Thermodynamic Process Control LFC001TPCMVPMV Thermodynamic Controller User Manual 02
Thermodynamic Process Control, LLC Thermodynamic Controller 02
Contents
- 1. User manual 01
- 2. User manual 02
User manual 02
TPC-FI SoloNet O&M Page 36 TPC-FI SoloNet O&M Page 37 Appendix A TPC-FI SoloNet O&M Page 38 GUI Parameters TPC TPC TPC Descriptions Parameter Default Ranges System Parameters Design Inputs Units Fahrenheit, Celsius Fahrenheit Sum Reporting Zone Enable / Disable Disable Loads Outdoor Design Temperature -40 - 40 F Indoor Design Temperature 60 - 80 F 70 Redundancy Factor 1.00 - 10.00 System Circulation Delay minutes 1 - 30 Min 10 Initial Delay Minutes 10 - 240 Min 60 Minimum Hysteresis 2 - 40 F Maximum Hysteresis 5 - 80 F 15 TPC-FI SoloNet O&M Choose the convention in which you would like to display system information. Choose "Enable" if you are using multiple flow meters attached to "Zone Load Controllers" to report back loads in one or more zones. Chose "Disable" if using single point flow measurement attached to the "System Information Field Device" Choose the outdoor air temperature this system was designed to overcome worst case. This will be the coldest temperatures you would expect to see in this climate. Choose the indoor temperature the building is designed to maintain under full-load conditions. Choose the factor by which the design MBH input (sum of boiler MBH inputs) is greater than the required MBH needed under maximum load conditions. Chose the delay time desired from the start of the system pumps until the selection and start of the first boiler stage. Choose the number of minutes you desire to delay an additional boiler staging on when the outdoor air temperature has reached just reached the "Winter Heat On Set-point". This delay is designed to allow a single boiler stage to gradually warm the system during light load times only. This delay is linked to the initial switching from off to on of a call for heat and will not affect control action as long as heat remains enabled. Chose the maximum number of degrees that you desire to allow the system temperature to drop below set-point and sustain for the "Stage Delay Time" before enabling another stage of heat. Chose the maximum number of degrees that you desire to allow the system temperature to overshoot set-point before disabling all boilers on the system. Page 39 Choose the number of minutes conditions ( load deficit ) must persist before activating the next stage of heat. This delay will work between every stage selection except in the case of a heating emergency as defined in the O&M manual Enter the Delta T you wish to keep across the system. To use this feature you must also designate a system pump for Delta T operation. Minimum Stage Delay Minutes 1 - 60 Min 30 System Delta T Setpoint 0-50 F 10 Pipe Type Steel, Copper, CPVC- Steel Pipe Schedule 20, 40, 80 40 Pipe Size Default Flow Rate GPM 2 - 48 In 10 - 150,000 GPM Enter the code of construction of the pipe in which the flow meter is inserted. Enter the diameter of the pipe in which the flow meter is inserted. 500 Enter the estimated maximum flow rate of this system. Manual Override of System Flow Input Enable / Disable Disable Enter the type of pipe in which the flow meter is inserted Choose to manually override the flow meter by enabling this function. If you enable this function then the control will choose to read the maximum flow rate. You will only want to enable this function when you are servicing the flow meter or if it otherwise not operating. Heat Priority Winter Heat On Set30 - 150 F point NonCondensing -20 - 80 F Outdoor Set-point 60 Choose the outdoor air temperature at which you desire to enable the heating plant. Choose the outdoor air temperature at which you desire to begin utilizing the non-condensing control loop Reset 2. Heat Reset 1 Condensing Maximum System Supply Set-point Minimum System Supply Set-point Maximum Outdoor Temperature Setpoint Minimum Outdoor Temperature Setpoint Reset Shift Degrees 60 - 210 F 120 40 - 200 F 80 30 - 150 F 60 -40 - 40 F 0 - 40 F 60 - 210 F 180 Choose the maximum supply temperature allowed on this system while the condensing reset loop is active. choose the minimum supply temperature allowed while the condensing reset loop is active. Choose the maximum outdoor air temperature which the condensing reset loop will use to calculate the Supply water temperature set-point. Choose the minimum outdoor air temperature which the condensing reset loop will use to calculate the Supply water temperature setpoint. After the system has been in operation you may