4-20mA Expansion Card - Profire Energy, Inc.
Contents
1. Mounting Hardware Channel Bar Conduit Ports Liquid Tight Ports Rubber Grommets Wire Ignition Wire Thermocouple Wire Rods And Connectors Kanthal Ignition Rods Various Lengths Valves DC Solenoids Safety Valves with Proof of Closure Proportional Valves Thermocouples Single Type K Dual Element Type K Pilot Assembly Nozzles Brackets Mixers Orifices Autonomy Batteries Solar Chargers Solar Panels Accessories 4 20mA Expansion Cards Modbus Expansion Cards External Ignition Coil Please contact Profire Sales for further information 1 7 System Diagram door to terminal F2 SPARE FUSE Status Status Start Start ESD ESD Proof of Closure Proof of Closure HighPressure HighPressure LowPressure LowPressure Level Level HighTemp_TC Yellow HighTemp_TC Red Process_TC Yellow Process_TC Red AUX_TC Yellow AUX_TC Red High Fire Main 4 20mA Out 4 20mA Out Earth Ground Common 12 24VDC Coil Coil Ion Ion High Fire Main Low Fire Low Fire Pilot Pilot 1 2 3 6 5 4 XXXXXX XXXXX XXX 2 3 0 XXXXXX SPARE FUSE RESET E v1 8 005 4 20mA CARD INTERNAL COIL MODBUS CARD RIBBON CABLE FW VERSION LABEL KEYPAD FLEX CABLE HW SERIAL VERSION LABEL TERMINAL CARD DOOR CARD optional optional optional DOOR amp KEYPAD SERIAL MODEL LABEL ENCLOSURE 1 8 Terminal Card Descriptions This2. OPEN CLOSED SYSTEM STATE SHUTDOWN SHUTDOWN WAITING READY WAITING RUNNING EVENT START CONTACT 2 4 5 6 3 1 CHART EVENTS 1 System already in a shutdown state due to some previous alarm 2 User opens Start Contact Shutdown message on display is aknowledged and cleared System is now waiting for Start Contact to close 3 User closes Start Contact System is now ready to be started 4 User opens Start Contact again System is now waiting for Start Contact to close again 5 User closes Start Contact again System begins running 6 User opens Start Contact System shuts down immediately If this contact is not needed it must be shorted out with the provided jumper or a wire ESD INPUT The ESD Input Contact is used to stop the PF2100 in the event of an emergency This is normally done by connecting the contact to the site s ESD Loop The PF2100 will shutdown immediately when the contact is opened and cannot be restarted until the contact is closed The PF2100 will not restart automatically if the ESD contact is subsequently reclosed but must instead be restarted via the start contact the keypad or the Modbus card if installed ESD CONTACT OPEN CLOSED SYSTEM STATE SHUTDOWN RUNNING EVENT ESD CONTACT 3 2 1 CHART EVENTS 1 System already running 2 ESD Contact opens system shuts down 3 ESD Contact closes system does not restart automatically
3. To use the 4 20 Pressure Input it must be setup as follows 1 Attach a properly calibrated Pressure Transmitter to the 4 20 Pressure Input 2 Enable the Pressure DIP Switch on the 4 20 Card 3 Enable the 4 20 Card in menu 6 4 Set the Pressure Low Setpoint High Setpoint Range and Units in menu 6 5 Disable the Low Pressure and High Pressure Contacts by installing a jumper in each of them Chart 1 Pressure Increases While Running SYSTEM STATE READY PURGE IGNITE FLAME MAIN PILOT DELAY SHUTDOWN 4 20 PRESSURE 20mA 4mA EVENT 2 3 1 4 20 PRESSURE INPUT PRESSURE LOW SP PRESSURE HIGH SP CHART 1 EVENTS 1 System started by user with pressure between low and high setpoints 2 Pressure regulator fails while the mains are turned on Pressure begins increasing 3 Pressure exceeds High Setpoint and system shuts down Chart 2 Pressure High From Start SYSTEM STATE READY PURGE IGNITE FLAME MAIN PILOT DELAY SHUTDOWN TIMER 2s 0s 4 20 PRESSURE 20mA 4mA EVENT 3 1 2 4 20 PRESSURE INPUT PRESSURE LOW SP PRESSURE HIGH SP CHART 2 EVENTS 1 System started by user with pressure above high setpoint 2 Main turns on and timer starts counting down 2s 3 The timer expires and the pressure signal does not drop below the high setpoint The system shuts down Chart 3 Pressure High On Start But Clears When Main Opens SYSTEM STATE RE
4. Unit restarted from LVL event The system has recently restarted from a Level event Press OK to clear this message Unit restarted from PRS event The system has recently restarted from a Low Pressure event Press OK to clear this message Unit restarted from VLT event The system has recently restarted from a Low or High Voltage event Press OK to clear this message Waiting 420 LVL The system will automatically restart once the 4 20 Input Card s Level Input rises above the Low Setpoint Waiting 420 PRS The system will automatically restart once the 4 20 Input Card s Pressure Input drops below the High Setpoint Waiting HiVolt The system will automatically restart once the system voltage falls below the High Voltage Alarm Threshold Waiting LoVolt The system will automatically restart once the system voltage rises above the Low Voltage Alarm Threshold Waiting Low PRS The system will automatically restart once the Low Pressure Contact is closed Waiting LVL The system will automatically restart once the Level Contact is closed Waiting STRT Inp The system will automatically restart once the Start Contact is closed 6 5 Flame Detection Troubleshooting Guide SYSTEM IS NOT DETECTING FLAME The flame quality drops from 100 pilot when the main comes on Does the system stay running with the flame arrestor open The draft from the main could be pulling the pilot flame away from the flame rod Repositi
