2 Unit Description BI 1 Alarm Present 0-No, 1-Alarm BI 2 Module 1 Start 0-Off, 1-On BI 3 Module 1 Pump On 0-Off, 1-On BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 Module 1 Cooling On Module 1 Econocoil Operating Module 2 Start3 Module 2 Pump On3 Module 2 Cooling On3 Module 2 Econocoil Operating Module 3 Start4 Module 3 Pump On4 Module 3 Cooling On4 Module 3 Econocoil Operating 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On BD 1 High Head Pressure Module 1 0-Ok, 1-Alarm BD 2 No Water Flow Module 1 0-Ok, 1-Alarm BD 3 High Water Temperature Module 1 0-Ok, 1-Alarm BD 4 BD 5 BD 6 BD 7 BD 8 BD 9 BD 10 BD 11 BD 12 BD 13 BD 14 BD 15 Low Water Temperature Module 1 No Power Module 1 High Head Pressure Module 23 No Water Flow Module 23 High Water Temperature Module 23 Low Water Temperature Module 23 No Power Module 23 High Head Pressure Module 34 No Water Flow Module 34 High Water Temperature Module 34 Low Water Temperature Module 34 No Power Module 34 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1 Network Point Type 2 Network Point Address 3 Available for CE2 (two-module unit) or CE3 (three-module unit). 4 Available for CE3. Metasys Integrator Liebert Application Application Note 35 Liebert DCLAN Power Conditioning Unit To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency point is AI14. Table 17: Liebert DCLAN Power Conditioning Unit - Type PMP with IGM, VCMP with IGM NPT1 NPA2 Unit Description AI 1 Volt Volts Out X-Y AI 2 Volt Volts Out Y-Z AI 3 Volt Volts Out Z-X AI 4 Volt Volts Out X-N AI 5 Volt Volts Out Y-N AI 6 Volt Volts Out Z-N AI 7 Amps Amps Out X AI 8 Amps Amps Out Y AI 9 Amps Amps Out Z AI 10 Amps Ground Current AI 11 Amps Neutral Current AI 12 kV kVA AI 13 kW kW AI 14 Hz Frequency AI 15 % % Capacity Phase X AI 16 % % Capacity Phase Y AI 17 % % Capacity Phase Z BI 1 Alarm Present 0-No, 1-Alarm BD 1 Transformer Over Temperature 0-Ok, 1-Alarm BD 2 Frequency Deviation 0-Ok, 1-Alarm BD 3 Ground Over Current 0-Ok, 1-Alarm BD 4 Output Over Current 0-Ok, 1-Alarm BD 5 BD 6 BD 7 BD 8 BD 9 BD 10 BD 11 BD 12 BD 13 BD 14 BD 15 BD 16 BD 17 BO 1 Output Over Voltage Output Under Voltage Ground System Fault Water Under Floor Security Alarm Phase Rotation Datawave Over Temperature Emergency Shutdown Unit In Bypass Customer Alarm 1 Customer Alarm 2 Local Alarm Ground Failure Alarm Reset3 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-Ok, 1-Alarm 0-N/A, 1-Reset 1 Network Point Type 2 Network Point Address 3 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. 36 Metasys Integrator Liebert Application Application Note Liebert DCLAN UPS Series 300 and 600 To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency point is AI12. Table 18: Liebert DCLAN UPS Series 300* and 600 - Type Single Module System (SMS) and Multi Module System (MMS) NPT1 NPA2 Unit Description AI 1 Volt Volts Out A-B AI 2 Volt Volts Out B-C AI 3 Volt Volts Out C-A AI 4 Volt Volts Out A-N AI 5 Volt Volts Out B-N AI 6 Volt Volts Out C-N AI 7 Amps Amps Out A AI 8 Amps Amps Out B AI 9 Amps Amps Out C AI 10 kV KVA AI 11 kW kW AI 12 Hz Frequency AI 13 % % Capacity Phase A AI 14 % % Capacity Phase B AI 15 % % Capacity Phase C AI 16 Amps Battery Current AI 17 Volt DC Bus Voltage AI 18 Volt Input Volts Phase A-B AI 19 Volt Input Volts Phase B-C AI 20 Volt Input Volts Phase C-A BI 1 Alarm Present 0-No, 1-Alarm BD 1 Output Overload 0-Ok, 1-Alarm BD 2 Load On Bypass 0-Ok, 1-Alarm BD 3 Static Switch Disabled 0-Ok, 1-Alarm BD 4 BD 5 BD 6 BD 7 BD 8 BD 9 BD 10 BD 11 BO 1 Emergency Power Off Module Cooling Failure Ambient Over Temperature Battery Discharging Low Battery Reserve Battery Disconnect Fuse Cleared Control Power Failure4 Alarm Reset3 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-N/A, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Reset 1 Network Point Type 2 Network Point Address 3 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. 4 Not available on MMS. * Series 300 with optional SiteScan Interface Card Metasys Integrator Liebert Application Application Note 37 Liebert DCLAN Series 600 Static Control Cabinet (SCC) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency point is AI12. Table 19: Liebert DCLAN Series 600 Static Control Cabinet (SCC) NPT1 NPA2 Unit Description AI 1 Volt Volts Out A-B AI 2 Volt Volts Out B-C AI 3 Volt Volts Out C-A AI 4 Volt Volts Out A-N AI 5 Volt Volts Out B-N AI 6 Volt Volts Out C-N AI 7 Amp Amps Out A AI 8 Amp Amps Out B AI 9 Amp Amps Out C AI 10 kV KVA AI 11 kW kW AI 12 Hz Frequency AI 13 % % Capacity Phase A AI 14 % % Capacity Phase B AI 15 % % Capacity Phase C AI 16 Volt Bypass Voltage Phase A-B AI 17 Volt Bypass Voltage Phase B-C AI 18 Volt Bypass Voltage Phase C-A BI 1 Alarm Present 0-No, 1-Alarm BD 1 Output Overload 0-Ok, 1-Alarm BD 2 Emergency Power Off 0-Ok, 1-Alarm BD 3 Load on Bypass 0-Ok, 1-Alarm BD 4 BD 5 BD 6 BD 7 BD 8 BD 9 BD 10 BD 11 BO 1 Static Switch Disabled System Output Out of Limits Module 1 Alarm Module 2 Alarm Module 3 Alarm Module 4 Alarm Module 5 Alarm Module 6 Alarm Alarm Reset3 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-N/A, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Reset 1 Network Point Type 2 Network Point Address 3 Do not map these points to Companion BO points. If you map these points to Metasys BO objects, make sure the Auto Restore option in the BO object's Definition and Focus window is disabled. 