further fine tune this reset loop by shifting the slope up or down. This is a linear function which means the entire reset slope will shift. Heat Reset 2 NonCondensing Maximum System Supply Set point TPC-FI SoloNet O&M Choose the maximum supply temperature allowed on this system while the Non-condensing reset slope is active. Page 40 Minimum System Supply Set point Maximum Outdoor Temperature Set point Minimum Outdoor Temperature Set point Reset Shift Degrees 40 - 200 F 140 30 - 150 F 60 -40 - 40 F 0 - 40 F 60 - 210 F 120 40 - 200 F 100 80 - 160 F 100 40 - 100 F 70 0 - 40 F Choose the minimum supply temperature allowed while the Noncondensing reset slope is active. Choose the maximum outdoor air temperature which the Noncondensing reset loop will use to calculate the Supply water temperature set-point. Choose the minimum outdoor air temperature which the Noncondensing reset loop will use to calculate the Supply water temperature set-point. After the system has been in operation you may further fine tune this reset loop by shifting the slope up or down. This is a linear function which means the entire reset slope will shift. Heat Reset 3 - Reheat Maximum System Supply Set point Minimum System Supply Set point Maximum Outdoor Temperature Set point Minimum Outdoor Temperature Set point Reset Shift Degrees Choose the maximum supply temperature allowed on this system while the Reheat reset slope is active. Choose the minimum supply temperature allowed while the Reheat reset slope is active. Choose the maximum outdoor air temperature which the Reheat reset slope will use to calculate the Supply water temperature setpoint. Choose the minimum outdoor air temperature which the Reheat reset slope will use to calculate the Supply water temperature setpoint. After the system has been in operation you may further fine tune this reset slope by shifting the line up or down. This is a linear function which means the entire reset slope will shift. Optimum Stop / Start Night Setback Value 0 - 40 F 10 Boost Value 0 - 40 F Boost Runtime Minutes 0 - 120 Min 60 Monday Night Setback Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute Complete Setback Hour / Minute 0:00 - 23:59 Day Return Enable / Disable Disable TPC-FI SoloNet O&M Choose the number of degrees you wish to let the system fall to under night setback conditions. Choose the number of degrees you wish to allow the control to take the system above the set point at morning warm up. A value greater than zero may or may not be required for optimum start. Choose the number of minutes you wish for boost above the active reset to operate before returning to the calculated reset value. Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Page 41 Begin Return Hour / 0:00 - 23:59 Minute Complete Return Hour / Minute Tuesday Night Setback 0:00 - 23:59 Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute Complete Setback Hour / Minute 0:00 - 23:59 Day Return Enable / Disable Disable Begin Return Hour / 0:00 - 23:59 Minute Complete Return Hour / Minute Wednesday Night Setback 0:00 - 23:59 Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute Complete Setback Hour / Minute 0:00 - 23:59 Day Return Enable / Disable Disable Begin Return Hour / 0:00 - 23:59 Minute Complete Return Hour / Minute Thursday Night Setback 0:00 - 23:59 Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute Complete Setback Hour / Minute 0:00 - 23:59 Day Return Enable / Disable Disable Begin Return Hour / 0:00 - 23:59 Minute Complete Return 0:00 - 23:59 TPC-FI SoloNet O&M Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Page 42 Hour / Minute Friday Night Setback Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute Complete Setback Hour / Minute 0:00 - 23:59 Day Return Enable / Disable Disable Begin Return Hour / 0:00 - 23:59 Minute Complete Return Hour / Minute Saturday Night Setback 0:00 - 23:59 Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute 0:00 Complete Setback Hour / Minute 0:00 - 23:59 0:00 Day Return Enable / Disable Disable Begin Return Hour / 0:00 - 23:59 Minute Complete Return Hour / Minute Sunday Night Setback 0:00 - 23:59 Enable / Disable Disable Begin Setback Hour / 0:00 - 23:59 Minute 0:00 Complete Setback Hour / Minute 0:00 - 23:59 0:00 Day Return Enable / Disable Disable Begin Return Hour / 0:00 - 23:59 Minute Complete Return Hour / Minute 0:00 - 23:59 Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Choose to enable or disable this operation. Choose the time before the unoccupied period you wish to allow the control to begin a "controlled descent" to the unoccupied temperature. Enter