Thermodynamic Process Control LFC001TPCMVPMV Thermodynamic Controller User Manual 02

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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 Walter 
All 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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