5. Disconnect any wiring that is connected to the Level input and instead attach the process calibrator s positive lead in its place 4 Turn on the process calibrator and set it to source a current of 4mA 0 5 Press the OK key and the message Calibrating Wait will appear for several seconds followed by the message Parameter Set after the calibration has successfully completed Calibrate the Level Input s Span point 1 Press the Menu Key repeatedly until Calibrate 4 20 LVL Span is shown on the display 2 Use the Up or Down key to select Yes and begin the calibration process The display will now read Apply 20mA then press OK 3 Set the process calibrator to source a current of 20mA 100 4 Press the OK key and the message Calibrating Wait will appear for several seconds followed by the message Parameter Set after the calibration has successfully completed 5 Disconnect the process calibrator from the Level input and reconnect any wiring that was removed from it previously Calibrate the Pressure Input s Zero point 1 Press the Menu Key repeatedly until Calibrate 4 20 PRS Zero is shown on the display 2 Use the Up or Down key to select Yes and begin the calibration process The display will now read Apply 4mA then press OK 3 Disconnect any wiring that is connected to the Pressure input and instead attach the process calibrat
6. NC contacts are provided When the Level reading is above the High Level Setpoint the NO contact will close and the NC contact will open The opposite is true whenever the Level reading is below the High Level Setpoint This can be used to control auxiliary equipment such as a warning light an alarm or the pump that is filling the tank Refer to the 4 20mA Expansion Card Manual for further details on installation and operation of this card 4 20mA EXPANSION CARD Some PF2100 models come with this card pre installed 4 20MA EXPANSION CARD SETTINGS These settings all apply to the 4 20mA Expansion Card which must be installed in the PF2100 s expan sion slot These settings can all be found in Menu 6 Some of these settings will be hidden if the card is not installed or enabled 4 20 EXPANSION CARD ENABLE MENU 6 For the Tank Level Settings to be visible the LVL DIP Switch on the 4 20mA Input Card must be enabled Tank Level Settings 1 4 20 LOW LEVEL SETPOINT menu 6 If the 4 20mA LVL input drops below this setpoint the burner will turn off to prevent damage to the tank and fire tube 2 4 20 HIGH LEVEL SETPOINT menu 6 If the 4 20mA LVL input exceeds this setpoint the LVL output contacts on the 4 20mA Input Card will toggle 3 4 20 LEVEL RANGE menu 6 Specifies the maximum capacity of the tank s 4 20mA level transmitter 4 4 20 LEVEL UNITS menu 6 Specifies the units of measurement Note that t
7. PROC TEMP Process Control Input Setting AUX TC LOW TEMP ALARM DEADBAND AUX SETPOINT PROCESS SETPOINT LOW FIRE SETPOINT PILOT OFF SETPOINT HIGH TEMP ESD SETPOINT 1350 C 0 C 1350 C 0 C AUX TEMP PROC TEMP Setting can be hidden disabled Deadband Max 150 C For Process Control the Proc Temp signal is the one compared to the Pilot Off Low Fire Process and Deadband setpoints High Temp ESD Setpoint Menu 5 This setting is used to protect the burner and other equipment from overheating If either the High Temp or Process thermocouple readings exceed this setpoint the burner will immediately shut down This setting can be set to a maximum of 1350 C The minimum value is 1 C higher than the setpoint below it Depending on which settings are enabled this will be the Pilot Off Low Fire or Process Setpoint Pilot Off Setpoint Menu 1 If the Process Temperature goes above this setting the Pilot Valve will close and the system state will change to Waiting on Temp This is often done to conserve pilot gas when it is not needed This setting is hidden if Pilot Off in menu 5 is set to Disabled This setting can be set to a maximum of 1 C below the High Temp ESD Setpoint The minimum value is the same as the setpoint below it Depending on which settings are enabled this will be the Low Fire or Process Setpoint Low Fire Setpoint Menu 1 If the Process Temperature goes above this setting the
8. STARTING THE SYSTEM There are five different ways to start the system Auto Mode Option The system is set to Manual Mode by default Setting the system to Auto Mode is the most common way to start the system 1 Make sure the system is stopped all alarms are clear and the Home Screen displays Ready 2 Press the Mode Key A confirmation prompt will show on the Display 3 Press the OK Key to confirm that you want to start the system This changes the system to Auto Mode Based on the defined system settings the system will automatically restart from faults The system will take over turning the valves on and off according to the system settings and the current Process Temperature System Test And Start Option This method is used during the initial installation when testing the pilot valve main valve ignition circuit and flame detection circuitry in a slow sequence 1 Make sure the system is set to Manual Mode and is stopped with all alarms clear The Home Screen should display Ready 2 Press and hold the Pilot Key to open the Pilot Valve Listen for the Pilot Valve to click open and let the gas through Continue to hold the Pilot Key and press and hold the Ignite Key to begin sparking Check the Pilot Nozzle for sparks and flame If you cannot see the Pilot Nozzle listen for the sound of sparking and try to determine if it is coming from the ignition rod 3 Release the Ignite Key and check that the di
