ProtoNode RER and ProtoNode LER Startup Guide For Interfacing Infinite Energy 2 Products: Argus Managing/Standalone Boiler and Dependent Boiler To Building Automation Systems: BACnet MS/TP, BACnet/IP, Modbus/TCP, Metasys N2 and LonWorks
ProtoNodeRERandProtoNodeLER
StartupGuideForInterfacingInfiniteEnergy2Products:
ArgusManaging/StandaloneBoilerandDependentBoilerToBuildingAutomationSystems:
BACnetMS/TP,BACnet/IP,Modbus/TCP,MetasysN2andLonWorks
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AQuickStartguide
1. Recordtheinformationabouttheunit.(SeeSection2.1)
2. Setthedevice’sModbusRTUserialsettings(i.e.baudrate,parity,stopbits)andModbusNode-IDforeachofthedevicesthatwillbeconnectedtoProtoNodeFPC-N34orFPC-N35.(Section2.2)
3. SettheProtoNodeFieldProtocolonSBankDIPSwitchesforBACnetMS/TP,BACnet/IP,ModbusRTUorMetasysN2.(Seesection2.3.11)
4. EnabletheProtoNode“AutoDiscovery”modeonDipSwitchBankS.(Seesection2.3.1)
5. SettheBACnetMS/TPMACAddressonDIPSwitchBankA.(Seesection2.4)
6. SetBACnetdevice addresses for ProtoNode FPC-N34:BACnetMS/TPhasboth aMACAddress and aDeviceInstance.BACnet/IPonlyhasaDeviceInstance.(Section2.4)
7. SettheBACnetMS/TPBAUDrateoftheFieldProtocolonDIPSwitchBankB.(Seesection2.5.15)
8. Connect FPC-N34 ProtoNode’s 3 pin RS-485 port to the Field Protocol cabling, or connect FPC-N35ProtoNode’s2pinLonWorksporttotheFieldProtocolcabling.
9. ConnectProtoNode’s6pinRS-485connectortotheModbusRS-485networkthatisconnectedtoeachofthedevices.(Section3)
10. ConnectPower toProtoNodeRERorLER. Itwill takeabout3minutes forall theOEMdevices tobediscovered,andtheconfigurationfiletobebuilt.(SeeSection3.5)
11. OncetheProtoNodehasfinishedcreatingtheconfigurationfile,setthe“AutoDiscovery”DipSwitchto“Off”tosavetheconfigurationsettings.(SeeSection3.5)
12. WheretheFieldprotocolisBACnet/IPorModbus/TCP,runProtoNodeWebGUIutilityprogramtochangetheIPaddress.Nochangestotheconfigurationarenecessary.(Section4)
13. ProtoNodeFPC-N35unitsmustbecommissionedontheLonWorksNetwork.ThisneedstobedonebytheLonWorksadministratorusingaLonWorksCommissioningtool.(SeeSection5)
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Certifications
§ BTLMARK–BACNETTESTINGLABORATORY
§ LONMARKCERTIFICATION
TheBTLMarkonProtoNodeRERisasymbolthatindicatesthataproducthaspassedaseriesofrigoroustestsconductedbyanindependentlaboratorywhichverifiesthattheproductcorrectly implementstheBACnetfeaturesclaimed inthe listing. Themark is a symbol of a high-quality BACnet product. Go tohttp://www.bacnetinternational.net/btl/ for more information about the BACnetTestingLaboratory.
LonMarkInternationalistherecognizedauthorityforcertification,education,andpromotion of interoperability standards for the benefit of manufacturers,integratorsandendusers.LonMarkInternationalhasdevelopedextensiveproductcertificationstandardsandteststoprovidetheintegratoranduserwithconfidencethatproductsfrommultiplemanufacturersutilizingLonMarkdevicesworktogether.FieldServer Technologies has more LonMark Certified gateways than any othergatewaymanufacturer,includingtheProtoCessor,ProtoCarrierandProtoNodeforOEMapplicationsandthefullfeatured,configurablegateways.
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TABLEOFCONTENTS
Introduction.........................................................................................................................................................6 1.1 ProtoNodeGateway......................................................................................................................................6 1.2 DevicesandPointCountAvailable................................................................................................................6
2 BACnet/LonWorksSetupforProtoCessorProtoNodeRER/LER.....................................................................7 2.1 RecordIdentificationData............................................................................................................................7 2.2 ConfigureModbusRTUCOMSettingsontheDevicesConnectedtoProtoNodeRER(FPC-N34)andProtoNodeLER(FPC-N35LonWorks)........................................................................................................................7 2.3 SelecttheDesiredFieldProtocol–BACnetMS/TP,BACnet/IP,Modbus/TCPorMetasysN2viaSBankDIPSwitchesforProtoNodeRER(FPC-N34BACnet).......................................................................................................8
2.3.1 UsingS0–S3bankofDIPSwitches.......................................................................................................8 2.4 SetMACAddressforBACnetMS/TP;SetDeviceInstanceforBACnetMS/TPandBACnet/IP;SetNode-IDforMetasysN2andModbus/TCPonProtoNodeRER(FPC-N34).............................................................................9
2.4.1 SettingtheMACAddressforBACnetMS/TPforProtoNodeRER(FPC-N34BACnet).............................9 2.4.2 SettingtheDeviceInstance(Node-ID)forBACnetMS/TPandBACnet/IPonProtoNodeRER(FPC-N34BACnet) 9 2.4.3 SettingtheDeviceNode-IDforMetasysN2andModbus/TCPonProtoNodeRER(FPC-N34MetasysN2) 11
2.5 SetBaudRateforBACnetMS/TPonProtoNodeRER(FPC-N34BACnet)....................................................11 2.5.1 SettingtheSerialBaudRate(DIPSwitchB0–B3)forBACnetMS/TP.................................................11
3 InterfacingProtoNodetoDevices...............................................................................................................12 3.1 ProtoNodeRER(FPC-N34)andLER(FPC-N35)ShowingConnectionPorts.................................................12 3.2 WiringConnectionstoProtoNodeRER(FPC-N34BACnet)andProtoNodeLER(FPC-N35LonWorks).......13
3.2.1 BiasingtheModbusRS-485Network..................................................................................................13 3.2.2 EndofLineTerminationSwitchfortheModbusRS-485portontheProtoNode.................................14
3.3 WiringProtoNodeRERtoRS-485FieldProtocol(BACnetMS/TPorMetasysN2)......................................15 3.4 WiringProtoNodeLER(FPC-N35)FieldPorttoaLonWorksNetwork........................................................15 3.5 Power-UpProtoNodeRER(FPC-N34BACnet)orProtoNodeLER(FPC-N35LonWorks)andAuto-DiscoverModbusRTUDevicesconnectedtotheProtoNode................................................................................................16
3.5.1 Auto-DiscoverAllDevices,BuildandAutomaticallyLoadsConfigurationFile....................................17 4 ChangetheprotonodeIPaddressusingthewebGUIforBACnet/ipandmodbustcp..................................19
4.1 ConnectthePCtoProtoNodeviatheEthernetPort...................................................................................19 4.2 UsetheProtoNodeWebGUItoConnecttotheProtoNode.......................................................................20 4.3 SetIPAddressforBACnet/IPandModbusTCP...........................................................................................21
5 CommissioningProtoNodeLERonaLonWorksNetwork.............................................................................23 5.1 CommissioningProtoNodeLERonaLonWorksNetwork...........................................................................23
5.1.1 InstructionstoUploadXIFFilefromProtoNodeLERUsingFieldServerGUIWebServer.....................23 6 CASBACnetExplorerforValidatingProtoNodeintheField.........................................................................25
6.1 DownloadingtheCASExplorerandRequestinganActivationKey.............................................................25 6.2 CASBACnetSetup.......................................................................................................................................26
6.2.1 CASBACnetMS/TPSetup....................................................................................................................26 6.2.2 CASBACnetBACnet/IPSetup...............................................................................................................26
AppendixA.Troubleshooting.............................................................................................................................27 AppendixA.1.CheckWiringandSettings...............................................................................................................27 AppendixA.2.TakeDiagnosticCaptureWiththeFieldServerUtilities...................................................................27 AppendixA.3.SettingtheNetworkNumberforBACnet/IPwhenmorethanoneProtoNodeisonthesameSubnet.....................................................................................................................................................................30 AppendixA.4.LEDDiagnosticsforModbusRTUCommunicationsBetweenProtoNodeandDevices...................30
AppendixB.VendorInformation-Cosmogas.....................................................................................................31 AppendixB.1.ArgusModbusRTUMappingstoBACnetMS/TP,BACnet/IP,MetasysN2andLonWorks..............31
AppendixC.MACAddressDIPSwitchSettings...................................................................................................37
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AppendixC.1.MACAddressDIPSwitchSettings....................................................................................................37 AppendixD.Reference.......................................................................................................................................40
AppendixD.1.Specifications...................................................................................................................................40 AppendixD.1.1. CompliancewithULRegulations...........................................................................................40
AppendixE.CascadeconnectionwithMODBUS.................................................................................................41 AppendixE.1.ExampleofMODBUSconnectionforheaterswithserialnumberupto14999999.........................41 AppendixE.2.ExampleofMODBUSconnectionforheaterswithserialnumberhigherthan15000000...............42
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INTRODUCTION
1.1 ProtoNodeGateway
ProtoNodeisanexternal,highperformanceBuildingAutomationmulti-protocolgatewaythatispreconfiguredtoAuto-Discoveranyof the IE2products (hereaftercalled“device”)connectedtotheProtoNodeandautomaticallyconfiguresthemforBACnet®1MS/TP,BACnet/IP,Metasys®2N2byJCI,ModbusTCPorLonWorks®3.Itisnotnecessarytodownloadanyconfigurationfilestosupporttherequiredapplications.