38 Metasys Integrator Liebert Application Application Note Liebert DCLAN Contact Closure Module (CCM) To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Input Contact 1 point is BI1. Table 20: Liebert DCLAN Contact Closure Module (CCM) NPT1 NPA2 Unit Description BI 1 Input Contact 1 0-Off, 1-On BI 2 Input Contact 2 0-Off, 1-On BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI 24 BI BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 32 Input Contact 3 Input Contact 4 Input Contact 5 Input Contact 6 Input Contact 7 Input Contact 8 Input Contact 9 Input Contact 10 Input Contact 11 Input Contact 12 Input Contact 13 Input Contact 14 Input Contact 15 Input Contact 16 Input Contact 17 Input Contact 18 Input Contact 19 Input Contact 20 Input Contact 21 Input Contact 22 Input Contact 23 Input Contact 24 Input Contact 25 Input Contact 26 Input Contact 27 Input Contact 28 Input Contact 29 Input Contact 30 Input Contact 31 Input Contact 32 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On Alarm Flags 0-Ok, 1-Alarm BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address Metasys Integrator Liebert Application Application Note 39 Liebert SiteLink/NIC CCM Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Input Contact 1 point is BI1. Table 21: Liebert SiteLink/NIC CCM Function Block NPT1 NPA2 Unit Description BI 1 Input Contact 1 0-Open, 1-Closed BI 2 Input Contact 2 0-Open, 1-Closed BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 32 Input Contact 3 Input Contact 4 Input Contact 5 Input Contact 6 Input Contact 7 Input Contact 8 Input Contact 9 Input Contact 10 Input Contact 11 Input Contact 12 Input Contact 13 Input Contact 14 Input Contact 15 Input Contact 16 Input Contact 17 Input Contact 18 Input Contact 19 Input Contact 20 Input Contact 21 Input Contact 22 Input Contact 23 Input Contact 24 Input Contact 25 Input Contact 26 Input Contact 27 Input Contact 28 Input Contact 29 Input Contact 30 Input Contact 31 Input Contact 32 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed 0-Open, 1-Closed Alarm Flags 0-Ok, 1-Alarm BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 40 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC CSE Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Module 1 Start/Stop point is BI1. Table 22: Liebert SiteLink/NIC CSE Function Block NPT1 NPA2 Unit Description AI 1 # Number of Modules BI 1 Module 1 Start/Stop 0-Stop, 1-Start BI 2 Module 1 Pump On/Off 0-Off, 1-On BI 3 Module 1 Cool On/Off 0-Off, 1-On BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 Module 2 Start/Stop Module 2 Pump On/Off Module 2 Cool On/Off Module 3 Start/Stop Module 3 Pump On/Off Module 3 Cool On/Off Module 1 Econocycle On/Off Module 2 Econocycle On/Off Module 3 Econocycle On/Off System Econocycle On/Off Alarm Present 0-Stop, 1-Start 0-Off, 1-On 0-Off, 1-On 0-Stop, 1-Start 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 0-Off, 1-On 0-No, 1-Yes BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 31 Alarm Flags Local Alarm 1 Local Alarm 2 Module 1 High Head Pressure Module 2 High Head Pressure Module 3 High Head Pressure Module 1 No Water Flow Module 2 No Water Flow Module 3 No Water Flow Module 1 High Water Temp Module 2 High Water Temp Module 3 High Water Temp Module 1 Low Water Temp Module 2 Low Water Temp Module 3 Low Water Temp Module 1 No Power Other Mod Module 2 No Power Other Mod Module 3 No Power Other Mod 0-Ok, 1-Alarm Alarm Flags 0-Ok, 1-Alarm BD 1 Loss of Communication 1 Network Point Type 2 Network Point Address Metasys Integrator Liebert Application Application Note 41 Liebert SiteLink/NIC CSU Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Module 1 Start/Stop point is BI1. Table 23: Liebert SiteLink/NIC CSU Function Block NPT1 NPA2 Unit Description AI 1 # Number of Modules BI 1 Module 1 Start/Stop 0-Stop, BI 2 Module 1 Pump On/Off 0-Off, BI 3 Module 1 Cool On/Off 0-Off, BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 Module 2 Start/Stop Module 2 Pump On/Off Module 2 Cool On/Off Module 3 Start/Stop Module 3 Pump On/Off Module 3 Cool On/Off Alarm Present 0-Stop, 0-Off, 0-Off, 0-Stop, 0-Off, 0-Off, 0-No, BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 30 Alarm Flags Local Alarm 1 Local Alarm 2 Module 1 High Head Pressure Module 2 High Head Pressure Module 3 High Head Pressure Module 1 No Water Flow Module 2 No Water Flow Module 3 No Water Flow Module 1 High Water Temp Module 2 High Water Temp Module 3 High Water Temp Module 1 Low Water Temp Module 2 Low Water Temp Module 3 Low Water Temp Module 1 No Power Other Mod Module 2 No Power Other Mod Module 3 No Power Other Mod Module 1 Liquid Detected Module 2 Liquid Detected Module 3 Liquid Detected 0-Ok, Alarm Flags 0-Ok, BD 1 Loss of Communication 1 Network Point Type 2 Network Point Address 1-Start 1-On 1-On 1-Start 1-On 1-On 1-Start 1-On 1-On 1-Yes 1-Alarm 1-Alarm 42 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC EDS Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the kW point is AI17. Table 24: Liebert SiteLink/NIC EDS Function Block NPT1 NPA2 Unit Description AI 1 # Transfer Count AI 2 Volt Source 1 Volts A-B AI 3 Volt Source 1 Volts B-C AI 4 Volt Source 1 Volts C-A AI 5 Amps Source 1 Amps A AI 6 Amps Source 1 Amps B AI 7 Amps Source 1 Amps