9. This setting is used to set the minimum amount of time that must elapse between the pilot successfully lighting and the main or low fire valve opening The Pilot to Main Delay is used to ensure that enough draft is established before opening the main valve If this is not done the volume of gas flowing through the main valve can snuff out the flame due to insufficient oxygen supply Generally the larger the burner the larger the delay should be This setting can be set to a minimum of 5s and a maximum of 600s Low To High Fire Delay Menu 5 This setting is used to set the minimum amount of time that must elapse between the low fire valve opening and the high fire valve opening This setting is only available if Low Fire is enabled in menu 5 The Low to High Fire Delay is used to ensure that enough draft is established before switching to high fire If this is not done the volume of gas flowing through the high fire valve can snuff out the flame due to insufficient oxygen supply Generally the larger the burner the larger the delay should be This setting can be set to a minimum of 30s and a maximum of 300s Values set above 255s are automatically set to the value minus 255s Pressure Level Delay Menu 4 This setting is used to reject spurious electrical noise that may be present on the Low Pressure Contact Level Contact and the 4 20mA Expansion Card if installed This noise can come from electrical interference mechanical vibration or s
10. can be installed on the fuel train and then connected to the Low Pressure Input Contact on the PF2100 If the fuel pressure drops below the switch s mechanically set pressure setting the switch opens and the PF2100 will close all valves and stop running The system can be setup to begin running again auto matically after the pressure returns above the switch s pressure setting This is done by enabling the Auto Restart feature in menu 4 The response to the contact opening is delayed by 2s to reject electrical noise that is common on some sites If long periods of severe noise are common on a particular site the delay can be increased to 6s by enabling the Pressure Level Delay feature in menu 4 If this contact is not needed it must be shorted out with the provided jumper or a wire Chart 1 Low Pressure Restart Disabled LOW PRESSURE CONTACT LOW PRS CONTACT OPEN CLOSED SYSTEM STATE SHUTDOWN RUNNING EVENT 4 2 3 1 CHART 1 EVENTS 1 System already running with Low Pressure contact closed 2 Low Pressure contact opens timer begins counting down 3 Timer expires system shuts down 4 Low Pressure contact closes system does not restart automatically Chart 2 Low Pressure Restart Enabled SYSTEM STATE RUNNING RUNNING WAITING ON PRESSURE EVENT LOW PRS CONTACT OPEN CLOSED 4 2 3 1 LOW PRESSURE CONTACT CHART 2 EVENTS 1 System already running with Low Pressure co
11. for the system 12V 24V 12V Temperature Display Units Temp Units Configures the temperature units displayed by the system Fahrenheit Celsius Celsius Commission Date Entry Commission Date Set the date that the system was commissioned DD MMM YYYY 01 JUN 2012 Commission Location Entry Commission Loc Set the install location of the system 14 Characters Max A Z 0 9 Reset to Factory Defaults Restore Factory Defaults Restore all settings to the factory default Yes No No CONTROL SETUP MENU 5 This menu contains various optional Process Control settings It cannot be accessed while the PF2100 is running MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING High Temp ESD Setpoint High Temp ESD Setpoint Adjusts the High Temperature shutdown setpoint 2 to 1350 C 36 to 2462 F 90 C 194 F Process Control Input Process Control Configure the thermocouple used as the Process Temperature Process TC AUX TC Process TC Low Fire Enable Low Fire Enables Low Fire feature and setpoint Disabled on at Proc Setpnt on at Low Fire Setpnt Disabled Low to High Fire Delay Low to High Fire Delay Adjusts the time from Low Fire Valve opening to High Fire Valve opening when Low Fire is enabled Values set above 255 seconds are automatically set to the value minus 255 seconds For example inputting 275 seconds sets the actual delay to 20 seconds 30 30
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13. 4 EVENT PRESSURE LOW SP PRESSURE HIGH SP CHART 5 EVENTS 1 System already running with pressure between High and Low setpoints 2 Hand valve on fuel train closed Pressure begins to drop 3 Pressure falls below the low set point Delay timer starts counting down max valve depends on the Level Pressure Delay setting 4 Delay timer expires and system shuts down 5 Hand valve is opened and pressure increases quickly 6 Pressure rises above low setpoint but system does not restart and remains shut down 4 20MA TEMPERATURE OUTPUT If the 4 20mA Output is not being used to control a proportional valve it can be configured to output the process temperature encoded as a 4 20mA signal This is useful if a PLC on site needs to know the process temperature In this case wire the PF2100 s 4 20mA Output to a PLC s 4 20mA Input Note that the PF2100 provides the loop power The PLC resistance is expected to be in the range of 120 Ohms and 250 Ohms The 4 20mA output signal will be scaled such that 4mA represents OC and 20mA represents HT ESD Setpoint 5 2 Modbus Expansion Card An optional Modbus Expansion Card can be installed in the PF2100 which provides the following addition al features REMOTE MONITORING This card allows for remote monitoring of the PF2100 status including process temperature auxiliary temperature and 4 20mA Input Card status if installed REMOTE START STOP This card can also be us