the time you expect the building to be unoccupied for this day of the week. Choose enable if you desire to bring the system back up to temperature from the previous day. If you choose to designate this day of the week as unoccupied simply disable day return. Choose the time before the building is occupied that you desire to start a controlled ramp up to the calculated reset + Boost value temperature. Choose the time of day you expect the building to be occupied. Winter Priority TPC-FI SoloNet O&M Page 43 Winter Priority Staging Enable / Disable Disable Winter Priority Start mm/dd Date Winter Priority Stop mm/dd Date Winter Boilers Rotation Hours 24 - 720 Hours Choose to enable Winter Priority if you have a large mass boiler that you desire to put into the lead position for a portion of the heating season. 12/25 Choose the date you would like to begin Winter Priority 2/14 Choose the date you would like to stop Winter Priority. 168 If you have more than one large mass boiler that will be designated as Winter Priority choose the number of hours you would like for each boiler to be in the lead position. Reheat Reheat Enable / Disable Disable Reheat On Set point 60 - 90 F 70 Reheat Warm Weather Shutdown 80 - 160 F 100 Choose to enable the reheat reset slope if you are using reheat in this application. Choose the outdoor air temperature at which you desire the reheat reset slope to be enabled. Choose the outdoor air temperature at which you desire the reheat to be disabled due to warm weather. System Pump Parameters Activation Enable / Disable Enable Dedicated Lead Enable / Disable Enable Lead-Lag / LeadHelp Lead-Lag / LeadLead-Lag Help Lead Shutdown 10 - 120 Sec Delay (for Lead-Lag) Lag Help Enable Output % (for Lead- 51-100% Help) Lag Help Disable Output % (for Lead- 1-50% Help) 30 Choose Enable to activate this pump to be used in this system. Choose Enable to always use this pump as the lead pump in this system. Pump = on when heating operations are on Choose "Lead/Lag" if this pump will be rotated into the lead position as an either or pumping scenario. For lead/lag switching + help when using variable speed pumping chose "Lead/Help" in order to meet flow requirements of the system based on Delta P or Delta T system needs. Choose the number of seconds you would like to delay the shutdown of the lead pump in this system. 100 Choose the percentage of sustained pump output required to enable the lag pump. 40 Choose the percentage of sustained pump output required to disable the lag pump. Lag Help Delay (for Lead-Help) 1 - 60 Min 30 Choose the number of minutes the conditions (Output %) for lag help Enable/Disable must be sustained before action is taken to Enable or Disable the lag pump Rotation Hours (for Lead-Lag or LeadHelp) 12 - 720 Hrs 168 Choose the number of hours you desire this pump to stay in the lead position. TPC-FI SoloNet O&M Page 44 Heat Enable Shutdown Delay Time System Pump Maximum Modulation Percentage System Pump Minimum Modulation Percentage System Pump Process Acceleration System Pump Modulation Signal System Pump Delta T Operations System Pump Delta P Operations Delta P Transducer Pressure at 10Vdc (20mA) Input Delta P Transducer Pressure at 0Vdc (4mA) Input Delta P Pressure Set point Delta P Pressure Transducer Input Signal 1 - 120 Min 60 Choose the number of minutes you would like the pumps to continue to operate after the system has been shut down on outdoor air temperature. 50 - 100 % 100 Choose the maximum modulation signal expressed as a percentage you desire to be sent to this pump. 0 - 50 % 35 Choose the minimum modulation signal expressed as a percentage you desire to be sent to this pump. 0 - 100.0 20 0-10 Vdc, 4-20mA 0-10 Vdc Enable / Disable Disable Enable / Disable Disable Select the process acceleration speed. (Lower numbers cause faster response to changes) Choose the type of signal you desire to be sent to modulate this pump, 0-10 Vdc or 4-20mA. (also requires wiring to the correct terminal on the control) Choose enable if you desire to modulate this pump based on the system Delta T. Choose enable if you desire to modulate this pump based on the system Delta P. 0-50 Psi 30 Input the value of the pressure (in Psig 0.0) the transducer will experience at 20mA or 10Vdc 0-10 Psi Input the value of the pressure (in Psig 0.0) the transducer will experience at 4mA or 0Vdc 0-50 Psi 10 Choose the differential pressure the pump is modulated to maintain 0-10 Vdc, 4-20mA 0-10 Vdc Choose the input signal of the pressure transducer (0-10 Vdc or 4-20mA) Zone Pump Parameters Activation Enable / Disable Enable