C AI 8 Hz Source 1 Freq AI 9 Volt Source 2 Volts A-B AI 10 Volt Source 2 Volts B-C AI 11 Volt Source 2 Volts C-A AI 12 Amps Source 2 Amps A AI 13 Amps Source 2 Amps B AI 14 Amps Source 2 Amps C AI 15 Hz Source 2 Freq AI 16 kVA KVA AI 17 kW kW AI 18 Sec Auto Transfer Time AI 19 % Nominal Voltage Deviation AI 20 Deg Phase Differential Limit AI 21 Hz Frequency Deviation BI 1 Preferred Source 0-Scr2, 1-Src1 BI 2 BI 3 BI 4 Load On Source 1 or 2 Auto-Transfer Enabled Alarm Present 0-Scr2, 1-Src1 0-Disabl, 1-Enable 0-No, 1-Yes BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 Alarm Flags Logic Failure Equip Overtemp Power Supply 1 Fault Source 1 Overvoltage Source 1 Undervoltage Source 2 Overvoltage Source 2 Undervoltage Source 1 Overload Shorted SCR 1 Shorted SCR 2 Open SCR 1 Open SCR 2 Fan Failure Source 2 Overload Power Supply 2 Fault Freq Deviation Transfer Inhibit Auto Retransfer Primed 0-Ok 1-Alarm 1 Network Point Type 2 Network Point Address Continued on next page . . . Metasys Integrator Liebert Application Application Note 43 NPT1 NPA2 Unit (Cont.) Description BI 23 Out of Sync BI 24 Source 1 Failure BI 25 Source 2 Failure BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 BI 32 BI 33 BI 34 BI 35 BI 36 BI 37 BI 38 BI 39 BI 40 BI 41 BI 42 Retransfer Failure Overload Control Fuse 1 Blown Control Fuse 2 Blown Source 1 CB 1 Open Source 2 CB 2 Open Output CB 3 Open Custom Alarm 1 Custom Alarm 2 Bypass CB4 Closed Bypass CB5 Closed Custom Alarm 3 Custom Alarm 4 Custom Alarm 5 Custom Alarm 6 Custom Alarm 7 Custom Alarm 8 Alarm Flags BD 1 Loss of Communication 1 Network Point Type 2 Network Point Address 0-Ok 1-Alarm 44 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC L00 Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Temperature point is AI1. Table 25: Liebert SiteLink/NIC L00 Function Block NPT1 NPA2 Unit Description AI 1 Deg Temperature AI 2 %RH Humidity AI 3 AI 4 AI 5 AI 6 AI 7 AI 8 Step % Deg %RH Deg %RH Stages % Capacity Temperature Tolerance Humidity Tolerance Temperature Setpoint Humidity Setpoint AO 1 DegF Temperature Setpoint (40 to 90) AO 2 %RH Humidity Setpoint (20 to 80) AO 3 AO 4 AO 5 DegC DegF %RH Temperature Setpoint DegC Temperature Tolerance Setpoint Humidity Tolerance Setpoint (5 to 32) (1 to 10) (1 to 10) BI 1 Cooling 0-Off, 1-On BI 2 Heating 0-Off, 1-On BI 3 BI 4 BI 5 BI 6 Humidification Dehumidification Econ-O-Cycle Alarm Present 0-Off, 0-Off, 0-Off, 0-No, 1-On 1-On 1-On 1-Yes BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 Alarm Flags High Head Pressure 1 High Head Pressure 2 Loss Of Airflow Liquid Detected Change Filters High Temperature Low Temperature High Humidity Low Humidity Custom Alarm 1 0-Ok, 1-Alarm Alarm Flags 0-Ok, 1-Alarm BD 1 Loss Of Communication 1 Network Point Type 2 Network Point Address Metasys Integrator Liebert Application Application Note 45 Liebert SiteLink/NIC L0B Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Temperature point is AI1. Table 26: Liebert SiteLink/NIC L0B Function Block NPT1 NPA2 Unit Description AI 1 Deg Temperature AI 2 %RH Humidity AI 3 AI 4 Step % Stages % Capacity BI 1 Cooling 0-Off, BI 2 Heating 0-Off, BI 3 BI 4 BI 5 BI 6 BI 7 Humidification Dehumidification Econ-O-Cycle Alarm Present Unit Run 0-Off, 0-Off, 0-Off, 0-No, 0-Off, BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 Alarm Flags High Temperature Low Temperature High Humidity Low Humidity Unit Turned Off Locally Unit Turned Off Remotely Temperature Scale 0-Ok, 0-DegF, BO 1 Unit Run (Last Command) 0-Off, Alarm Flags 0-Ok, BD 1 Loss of Communication 1 Network Point Type 2 Network Point Address 1-On 1-On 1-On 1-On 1-On 1-Yes 1-On 1-Alarm 1-DegC 1-On 1-Alarm 46 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC L10 Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Temperature point is AI1. Table 27: Liebert SiteLink/NIC L10 Function Block NPT1 NPA2 Unit Description AI 1 Deg Temperature AI 2 %RH Humidity AI 3 Step Stages AI 4 % % Capacity AI 5 Deg Temperature Tolerance AI 6 %RH Humidity Tolerance AI 7 Deg Temperature Setpoint AI 8 %RH Humidity Setpoint AO 1 DegF Temperature Setpoint (40 to 90) AO 2 %RH Humidity Setpoint (20 to 80) AO 3 AO 4 AO 5 DegC DegF %RH Temperature Setpoint DegC Temperature Tolerance Setpoint Humidity Tolerance Setpoint (5 to 32) (1 to 10) (1 to 10) 1 Network Point Type 2 Network Point Address Continued on next page . . . Metasys Integrator Liebert Application Application Note 47 NPT1 NPA2 Unit Description (Cont.) BI 1 Cooling BI 2 Heating BI 3 Humidification BI 4 BI 5 BI 6 Dehumidification Econ-O-Cycle Alarm Present BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI BI 23 BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 BI 32 33 Alarm Flags High Head Pressure 1 High Head Pressure 2 Loss of Airflow Standby Glycool Unit On Liquid Detected Change Filters High Temperature Low Temperature High Humidity Low Humidity Humidifier Problem No Water in Humidifier Pan Compressor 1 Overload Compressor 2 Overload Main Fan Overload Manual Override Smoke Detected Loss of Water Standby Unit On Low Suction Pressure Short Cycle Loss of Power Inverter on Bypass Standby Fan On Emergency Power Off Local Alarm 1 Local Alarm 2 Alarm Flags BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-No, 0-Ok, 1-On 1-On 1-On 1-On 1-On 1-Yes 1-Alarm 0-Ok, 1-Alarm 48 