14. Down Keys to adjust the temperature displayed on the PF2100 to match the temperature being applied to the thermocouple Note that multiple key presses may be required before the temperature value on the display changes This is because each key press is adjusting a fractional multiplication factor internal to the system 15 Press OK and the message Parameter Saved will show on the display briefly 16 Press the Menu Key to go to the next item 17 Repeat steps 14 16 for the Cal HiTemp TC Span and Cal Aux TC Span menu items 18 Press and hold the OK key for 3 seconds until the message Password Logout is displayed on the screen The Calibration Menu is now hidden again CALIBRATING THE 4 20MA OUTPUT For the 4 20mA Output the first calibration point is 4mA and the second calibration point is 20mA You will need a current meter capable of measuring current to 0 1mA accuracy 1 Make sure that the system is stopped 2 Connect a current meter in series with the 4 20mA Output 3 Set the current meter to a range setting that covers both 4mA and 20mA 4 Press the UP and Down Keys simultaneously to unlock the Calibration Menu Menu 7 which is normally hidden 5 Press the Menu Key repeatedly until Menu 7 is shown 6 Press OK If prompted enter the L2 Password 7 Press the Menu Key repeatedly until Cal 4 20 Out Zero is shown on the display 8 Use the Up and Down Keys to adjust the output
15. Fire can be enabled in two different modes On at Proc Setpoint and On at Low Fire Setpoint In the first case the Low Fire Valve will close when it exceeds the Low Fire Setpoint but will not reopen until it drops below the Process Setpoint minus Deadband In the second case the Low Fire Valve will close when it exceeds the Low Fire Setpoint and will reopen after it drops below the Low Fire Setpoint minus Deadband Pilot Off Enable Menu 5 This setting is used to enable disable use of the Pilot Off Setpoint for Primary Process Control Aux Temp Mode Menu 5 When this setting is set to Temp Main Ctl Auxiliary Process Control is enabled See the Auxiliary Temperature Settings section for more details PROCESS SETPOINTS There are seven Process Setpoints in total four of which may be disabled hidden from menus The order of the setpoints varies depending on the value of the Process Control Input setting The following diagrams illustrate the upper and lower bounds of each setpoint and their order Setpoints that are shaded may be disabled When a setpoint is disabled the upper and lower bounds of the adja cent setpoints are adjusted accordingly Process Control Input Setting PROC TC LOW TEMP ALARM DEADBAND PROCESS SETPOINT LOW FIRE SETPOINT PILOT OFF SETPOINT HIGH TEMP ESD SETPOINT AUX SETPOINT Setting can be hidden disabled Deadband Max 150 C 1350 C 0 C 1350 C 0 C AUX TEMP
16. If Low Power mode is enabled a peak load of 4A is permitted High Fire Main High Fire Main Valve negative terminal Do not connect to ground Low Fire Low Fire Valve positive terminal Low Fire Low Fire Valve negative terminal Do not connect to ground Pilot Pilot Valve positve terminal Pilot Pilot Valve negative terminal Do not connect to ground Ion Flame Detection positive input Connect to flame rod or external coil Ion terminal depending on configuration A Kanthal rod should be placed directly in the pilot flame and connected to this input The pilot assembly must be grounded for the flame detection to function properly Input is protected from high voltage and can be connected in series with the high voltage terminals of an external ignition coil allowing a single flame rod to be used for both ignition and flame detection A 65VAC signal is applied to the flame rod The source impedance is very high so there is no danger of sparking Ion Flame Detection negative input Connect to ground screw on pilot assembly or burner housing Ground return for flame detection Coil Driver for the low voltage primary of the ignition coil The primary of the ignition coil should be connected to this terminal The 12 24VDC input power will be applied for 1 ms and turned off for 50 ms while sparking This output is protected by a 250mA thermal fuse Coil Ground return for the ignition coi
17. Isolated from power Type k thermocouples Connected with 20 AWG or larger Type k extension wire Placed a safe distance from high voltage lines and shielded when necessary STATUS CONTACT The status contact is a dry contact output containing a solid state relay It acts as a switch that the PF2100 controls Neither contact is internally connected to power or ground so these connections must be provided externally as required When the system is running the contacts are internally connected together and when the system is not running the contacts are open circuited These contacts are often used for monitoring the PF2100 s status remotely An alarm siren trouble lamp or PLC are examples of devices that might use this contact THE STATUS CONTACTS ARE RATED FOR DC ONLY so it is important to observe the correct polarity when attaching a device The positive status contact terminal should always be at a voltage potential greater than or equal to the negative terminal Do not exceed the voltage and current ratings which are 40VDC 250mA The impedance when closed is15 There is a fuse on the status contact to protect it A spare fuse is also included DRY CONTACT INPUTS There are 6 dry contact inputs on the PF2100 The expected connection to each of these is a switch These contacts must all be closed shorted in order for the system to start Jumpers are provided for each of these by default If you need to use a particular contact for your app