1.2 DevicesandPointCountAvailable
• The total number of devices attached to ProtoNode RER (FPC-N34) cannot exceed 1500 ModbusregistersforBACnetMS/TP,BACnet/IP,Modbus/TCPorMetasysN2.
o “RER”485isadescriptionoftheavailableports:RS-485+Ethernet+RS-485
• The total number of devices attached to ProtoNode LER (FPC-N35) cannot exceed 1000 ModbusregistersforLonWorks.
o “LER”isadescriptionoftheavailableports:LonWorks+Ethernet+RS-485
Devices PointCount
ArgusManaging/StandaloneBoiler 94DependentBoiler 48
Figure1:ModbusRegisters
1BACnetisaregisteredtrademarkofASHRAE2MetasysisaregisteredtrademarkofJohnsonControlsInc.3LonWorksisaregisteredtrademarkofEchelonCorporation
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2 BACNET/LONWORKSSETUPFORPROTOCESSORPROTONODERER/LER
2.1 RecordIdentificationData
EachProtoNodehasauniquepartnumber locatedon theundersideof theunit. Thisnumber shouldberecorded,asitmayberequiredfortechnicalsupport.Thenumbersareasfollows:
Model PartNumber
ProtoNodeRER FPC-N34-0948ProtoNodeLER FPC-N35-103-401-0953
Figure2:ProtoCessorPartNumbers
2.2 Configure Modbus RTU COM Settings on the Devices Connected to ProtoNode RER(FPC-N34)andProtoNodeLER(FPC-N35LonWorks)
• AlldevicesconnectedtoProtoNodeMUSTALLhavethesameBaudRate,DataBits,StopBits,andParity.(Figure3)
• Thefigurebelowdefinestheinstalleddefaultserialportsettingsnecessarytocommunicatewiththedevice.
SerialPortSetting Device
Protocol ModbusRTUBaudRate 9600Parity NoneDataBits 8StopBits 1
Figure3:ModbusRTUCOMSettings
• SetModbusNode-IDforeachofthedevicesattachedtoProtoNode.TheModbusNode-ID’sneedtobeuniquelyassignedbetween1and255.
o TheModbusNode-IDthatisassignedforeachdeviceneedstobedocumented.
o TheModbusNode-ID’sassignedareusedfordesignatingtheDeviceInstanceforBACnet/IPandBACnetMS/TP(Seesection2.4.2)
o TheMetasysN2andModbus/TCPNode-IDwillbesettosamevalueastheNode-IDoftheModbusRTUdevice
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2.3 SelecttheDesiredFieldProtocol–BACnetMS/TP,BACnet/IP,Modbus/TCPorMetasysN2viaSBankDIPSwitchesforProtoNodeRER(FPC-N34BACnet)
2.3.1 UsingS0–S3bankofDIPSwitches
• TheSbankofDIPswitches,S0–S2isusedtoselectBACnetMS/TP,BACnet/IP,Modbus/TCP,orMetasysN2onProtoNodeRER.
• TheS3DIPswitchisusedtoenableAuto-DiscoveryofknowndevicesattachedtotheProtoNodeRERandLER(LonWorks),aswellassavetherecentlydiscoveredconfiguration.WhentheS3DIPisOff,theProtoNodewillloadthecurrentsaveconfiguration.TurnS3toOn,iftheProtoNodeisbeinginstalledforthefirsttime.
• TheSbankofDIPswitchesonProtoNodeLERisdisabled.
• The following chart describes S0 – S2 DIP switch configuration settings for the devices to supportBACnetMS/TPorBACnet/IPonaProtoNodeRER.
• WhentheSbankofswitchesarealloff(defaultsetting)BACnet/IPisenabled.
• TheOFFpositioniswhentheDIPswitchesaresetclosesttotheoutsideofthebox.
ProtoNodeRER SBankDIPSwitches
Profile S0 S1 S2 S3BACnetIP Off Off Off OffBACnetMSTP On Off Off OffMetasysN2 Off On Off OffModbusTCP On On Off Off
S0 S1 S2 S3
S0–S3DIPSwitches
SBankDIPSwitchLocation
BACnetMS/TP,BACnet/IP,Modbus/TCP,andMetasysN2SettingsforProtoNodeRER(FPC-N34BACnet)
Figure4:SBankDIPSwitches
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2.4 Set MAC Address for BACnet MS/TP; Set Device Instance for BACnet MS/TP andBACnet/IP;SetNode-IDforMetasysN2andModbus/TCPonProtoNodeRER(FPC-N34)
2.4.1 SettingtheMACAddressforBACnetMS/TPforProtoNodeRER(FPC-N34BACnet)
• Only1MACaddressissetforProtoNoderegardlessofhowmanydevicesareconnectedtoProtoNode.
• Set the BACnetMS/TPMAC address of the ProtoNode to a value between 1 to 127 (MasterMACaddress);thisissothattheBMSFrontEndcanfindProtoNodeviaBACnetautodiscovery.
• Note:Never set a BACnet MS/TP MAC Address of the ProtoNode to a value from 128 to 255.Addressesfrom128to255areSlaveAddressesandcannotbediscoveredbyBMSFrontEndsthatsupportAutoDiscoveryofBACnetMS/TPdevices.
• SetDIPswitchesA0–A7toassignMACAddressforBACnetMS/TPfortheProtoNodeRER(FPC-N34).
• PleaserefertoAppendixC.1forthecompleterangeofMACAddressesandDIPswitchsettings.
• WhenusingMetasysN2andModbus/TCP,theABankofDIPswitchesaredisabledandnotused.TheyshouldbesettoOFF.
NOTE:WhensettingDIPSwitches,pleaseensurethatpowertotheboardisOFF.
2.4.2 Setting the Device Instance (Node-ID) for BACnet MS/TP and BACnet/IP onProtoNodeRER(FPC-N34BACnet)
• TheABankofDIPswitchesarealsousedtosettheBACnetDeviceInstances.
• TheBACnetdeviceinstanceswillbecalculatedbytakingtheNode_OffsetfoundinWebConfiguratorandaddingittotheModbusNode-IDthatwasassignedtothedevice(Section2.2).TheBACnetDeviceInstancecanrangefrom1to4,194,303.
Forexample:
o Node_Offsetdefault=50,000
o Device1hasaModbusNode-IDof1,Device2hasaModbusNode-IDof2,Device3hasaModbusNode-IDof3
o Device1-DeviceInstance=50,001
o Device2-DeviceInstance=50,002
o Device3-DeviceInstance=50,003
o Tochangethenode_offsetseeSection2.4.2.1.Thenodeoffsetcanbechangedfrom50,000to1to4,194,302viatheWebConfigurator.