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC LAM and MM2 Function Blocks To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Temperature point is AI1. Table 28: Liebert SiteLink/NIC LAM and MM2 Function Blocks NPT1 NPA2 Unit Description AI 1 Deg Temperature AI 2 %RH Humidity AI 3 Step Stages AI 4 % % Capacity AI 5 Deg Temperature Tolerance AI 6 %RH Humidity Tolerance AI 7 Deg High Temp Setpoint* AI 8 Deg Low Temp Setpoint* AI 9 %RH High Humidity Setpoint* AI 10 %RH Low Humidity Setpoint* AI 11 Deg Temperature Setpoint AI 12 %RH Humidity Setpoint AO 1 DegF Temperature Setpoint (40 to 90) AO 2 %RH Humidity Setpoint (20 to 80) AO 3 AO 4 AO 5 DegC DegF %RH Temperature Setpoint DegC Temperature Tolerance Setpoint Humidity Tolerance Setpoint (5 to 32) (1 to 10) (1 to 30) 1 Network Point Type 2 Network Point Address * If the corresponding alarm is disabled at the SiteLink/NIC module, the setpoint has a 0 value. Continued on next page . . . Metasys Integrator Liebert Application Application Note 49 NPT1 NPA2 Unit Description (Cont.) BI 1 Cooling BI 2 Heating BI 3 Humidification BI 4 BI 5 BI 6 BI 7 Dehumidification Econ-O-Cycle Alarm Present Unit Run BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI BI 23 BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 BI 32 BI 33 BI 34 BI 35 36 Alarm Flags High Head Pressure 1 High Head Pressure 2 Loss of Airflow Standby Glycool Unit On Liquid Detected Change Filters High Temperature Low Temperature High Humidity Low Humidity Humidifier Problem No Water in Humidifier Pan Compressor 1 Overload Compressor 2 Overload Main Fan Overload Manual Override Smoke Detected Loss of Water Standby Unit On Low Suction Pressure Short Cycle Loss of Power Inverter on Bypass Standby Fan On Emergency Power Off Local Alarm 1 Local Alarm 2 Unit Turned Off Locally Unit Turned Off Remotely BO 1 Unit Run (Last Commanded) Alarm Flags BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-No, 0-Off, 0-Ok, 1-On 1-On 1-On 1-On 1-On 1-Yes 1-On 1-Alarm 0-Off, 0-Ok, 1-On 1-Alarm 50 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC LSM Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Temperature point is AI1. Table 29: Liebert SiteLink/NIC LSM Function Block NPT1 NPA2 Unit Description AI 1 Deg Temperature AI 2 %RH Humidity AI 3 AI 4 AI 5 AI 6 AI 7 AI 8 Step % Deg %RH Deg %RH Stages % Capacity Temperature Tolerance Humidity Tolerance Temp Setpoint Humidity Setpoint AO 1 DegF Temperature Setpoint (40 to 90) AO 2 %RH Humidity Setpoint (20 to 80) AO 3 AO 4 AO 5 DegC DegF %RH Temperature Setpoint DegC Temperature Tolerance Setpoint Humidity Tolerance Setpoint (5 to 32) (1 to 10) (1 to 10) BI 1 Cooling 0-Off, 1-On BI 2 Heating 0-Off, 1-On BI 3 BI 4 BI 5 BI 6 BI 7 Humidification Dehumidification Econ-O-Cycle Alarm Present Unit Run 0-Off, 0-Off, 0-Off, 0-No, 0-Off, 1-On 1-On 1-On 1-Yes 1-On BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 Alarm Flags High Head Pressure 1 High Head Pressure 2 Loss of Airflow Liquid Detected Change Filters High Temperature Low Temperature High Humidity Low Humidity Custom Alarm 1 Unit Turned Off Locally Unit Turned Off Remotely 0-Ok, 1-Alarm BO 1 Unit Run (Last Commanded) 0-Off, 1-On Alarm Flags 0-Ok, 1-Alarm BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address Metasys Integrator Liebert Application Application Note 51 Liebert SiteLink/NIC MM4 Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the kW point is AI13. Table 30: Liebert SiteLink/NIC MM4 Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 Volt Input Volts C-A AI 4 Volt Output Volts A-B AI 5 Volt Output Volts B-C AI 6 Volt Output Volts C-A AI 7 Amps Output Amps A AI 8 Amps Output Amps B AI 9 Amps Output Amps C AI 10 Volt DC Bus Voltage AI 11 Amps Battery Current AI 12 kVA KVA AI 13 kW kW AI 14 Hz Critical Bus Frequency AI 15 % % Capacity A AI 16 % % Capacity B AI 17 % % Capacity C AI 18 Amps Input Amps A AI 19 Amps Input Amps B AI 20 Amps Input Amps C 1 Network Point Type 2 Network Point Address Continued on next page . . . 52 Metasys Integrator Liebert Application Application Note NPT1 NPA2 Unit Description (Cont.) BI 1 Alarm Present Alarm Flags BI 2 Battery Discharge BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI BI 23 BI 24 BI 25 26 Input Failure Hardware Shutdown DC Ground Fault Input CB Open Output CB Open DC Cap Fuse Blown Low Battery Reserve Output Overload Rectifier Fuse Blown Emergency Power Off Ambient Overtemperature Battery Disconnected Control Power Failure Overload Shutdown Inverter Fault Input Current Unbalance Inverter Out of Sync Reverse Power Low Battery Shutdown DC Overvoltage Shutdown Battery Cycle Buffer Full Equipment Overtemperature Blower/Fan Failure Overtemperature Shutdown Alarm Flags BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 0-No, 0-Ok 1-Yes 1-Alarm 0-Ok 1-Alarm Metasys Integrator Liebert Application Application Note 53 Liebert SiteLink/NIC MMS Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the kW point is AI16. Table 31: Liebert SiteLink/NIC MMS Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 Volt Input Volts C-A AI 4 Volt Output Volts A-B AI 5 Volt Output Volts B-C AI 6 Volt Output Volts C-A AI 7 Volt Output Volts A-N AI 8 Volt Output Volts B-N AI 9 Volt Output Volts C-N AI 10 Amps Output Amps A AI 11 Amps Output Amps B AI 12 Amps Output Amps C AI 