18. Low Fire Valve will close and the system state will change to Pilot On This setting is hidden if Low Fire in menu 5 is set to Disabled This setting can be set to a maximum of 1 C below the High Temp ESD Setpoint or the Pilot Off Setpoint if it is enabled The minimum value is 1 C above the Process Setpoint Process Setpoint Menu 1 If the Process Temperature goes above this setting the Main Valve will close and the system state will change to Low Fire This setting can be set to a maximum of 1 C below the High Temp ESD Setpoint the Pilot Off Setpoint if enabled or 1 C below the Low Fire Setpoint if enabled The minimum value is the Low Temp Alarm or Deadband whichever is larger Low Temp Alarm Setpoint Menu 1 If the Process Temperature goes below this setting the Low Temp Alarm will be asserted and the status contact will open This setting can be set to a maximum of the Process Setpoint value The minimum value is 1 C Set to 0 C to disable the Low Temp Alarm Deadband Menu 1 The Deadband setting provides a temperature margin below the Process Setpoint For the main valve to open the temperature must be below Process Setpoint minus the Deadband setting The Deadband setting also provides a temperature margin below the Low Fire Setpoint when the Low Fire Enable setting is set to On At Low Fire Setpoint In this case the Low Fire valve will open when the Process Temperature is below the Low Fire Setpoint minus th
19. Menu It can also be read remotely via the Modbus Expansion Card if it is installed and enabled 3 Temp Main Ctl The Aux Temp signal is used as a secondary Process Control input This modifies the normal Process Control by adding the additional requirement that the signal be below the Aux Setpoint for the main valve s to open 4 Temp ESD The Aux Temp signal is used as an auxiliary ESD input In addition to the normal Process Control if the Aux Temp signal ever rises above the Aux Setpoint the system will shut down COMMISSIONING SETTINGS The date and location of commissioning can be stored in the PF2100 This information is optional and can be input by the customer directly These two settings can be viewed in menu 3 and edited in menu 4 Commission Date Menu 4 This is the date on which the PF2100 was commissioned Use the Up and Down keys to edit the date and OK to advance to the next date field Commission Location Menu 4 This is the location where the PF2100 was installed Use the Up and Down keys to edit each character and OK to advance to the next character DISPLAY SETTINGS There are two settings that affect the behavior of the display Display Sleep and Temperature Display Units Display Sleep Menu 4 When enabled the display will turn off to conserve power after 10 minutes of inactivity no user key presses Otherwise the display will always remain on Temperature Display Units Menu 4 The PF2100 always
20. anchoring refers to how much in contact the flame is with the pilot nozzle Poor flame anchoring causes poor flame detection Poor flame anchoring can be caused when there is too much gas pressure resulting in the flame burning primarily outside of the nozzle as opposed to along the inside and outside surfaces of the nozzle It can also be caused by wind or draft from the main burner USING EXTRA RODS TO IMPROVE FLAME DETECTION In some challenging installations such as non enclosed or high velocity burners adding one or two addi tional rods may be necessary A second flame detection rod can help in cases where the flame may blow away from the primary rod from time to time The addition of a ground rod positioned further away from the nozzle tip can assist with detecting flames that are not well anchored INTERNAL VS EXTERNAL COIL If less than 5m 15ft of ignition wire is required to connect the PF2100 to the burner housing the internal coil configuration can be used Otherwise the external coil configuration must be used The PF2100 system is available with an internal coil or an external coil can be purchased with or without a separate enclosure SINGLE ROD VS DUAL ROD A single Kanthal rod can be used for both ignition and flame detection to save cost if desired This often results in a performance trade off between ignition and flame detection This option is only available with external coils Using two Kanthal rods one for ignition
21. and after the user acknowledges a shutdown message It is the starting point for most user interaction with the menu system To return to the Home Screen from any point in the user interface the user can press and hold the OK key for three seconds On the Home Screen the Process Temperature is always shown on the bottom line of the display The top line differs depending on mode In Manual Mode the top line shows the system state In Auto Mode it shows the Process Setpoint instead The accessibility of other features from the Home Screen also differs depending on mode For example the System Menus and Review Menu are only accessible in Manual Mode whereas the Quick Setpoint Adjust feature is only available in Auto Mode For more information on which features are available in which modes refer to the Adjust Settings amp Review Status section AVAILABLE FEATURES WITHIN OPERATIONAL MODES MODE DISPLAY MENUS REVIEW SETPOINT ADJUST Manual System State Process Temperature Yes Yes No Auto Process Setpoint Process Temperature No No Yes SYSTEM STATE The System State is the Process Control State of the system It is shown on the display for a few sec onds before and after a state change In Manual Mode the top line of the Home Screen always shows the System State Go to the Process Control Settings section for a complete list of the Process Control States QUICK SETPOINT ADJUSTMENT The Quick Setpoint Adjust featu