2.4.2.1 SetNode_OfftoAssignSpecificDeviceinstancesforBACnetMS/TPandBACnet/IP
Figure5:MACAddressDIPSwitches
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• IftheDeviceInstancesneedtobesetforaddressesotherthan50,000to50,127,changetheNode+-
Offset(50,000isthedefaultforNode+Offset).SeeSection4.1tosetthePC’sIPaddresstothesameSubnetastheProtoNodeandSection4.2toconnecttotheProtoNode’sWebConfiguratorwhichisshowninFigure6.
• TheBACnetDeviceInstancecanrangefrom1to4,194,303.
• BACnet/IP/BACnet MS/TP Addressing: The BACnet device instances will be set by taking theNode_OffsetfoundinWebConfigurator(seeFigure6)andaddingittotheModbusNode-IDthatwasassignedtothedevice(Section2.2).
• SetthePC’sIP-addresstobeonthesamesubnetastheProtoNode.Seesection4.1onhowtochangetheIPaddress.
• OpenthePCbrowser;enterthedefaultIPaddressofProtoNode192.168.1.24,whichwillbringyoutotheFSTWebConfiguratorlandingpagefortheProtoNode.(SeeFigure6)
• ChangetheNode+Offsettomeettherequireddeviceinstance.
Forexample:RequiredDeviceInstance=20,001
o Node_Offsetchangedto=20,000.
o Device1hasaModbusNode-IDof1,Device2hasaModbusNode-IDof2,Device3hasaModbusNode-IDof3
o Device1-DeviceInstance=20,001
o Device2-DeviceInstance=20,002
o Device3-DeviceInstance=20,003
NOTE:TheModbusNodeaddress+Node_Offset=DeviceInstancesetting
Figure6:FSTWebGUIscreen
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2.4.3 SettingtheDeviceNode-IDforMetasysN2andModbus/TCPonProtoNodeRER(FPC-N34MetasysN2)
• TheModbusRTUNode-ID’sassignedtothedevicesattachedtotheProtoNodeinSection2.2willbetheMetasyN2andModbusTCPNode_ID’sforthefieldprotocols.
• MetasysN2andModbus/TCPNode-IDAddressing:MetasysN2andModbus/TCPNode-ID’srangefrom1-255.
2.5 SetBaudRateforBACnetMS/TPonProtoNodeRER(FPC-N34BACnet)
2.5.1 SettingtheSerialBaudRate(DIPSwitchB0–B3)forBACnetMS/TP
• DIPSwitchesB0–B3canbeusedtosettheserialbaudratetomatchthebaudrateprovidedbytheBuildingManagementSystemforBACnetMS/TP.
• DIPSwitchesB0–B3aredisabledonProtoNodeLER(FPC-N35LonWorks).
• ThebaudrateonProtoNode forMetasysN2 is set for9600.DIPSwitchesB0–B3aredisabled forMetasysN2onProtoNodeRER(FPC-N34).
B0 B1 B2 B3
2.5.1.1 BaudRateDIPSwitchSelection
Baud B0 B1 B2 B3
9600 On On On Off19200 Off Off Off On38400 On On Off On57600 Off Off On On76800 On Off On On
Figure8:BaudRate
Figure7:BaudRateDIPSwitches
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3 INTERFACINGPROTONODETODEVICES
3.1 ProtoNodeRER(FPC-N34)andLER(FPC-N35)ShowingConnectionPorts
Figure9:ProtoNodeBACnetRER(upper)andProtoNodeLER(lower)
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3.2 WiringConnectionstoProtoNodeRER(FPC-N34BACnet)andProtoNodeLER(FPC-N35LonWorks)
ProtoNode6PinPhoenixconnector–PinoutstoModbusRTUProducts• The6pinPhoenixconnectoristhesameforProtoNodeRER(FPC-N34BACnet)andProtoNode(FPC-
N35LonWorks).Pins1through3areforModbusRS-485tothedevicesandpins4through6areforpower.
3.2.1 BiasingtheModbusRS-485Network
• AnRS-485networkwithmorethanonedeviceneedstohavebiasingtoensurepropercommunication.Thebiasingneedstobedoneononedevice.
• TheProtoNodehasa510Ohmresistor switch that isused toset thebiasing. TheProtoNode’sdefaultpositionfortheBiasingswitchisOFFfromthefactory.
• ThebiasingMUSTalwaysbeleftintheOFFposition.TheOFFpositioniswhenthe2REDbiasingjumpersstraddlethe4pinsclosesttotheoutsideoftheboardoftheProtoNode.SeeFigure11.
• It is recommended that the biasing be left in the OFF position, unless there is a problem withcommunicatingwithmorethanonedevice,thentrysettingthebiasingtoON.
DevicePins ProtoNodePin# PinassignmentPinRS-485+ Pin1 RS-485+PinRS-485- Pin2 RS-485-PinGND Pin3 RS-485GND
PowerIn(+) Pin4 V+PowerIn(-) Pin5 V-
FrameGround Pin6 FRAMEGND
Figure10:PowerandRS-485Connections
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3.2.2 EndofLineTerminationSwitchfortheModbusRS-485portontheProtoNode
• OnlongRS-485cablingruns,theRS-485trunkmustbeproperlyterminatedateachend.• IftheProtoNodeisplacedatoneoftheendsofthetrunk,youturntheBlueRS-485End-of-Line
TerminatingswitchtoONposition.• OnshortcablingrunstheEOLswitchdoesnottoneedtobeturnedON.ThedefaultsettingforthisBlue
EOLswitchisOFF.• AlwaysleavethesingleRedJumperintheAposition.
ModbusRS-485EOLSwitch
LeaveinAPosition
RS-485BiasSwitch
Figure11:ModbusRS-485BiasingSwitchontheProtoNodeN34(left)andProtoNodeN35(right)
Figure12:ModbusRS-485End-Of-LineTerminationSwitchontheProtoNodeN34(left)andProtoNodeN35(right)
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3.3 WiringProtoNodeRERtoRS-485FieldProtocol(BACnetMS/TPorMetasysN2)
• ConnectBMSBACnetMS/TPorMetasysN2RS-485porttothe3-pinRS-485connectoronProtoNodeRERasshownbelow.
• SeeSection4.1forinformationonconnectingProtoNodeRERtoBACnet/IPnetwork.
• IftheProtoNodeisthelastdeviceontheBACnetMS/TPorMetasysN2trunk,thentheEnd-Of-LineTerminatorneedstobeenabled(SeeFigure14).Itisdisabledbydefault.
3.4 WiringProtoNodeLER(FPC-N35)FieldPorttoaLonWorksNetwork
• ConnectProtoNodetothefieldnetworkwiththeLonWorksterminalusingatwistedpairnon-shieldedcable.LonWorkshasnopolarity.
BMSRS-485Wiring
ProtoNodePin#
PinAssignment
RS-485+ Pin1 RS-485+RS-485- Pin2 RS-485-
- Pin3 RS-485GND G-
+
Figure13:ConnectionfromProtoNodetoRS-485FieldProtocol–BACnetMS/TP
Figure14:RS-485EOLSwitch
Figure15:LonWorksTerminal
End-of-LineSwitch
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3.5 Power-Up ProtoNode RER (FPC-N34 BACnet) or ProtoNode LER (FPC-N35 LonWorks)andAuto-DiscoverModbusRTUDevicesconnectedtotheProtoNode.
ApplypowertoProtoNode.EnsurethatthepowersupplyusedcomplieswiththespecificationsprovidedinAppendixD.1.Ensurethatthecableisgroundedusingthe“Frame-GND”terminal.ProtoNodeacceptseither9-30VDCor12-24VAC.
PowerRequirementforProtoNodeat9Vthrough30VDCor12-24VAC
CurrentDrawType
ProtoNodeFamily 12VDC/VAC 24VDC/VAC 30VDC
FPC–N34(Typical) 170mA 100mA 80mA
FPC–N34(Maximum) 240mA 140mA 100mA
FPC–N35(Typical) 210mA 100mA 90mA
FPC–N35(Maximum) 250mA 130mA 100mANote:Thesevaluesare‘nominal’andasafetymarginshouldbeaddedtothepowersupplyofthehostsystem.Asafetymarginof25%isrecommended.