13 Volt DC Bus Voltage AI 14 Amps Battery Current AI 15 kVA kVA AI 16 kW kW AI 17 Hz Output Frequency AI 18 % % Capacity A AI 19 % % Capacity B AI 20 % % Capacity C BI 1 Alarm Present 0-No, Alarm Flags 0-Ok BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 Battery Discharge Low Battery Reserve Output Overload Fuse Cleared Ambient Overtemperature Battery Grounded Battery Disconnected Module Cooling Control Power Failure Overload Shutdown Alarm Flags 0-Ok BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm 54 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC NPower IMP Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Battery Temperature is AI9. Table 32: Liebert SiteLink/NIC NPower IMP Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 Volt Input Volts C-A AI 4 Volt Bypass Volts A-B AI 5 Volt Bypass Volts B-C AI 6 Volt Bypass Volts C-A AI 7 Volt Battery Volts AI 8 Amps Battery Current AI 9 C Battery Temperature AI 10 Volt Output Volts A-B AI 11 Volt Output Volts B-C AI 12 Volts Output Volts C-A AI 13 Amps Output Current A AI 14 Amps Output Current B AI 15 Amps Output Current C AI 16 kVA Output kVA A AI 17 kVA Output kVA B AI 18 kVA Output kVA C AI 19 kW Output kW A AI 20 kW Output kW B AI 21 kW Output kW C AI 22 Hz Output Frequency AI 23 %max Rated kVA Percent AI 24 %max Rated kW Percent 1 Network Point Type 2 Network Point Address Continued on next page . . . Metasys Integrator Liebert Application Application Note 55 NPT1 NPA2 Unit (Cont.) Description BI 1 Communications BI 2 Battery Fuse Failure BI 3 Battery Low Transfer BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 BI BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 BI 32 BI 33 BI 34 BI 35 BI 36 BI 37 BI 38 BI 39 BI 40 BI 41 BI 42 DC Overvoltage Transient Input Phase Rotation Error Rectifier Fuse Failure Bypass Frequency Error Bypass Overload Shutdown Bypass Phase Rotation Error Inverter Overload Transfer Inverter Fuse Failure Output Overvolt Transfer Output Undervolt Transfer SBS SCR Open SBS SCR Shorted Inverter Current Limit Transfer Overtemp CB Trip Battery Ground Fault CB Trip Power Supply Fail EPO Shutdown Rectifier Fail Inverter Fail Hardware Shutdown Battery Discharging Input Current Imbalance Input Line Failure Input Undervoltage Input Overvoltage Input Overcurrent Battery CB Open Bypass Sync Error Bypass Volts Out of Tolerance Bypass Line Failure Inverter Current Limit Output Over/Under Frequency Inverter Overload Excessive Auto Re-Transfers Overtemp Warning Fan Failure SBS Unable Inverter Off by User Low Battery Warning BI 43 Battery Test Fail User Shutdown BI 44 Load on Bypass 45 Input Contact 1 Network Point Type 2 Network Point Address 56 Metasys Integrator Liebert Application Application Note 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 0-Ok, 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm 1-Alarm Liebert SiteLink/NIC PMP Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the kW point is AI16. Table 33: Liebert SiteLink/NIC PMP Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 Volt Input Volts C-A AI 4 Volt Output Volts A-B AI 5 Volt Output Volts B-C AI 6 Volt Output Volts C-A AI 7 Volt Output Volts A-N AI 8 Volt Output Volts B-N AI 9 Volt Output Volts C-N AI 10 Amps Output Amps A AI 11 Amps Output Amps B AI 12 Amps Output Amps C AI 13 Amps Ground Current AI 14 Amps Neutral Current AI 15 kVA kVA AI 16 kW kW AI 17 Hz Output Freq AI 18 % % Capacity A AI 19 % % Capacity B AI 20 % % Capacity C BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 Output Undervoltage Output Overvoltage Output Overcurrent Frequency Deviation Ground Overcurrent Transformer Overtemp Ground Fault Ground Failure Liquid Detected Security Alarm Phase Rotation/Loss Datawave Overtemp Emergency Shutdown Load On Bypass Local Alarm Custom Alarm 1 Custom Alarm 2 Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm Metasys Integrator Liebert Application Application Note 57 Liebert SiteLink/NIC RAC Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Unit 1 On/Off point is BI1. Table 34: Liebert SiteLink/NIC RAC Function Block NPT1 NPA2 Unit Description BI 1 Unit 1 On/Off 0-Off, BI 2 Unit 2 On/Off 0-Off, BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 Unit 3 On/Off Unit 4 On/Off Unit 5 On/Off Unit 6 On/Off Unit 7 On/Off Unit 8 On/Off Alarm Present 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-Off, 0-No, BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI BI 23 24 Alarm Flags Unit 1 Common Alarm Unit 2 Common Alarm Unit 3 Common Alarm Unit 4 Common Alarm Unit 5 Common Alarm Unit 6 Common Alarm Unit 7 Common Alarm Unit 8 Common Alarm Emergency Power Operation EPO All Units High Temperature Low Temperature High Humidity Low Humidity Manual Override 0-Ok, Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-On 1-Yes 1-Alarm 1-Alarm 58 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC SC4 Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the kW point is AI11. Table 35: Liebert SiteLink/NIC SC4 Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 Volt Input Volts C-A AI 4 Volt Output Volts A-B AI 5 Volt Output Volts B-C AI 6 Volt Output Bolts C-A AI 7 Amps Output Amps A AI 8 Amps Output Amps B AI 9 Amps Output Amps C AI 10 kVA KVA AI 11 kW kW AI 12 Hz Critical Bus Frequency AI 13 % % Capacity A AI 14 % % Capacity B AI 15 % % Capacity C AI 16 Volt Bypass Volts A-B AI 17 Volt Bypass Volts B-C AI 18 Volt Bypass Volts C-A AI 19 Hz Output Frequency AI 20 Hz Bypass Frequency BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 BI 18 BI 19 BI 20 BI 21 BI 22 BI 23 Output Undervoltage Output Overvoltage Frequency Deviation Bypass CB Open Output CB Open Static SW Disconnected Output Overload Emergency Power Off Load On Bypass Static Switch Disabled Control Power Failure Module 1Summary Alarm Module 2 Summary Alarm Module 3 Summary Alarm Module 4 Summary Alarm Module 5 Summary Alarm Module 6 Summary Alarm Bypass Not Available Not OK to Transfer Bypass Ph. Rotation Error Manual Reset/Transfer Auto Retransfer Primed 1 Network Point Type 2 Network Point Address Continued on next page . . . 