22. and remains shut down If this contact is not needed it must be shorted out with the provided jumper or a wire PROOF OF CLOSURE INPUT When the PF2100 is started it drives the Main Valves to the closed position If for some reason the valves do not close a dangerous situation can result This condition might arise if a valve is mechanically damaged frozen open or has been wired incorrectly If undetected the PF2100 may attempt to light the burner while a dangerous amount of gas is present resulting in an explosion To prevent this the Proof of Closure Input Contact can be used to monitor the mechanical position of the Main Valves This feature re quires the use of valves that have a built in Proof of Closure output If more than one Main Valve is used the Proof of Closure outputs from each valve are wired together in series before being connected to the PF2100 s Proof of Closure input The Proof of Closure contact must be closed in order for the Purge Timer to count down If it is ever opened while the system is not running the Purge Timer is reset and must count down again before the system can be started In short the Proof of Closure contact must be closed for the entire duration of the Purge Time or the system will not start While running if the Proof of Closure contact ever opens when it is not expected to be open the system will shut down PoC CONTACT OPEN CLOSED SYSTEM STATE SHUTDOWN PILOT DELAY FLAME ALAR
23. current until the current meter reads 4 0mA 9 Press OK and the message Parameter Saved will show on the display briefly 10 Press the Menu Key repeatedly until Cal 4 20 Out Span is shown on the display 11 Use the Up and Down Keys to adjust the output current until the current meter reads 20 0mA 12 Press OK and the message Parameter Saved will show on the display briefly 13 Press and hold the OK key for 3 seconds until the message Password Logout is displayed on the screen The Calibration Menu is now hidden again CALIBRATING THE 4 20MA INPUTS For the 4 20mA Output the first calibration point is 4mA and the second calibration point is 20mA You will need a handheld process calibrator such as the Fluke 725 1 Make sure that the system is stopped 2 Make sure that the card is installed and enabled in menu 6 The LVL and PRS DIP switches must also be enabled on the 4 20 mA card 3 Press the UP and DOWN Keys 4 Press the Menu Key repeatedly until menu 7 is shown 5 Press OK If prompted enter the L2 Password 6 Connect the process calibrator s negative lead to the ground pin on the 4 20mA Input Card Calibrate the Level Zero 1 Press the Menu Key repeatedly until 4 20 Level Zero Calibration No is shown on the display 2 Use the Up or Down key to select Yes and begin the calibration process The display will now read Apply 4mA then press OK 3
24. in 50 steps until a Process Setpoint change results in overshoot of the Process Setpoint or until oscillation results 4 Increase the Proportional Band Setting until overshoot and oscillation no longer occur TUNE THE INTEGRAL SETTING 1 Set the Integral setting to 10min rst 2 Make a small change to the Process Setpoint and monitor the temperature change 3 Repeat decreasing the Integral in minute steps until a Process Setpoint change results in overshoot of the Process Setpoint or until oscillation results 4 Increase the Integral Setting until stable TUNE THE DERIVATIVE SETTING If there is noise on the thermocouple inputs using the Derivative Setting can dampen the effects of the Proportional and Integral Settings For this reason the Derivative Setting can usually be left set at zero unless a very fast response is needed If it is required follow this tuning procedure 1 Set the Derivative Setting to 10 minutes 2 Decrease the Derivative Setting until a small Process Setpoint change results in a fast response with some oscillation 3 Increase the Derivative Setting until the oscillation in response to a Process Setpoint change is dampened 8 APPENDIX B FIELD CALIBRATION It is possible to field calibrate the thermocouples the 4 20mA Output and the two 4 20mA Inputs on the 4 20mA Expansion Card In general it should not be necessary to do this in the field because the system has already been calib
25. keypad keys was stuck at System Startup The particular key stuck will be displayed in place of xxxx and will be one of the following DOWN IGN MAIN MODE OK PLT MENU STOP UP This may indicate a defective keypad This error must be resolved in order to continue using the system Level Input The Level Contact is open and Level Event Restart is set to Off This error can also be triggered by the 4 20 Input Card if the Level reading is below the 4 20 Level Low Setpoint and Level Event Restart is set to Off Verify proper settings and check for issues outside the system Low Pressure The Low Pressure Contact is open and Auto Restart is set to Off This error can also be triggered by the 4 20 Input Card if the Pressure reading is below the 4 20 Pressure Low Setpoint and Auto Restart is set to Off Verify proper settings and check for issues outside the system Low Voltage xx x Volts The system voltage remained below the Low Voltage Alarm point for 20s or more and Auto Restart is set to Off xx x is the voltage reading at the point in time when the shutdown occurred Verify proper settings and check for issues outside the system Master Power Error The Master Power switch to the powered valve outputs was in the wrong state Remove all valve wires and run the system If the problem resolves there is a wiring issue with the solenoids If the problem r