Figure16:RequiredcurrentdrawfortheProtoNode
PowertoProtoNode
ProtoNodePin#
PinAssignment
PowerIn(+) Pin4 V+PowerIn(-) Pin5 V-
FrameGround Pin6 FRAMEGND
Figure17:PowerConnections
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3.5.1 Auto-DiscoverAllDevices,BuildandAutomaticallyLoadsConfigurationFile
ThefollowingchartdescribesS3DIPSwitchsettingfortheEnablingAuto-DiscoveringofknowndevicesattachedtotheProtoNodeRERorLER.
• SetS3DIPswitchtoturnOnpositiontoAuto-DiscoveranyoftheproductsattachedtotheProtoNode(makesurepowerisoffwhensettingtheswitch)
• WhentheProtoNodeiswiredtotheModbusdevices,turnonthepower.Itwilltake3minutestodiscoverallModbusRTUdevicesattachedtotheProtoNode.
• Once theProtoNodehasdiscoveredallof theModbusRTUdevices, set theS3DIPswitch to theOFFpositiontosavetherecentlybuiltconfiguration.
ProtoNodeRERandLER
S3DIPSwitchAuto-DiscoveryMode S3Auto-DiscoveryON–BuildNewConfiguration OnAuto-DiscoverOFF–LoadCurrentConfiguration Off
Figure18:S3DIPSwitchsettingforAutoDiscoveringDevices
TypicalinstallationforProtoNodeRER(BACnetIPandMS/TP)andProtoNodeLERforLonworksareshowedinthefiguresbelow:
Figure19:ConnectionwiringProtoNodeRERforBACnetIP
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Figure20:ConnectionwiringProtoNodeRERforBACnetMS/TP
Figure21:ConnectionwiringProtoNodeLERforLonWorks
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4 CHANGETHEPROTONODEIPADDRESSUSINGTHEWEBGUIFORBACNET/IPANDMODBUSTCP
4.1 ConnectthePCtoProtoNodeviatheEthernetPort
• ConnectastandardCAT5Ethernetcable(StraightthroughorCross-Over)betweenthePCandProtoNode
• The Default IP Address of ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the PC andProtoNodeareondifferentIPNetworks,assignastaticIPAddresstothePConthe192.168.1.xxxnetwork
• Goto > >
• Right-clickonLocalAreaConnection>Properties
• Highlight >
• Select:UsethefollowingIPaddress
• Click twice
Figure22:EthernetPortLocation
EthernetPort
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4.2 UsetheProtoNodeWebGUItoConnecttotheProtoNode
• OpenaPCwebbrowserandenterthedefault IPaddress192.168.1.24oftheProtoNode. Thebrowser’sdisplayofthemainlandingpagefortheProtoNode(Figure20)confirmstheProtoNodeiscommunicating
• UnderActiveProfiles,thediscoveredModbusRTUdeviceswiththeassociatedModbusRTUNodeID’scanbeseen. Ifnoprofilesarepresent,thenthewiring,baudrate,andDIPswitchsettingsmustbechecked,becausethereisaproblemwiththeModbusCOMs.AlltheactivedevicesmustshowthecorrectModbusNode-ID’sbeforeproceeding.
Figure23:FSTWebGUIscreen
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4.3 SetIPAddressforBACnet/IPandModbusTCP
• OpenaPCwebbrowser,enterthedefaultIPaddressoftheProtoNode192.168.1.24andconnecttotheProtoNode.
• FromtheGUImainlanding,clickonDiagnosticsandDebuggingtogettotheUtilitiessectionoftheGUI(tochangeIPAddressandothercapabilities).(SeeFigure25)
• From theGUI’s Utility page, click on setup and thenNetwork Settings to enter the Edit IP AddressSettingsmenu.
• ModifytheIPaddress(N1IPaddressfield)oftheProtoNodeEthernetport.
• Ifnecessary,changetheNetmask(N1Netmaskfield).
• TypeinanewSubnetMask
• Ifnecessary,changetheIPGateway(DefaultGatewayfield)
• TypeinanewIPGateway
• Note:IftheProtoNodeisconnectedtoarouter,theIPGatewayoftheProtoNodeshouldbesettotheIPaddressoftherouterthatitisconnectedto
• ResetProtoNode
• UnplugEthernetcablefromPCandconnectittothenetworkhuborrouter
Figure24:FSTWebGUIUtilitiespage
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Figure25:ChangingIPAddressviaFSTWebGUI
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5 COMMISSIONINGPROTONODELERONALONWORKSNETWORK
CommissioningmayonlybeperformedbytheLonWorksadministrator.
5.1 CommissioningProtoNodeLERonaLonWorksNetwork
TheUserwillbepromptedbytheLonWorksAdministratortohittheServicePinontheProtoNodeLERatthecorrectstepoftheCommissioningprocesswhichisdifferentforeachLonWorksNetworkManagementTool.• IfanXIFfileisrequired,seestepsinSection5.1.1togenerateXIF
5.1.1 Instructions to Upload XIF File from ProtoNode LER Using FieldServer GUI WebServer
• Connectastandardcat5EthernetcablebetweenthePCandProtoNode
• TheDefault IPAddressofProtoNode is192.168.1.24, SubnetMask is255.255.255.0. If thePCandProtoNode are ondifferent IPNetworks, assign a static IPAddress to the PCon the 192.168.1.xxxnetwork
• ForWindowsXP:
Goto > >
Right-clickonLocalAreaConnection>Properties
Highlight >
• ForWindows7:
Goto > >
> >
Right-clickonLocalAreaConnection>Properties
Highlight >
• ForWindowsXPandWindows7,select:UsethefollowingIPaddress
Figure26:LonWorksServicePinLocation
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• Click twice
• Openawebbrowserandgotothefollowingaddress:IPaddressofProtoCessor/fserver.xif• Example:192.168.1.24/fserver.xif• Ifthewebbrowserpromptsyoutosavefile,savethefileontothePC.Ifthewebbrowserdisplays
thexiffileasawebpage,savethefileonyourPCasfserver.xif
Figure27:SampleofFserver.XIFFileBeingGenerated
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6 CASBACNETEXPLORERFORVALIDATINGPROTONODEINTHEFIELD
ProtoCessorhasarrangedacomplementary2weekfullyfunctionalcopyofCASBACnetExplorer(throughChipkin Automation) that can be used to validate BACnet MS/TP and/or BACnet/IP communications ofProtoNodeinthefieldwithouthavingtohavetheBMSIntegratoronsite.ASerialorUSBtoRS-485converterisneededtotestBACnetMS/TP.
6.1 DownloadingtheCASExplorerandRequestinganActivationKey
• TorequestthecomplementaryBACnetCASkey,gotohttp://app.chipkin.com/activation/twoweek/andfillinalltheinformation.EnterVendorCode“Cosmogas2014”.Oncecompleted,thekeywillbesenttotheemailaddressthatwassubmitted.Fromthisemail,thelongkeywillneedtobecopiedandpastedintotheCASkeyactivationpage.
• Gotothefollowingwebsite,downloadandinstalltheCASBACnetExplorertoyourPC:http://www.chipkin.com/technical-resources/cas-bacnet-explorer/
• IntheCASActivationform,entertheemailaddressandpastetheCASkeythatwassent.Oncecompleted,selectActivation.
Figure28:DownloadingtheCASExplorer
Figure29:RequestingCASActivationKey
Page26of44
6.2 CASBACnetSetup
ThesearetheinstructionstosetCASExplorerupforthefirsttimeonBACnetMS/STandBACnet/IP.
6.2.1 CASBACnetMS/TPSetup
• UsingtheSerialorUSBtoRS-485converter,connectittoyourPCandthe3PinBACnetMS/TPconnectoronProtoNodeRER.
• InCASExplorer,dothefollowing:
o Clickonsettings
o ChecktheBACnetMSTPboxandunchecktheBACnet/IPandBACnetEthernetboxes
o SettheBACnetMSTPMACaddressto0
o SettheBACnetMSTPBaudRateto38400
o ClickOk
o Onthebottomright-handcorner,makesurethattheBACnetMSTPboxisgreen
o Clickondiscover
o Checkall4boxes
o ClickSend
6.2.2 CASBACnetBACnet/IPSetup
• SeeSection5.1tosettheIPaddressandsubnetofthePCthatwillberunningtheCASExplorer.