Dedicated Lead Enable / Disable Enable Lead-Lag / LeadHelp Lead-Lag / LeadLead-Lag Help Lead Shutdown 10 - 120 Sec Delay (for Lead-Lag) Lag Help Enable Output % (for Lead- 51-100% Help) Lag Help Disable 1-50% Output % (for Lead- TPC-FI SoloNet O&M 30 100 40 Choose Enable to activate this pump to be used in this system. Choose Enable to always use this pump as the lead pump in this system. Pump = on when heating operations are on Choose "Lead/Lag" if this pump will be rotated into the lead position as an either or pumping scenario. For lead/lag switching + help when using variable speed pumping chose "Lead/Help" in order to meet flow requirements of the system based on Delta P or Delta T system needs. Choose the number of seconds you would like to delay the shutdown of the lead pump in this system. Choose the percentage of sustained pump output required to enable the lag pump. Choose the percentage of sustained pump output required to disable the lag pump. Page 45 Help) Lag Help Delay (for Lead-Help) Rotation Hours (for Lead-Lag or LeadHelp) Heat Enable Shutdown Delay Time Zone Pump Maximum Modulation Percentage Zone Pump Minimum Modulation Percentage Zone Pump Process Acceleration Zone Pump Modulation Signal Zone Pump Delta T Operations Zone Pump Delta T Set-point Zone Pump Delta P Operations Delta P Transducer Pressure at 10Vdc (20mA) Input Delta P Transducer Pressure at 0Vdc (4mA) Input Delta P Pressure Set point Delta P Pressure Transducer Input Signal 1 - 60 Min 30 Choose the number of minutes the conditions (Output %) for lag help Enable/Disable must be sustained before action is taken to Enable or Disable the lag pump 12 - 720 Hrs 168 Choose the number of hours you desire this pump to stay in the lead position. 1 - 120 Min 60 Choose the number of minutes you would like the pumps to continue to operate after the system has been shut down on outdoor air temperature. 50 - 100 % 100 Choose the maximum modulation signal expressed as a percentage you desire to be sent to this pump. 0 - 50 % 35 Choose the minimum modulation signal expressed as a percentage you desire to be sent to this pump. 0 - 100.0 20 0-10 Vdc, 4-20mA 0-10 Vdc Enable / Disable Disable 0 - 100 F 10 Select the process acceleration speed. (Lower numbers cause faster response to changes) Choose the type of signal you desire to be sent to modulate this pump, 0-10 Vdc or 4-20mA. (also requires wiring to the correct terminal on the control) Choose enable if you desire to modulate this pump based on the Zone Delta T. Choose the Delta T you desire to be kept across this zone. Enable / Disable Disable Choose enable if you desire to modulate this pump based on the system Delta P. 0-50 Psi 30 Input the value of the pressure (in Psig 0.0) the transducer will experience at 20mA or 10Vdc 0-10 Psi Input the value of the pressure (in Psig 0.0) the transducer will experience at 4mA or 0Vdc 0-50 Psi 10 Choose the differential pressure the pump is modulated to maintain 0-10 Vdc, 4-20mA 0-10 Vdc Choose the input signal of the pressure transducer (0-10 Vdc or 4-20mA) Boiler Parameters Activation Enable / Disable Enable TPC-FI SoloNet O&M Choose enable to activate this boiler for use in this system. Page 46 Flow Sensitive Boiler Type - Cond / NonCond Boiler Fire Delay Seconds Boiler Low Fire Hold Minutes Boiler Maximum Runtime Hours Maximum Boiler MBH Output Minimum Boiler MBH Output Maximum Boiler Outlet Temperature Minimum Boiler Inlet Temperature Yes/No Yes Cond / NonCond Cond 30 - 300 Sec 90 5 - 60 Min 15 1 - 24 Hrs 12 1 - 52,000 MBH 3000 1 - 26,000 MBH 1500 160 - 210 F 180 20 - 150 F 130 Maximum Boiler Output Percentage 50 - 100 % 100 Minimum Boiler Output Percentage 0 - 50 % 18 Boiler Ignition Output Percentage 0 - 50 % Boiler Next Stage Percentage 10 - 100 % 85 Boiler Turn Down 2:1-10:1 Boiler Maximum 10 - 100 % Output Manual Limit 100 Boiler Maximum Allowable Delta T. 2 - 160 F 20 Boiler Maximum operating Delta T. 0 - 158 F 15 TPC-FI SoloNet O&M Choose Yes unless the boiler you are configuring is rated by its manufacturer as having no minimum flow requirements. Choosing "No" allows boiler secondary pump modulation off the boiler device. It allows another Field Device dedicated to boiler secondary pumping to control boiler pump modulation through wireless network traffic of boiler inlet and outlet temperatures. Choosing "Yes" forces boiler secondary pump modulation to occur local on the Boiler Field Device only. Choose Cond. For condensing boilers, Choose NonCond for noncondensing boilers Choose the number of seconds between when this boiler is enabled until it has established