26. of Thermocouple Shutdowns 0 to 1000 N A Terminal Card Errors Term Errs Number of Terminal Card Shutdowns 0 to 1000 N A System Errors Sys Errs Number of System Errors Shutdowns 0 to 1000 N A View Event Log View Event Log Log of recent events Yes No No Clear History Clear History Clears all History and logged events Yes No No SYSTEM INFO MENU 3 This menu contains diagnostic information about the system MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING High Temp TC Reading Hi Temp TC Current High Temp Thermocouple reading 50 C to 1350 C N A Process Temp TC Reading Proc TC Current Process Thermocouple reading 50 C to 1350 C N A 4 20mA Output Percent 4 20 Output Current status of the 4 20mA Output 0 to 100 N A Ambient Temp Ambient Temp Current ambient temperature Used for thermocouple cold junction compensation 55 C to 65 C 70 F to 150 F N A Voltage Reading System Voltage Current voltage applied to the system 8V to 35V N A Commision Date Commission Date Date that the system was commissioned if entered by user DD MMM YYYY N A Location Location The install location of the system if entered by user N A N A Control State Control State Debug Information N A Hidden Terminal Card State Term Card Debug Information N A Hidden SYSTEM SETUP MENU 4 This menu contains various optional system settings It cannot
27. on it will normally be in Manual Mode If the Auto Restart feature is enabled and no alarm conditions are present it may switch automatically to Auto Mode after power up Otherwise the user must manually put the system into Auto Mode by using the Keypad the Start Con tact or the Modbus Expansion Card See the System Start Up section for more details The main difference between these two modes is that all settings can be adjusted in Manual Mode and a limited number of settings can be adjusted in Auto Mode The following table illustrates the differences in menu access ITEM MANUAL MODE AUTO MODE User Can View and Adjust Menu Settings Yes via Quick Setpoint Adjust User Can Access the Review Menu Yes No Process Control Can Be Running Yes Yes System will try to Relight the Burner if the Pilot is Turned Off Due to Normal Process Control Yes Yes System State Shown on the Home Screen Always During State Change System will Attempt to Relight the Burner if the Flame Goes Out Unexpectedly No Yes Process Setpoint can be Easily Adjusted via the Quick Setpoint Adjust feature No Yes The System can be Controlled Manually via the Pilot Ignite and Main keys Yes No Manual Indicator Light On Yes No Auto Indicator Light On No Yes Menus 1 3 only when process control is running all menus when stopped HOME SCREEN The Home Screen is shown on the display after power up after waking the display from sleep
28. operates in Celsius This includes storage of temperature setpoints thermocouple measurements temperature calculations and modbus communications This setting only affects the temperature units on the display This may lead to small rounding errors when operating in Fahrenheit PASSWORD SETTING There are two levels of password protection Menus 1 3 and the Quick Setpoint Adjust feature may be optionally protected by the Level 1 Password Menus 4 7 are always protected by the Level 2 Password These passwords cannot be modified Level 1 Password Level 2 Password For convenience once a password has been entered it unlocks all menus that it protects for a period of time Therefore it does not need to be re entered when returning to the menu later The menus will remain unlocked for 10 minutes or until the user manually locks the menus again To lock the menus manually press and hold the OK button for 3 or more seconds The display will briefly show Password Logout to indicate that the menus are locked again Password Enable Menu 4 When enabled the Level 1 or Level 2 Password must be entered to access menus 1 3 and the Quick Setpoint Adjust feature PID CONTROLLER A PID Controller is a type of feedback control algorithm commonly used in industrial control applications The purpose of the controller is to maintain a process variable as close as possible to a user defined setpoint This is accomplished by continuously measuring th
29. standard process control diagram until the demand for heat drops 1 The Process Temperature continues to rise 2 The Process Temperature exceeds the High Fire Setpoint the High Fire Valve closes and the Process Temperature continues to rise 3 The Process Temperature exceeds the Low Fire Setpoint the Low Fire Valve closes and the Process Temperature drops 4 The Process Temperature drops below the Low Fire Setpoint minus Deadband the Low Fire Valve opens and the Process Temperature begins to rise again PILOT OFF This scenario is the same as the basic scenario except that the Pilot Off feature has now been enabled In this case when the Proc Temp rises above the Pilot Off Setpoint the Pilot Valve will close and will not re light until the temperature is below the Process Setpoint minus Deadband The system behaves the same as in the standard process control diagram with the added ability to shut off the pilot as needed 1 The temperature exceeds the Proc Setpoint and the Main Valve closes 2 The temperature continues to rise and the Proc Temp exceeds the Pilot Off Setpoint the Pilot Valve closes and the Proc Temp begins to decrease 3 The Proc Temp drops below the Process Setpoint minus Deadband the pilot relights and the Proc Temp begins to increase again 4 The Pilot to Main Delay elapses the Main Valve opens and the Proc Temp begins to increase faster HIGH TEMP ESD The High Temp ESD S