• ConnectastraightthroughorcrossEthernetcablefromthePCtoProtoNode.
• InCASExplorer,dothefollowing:
o Clickonsettings
o ChecktheBACnet/IPboxandunchecktheBACnetMSTPandBACnetEthernetboxes
o Inthe“SelectaNetworkDevice”box,selectthenetworkcardofthePCbyclickingonit
o ClickOk
o Onthebottomright-handcorner,makesurethattheBACnet/IPboxisgreen
o Clickondiscover
o Checkall4boxes
o ClickSend
Page27of44
AppendixA. Troubleshooting
AppendixA.1. CheckWiringandSettings
• NoCOMSonModbusRTUside.IfTx/RxarenotflashingrapidlythenthereisaCOMissueontheModbussideandyouneedtocheckthefollowingthings:o VisualobservationsofLEDsonProtoNode.(AppendixA.4)o Checkbaudrate,parity,databits,stopbitso CheckModbusdeviceaddresso Verifywiringo VerifyalltheModbusRTUdevicesthatwerediscoveredinFSTWebConfigurator.(SeeSection204.2)
• FieldCOMproblems:o VisualobservationsofLEDsonProtoNode.(AppendixA.4)o Visualdipswitchsettings(usingcorrectbaudrateanddeviceinstance)o VerifyIPaddresssettingo Verifywiring
Iftheproblemstillexists,aDiagnosticCaptureneedstobetakenandsenttoFieldServer.(AppendixA.2)
AppendixA.2. TakeDiagnosticCaptureWiththeFieldServerUtilities
• Once the log isDiagnosticCapture is complete,email it to support@protocessor.com.TheDiagnosticCapturewillallowustorapidlydiagnosetheproblem.
• MakesuretheFieldServerutilitiesareloadedonthePC
http://fieldserver.com/techsupport/utility/utility.php
• DisableanywirelessEthernetadaptersonthePC/Laptop
• Disablefirewallandvirusprotectionsoftwareifpossible
• Connectastandardcat5EthernetcablebetweenthePCandProtoNode
• The Default IP Address of ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the PC andProtoNodeareondifferentIPNetworks,assignastaticIPAddresstothePConthe192.168.1.xxxnetwork
• ForWindowsXP:
Goto > >
Right-clickonLocalAreaConnection>Properties
Highlight >
EthernetPort
Figure30:EthernetPortLocation
Page28of44
• ForWindows7:
Goto > >
> >
Right-clickonLocalAreaConnection>Properties
Highlight >
• ForWindowsXPandWindows7,select:UsethefollowingIPaddress
• Click twice
• DoubleclickontheFSTDiagUtility
• Step1:SelectaFieldServerIPAddress
• TheIPaddresscanbeenteredmanuallyorselectedbyclickingonbutton1usingtheUtility
TypeintheProtoNodeIPaddressDefaultIPAddressis192.168.1.24
PressheretoretrievetheIPaddress.
LocatewherethelogissavedonthePC
Page29of44
• Step2:TakeaLog
• PresstheTakeLogbutton.WhiletheUtilityrunsafewDOSpromptswillflashacrossthemonitor.Don'tclickortypeanythingintotheseDOSprompts.ThisstepmaytakeafewminutesdependingonthechosenLogTypeandcomputerspeed.WhentheUtilityisfinishedyouwillbepresentedwithalogofeventsthathaveoccurred.
• Step3:SendLog
• Clickthe“SendLog”buttonlocatednearthebottomofthedialog.Thefollowingdialogshouldappear
• Pushthe‘LocateFolder’buttontolaunchexplorerandhaveitpointdirectlyatthecorrectfolder.Thefileupload.zipmustbesenttosupport@fieldserver.com
• Step4:ClosetheProgram
• Presstheexitbuttonwhenthelogiscompleted
Selectalogtype.
PresstheTakeLogbutton.
Page30of44
AppendixA.3. SettingtheNetworkNumberforBACnet/IPwhenmorethanoneProtoNodeisonthesameSubnet
OnthemainWebConfiguratorscreen,updatetheNetworkNumberintheNetwork_NrandhitSubmit.Pleasenotethatthedefaultvalueis50.
AppendixA.4. LEDDiagnosticsforModbusRTUCommunicationsBetweenProtoNodeandDevices
PleaseseethediagrambelowforProtoNodeRERandLERLEDLocations.
Tag DescriptionRTC UnusedRUN TheRUNLEDwillstartflashing20secondsafterpowerindicatingnormaloperation.
ERRTheSYSERRLEDwillgoonsolid15secondsafterpowerup.Itwillturnoffafter5seconds.AsteadyredlightwillindicatethereisasystemerroronProtoNode.Ifthisoccurs,immediatelyreporttherelated“systemerror”shownintheerrorscreenoftheGUIinterfacetoFieldServerTechnologiesforevaluation.
RX TheRXLEDwillflashwhenamessageisreceivedonthehostport.TX TheTXLEDwillflashwhenamessageissentonthehostport.PWR ThisisthepowerlightandshouldshowsteadygreenatalltimeswhenProtoNodeispowered.
Figure31:WebConfiguratorshowingsettingthenetworknumberforBACnet/IP
DiagnosticLEDs
Figure32:DiagnosticLEDs
Page31of44
AppendixB. VendorInformation-Cosmogas
AppendixB.1. ArgusModbusRTUMappingstoBACnetMS/TP,BACnet/IP,MetasysN2andLonWorks
PointNameBACnetObjectType
BACnetObjectID
N2DataType
N2Point
Address
LonName LonSNVT Description
ModbusUnits AV 1 AO 1 nvoModUnits_000
SNVT_count_f
Bit0:°C/°FBit1:bar/psi
DeviceType AI 2 AI 2 nvoDevType_001
SNVT_count_f
Notapplicable
State AI 3 AI 3 nvoState_002
SNVT_count_f
Notapplicable
Status AI 4 AI 4 nvoStatus_003
SNVT_count_f
Notapplicable
ErrorCode AI 5 AI 5 nvoErrCode_004
SNVT_count_f
Forcompleteerrorlist,seetheheatermanual.255means“Noerror”.
