__________________________________________________________ Note: This document is to be used in conjunction with the applicable Installation, Operation, and Maintenance Manual. Content subject to change without notice.
__________________________________________________________ the third party connection. The lag boiler(s) points that can be viewed through the master are limited, so please review the Modbus to Bacnet Pre-Loaded Gateway Points that would be in the master boilers gateway to see if they are sufficient for your application. Please refer to electrical diagram in manual, which shows wiring connection to the display's communication port 2.
__________________________________________________________ Note: If a Proto node Gateway is being used, it was fully programmed at the Fulton Factory and should not require any changes on the Sola side. The customer connection side of the gateway may require dip switch changes for baud rate and the required address. See the end of these instructions for information on customer gateway setup. 1. From the Home Screen press Setup 2. Then Press Display setup 3.
__________________________________________________________ _____________________________________________________________________________________ Questions? Call (315) 298-5121 or visit us online at www.fulton.
__________________________________________________________ Protocol Gateway Setup Guide Return to Table of Contents _____________________________________________________________________________________ Questions? Call (315) 298-5121 or visit us online at www.fulton.
__________________________________________________________ BACnet UDP IP / MSTP / Metasys N2 Module: General and Connection Overview The BACnet ProtoNode provides three access ports (one server side, one client side and a service port/UDP IP port). The six pin connector (Fig. 1) provides RS 485 connection to the ModSync as well as provides the 24vdc power to the ProtoNode itself. The three pin connector (Fig.
__________________________________________________________ connection to the Building Management System. The last available port is the Ethernet port (Fig. 3), which is used for service situations such as downloading configuration files. The bank of dipswitches (see top view), are used to configure the ProtoNode in the field. Available configurations are node address, baud rate and configurations profile. See Node Address Setup And Baud Rate Settings for more details.
__________________________________________________________ Lonworks Module: General and Connection Overview The Lonworks ProtoNode provides three access ports (one server side, one client side and a service port). The six pin connector (Fig. 2) provides RS 485 connection to the ModSync as well as provides the 24vdc power to the ProtoNode itself. The two pin connector (Fig. 1) provides Lonworks connection to the Building Management System. The last available port is the Ethernet port (Fig.
__________________________________________________________ The bank of dipswitches (see top view), are used to configure the ProtoNode in the field. Available configurations are node address, baud rate and configurations profile. Return to Table of Contents Module Dipswitch Overview: All Modules Dipswitches A0 – A7 are used to set the node address of the ProtoNode device. See Addendum 1 for full address list and settings. Dipswitches B0 – B3 are used to set the ProtoNode baud rate.
__________________________________________________________ Module Service Pin: Lonworks Module Only The service pin is used during the commissioning process on a Lonworks network. In order to use the service pin on this module you will need a small screwdriver, small enough to fit into the service pin hole. Put the screwdriver into the service pin hole and tilt gently forward towards the Lonworks 2 pin connector. See Fig. 1.
__________________________________________________________ Downloading New Configuration Files: All Modules The ProtoNode modules come with all the standard configuration files already installed for use. However, under certain circumstances configuration files may have to be updated in the field. Use the following steps to update the configuration files for a module already in service in the field.
__________________________________________________________ 2. Connect your computer to the ProtoNode via the Ethernet port, using a standard Cat5 cable. Please keep the following points in mind when trying to connect to the ProtoNode in this manner: a. The ProtoNode must be powered and running during this process. b. If your computer has both Ethernet and Wireless connections available you will have to disable the wireless connection temporarily during this process.
__________________________________________________________ grab a cup of coffee. Once the ProtoNode has restarted, the new configuration files will be ready to use. 5. Disconnect your Ethernet cable, and don’t forget to re-enable your wireless if you shut it down. If you already had a static IP address loaded on your computer, restore it now or you might have trouble connecting to the internet later. 6.
__________________________________________________________ Temporarily Disabling the Wireless Connection For most windows users, following these steps will allow you to temporarily disable your wireless connection while connecting to the ProtoNode module: 1. Click the Start Menu and go to Control Panel. 2. Double Left Click on the Network Connections Icon. 3. Right Click on the Wireless Network Connections Icon and Select Disable. To re-enable the wireless connection follow these steps: 1. 2. 3. 4.
__________________________________________________________ - - - have 1.4v at the 3 pin connector you should have something close to that at the ModSync terminal blocks.) Verify that your computer has connected to the ProtoNode. By Right Clicking on the Local Area Connection and Selecting “Status” you can see whether or not your computer has connected to the ProtoNode. If not double check your settings (step 2 on Page 8.) Verify all dipswitch settings on the ProtoNode module.