main flame. Choose the number of minutes you desire for the control to keep this boiler in low fire at the beginning of every cycle Choose the maximum number of hours you desire for this boiler to run in any single cycle. Enter in MBH the maximum output of this boiler. (Mbh = Btu/1000) Enter in MBH the minimum output of this boiler. (Mbh = Btu/1000) Enter the maximum outlet water temperature allowed to be supplied by this boiler. Enter the minimum inlet water temperature allowed to be returned to this boiler. Enter the maximum output percentage signal that you would like to send this boiler. This is used to help establish the relationship between output signal and Mbh output value of the boiler. ( If 9.00 Vdc = maximum boiler output then enter 90%) Enter the minimum output percentage signal that you would like to send this boiler. This is used to help establish the relationship between output signal and Mbh output value of the boiler. ( If 1.80 Vdc = minimum boiler output then enter 18%) Enter the output percentage at which main flame is ignited. Some boilers light off at greater than minimum signal. If light off of the boiler is 50% of output then enter 50%. This modulation signal will be sent to the boiler during the entire fire delay. This is the percentage of boiler output that must be sustained for the entire "Stage Delay Time" before another boiler is enabled. Enter the turn-down of this boiler. For turn-down's greater than 5:1 check with the start-up technician to confirm the field configured turn-down for the boiler. This is the maximum output signal to the boiler. It is not linked to the load calculation. It is used to limit a boilers output. Suggested use is a limit for output during start up and combustion analization. Enter the maximum allowable Delta T for this boiler. This is the manufacturers maximum allowable Delta T the boiler is allowed to achieve. Enter the maximum operating Delta T for this boiler. This is the set-point for the user to choose a number at least 2 degrees Fahrenheit below maximum allowable boiler Delta T. This number shall be used for modulation limits and error calculations Page 47 Standby Mode Enable / Disable Disable Winter Priority Mode Enable / Disable Disable Boiler Water Volume 1 - 12,000 Gal Gallons Maximum Rated 65 - 99 % Efficiency Process Output 1 - 100.0 Acceleration Boiler Modulation Signal 0-10 Vdc, 4-20mA Choose enable if you desire this boiler to be used as a standby boiler. A standby boiler is the lowest priority for operation and will be selected if all other boilers on the network are failing to meet the load requirements Choose enable if you desire this boiler to be a "Winter Priority" boiler. Note: You must have activated winter priority under system settings and chosen a date to put this boiler into priority to use this feature. 100 Enter the volume of water in this boiler. 85 Enter the maximum rated efficiency for this boiler 30 0-10 Vdc DHWP (on-board or Enable / Disable Disable Network) DHWP Set-point (on110-240F 140F board only) DHWP Maximum Hysteresis (on-board 5-30F only) 10F DHWP Minimum Hysteresis (on-board 3-20F only) 3F DHWP Override (on15 - 181 Min board only) 30 Select the process acceleration speed. (Lower numbers cause faster response to changes) Choose the type of signal you desire to be sent to modulate this boiler, 0-10 Vdc or 4-20mA. (also requires wiring to the correct terminal on the control) Select to enable this boiler for DHWP operations. This must be selected of either on board priority or Network priority Provide the outlet water temperature this boiler will be asked to provide when producing domestic hot water. This is the maximum allowable overshoot of the DHWP set-point for boiler water temperature. Outlet temperatures exceeding this value will cause the boiler to disable until the DHWP Minimum Hysteresis value has been reached This is the minimum allowable under-shoot of the DHWP set-point for boiler water temperature. Outlet temperatures less than or equal to this value will cause the boiler in priority to enable until the DHWP Maximum Hysteresis value has been reached or until the priority has ended Choose the maximum number of minutes this boiler can be used to provide DHW when there is simultaneously a call for comfort heat. Boiler Pump Parameters Activation Pump control / Valve control Boiler Pump Off Delay Boiler Pump Modulation Boiler Delta T Set point Boiler Pump Maximum Modulation Enable / Disable Enable Choose enable to activate this boiler pump for use in this system. Pump / Valve Pump Choose the device that is being controlled 1 - 15 