WarningCode AI 6 AI 6 nvoWarnCode_005
SNVT_count_f
Notapplicable
CentralHeatingSetpoint
AV 7 AO 7 nvoBlrCHSP_006
SNVT_count_f
Heatingsetpoint:range68to179°F
DHWSetpoint AV 8 AO 8 nvoBlrDHWSP_007
SNVT_count_f
Indirectwaterheatersetpoint:range104to140°F
BoilerOperation AV 9 AO 9 nvoBlrOp_008
SNVT_count_f
Notapplicable
DHWType AV 10 AO 10 nvoDHWType_009
SNVT_count_f
Notapplicable
CHMode AV 11 AO 11 nvoCHMode_010
SNVT_count_f
0:CHwiththermostat;1:CHwithRTandoutdoorreset;2:CHwithfulloutdoorreset;3:CHwithpermanentheatdemand;4:CHwith0-10Vccinput
DHWMode AV 12 AO 12 nvoDHWMode_011
SNVT_count_f
0 = no DHW; 1 = DHW store with sensor; 2 = DHW store with thermostat; 3 = N/A; 4 = N/A; 5 = N/A
SupplyTemp AI 13 AI 13 nvoSupTmp_012
SNVT_count_f
Burner1(Manager)Supplytemperature
Page32of44
ReturnTemp AI 14 AI 14 nvoRetTmp_013
SNVT_count_f
Burner1(Manager)Returntemperature
DHWTemp AI 15 AI 15 nvoDHWTmp_014
SNVT_count_f
Indirectwaterheatertemperature
FlueGasTemp AI 16 AI 16 nvoFluGasTmp_015
SNVT_count_f
Burner1(Manager)Fluegastemperature
HeatExchangerTemp AI 17 AI 17 nvoHtExcTmp_016
SNVT_count_f
HeaderTemperature
FiringRate AI 18 AI 18 nvoFirRate_017
SNVT_lev_percent
Burner1firingrate
MinFiringRate AI 19 AI 19 nvoMinFirRat_018
SNVT_lev_percent
Notapplicable
FlameCurrent AI 20 AI 20 nvoFlmCrnt_019
SNVT_count_f
Burner1(Manager)Ionizationcurrent
WaterPressure AI 21 AI 21 nvoWtrPrs_020
SNVT_count_f
Systemwaterpressure
Analogin AI 22 AI 22 nvoAnalogin_021
SNVT_count_f
Analoginput(0-10Vrange)
Analogout AI 23 AI 23 nvoAnalogout_022
SNVT_count_f
Notapplicable
Information AI 24 AI 24 nvoInfo_023
SNVT_count_f
Notapplicable
CHpumpstatus AI 25 AI 25 nvoCHpump_024
SNVT_count_f
0:pumpoff100:pumpon
DHWpumpstatus AI 26 AI 26 nvoDHWpump_025
SNVT_count_f
0:pumpoff100:pumpon
IgnitionCountOK AI 27 AI 27 nvoIgnCntOK_026
SNVT_count_f
Notapplicable
IgnitionCountFailed AI 28 AI 28 nvoIgnCntFl_027
SNVT_count_f
Notapplicable
FlameCountFailed AI 29 AI 29 nvoFlmCntFl_028
SNVT_count_f
Notapplicable
BurnerHighHours/CHHours
AI 30 AI 30 nvoBrnHiHrs_029
SNVT_time_hour
Notapplicable
BurnerMedHours/DHWHours
AI 31 AI 31 nvoBrnMedHrs_030
SNVT_time_hour
Notapplicable
BurnerLowHours AI 32 AI 32 nvoBrnLoHrs_031
SNVT_time_hour
Notapplicable
1stLockoutinHistory AI 33 AI 33 nvo1LkotHst_032
SNVT_count_f
Notapplicable
Timeafter1stLockout AI 34 AI 34 nvoTime1Lkot_033
SNVT_time_hour
Notapplicable
2ndLockout AI 35 AI 35 nvo2LkotHst_034
SNVT_count_f
Notapplicable
Timeafter2ndLockout
AI 36 AI 36 nvoTime2Lkot_035
SNVT_time_hour
Notapplicable
3rdLockout AI 37 AI 37 nvo3LkotHst_036
SNVT_count_f
Notapplicable
Timeafter3rdLockout AI 38 AI 38 nvoTime3kot_037
SNVT_time_hour
Notapplicable
Page33of44
4thLockout AI 39 AI 39 nvo4Lkot_038
SNVT_count_f
Notapplicable
Timeafter4thLockout AI 40 AI 40 nvoTime4Lkot_039
SNVT_time_hour
Notapplicable
1stBlockingErrorinHistory
AI 41 AI 41 nvo1BlkErHst_040
SNVT_count_f
Notapplicable
Timeafter1stBlockingError
AI 42 AI 42 nvoTime1Blk_041
SNVT_time_hour
Notapplicable
2ndBlockingError AI 43 AI 43 nvo2BlkErHst_042
SNVT_count_f
Notapplicable
Timeafter2ndBlockingError
AI 44 AI 44 nvoTime2Blk_043
SNVT_time_hour
Notapplicable
3rdBlockingError AI 45 AI 45 nvo3BlkErHst_044
SNVT_count_f
Notapplicable
Timeafter3rdBlockingError
AI 46 AI 46 nvoTime3Blk_045
SNVT_time_hour
Notapplicable
4thBlockingError AI 47 AI 47 nvo4BlkErHst_046
SNVT_count_f
Notapplicable
Timeafter4thBlockingError
AI 48 AI 48 nvoTime4Blk_047
SNVT_time_hour
Notapplicable
Dependent_1State AI 49 AI 49 nvoD1State_048
SNVT_count_f
Notapplicable
Dependent_1Status AI 50 AI 50 nvoD1Status_049
SNVT_count_f
Notapplicable
Dependent_1ErrorNumber
AI 51 AI 51 nvoD1ErrNum_050
SNVT_count_f
Notapplicable
Dependent_1FiringRate
AI 52 AI 52 nvoD1FirRat_051
SNVT_lev_percent
Notapplicable
Dependent_2State AI 53 AI 53 nvoD2State_052
SNVT_count_f
Notapplicable
Dependent_2Status AI 54 AI 54 nvoD2Status_053
SNVT_count_f
Notapplicable
Dependent_2ErrorNumber
AI 55 AI 55 nvoD2ErrNum_054
SNVT_count_f
Notapplicable
Dependent_2FiringRate
AI 56 AI 56 nvoD2FirRat_055
SNVT_lev_percent
Notapplicable
Dependent_3State AI 57 AI 57 nvoD3State_056
SNVT_count_f
Notapplicable
Dependent_3Satus AI 58 AI 58 nvoD3Satus_057
SNVT_count_f
Notapplicable
Dependent_3ErrorNumber
AI 59 AI 59 nvoD3ErrNum_058
SNVT_count_f
Notapplicable
Dependent_3FiringRate
AI 60 AI 60 nvoD3FirRat_059
SNVT_lev_percent
Notapplicable
Dependent_4State AI 61 AI 61 nvoD4State_060
SNVT_count_f
Notapplicable
Dependent_4Status AI 62 AI 62 nvoD4Status_061
SNVT_count_f
Notapplicable
Dependent_4ErrorNumber
AI 63 AI 63 nvoD4ErrNum_062
SNVT_count_f
Notapplicable
Page34of44
Dependent_4FiringRate
AI 64 AI 64 nvoD4FirRat_063
SNVT_lev_percent
Notapplicable
Dependent_5State AI 65 AI 65 nvoD5State_064
SNVT_count_f
Notapplicable
Dependent_5Status AI 66 AI 66 nvoD5Status_065
SNVT_count_f
Notapplicable
Dependent_5ErrorNumber
AI 67 AI 67 nvoD5ErrNum_066
SNVT_count_f
Notapplicable
Dependent_5FiringRate
AI 68 AI 68 nvoD5FirRat_067
SNVT_lev_percent
Notapplicable
Dependent_6State AI 69 AI 69 nvoD6State_068
SNVT_count_f
Notapplicable
Dependent_6Status AI 70 AI 70 nvoD6Status_069
SNVT_count_f
Notapplicable
Dependent_6ErrorNumber
AI 71 AI 71 nvoD6ErrNum_070
SNVT_count_f
Notapplicable
Dependent_6FiringRate
AI 72 AI 72 nvoD6FirRat_071
SNVT_lev_percent
Notapplicable
Dependent_7State AI 73 AI 73 nvoD7State_072
SNVT_count_f
Notapplicable
Dependent_7Status AI 74 AI 74 nvoD7Status_073
SNVT_count_f
Notapplicable
Dependent_7ErrorNumber
AI 75 AI 75 nvoD7ErrNum_074
SNVT_count_f
Notapplicable
Dependent_7FiringRate
AI 76 AI 76 nvoD7FirRat_075
SNVT_lev_percent
Notapplicable
ControllerState AI 77 AI 77 nvoCtlState_076
SNVT_count_f
Notapplicable
ControllerStatus AI 78 AI 78 nvoCtlStats_077
SNVT_count_f
Notapplicable
ControllerErrorCode AI 79 AI 79 nvoCtlErrCod_078
SNVT_count_f
Notapplicable
ControllerWarningCode
AI 80 AI 80 nvoCtlWrnCod_079
SNVT_count_f
Notapplicable
ControllerCHSP AV 81 AO 81 nvoCtlCHSP_080
SNVT_count_f
Notapplicable
ControllerDHWSP AV 82 AO 82 nvoCtlDHWSP_081
SNVT_count_f
Notapplicable
HighOutdoorAirTemp
AV 83 AO 83 nvoHiOATmp_082
SNVT_count_f
Notapplicable
MinimumOutdoorAirSP
AV 84 AO 84 nvoMinOASP_083
SNVT_count_f
Notapplicable
LowOutdoorAirTemp AV 85 AO 85 nvoLoOATmp_084
SNVT_count_f
Notapplicable
MaximumOutdoorAirSP
AV 86 AO 86 nvoMaxOASP_085
SNVT_count_f
Notapplicable
OutdoorAirShutdownTemp
AV 87 AO 87 nvoOAShdnTmp_086
SNVT_count_f
Warmweathershutdowntemperature
Page35of44
NightSetback AV 88 AO 88 nvoNightStbk_087
SNVT_count_f
Notapplicable
HeaderTemp AI 89 AI 89 nvoHeaderTmp_088