1-Yes 1-Alarm Metasys Integrator Liebert Application Application Note 59 NPT1 NPA2 Unit Description (Cont.) BI 24 Overload Transfer BI 25 Module 1 Offline BI 26 Module 2 Offline BI 27 Module 3 Offline BI 28 BI 29 BI 30 BI 31 BI 32 BI 33 BI 34 BI 35 BI 36 BI 37 BI 38 Module 4 Offline Module 5 Offline Module 6 Offline Custom Alarm 1 Custom Alarm 2 Custom Alarm 3 Custom Alarm 4 Custom Alarm 5 Custom Alarm 6 Custom Alarm 7 Custom Alarm 8 Alarm Flags BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 0-Ok, 1-Alarm 60 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC SCC Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the kW point is AI14. Table 36: Liebert SiteLink/NIC SCC Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 Volt Input Volts C-A AI 4 Volt Output Volts A-B AI 5 Volt Output Volts B-C AI 6 Volt Output Volts C-A AI 7 Volt Output Volts A-N AI 8 Volt Output Volts B-N AI 9 Volt Output Volts C-N AI 10 Amps Output Amps A AI 11 Amps Output Amps B AI 12 Amps Output Amps C AI 13 kVA KVA AI 14 kW kW AI 15 Hz Output Frequency AI 16 % % Capacity A AI 17 % % Capacity B AI 18 % % Capacity C BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 Output Overload Emergency Power Off Load On Bypass Static Switch Disabled Output Out of Limits Module 1 Summary Alarm Module 2 Summary Alarm Module 3 Summary Alarm Module 4 Summary Alarm Module 5 Summary Alarm Module 6 Summary Alarm Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm Metasys Integrator Liebert Application Application Note 61 Liebert SiteLink/NIC SM3 Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Output Frequency point is AI14. Table 37: Liebert SiteLink/NIC SM3 Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-N AI 2 Volt Input Volts B-N AI 3 Volt Input Volts C-N AI 4 Volt Output Volts A-N AI 5 Volt Output Volts B-N AI 6 Volt Output Volts C-N AI 7 Amps Output Amps A AI 8 Amps Output Amps B AI 9 Amps Output Amps C AI 10 Volt DC Bus Voltage AI 11 Amps DC Bus Current AI 12 kVA kVA AI 13 kW kW AI 14 Hz Output Frequency AI 15 % % Capacity A AI 16 % % Capacity B AI 17 % % Capacity C BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 Battery Discharge BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 Low Battery Reserve Output Overload Fuse Cleared Emergency Power Off Ambient Overtemperature Load On Bypass Static Switch Disabled Battery Disconnected Module Cooling Failure Control Power Failure Overload Shutdown Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm 62 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC SM4 Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Input Amps A point is AI21. Table 38: Liebert SiteLink/NIC SM4 Function Block NPT1 NPA2 Unit Description AI 1 Volt Input Volts A-B AI 2 Volt Input Volts B-C AI 3 AI 4 AI 5 AI 6 AI 7 AI 8 AI 9 AI 10 AI 11 AI 12 AI 13 AI 14 AI 15 AI 16 AI 17 AI 18 AI 19 AI 20 AI 21 AI 22 AI 23 AI 24 Volt Volt Volt Volt Amps Amps Amps Volt Amps kVA kW Hz % % % Volt Volt Volt Amps Amps Amps Hz Input Volts C-A Output Volts A-B Output Volts B-C Output Volts C-A Output Amps A Output Amps B Output Amps C DC Bus Voltage Battery Current kVA kW Critical Bus Frequency % Capacity A % Capacity B % Capacity C Bypass Volts A-B Bypass Volts B-C Bypass Volts C-A Input Amps A Input Amps B Input Amps C Bypass Frequency BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 BI 14 BI 15 BI 16 BI 17 B 18 BI 19 Output Undervoltage Output Overvoltage Battery Discharge Freq Deviation Input Failure Hardware Shutdown DC Ground Fault Input CB Open Bypass CB Open Output CB Open Static SW Disconnected DC Cap Fuse Blown Low Battery Reserve Output Overload Rectifier Fuse Blown Emergency Power Off Ambient Overtemperature Load On Bypass 1 Network Point Type 2 Network Point Address Continued on next page . . . 