Min 10 Enable / Disable Disable 0 - 158 F 20 50 - 100 % 100 TPC-FI SoloNet O&M Enter the number of minutes you would like this pump to run after the boiler has finished a cycle. Enter "enable" if this pump is connected to a frequency drive and you wish to modulate that drive based on boiler Delta T Enter the Delta T that you desire across this boiler. This number needs to be less than or equal to the value chosen as the maximum operating Delta chosen under Boiler Parameters for the boiler assigned to this pump. Choose the maximum modulation signal expressed as a percentage you desire to be sent to this pump. Page 48 Percentage Boiler Pump Minimum 0 - 50 % Modulation Percentage Boiler Pump Process 1 - 100.0 Acceleration Boiler Pump Modulation Signal 0-10 Vdc, 4-20mA 30 30 0-10 Vdc Choose the minimum modulation signal expressed as a percentage you desire to be sent to this pump. Select the process acceleration speed. (Lower numbers cause faster response to changes) Choose the type of signal you desire to be sent to modulate this pump, 0-10 Vdc or 4-20mA. (also requires wiring to the correct terminal on the control) Damper Parameters Activation Enable / Disable Enable Boiler Association 1-1, 1-16 Range (1 - 1) TPC-FI SoloNet O&M Choose enable to allow this damper to be used in this system. Identify the boiler(s) that this damper will work with. Boilers must be in sequential order. For example: Inputting 1-3 will not enable the damper on just 1 and 3. If 1-3 is chosen then boiler 1,2 & 3 will enable this damper if any or all of these boilers are enabled. Page 49 Appendix B TPC-FI SoloNet O&M Page 50 TAG DATATYPE NOD MODBUS_ON_OFF_WRITE BMS_ENABLE_CONTROL_WRITE SYSTEM_SETPOINT_WRITE REMOTE_ENABLE SYSTEM_SETPOINT_READ CONDENSING OPTIMUM_STOP OPTIMUM_START OCCUPIED_OPERATIONS UNOCCUPIED_OPERATIONS WINTER_HEAT SUMMER_HEAT WINTER_PRIO SYSTEM_SUPPLY_TEMP SYSTEM_RETURN_TEMPERATURE OUTDOOR_AIR_TEMPERATURE SYSTEM_GPM_FLOW SYSTEM_MBH_LOAD UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 MBREG_MAX_HYST MBREG_MIN_HYST SYSTEM_DELTA_T WINTER_HEAT_ON_SP WINTER_HEAT_OFF_SP REHEAT_ON_SETPOINT REHEAT_OFF_SETPOINT DATE 24HR_TIME SIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_16 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 ADDRESS TAG NAME 405000 405001 405002 405003 405004 405005 405006 405007 405008 405009 405010 405011 405012 405013 405014 405015 405016 405017 405018 405019 405020 405021 405022 405023 405024 405025 405026 405027 TPC-FI SoloNet O&M Page 51 405028 405029 405030 405031 405032 405033 405034 405035 405036-40 5099 405100 405101 405102 405103-40 5105 405106 405107 405108 405109-40 5111 405112 405113 405114 405115-40 5117 405118 405119 405120 405121-40 5123 405124 405125 405126 405127-40 5129 405130 405131 405132 405133-40 SYS_7 SYS_8 SYS_9 MBREG_TPCMODBUS_VERSION MBREG_NUM_MAIN_PUMPS MBREG_FIRST_MAIN_PUMP_ADDR MBREG_NUM_BOILERS MBREG_FIRST_BOILER_ADDR UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 MP_EXISTING MP_ON MP_LEAD PUMP1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP2 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP3 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP4 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP5 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PUMP6 Page 52 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 PLC1 PLC1 PLC1 PLC1 5135 405136 405137 405138 405139-40 5141 405142 405143 405144 405145-40 5147 405148 405149 405150 405151-40 5153 405154 405155 405156 405157-40 5159 405160 405161 405162 405163-40 5165 405166 405167 405168 405169-40 5171 405172 405173 405174 405175-40 5177 405178 405179 405180 MP_EXISTING MP_ON MP_LEAD PUMP7 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 MP_EXISTING MP_ON MP_LEAD PUMP8 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP9 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP10 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP11 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP12 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD PUMP13 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 MP_EXISTING MP_ON MP_LEAD TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PUMP14 Page 53 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 PLC1 PLC1 PLC1 405181-40 5183 405184 405185 405186 405187-40 5189 405190 405191 405192 405193-40 5199 405200 405201 405202 405203 405204 405205 405206 405207 405208 405209 405210 405211 405212 405213 405214 405215 405216 405217 405218 405219 405220 405221 405222 405223 405224 405225 Reserved PLC1 MP_EXISTING MP_ON MP_LEAD PUMP15 