SNVT_count_f
Notapplicable
OutsideTemp AI 90 AI 90 nvoOutsidTmp_089
SNVT_count_f
Externalsensortemperature
CascadeFiringRate AI 91 AI 91 nvoCscFirRat_090
SNVT_lev_percent
Notapplicable
MinFiringRate AI 92 AI 92 nvoMinFirR2_091
SNVT_lev_percent
Notapplicable
SystemPump AI 93 AI 93 nvoSysTmpump_092
SNVT_count_f
Notapplicable
Amountofdepdetected
AI 94 AI 94 nvoDepDetect_093
SNVT_count_f
Notapplicable
ModbusUnits nviModUnits_094
SNVT_count_f
Bit0:°C/°FBit1:bar/psi
CentralHeatingSetpoint
nviBlrCHSP_095
SNVT_count_f
Heatingsetpoint:range68to179°F
DHWSetpoint nviBlrDHWSP_096
SNVT_count_f
Indirectwaterheatersetpoint:range104to140°F
BoilerOperation nviBlrOp_097
SNVT_count_f
Notapplicable
DHWType nviDHWType_098
SNVT_count_f
Notapplicable
CHMode nviCHMode_099
SNVT_count_f
0:CHwiththermostat;1:CHwithRTandoutdoorreset;2:CHwithfulloutdoorreset;3:CHwithpermanentheatdemand;4:CHwith0-10Vccinput
DHWMode nviDHWMode_100
SNVT_count_f
0 = no DHW; 1 = DHW store with sensor; 2 = DHW store with thermostat; 3 = N/A; 4 = N/A; 5 = N/A
ControllerCHSP nviCtlCHSP_101
SNVT_count_f
Notapplicable
ControllerDHWSP nviCtlDHWSP_102
SNVT_count_f
Notapplicable
HighOutdoorAirTemp
nviHiOATmp_103
SNVT_count_f
Notapplicable
MinimumOutdoorAirSP
nviMinOASP_104
SNVT_count_f
Notapplicable
Page36of44
LowOutdoorAirTemp nviLoOATmp_105
SNVT_count_f
Notapplicable
MaximumOutdoorAirSP
nviMaxOASP_106
SNVT_count_f
Notapplicable
OutdoorAirShutdownTemp
nviOAShdnTmp_107
SNVT_count_f
Warmweathershutdowntemperature
NightSetback nviNightStbk_108
SNVT_count_f
Notapplicable
ControlRegister MV 95 95 nviCtlWord_109
SNVT_count_f
Setto1beforeanyvariablechange
Page37of44
AppendixC. MACAddressDIPSwitchSettings
AppendixC.1. MACAddressDIPSwitchSettings
Address A0 A1 A2 A3 A4 A5 A6 A7
0 Off Off Off Off Off Off Off Off
1 On Off Off Off Off Off Off Off
2 Off On Off Off Off Off Off Off
3 On On Off Off Off Off Off Off
4 Off Off On Off Off Off Off Off
5 On Off On Off Off Off Off Off
6 Off On On Off Off Off Off Off
7 On On On Off Off Off Off Off
8 Off Off Off On Off Off Off Off
9 On Off Off On Off Off Off Off
10 Off On Off On Off Off Off Off
11 On On Off On Off Off Off Off
12 Off Off On On Off Off Off Off
13 On Off On On Off Off Off Off
14 Off On On On Off Off Off Off
15 On On On On Off Off Off Off
16 Off Off Off Off On Off Off Off
17 On Off Off Off On Off Off Off
18 Off On Off Off On Off Off Off
19 On On Off Off On Off Off Off
20 Off Off On Off On Off Off Off
21 On Off On Off On Off Off Off
22 Off On On Off On Off Off Off
23 On On On Off On Off Off Off
24 Off Off Off On On Off Off Off
25 On Off Off On On Off Off Off
26 Off On Off On On Off Off Off
27 On On Off On On Off Off Off
28 Off Off On On On Off Off Off
29 On Off On On On Off Off Off
30 Off On On On On Off Off Off
31 On On On On On Off Off Off
32 Off Off Off Off Off On Off Off
33 On Off Off Off Off On Off Off
34 Off On Off Off Off On Off Off
35 On On Off Off Off On Off Off
36 Off Off On Off Off On Off Off
37 On Off On Off Off On Off Off
38 Off On On Off Off On Off Off
39 On On On Off Off On Off Off
40 Off Off Off On Off On Off Off
41 On Off Off On Off On Off Off
42 Off On Off On Off On Off Off
43 On On Off On Off On Off Off
44 Off Off On On Off On Off Off
45 On Off On On Off On Off Off
46 Off On On On Off On Off Off
Address A0 A1 A2 A3 A4 A5 A6 A7
47 On On On On Off On Off Off
48 Off Off Off Off On On Off Off
49 On Off Off Off On On Off Off
50 Off On Off Off On On Off Off
51 On On Off Off On On Off Off
52 Off Off On Off On On Off Off
53 On Off On Off On On Off Off
54 Off On On Off On On Off Off
55 On On On Off On On Off Off
56 Off Off Off On On On Off Off
57 On Off Off On On On Off Off
58 Off On Off On On On Off Off
59 On On Off On On On Off Off
60 Off Off On On On On Off Off
61 On Off On On On On Off Off
62 Off On On On On On Off Off
63 On On On On On On Off Off
64 Off Off Off Off Off Off On Off
65 On Off Off Off Off Off On Off
66 Off On Off Off Off Off On Off
67 On On Off Off Off Off On Off
68 Off Off On Off Off Off On Off
69 On Off On Off Off Off On Off
70 Off On On Off Off Off On Off
71 On On On Off Off Off On Off
72 Off Off Off On Off Off On Off
73 On Off Off On Off Off On Off
74 Off On Off On Off Off On Off
75 On On Off On Off Off On Off
76 Off Off On On Off Off On Off
77 On Off On On Off Off On Off
78 Off On On On Off Off On Off
79 On On On On Off Off On Off
80 Off Off Off Off On Off On Off
81 On Off Off Off On Off On Off
82 Off On Off Off On Off On Off
83 On On Off Off On Off On Off
84 Off Off On Off On Off On Off
85 On Off On Off On Off On Off
86 Off On On Off On Off On Off
87 On On On Off On Off On Off
88 Off Off Off On On Off On Off
89 On Off Off On On Off On Off
90 Off On Off On On Off On Off
91 On On Off On On Off On Off
92 Off Off On On On Off On Off
93 On Off On On On Off On Off
Page38of44
Address A0 A1 A2 A3 A4 A5 A6 A7
94 Off On On On On Off On Off
95 On On On On On Off On Off
96 Off Off Off Off Off On On Off
97 On Off Off Off Off On On Off
98 Off On Off Off Off On On Off
99 On On Off Off Off On On Off
100 Off Off On Off Off On On Off
101 On Off On Off Off On On Off
102 Off On On Off Off On On Off
103 On On On Off Off On On Off
104 Off Off Off On Off On On Off
105 On Off Off On Off On On Off
106 Off On Off On Off On On Off
107 On On Off On Off On On Off
108 Off Off On On Off On On Off
109 On Off On On Off On On Off
110 Off On On On Off On On Off
111 On On On On Off On On Off
112 Off Off Off Off On On On Off
113 On Off Off Off On On On Off
114 Off On Off Off On On On Off
115 On On Off Off On On On Off
116 Off Off On Off On On On Off
117 On Off On Off On On On Off
118 Off On On Off On On On Off
119 On On On Off On On On Off
120 Off Off Off On On On On Off
121 On Off Off On On On On Off
122 Off On Off On On On On Off
123 On On Off On On On On Off
124 Off Off On On On On On Off
125 On Off On On On On On Off
126 Off On On On On On On Off
127 On On On On On On On Off
128 Off Off Off Off Off Off Off On
129 On Off Off Off Off Off Off On
130 Off On Off Off Off Off Off On
131 On On Off Off Off Off Off On
132 Off Off On Off Off Off Off On
133 On Off On Off Off Off Off On
134 Off On On Off Off Off Off On
135 On On On Off Off Off Off On
136 Off Off Off On Off Off Off On
137 On Off Off On Off Off Off On
138 Off On Off On Off Off Off On
139 On On Off On Off Off Off On
140 Off Off On On Off Off Off On
141 On Off On On Off Off Off On
142 Off On On On Off Off Off On
Address A0 A1 A2 A3 A4 A5 A6 A7
143 On On On On Off Off Off On
144 Off Off Off Off On Off Off On
145 On Off Off Off On Off Off On
146 Off On Off Off On Off Off On