__________________________________________________________ A7 Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off A6 Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off A5 Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off On On On On On On
__________________________________________________________ A7 Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off A6 Off Off Off Off Off Off On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On A5 On On On On On On Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Of
__________________________________________________________ A7 Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off On On On On On On On On On On On On On On On On On On A6 On On On On On On On On On On On On On On On On On On On On On On On On On On Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off A5 On On On On On On On On On On On On On On On On On On On On On On On On On On Off Off Off Off Off Off Off Off Off Off Off Off Off Off
__________________________________________________________ A7 On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On A6 Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off A5 Off Off Off Off Off Off Off Off Off Off Off Off Off Off On On On On On On On On On On On On On On On On On On On On On On On On On On
__________________________________________________________ A7 On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On A6 Off Off On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On On A5 On On Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off Off On On On On On On On On On On A4 On On Of
__________________________________________________________ A7 On On On On On On On On On On On On On On On On On On On On On On A6 On On On On On On On On On On On On On On On On On On On On On On A5 On On On On On On On On On On On On On On On On On On On On On On A4 Off Off Off Off Off Off On On On On On On On On On On On On On On On On A3 On On On On On On Off Off Off Off Off Off Off Off On On On On On On On On A2 Off Off On On On On Off Off Off Off On On On On Off Off Off Off On On On On A1 On On
__________________________________________________________ 2 Auto baud rates are only supported on BACnet MSTP Return to Table of Contents Modbus to Bacnet Pre-Loaded Gateway Points Sola LEAD/LAG Bacnet points as of 12/5/12 V1.00 [Read points] (* points exclusive to lead lag) 1. *Lead lag master status [LLMstrStat] 0160 a. 0=Unknown _____________________________________________________________________________________ Questions? Call (315) 298-5121 or visit us online at www.fulton.
__________________________________________________________ b. 1=Disabled c. 2=Normal d. 3=Suspended 2. *Lead lag master heat demand [LLMstrHeatD] 0163 a. 0=off b. 1=on 3. *Master firing rate [MstrFR] 0802 a. 0-100% 4. *Slave burner demand [LLSlvDmd] 0164 a. 0=off b. 1=on 5. *Slave 1 state [LLSlv1Stat] 0770 a. 0=unknown b. 1=available c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h.
__________________________________________________________ 6. *Slave 1 stage order [LLSlv1_Ordr] 0771 a. Relative order that slave 1 has been added to fire b. 0=Not been staged 7. *Slave 1 firing rate [LLSlv1FR] 0772 a. Current firing rate (0-100%) of slave 1 8. *Slave 2 state [LLSlv2Stat] 0774 a. 0=unknown b. 1=available c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h. 7=recovering 9. *Slave 2 stage order [LLSlv2Ordr] 0775 a.
__________________________________________________________ 11. *Slave 3 state [LLSlv3Stat] 0778 a. 0=unknown b. 1=available c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h. 7=recovering 12. *Slave 3 stage order [LLSlv3Ordr] 0779 a. Relative order that slave 3 has been added to fire b. 0=Not been staged 13. *Slave 3 firing rate [LLSlv3FR] 0780 a. Current firing rate (0-100%) of slave 3 14. *Slave 4 state [LLSlv4Stat] 0782 a. 0=unknown b. 1=available c. 2=add stage d.
__________________________________________________________ f. 5=on leave g. 6=Disabled h. 7=recovering 15. *Slave 4 stage order [LLSlv4Ordr] 0783 a. Relative order that slave 4 has been added to fire b. 0=Not been staged 16. *Slave 4 firing rate [LLSlv4FR] 0784 a. Current firing rate (0-100%) of slave 4 17. *Slave 5 state [LLSlv5Stat] 0786 a. 0=unknown b. 1=available c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h. 7=recovering 18.
__________________________________________________________ 19. *Slave 5 firing rate [LLSlv5FR] 0788 a. Current firing rate (0-100%) of slave 5 20. *Slave 6 state [LLSlv6Stat] 0790 a. 0=unknown b. 1=available c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h. 7=recovering 21. *Slave 6 stage order [LLSlv6Ordr] 0791 a. Relative order that slave 6 has been added to fire b. 0=Not been staged 22. *Slave 6 firing rate [LLSlv6FR] 0792 a. Current firing rate (0-100%) of slave 6 23.
__________________________________________________________ c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h. 7=recovering 24. *Slave 7 stage order [LLSlv7Ordr] 0795 a. Relative order that slave 7 has been added to fire b. 0=Not been staged 25. *Slave 7 firing rate [LL_SLAVE_7_FR] 0796 a. Current firing rate (0-100%) of slave 7 26. Slave 8 state [LLSlv8Stat] 0798 a. 0=unknown b. 1=available c. 2=add stage d. 3=suspend stage e. 4=firing f. 5=on leave g. 6=Disabled h.