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 MP_EXISTING MP_ON MP_LEAD PUMP16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Reserved PLC1 PLC1 PLC1 PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 TPC-FI SoloNet O&M PLC1 PLC1 PLC1 Page 54 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405226-40 5249 405250 405251 405252 405253 405254 405255 405256 405257 405258 405259 405260 405261 405262 405263 405264 405265 405266 405267 405268 405269 405270 405271 405272 405273 405274 405275 405276-40 5299 405300 405301 405302 405303 405304 405305 405306 405307 Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT BOILER2 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER3 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Page 55 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405308 405309 405310 405311 405312 405313 405314 405315 405316 405317 405318 405319 405320 405321 405322 405323 405324 405325 405326-40 5349 405350 405351 405352 405353 405354 405355 405356 405357 405358 405359 405360 405361 405362 405363 405364 405365 405366 405367 B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER4 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 Page 56 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405368 405369 405370 405371 405372 405373 405374 405375 405376-40 5399 405400 405401 405402 405403 405404 405405 405406 405407 405408 405409 405410 405411 405412 405413 405414 405415 405416 405417 405418 405419 405420 405421 405422 405423 405424 405425 405426-40 5449 B_CYCLE_COUNT UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT BOILER5 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 Page 57 405450 405451 405452 405453 405454 405455 405456 405457 405458 405459 405460 405461 405462 405463 405464 405465 405466 405467 405468 405469 405470 405471 405472 405473 405474 405475 405476-40 5499 405500 405501 405502 405503 405504 405505 405506 405507 405508 405509 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT BOILER6 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER7 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Page 58 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405510 405511 405512 405513 405514 405515 405516 405517 405518 405519 405520 405521 405522 405523 405524 405525 405526-40 5549 405550 405551 405552 405553 405554 405555 405556 405557 405558 405559 405560 405561 405562 405563 405564 405565 405566 405567 405568 405569 B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER8 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 Page 59 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405570 405571 405572 405573 405574 405575 405576-40 5599 405600 405601 405602 405603 405604 405605 405606 405607 405608 405609 405610 405611 405612 405613 405614 405615 405616 405617 405618 405619 405620 405621 405622 405623 405624 405625 405626-40 5649 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 405650 B_EXISTING Reserved PLC1 B_EXISTING B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT BOILER9 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER1 UNSIGNED_16 Page 60 PLC1 405651 405652 405653 405654 405655 405656 405657 405658 405659 405660 405661 405662 405663 405664 405665 405666 405667 405668 405669 405670 405671 405672 405673 405674 405675 405676-40 5699 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 405700 B_EXISTING 405701 405702 405703 405704 405705 405706 405707 405708 405709 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Page 61 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405710 405711 405712 405713 405714 405715 405716 405717 405718 405719 405720 405721 405722 405723 405724 405725 405726-40 5749 B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 405750 B_EXISTING 405751 405752 405753 405754 405755 405756 405757 405758 405759 405760 405761 405762 405763 405764 405765 405766 405767 405768 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 Page 62 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405769 405770 405771 405772 405773 405774 405775 405776-40 5799 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved 405800 B_EXISTING 405801 405802 405803 405804 405805 405806 405807 405808 405809 405810 405811 405812 405813 405814 405815 405816 405817 405818 405819 405820 405821 405822 405823 405824 405825 405826-40 5849 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT PLC1 BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 Page 63 405850 B_EXISTING 405851 405852 405853 405854 405855 405856 405857 405858 405859 405860 405861 405862 405863 405864 405865 405866 405867 405868 405869 405870 405871 405872 405873 405874 405875 405876-40 5899 