1-Yes 1-Alarm Metasys Integrator Liebert Application Application Note 63 NPT1 NPA2 (Cont.) BI 20 BI 21 BI 22 BI 23 BI 24 BI 25 BI 26 BI 27 BI 28 BI 29 BI 30 BI 31 BI 32 BI 33 BI 34 BI 35 BI 36 BI 37 BI 38 BI 39 BI 40 BI 41 BI 42 BI 43 BI 44 BI 45 Unit BD 1 1 Network Point Type 2 Network Point Address Description Static Switch Disabled Battery Disconnected Control Power Failure Inverter Fault Input Current Unbalance Bypass Not Available Not OK to Transfer Bypass Ph. Rotation Error Manual Reset/Transfer Auto Retransfer Primed Overload Transfer Reverse Power Low Battery Shutdown DC Overvoltage Shutdown Battery Cycle Buffer Full Equip Overtemp Blower/Fan Failure Overtemp Shutdown Custom Alarm 1 Custom Alarm 2 Custom Alarm 3 Custom Alarm 4 Custom Alarm 5 Custom Alarm 6 Custom Alarm 7 Custom Alarm 8 Alarm Flags Loss of Communications 0-Ok, 1-Alarm 64 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC SMS Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Output Frequency point is AI17. Table 39: Liebert SiteLink/NIC SMS Function Block NPT1 NPA2 Unit Description AI 1 Volt Bypass Volts A-B AI 2 Volt Bypass Volts B-C AI 3 Volt Bypass Volts C-A AI 4 Volt Output Volts A-B AI 5 Volt Output Volts B-C AI 6 Volt Output Volts C-A AI 7 Volt Output Volts A-N AI 8 Volt Output Volts B-N AI 9 Volt Output Volts C-N AI 10 Amps Output Amps A AI 11 Amps Output Amps B AI 12 Amps Output Amps C AI 13 Volt DC Bus Voltage AI 14 Amps DC Bus Current AI 15 kVA kVA AI 16 kW kW AI 17 Hz Output Frequency AI 18 % % Capacity A AI 19 % % Capacity B AI 20 % % Capacity C BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 BI 3 BI 4 BI 5 BI 6 BI 7 BI 8 BI 9 BI 10 BI 11 BI 12 BI 13 Battery Discharge Low Battery Reserve Output Overload Fuse Cleared Emergency Power Off Ambient Overtemperature Load On Bypass Static Switch Disabled Battery Disconnected Module Cooling Failure Control Power Failure Overload Shutdown Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm Metasys Integrator Liebert Application Application Note 65 Liebert SiteLink/NIC THM Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the No. 1 Temperature point is AI1. Table 40: Liebert SiteLink/NIC THM Function Block NPT1 NPA2 Unit Description AI 1 Deg #1 - Temperature AI 2 %RH #1 - Humidity AI 3 Deg #2 - Temperature AI 4 %RH #2 - Humidity AI 5 Deg #3 - Temperature AI 6 %RH #3 - Humidity AI 7 Deg #4 - Temperature AI 8 %RH #4 - Humidity AI 9 Deg #5 - Temperature AI 10 %RH #5 - Humidity AI 11 Deg #6 - Temperature AI 12 %RH #6 - Humidity AI 13 Deg #7 - Temperature AI 14 %RH #7 - Humidity AI 15 Deg #8 - Temperature AI 16 %RH #8 - Humidity BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 66 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC VCF Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Alarm Present point is BI1. Table 41: Liebert SiteLink/NIC VCF Function Block NPT1 NPA2 Unit Description AI 1 Volt Output Volts X-Y AI 2 Volt Output Volts Y-Z AI 3 Volt Output Volts Z-X AI 4 Volt Output Volts X-N AI 5 Volt Output Volts Y-N AI 6 Volt Output Volts Z-N AI 7 Amps Output Amps A AI 8 Amps Output Amps B AI 9 Amps Output Amps C AI 10 Amps Ground Current AI 11 Amps Neutral Current AI 12 kVA kVA AI 13 Hz Frequency BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 Output Undervoltage BI 3 BI 4 BI 5 BI 6 Output Overvoltage Transformer Overtemp Local Alarm 1 Local Alarm 2 Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm Metasys Integrator Liebert Application Application Note 67 Liebert SiteLink/NIC VCM Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Alarm Present point is BI1. Table 42: Liebert SiteLink/NIC VCM Function Block NPT1 NPA2 Unit Description AI 1 Volt Output Volts X-Y AI 2 Volt Output Volts Y-Z AI 3 AI 4 AI 5 AI 6 AI 7 AI 8 AI 9 AI 10 AI 11 AI 12 Volt Volt Volt Volt Amps Amps Amps Amps Amps kVA Output Volts Z-X Output Volts X-N Output Volts Y-N Output Volts Z-N Output Amps A Output Amps B Output Amps C Ground Current Neutral Current kVA BI 1 Alarm Present 0-No, Alarm Flags 0-Ok, BI 2 Output Undervoltage BI 3 BI 4 BI 5 BI 6 Output Overvoltage Transformer Overtemp Local Alarm 1 Local Alarm 2 Alarm Flags 0-Ok, BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address 1-Yes 1-Alarm 1-Alarm 68 Metasys Integrator Liebert Application Application Note Liebert SiteLink/NIC WDU Function Block To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Distance point is AI1. Table 43: Liebert SiteLink/NIC WDU Function Block NPT1 NPA2 Unit Description AI 1 # Distance BI 1 Units 0-Meters, 1-Feet BI 2 Alarm Present 0-No, 1-Yes Alarm Flags 0-Ok, 1-Alarm BI 3 BI 4 Cable Fault Liquid Detected Alarm Flags 0-Ok, 1-Alarm BD 1 Loss of Communications 1 Network Point Type 2 Network Point Address Metasys Integrator Liebert Application Application Note 69 Metasys Network Setup Metasys Network Setup is described in the Metasys Integrator unit technical bulletins on the Johnson Controls Product Information site (http://cgproducts.johnsoncontrols.com System Manuals > Integration > Metasys Integrator). This section contains details specific to Liebert applications. Mapping to a CS Object Table 44: Software Model and CS Object Definition Application Software Model Display Attribute (on Tables and Models (Recommended) CD-ROM) NT Command Attribute (Recommended) DC100 or MCCI System 3 LI_SYS3.DDL AI1 BO1 Levels 0, 1, 2, 3, 10, and 15 Small Systems Controller LI_SSC.DDL Temperature AI1 Reset Alarms BO1 Temperature Reset Alarms ECA2 Level 0 LI_ECA2.DDL AI1 BO1 Temperature Reset Alarms Levels 10 and 15 LIECA210.DDL AI1 BO1 Temperature Reset Alarms DCLAN Environmental Units Level 00 (L00) LIDCLL00.DDL AI1 BO1 Small Systems Control (L0B) LIDCLL0B.DDL Temperature AI1 Unit Run BO1 Level 02 (L02) and Level 03 (L03) Level 0 with On/Off Control (L0A) and Standard LIDCLL02.DDL LIDCLL0A.DDL Temperature AI1 Temperature Unit Run BO1 Reset Alarms Microprocessor (LSM) Level 10 without On/Off Control (L10) Level 10 (L1A) and Level 15 (LAM) with On/Off Control LIDCLL10.DDL LIDCLL1A.DDL AI1 Temperature AI1 Temperature BO1 Reset Alarms BO1 Reset Alarms * For the NT Command attribute, use the same attribute as the Display attribute. However, since you cannot command the points, you will not be able to command the attribute. (This must be defined because the NT Command attribute cannot be null.) Continued on next page . . . 