147 On On Off Off On Off Off On
148 Off Off On Off On Off Off On
149 On Off On Off On Off Off On
150 Off On On Off On Off Off On
151 On On On Off On Off Off On
152 Off Off Off On On Off Off On
153 On Off Off On On Off Off On
154 Off On Off On On Off Off On
155 On On Off On On Off Off On
156 Off Off On On On Off Off On
157 On Off On On On Off Off On
158 Off On On On On Off Off On
159 On On On On On Off Off On
160 Off Off Off Off Off On Off On
161 On Off Off Off Off On Off On
162 Off On Off Off Off On Off On
163 On On Off Off Off On Off On
164 Off Off On Off Off On Off On
165 On Off On Off Off On Off On
166 Off On On Off Off On Off On
167 On On On Off Off On Off On
168 Off Off Off On Off On Off On
169 On Off Off On Off On Off On
170 Off On Off On Off On Off On
171 On On Off On Off On Off On
172 Off Off On On Off On Off On
173 On Off On On Off On Off On
174 Off On On On Off On Off On
175 On On On On Off On Off On
176 Off Off Off Off On On Off On
177 On Off Off Off On On Off On
178 Off On Off Off On On Off On
179 On On Off Off On On Off On
180 Off Off On Off On On Off On
181 On Off On Off On On Off On
182 Off On On Off On On Off On
183 On On On Off On On Off On
184 Off Off Off On On On Off On
185 On Off Off On On On Off On
186 Off On Off On On On Off On
187 On On Off On On On Off On
188 Off Off On On On On Off On
189 On Off On On On On Off On
190 Off On On On On On Off On
191 On On On On On On Off On
Page39of44
Address A0 A1 A2 A3 A4 A5 A6 A7
192 Off Off Off Off Off Off On On
193 On Off Off Off Off Off On On
194 Off On Off Off Off Off On On
195 On On Off Off Off Off On On
196 Off Off On Off Off Off On On
197 On Off On Off Off Off On On
198 Off On On Off Off Off On On
199 On On On Off Off Off On On
200 Off Off Off On Off Off On On
201 On Off Off On Off Off On On
202 Off On Off On Off Off On On
203 On On Off On Off Off On On
204 Off Off On On Off Off On On
205 On Off On On Off Off On On
206 Off On On On Off Off On On
207 On On On On Off Off On On
208 Off Off Off Off On Off On On
209 On Off Off Off On Off On On
210 Off On Off Off On Off On On
211 On On Off Off On Off On On
212 Off Off On Off On Off On On
213 On Off On Off On Off On On
214 Off On On Off On Off On On
215 On On On Off On Off On On
216 Off Off Off On On Off On On
217 On Off Off On On Off On On
218 Off On Off On On Off On On
219 On On Off On On Off On On
220 Off Off On On On Off On On
221 On Off On On On Off On On
222 Off On On On On Off On On
223 On On On On On Off On On
224 Off Off Off Off Off On On On
225 On Off Off Off Off On On On
226 Off On Off Off Off On On On
227 On On Off Off Off On On On
228 Off Off On Off Off On On On
229 On Off On Off Off On On On
230 Off On On Off Off On On On
231 On On On Off Off On On On
232 Off Off Off On Off On On On
233 On Off Off On Off On On On
234 Off On Off On Off On On On
235 On On Off On Off On On On
236 Off Off On On Off On On On
237 On Off On On Off On On On
238 Off On On On Off On On On
239 On On On On Off On On On
240 Off Off Off Off On On On On
Address A0 A1 A2 A3 A4 A5 A6 A7
241 On Off Off Off On On On On
242 Off On Off Off On On On On
243 On On Off Off On On On On
244 Off Off On Off On On On On
245 On Off On Off On On On On
246 Off On On Off On On On On
247 On On On Off On On On On
248 Off Off Off On On On On On
249 On Off Off On On On On On
250 Off On Off On On On On On
251 On On Off On On On On On
252 Off Off On On On On On On
253 On Off On On On On On On
254 Off On On On On On On On
255 On On On On On On On On
AppendixD. Reference
AppendixD.1. Specifications
ProtoNodeRER ProtoNodeLER
ElectricalConnections
One 6-pin Phoenix connector, one RS-485+/-groundport,power+/-framegroundportOne 3-pin RS-485 Phoenix connector, oneRS-485+/-groundportOneEthernet-10/100Ethernetport
One 6-pin Phoenix connector, one RS-485+/-groundport,power+/-framegroundportOneEthernet10/100BaseTportOneFTT-10LonWorksport
Approvals:Pending CE (EN55022;EN55024; EN60950), UL916, Pending FCC Class A Part 15, DNP3ConformanceTested,OPCSelf-testedforCompliance,RoHSCompliant,CSA205ApprovedBTLMarked LonMarkCertified
PowerRequirements Multi-modepoweradapter:9-30VDCor12-24VAC
PhysicalDimensions 11.5cmLx8.3cmWx4.1cmH(4.5x3.2x1.6in.)
Weight: 0.2kg(0.4lbs)OperatingTemperature: -40°Cto75°C(-40°Fto167°F)
SurgeSuppression EN61000-4-2ESDEN61000-4-3EMCEN61000-4-4EFTHumidity: 5-90%RH(non-condensing)(Specificationssubjecttochangewithoutnotice)
Figure33:Specifications
AppendixD.1.1. CompliancewithULRegulations
ForULcompliance,thefollowinginstructionsmustbemetwhenoperatingProtoNode.• The units shall be powered by listed LPS or Class 2 power supply suited to the expected operating
temperaturerange.
• Theinterconnectingpowerconnectorandpowercableshall:• Complywithlocalelectricalcode.• Besuitedtotheexpectedoperatingtemperaturerange.• MeetthecurrentandvoltageratingforProtoNode/Net
• Furthermore,theinterconnectingpowercableshall:• Beoflengthnotexceeding3.05m(118.3”)• BeconstructedofmaterialsratedVW-1orFT-1orbetter
• If theunit is tobe installed inanoperatingenvironmentwitha temperatureabove65 °C, it shouldbeinstalledinaRestrictedAccessArearequiringakeyoraspecialtooltogainaccess
ThisdevicemustnotbeconnectedtoaLANsegmentwithoutdoorwiring.
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AppendixE. CascadeconnectionwithMODBUS
AppendixE.1. ExampleofMODBUSconnectionforheaterswithserialnumberupto14999999
Figure34:CascadeconnectionwithMODBUS
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AppendixE.2. ExampleofMODBUSconnectionforheaterswithserialnumberhigherthan15000000
Figure35:CascadeconnectionwithMODBUS
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ToconnecteachheaterofacascadetoaMODBUScascadeprotocol,installerhaveto:1-Makeadaisychainbetweenterminals28and29ofeachheatershouldbealreadyinplacefollowinstructionofthe885HCcascadesequencer(seefigure34).Forheaterswithserialnumberhigherthan15000000themanagerheaterneedtohavethewiringconnectedtoterminals30and31(seefigure35);2-Connectadaisychainbetweenterminals18,19and20ofallunits(seeFigures34or35).3-ConnectthedaisychaintotheRxTxterminalsoftheprotonode(seeFigure34or35).4-Usingthedisplayoftheheater,setoneachheatertheparameter3085inthefollowway:“1”forthemanagerunit,“2”forthefirstdependent,“3”fortheseconddependent,etc…(checkheatermanualforinstructiononhowtochangeparameter3085);5–Usingthe885HCcommand,setoneachheaterthe“Boileraddress”parameterasillustratedonthe885HCcommandinstruction.CAUTION!Performstepsintheordergiventoavoidmalfunctionstothecommunicationsystems
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