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT 405900 B_EXISTING 405901 405902 405903 405904 405905 405906 405907 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 Page 64 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405908 405909 405910 405911 405912 405913 405914 405915 405916 405917 405918 405919 405920 405921 405922 405923 405924 405925 405926-40 5949 B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP B_CYCLE_TIME B_CYCLE_COUNT UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 405950 B_EXISTING 405951 405952 405953 405954 405955 405956 405957 405958 405959 405960 405961 405962 405963 405964 405965 405966 B_ACTIVE B_ALARM B_CON_NON B_WINTER B_DHWP B_ON B_PUMP_EXISTING B_PUMP_ON B_VALVE_EXISTING B_VALVE_ON B_DAMPER_EXISTING B_DAMPER_ON B_DAMPER_PROVE B_OUTLET_TEMP B_INLET_TEMP B_STACK_TEMP Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 BOILER1 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 UNSIGNED_16 SIGNED_16 SIGNED_16 SIGNED_16 Page 65 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 405967 405968 405969 405970 405971 405972 405973 405974 405975 405975-40 9999 B_CYCLE_TIME B_CYCLE_COUNT UNSIGNED_16 UNSIGNED_32 B_HOURS_OF_OPERATION UNSIGNED_32 B_MBH_LOAD_ASSIGNMENT UNSIGNED_32 B_MBH_OUTPUT UNSIGNED_32 Reserved TPC-FI SoloNet O&M PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 PLC1 Page 66 Appendix C TPC-FI SoloNet O&M Page 67 GROUP Parameter Logging Type Sample Size Design Inputs Design Inputs Design Inputs Design Inputs Design Inputs Design Inputs Heat Priority Heat Priority Heat Reset 1 (Condensign) Heat Reset 2 (NonCondensing) Heat Reset 3 (Reheat) Winter Priority System Pumps System Pumps System Pumps Zone Pump Zone Pump Zone Pump Boiler Pump Boiler Pump Boiler Pump Boilers Boilers Boilers Boilers Damper Supply Temp ReturnTemp OutdoorAirTemp GPM Flow SetPoint Display Load (Supply – Return* GPM) WinterHeatOnSetpoint NonCondensing OutdoorSetpoint Operationinreset Operationinreset Operationinreset Active / Inactive Alarm Status On/OffStatus OutputPercentage (Modulation) Alarm Status On/OffStatus OutputPercentage (Modulation) Alarm Status On/OffStatus OutputPercentage (Modulation) Hours ofOperation Alarm Status On/OffStatus OutputPercentage (Modulation) Alarm Status Hourly Average Hourly Average Hourly Average Hourly Average Hourly Average Hourly Average EventDriven EventDriven EventDriven EventDriven EventDriven EventDriven EventDriven EventDriven Hourly Average EventDriven EventDriven Hourly Average EventDriven EventDriven Hourly Average EventDriven EventDriven EventDriven Hourly Average EventDriven >=10samples/hour >=10samples/hour >=10samples/hour >=10samples/hour >=10samples/hour >=60samples/hour OnDelta OnDelta OnDelta OnDelta OnDelta OnDelta OnDelta OnDelta >=60samples/hour OnDelta OnDelta >=60samples/hour OnDelta OnDelta >=60samples/hour To a minute OnDelta OnDelta >=60samples/hour OnDelta TPC-FI SoloNet O&M Page 68 Notices of software licenses used in this product: FreeRTOS(tm): ------------This product uses FreeRTOS.org, version 4.7.0. FreeRTOS is distributable under a modified version of the GNU General Public License. Should you desire to obtain the version of FreeRTOS used in this product, you may do so at http://www.thermodynamicprocesscontrol.com/software/oss. The full text of the license governing the use of FreeRTOS.org may be found on the same page. You may learn more about FreeRTOS.org from http://www.freertos.org. FreeModbus: -----------FreeModbus Libary: A portable Modbus implementation for Modbus ASCII/RTU. Copyright (c) 2006 Christian WalterAll rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. 3. The name of the author may not be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Linux Kernel: TPC-FI SoloNet O&M Page 69 --------------The Linux kernel is used by this product. The kernel itself is distributed under the GNU General Public License, Version 2. To obtain a copy of the kernel source used in this product, please visit http://www.thermodynamicprocesscontrol.com/software/oss. Other Programs: ---------------Other programs under the GPL or other open-source license terms may be distributed with the product. To obtain the sources for these programs, please visit http://www.thermodynamicprocesscontrol.com/software/oss. Alternative source: ------------------If you prefer to obtain the sources for the open-source programs used by this product by way of CD or DVD, you may do so for a cost of $9.99. Please contact Thermodynamic Process Control for more details. TPC-FI SoloNet O&M Page 70
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