70 Metasys Integrator Liebert Application Application Note Application (Cont.) Software Model (on Tables and Models CD-ROM) Display Attribute (Recommended) NT Command Attribute (Recommended) Chillers Single Module (CW1) LIDCLCW1.DDL BI4 BI4* Two Module (CW2) LIDCLCW2.DDL Cooling On BI4 Cooling On BI4* Three Module (CW3) LIDCLCW3.DDL Cooling On BI4 Cooling On BI4* Chillers with Econocoil Cooling On Cooling On Single Module (CE1) LIDCLCE1.DDL BI4 BI4 Two Module (CE2) LIDCLCE2.DDL Cooling On BI4 Cooling On BI4 Three Module (CE3) LIDCLCE3.DDL Cooling On BI4 Cooling On BI4 Power Conditioning Unit Cooling On Cooling On Power Monitoring Panel (PMP) UPS LIDCLPMP.DDL AI 13 kW BO1 Reset Alarms Series 300 and 600 Single Module System (SMS) Series 600 Multi-Module System (MMS) Series 600 Static Control Cabinet (SCC) NPower (IMP) UPS LIDCLSMS.DDL LIDCLMMS.DDL LIDCLSCC.DDL LISL_IMP.DDL AI16 Battery Current AI16 Battery Current AI1 Input Volts A-B AI8 BO1 Reset Alarms BO1 Reset Alarms BO1 Reset Alarms AI8* Contact Closure Module (CCM) LIDCLCCM.DDL Battery Current BI1 Battery Current BI1* Input Contact 1 Input Contact 1 * For the NT Command attribute, use the same attribute as the Display attribute. However, since you cannot command the points, you will not be able to command the attribute. (This must be defined because the NT Command attribute cannot be null.) Continued on next page . . . Metasys Integrator Liebert Application Application Note 71 Application (Cont.) Software Model (on Tables and Models CD-ROM) Display Attribute (Recommended) NT Command Attribute (Recommended) SiteLink/NIC Modbus Function Blocks CCM LiSL_CCM.DDL BI1 Contact 1 BI1* Contact 1 CSE LiSL_CSE.DDL BI1 Module 1 Start/Stop BI1* Module 1 Start/Stop CSU LiSL_CSU.DDL BI1 Module 1 Start/Stop BI1* Module 1 Start/Stop EDS LiSL_EDS.DDL AI2 Source 1 Volts A-B AI2* Source 1 Volts A-B LiSL_L00.DDL AI1 AO1* L00 Temperature Setpoint LiSL_L0B.DDL AI1 BO1* L0B Temperature Unit Run LiSL_L10.DDL AI1 AO1* L10 Temperature Setpoint LAM LiSL_LAM.DDL AI1 Temperature AO1* Setpoint LSM LiSL_LSM.DDL AI1 Temperature AO1* Setpoint MM4 LiSL_MM4.DDL AI1 Input Volts A-B AI1* Input Volts A-B MMS LiSL_MMS.DDL AI1 Input Volts A-B AI1* Input Volts A-B PMP LiSL_PMP.DDL AI1 Input Volts A-B AI1* Input Volts A-B RAC LiSL_RAC.DDL BI1 Unit 1 On/Off BI1* Unit 1 On/Off SC4 LiSL_SC4.DDL AI1 AI1* Input Volts A-B Input Volts A-B SCC LiSL.SCC.DDL AI1 Input Volts A-B AI1* Input Volts A-B SM3 LiSL_SM3.DDL AI1 Input Volts A-B AI1* Input Volts A-B SM4 LiSL_SM4.DDL AI1 AI1* Input Volts A-B Input Volts A-B SMS LiSL_SMS.DDL AI4 AI4* Output Volts A-B Output Volts A-B * For the NT Command attribute, use the same attribute as the Display attribute. However, since you cannot command the points, you will not be able to command the attribute. (This must be defined because the NT Command attribute cannot be null.) Continued on next page . . . 72 Metasys Integrator Liebert Application Application Note Application (Cont.) Software Model (on Tables and Models CD-ROM) Display Attribute (Recommended) NT Command Attribute (Recommended) SiteLink/NIC Modbus (Cont.) THM LiSL_THM.DDL AI1 AI1* #1 Temp #1 Temp VCF LiSL_VCF.DDL AI1 AI1* VCM LiSL_VCM.DDL Output Volts X-Y AI1 Output Volts X-Y AI1* WDU LiSL_WDU.DDL Output Volts X-Y AI1 Output Volts X-Y AI1* Distance Distance * For the NT Command attribute, use the same attribute as the Display attribute. However, since you cannot command the points, you will not be able to command the attribute. (This must be defined because the NT Command attribute cannot be null.) Metasys Integrator Liebert Application Application Note 73 Custom Integration For information on integrating products that are not discussed in this document, first refer to the Metasys Compatible Products online list of released connectivity products. If this list does not provide the information you require, consider using the Systems Integration Services (SIS) Request Custom Engineered Solutions process to request a custom contract from System Integration Team. Access both the Metasys Compatible Products and the Request Custom Engineered Solutions process from The Advisor by performing the following steps: 1. Click on the Products Focus link, located at the top of The Advisor home page. 2. Under Products, click on the Systems Integration Services link. 3. For the searchable database, click on Metasys Compatible Products. 4. Select Metasys Compatible Products Database. 5. Click Online Search Tool. 6. After the search in completed, return to the Systems Integration Services home page as instructed in Steps 1-2. 7. Select Custom Engineered Solutions to view the process used for requesting all types of SIS engineered solutions and services. 8. Select Requesting an Engineered Solution or Service. 9. Click Online Request Page. If you need further assistance, contact the Johnson Controls Field Support Center. Controls Group 507 E. Michigan Street P.O. Box 423 Milwaukee, WI 53201 74 Metasys Integrator Liebert Application Application Note www.johnsoncontrols.com Published in U.S.A.Acrobat Distiller 6.0.1 (Windows)