__________________________________________________________ 27. *Slave 8 stage order [LLSlv8Ordr] 0799 a. Relative order that slave 8 has been added to fire b. 0=Not been staged 28. *Slave 8 firing rate [LLSlv1FR] 0800 a. Current firing rate (0-100%) of slave 8 29. *Active lead lag setpoint [LLSetpntF] 0018 a. -40˚C - 130˚C (will display as -40˚F - 266˚F) 30. *Active lead lag operating point [LLOprtingF] 0027 a. -40˚C - 130˚C (will display as -40˚F - 266˚F) 31. Inlet Sensor State [InletState] 0049 a.
__________________________________________________________ 33. Outlet limit sensor [OutletState1] 0048 a. 0=none b. 1=Normal c. 2=Open d. 3=shorted e. 4=Outside high range f. 5=Outside low range g. 6=Not reliable 34. Outlet Operation sensor [OutletState2] 0046 a. 0=none b. 1=Normal c. 2=Open d. 3=shorted e. 4=Outside high range f. 5=Outside low range g. 6=Not reliable 35. Outlet (S3S4) or Outlet limit (S3) sensor [OutletTempF] 0007 a. -40˚C - 130˚C (will display as -40˚F - 266˚F) 36.
__________________________________________________________ b. 1=normal c. 2=open d. 3=shorted e. 4=outside high range f. 5=outside low range g. 6=not reliable 37. S5 sensor [HeadTemp] 0013 a. -40˚C - 130˚C (will display as -40˚F - 266˚F) 38. Firing rate [FireRate] 0008 a. 0-100% 39. Outdoor sensor state [OutdrState] 0171 a. 0=none b. 1=Normal c. 2=Open d. 3=shorted e. 4=Outside high range f. 5=Outside low range g. 6=Not reliable 40. Outdoor Temp [OutDoorF] 0170 a.
__________________________________________________________ 41. Boiler pump status [BlrPmpStats] 0108 a. Refer to Sola manual 42. Annunciator I/O [Annunciator] 0003 a. 15-8=reserved b. 7=annunciator 8 c. 6=annunciator 7 d. 5=annunciator 6 e. 4=annunciator 5 f. 3=annunciator 4 g. 2=annunciator 3 h. 1=annunciator 2 i. 0=annunciator 1 i. Example 194 (decimal) = 11000010 binary 1. Annunciators 2,7&8 are proved. 43. Alarm reason [AlrmReason] 0035 a. 0=none b. 1=Lockout (see manual) c. 2= alert (se manual) d.
__________________________________________________________ a. 0=no lockout b. 1-4096 (see manual) 45. Flame signal [Flame_Sig] 0010 a. 0.01V or 0.01A precision (0.00-50.00v) 46. Active CH setpoint [CHSetpoint] 0016 a. -40˚C - 130˚C (will display as -40˚F - 266˚F) 47. Burner control status [BrnrCntrlSt] 0032 a. 0=disabled b. 1=locked out c. 2=reserved d. 3=reserved e. 4=anti-short cycle f. 5=unconfigured safety data g. 6-33=reserved h. 34=standby hold i. 35=standby delay j. 36-47=reserved k.
__________________________________________________________ o. 52=postpurge p. 53-65535=reserved 48. CH status [CHStat] 0064 a. 0=unknown b. 1=disabled c. 2=normal d. 3=suspended 49. CH setpoint source [CHStpntSrc] 0065 a. 0=unknown b. 1=normal setpoint c. 2=TOD setpoint d. 3=Outdoor reset e. 4=Remote control f. 7=Outdoor reset time of day g. 9=Outdoor boost 50. Demand Source [DemandSrc] 0006 a. 0=unknown b. 1=no source demand c. 2=CH d. 3=DHW e.
__________________________________________________________ f. 5=Lead Lag Master g. 6=CH frost protection h. 7=DHW frost protection i. 8=No demand due to burner switch j. 9=DHW Storage k. 10=Reserved l. 11=warm weather shutdown 51. CH heat demand [CHHeatDmnd] 0066 a. 0=off b. 1=on 52. CH burner demand [CHBrnrDmnd] 0067 a. 0=off b. 1=on [write points] 53. CH setpoint [CHSetpointF] 0211 a. -40˚C - 130˚C (input -40˚F - 266˚F) 54. *Lead lag setpoint [LLSetpntF] 0546 a.
__________________________________________________________ b. 1=enable central heat 56. *Lead lag CH demand switch [LLDEMAND] 0556 a. 0=disable CH loop b. 1=stat c. 2=reserved d. 3=EnviraCOM remote STAT e. 4=Modbus STAT f. 5=Reserved g. 6=STAT terminal or EnvironCOM remote STAT 57. *Lead Lag outdoor reset enable [LLOutdrRst] 0548 a. 0=disable b. 1=enable 58. Central Heat Outdoor Enable [CHOutdrRst] 0215 a. 0=disable b. 1=enable 59. CH priority vs. Lead Lag [CHvsLL] 0582 a. 0=lead lag > central heat b.