30. the Pilot Off Setpoint if enabled These Process Setpoints can be adjusted directly from the Home Screen using the Up and Down Keys The adjustments are limited by the maximum ranges of the Process Setpoints Any changes made take effect immediately This feature is protected by the L1 Password when password protection is enabled in Menu 4 Review Menu manual mode only The Review Menu is a diagnostic menu used to check key setpoints and view real time system measurements such as temperature pressure and level To access it press the Up or Down Key while on the Home Screen System Menus Menus 1 4 5 and 6 are used for checking and adjusting settings Menus 2 and 3 show diagnostic values Menu 7 is used for calibration and is hidden by default The System Menus are accessed by pressing the Menu Key from the Home Screen while in Manual Mode Some menus are not accessible while the system is running Menu 3 contains some system status information not found elsewhere in the menu system Refer to the Menu Map table for more details When the system is stopped all settings can be checked and adjusted When the system is running only some settings may be checked or adjusted The following table illustrates the circumstances under which various settings can be checked and adjusted For more information about the menu system and the user interface see the Menu Map section MODE HOME SCREEN QUICK SETPOINT CHANGE AVAILABLE REVIEW MENU AV
31. thermo couples are paired cor rectly and not reversed it is possible that one of the thermocouples is faulty and will need to be replaced The system is likely out of calibration Recali brate the HighTemp_TC and Process_TC If the calibration did not resolve the problem it is possible that one of the circuit boards will need to be replaced One of the circuit boards may be faulty There is likely a problem with the thermocou ple or the wiring Verify that there is con tinuity between the red and yellow wires for each thermocouple 7 APPENDIX A PID TUNING PROCEDURE The PF2100 s default PID settings should result in good temperature control in most common heater applications If the temperature control is unstable or if faster control response is needed the following procedure can be followed to adjust the PID settings This procedure is not a comprehensive method for adjusting PID Controllers but provides some general guidelines This procedure is iterative and therefore may require a significant amount of time to follow TUNE THE PROPORTIONAL BAND SETTING 1 Start with the Proportional Band Setting set to a large value such as 500 and with the Integral and Derivative settings set to their default values 4 0min rst and 0 0min respectively 2 Make a small step change such as 5 to the Process Setpoint and monitor the resulting temperature change 3 Repeat decreasing the Proportional Band Setting
32. xxx The Door Card and Terminal Card do not agree on the state of the Start Contact xxx will be either ON or OFF Remove ESD wires and jumper the terminals if the problem is resolved check the wiring If the problem remains the boards or ribbon cable may need to be replaced Control Error The Internal Control State is not valid One of the boards will likely need to be replaced DC MSP430 No Communications The TC430 Temperature chip on the Door Card is not responding Faulty Door Card ON SCREEN DESCRIPTION POSSIBLE SOLUTIONS EEPROM Error The EEPROM settings are corrupted Faulty Door Card ESD Input The ESD Input was open while the system was running or attempting to start Check wiring Expansion Card Error 4 20 Exp Card 4 20 Level Low The 4 20mA Level Input was below the Level Low Setpoint while the system was running with the Level Event Restart feature disabled Verify proper settings and check for issues outside the system Expansion Card Error 4 20 Exp Card 4 20 Level Open The 4 20mA Level Input is open reading below 3 75mA Check wiring Expansion Card Error 4 20 Exp Card 4 20 PRS High The 4 20mA Pressure Input was above the Pressure High Setpoint while the system was running with the Main Valve open Verify proper settings and check for issues outside the system Expansion Card Error 4 20 Exp Card 4 20 PRS Low The 4 20mA Pressure Input was belo
33. you begin installation identify which sys tem the BMS will be used to control In addition to this document Profire has an Installation Guide and several installation specific Whitepapers available describing common scenarios These can be found at www profireenergy com The steps provided here are general and can help you to identify questions that need to be answered to complete the installation process If you are new to the PF2100 you should read this whole section and follow the instructions closely Steps 1 Review all installation warnings 2 Install the system 3 Connect the required wiring including Power Valves Thermocouples and Ignition Coil Flame Detection wiring 4 Connect any additional wiring as required for your specific application Commonly used lines include the Status Contact Dry Contact Inputs 4 20mA Temperature Output and Expansion Cards To know which options are required you should consult the engineer or technician who designed the site You should also be familiar with the local electrical and gas code for the site 2 1 Installation Warnings Before installing the PF2100 please review the following list of warnings Failure to consider these warn ings may result in death electrocution property damage product damage and or government fines 1 The PF2100 is not intended for use on burners greater than 12 5 MMBtuh It is against code in many locations 2 To use the PF2100 on burners g
34. 0 sec Hidden 30 sec Pilot Off Enable Pilot Off Enables Pilot Off feature and setpoint Disabled Enabled Enabled Aux Temp Mode AUX Temp Mode Configures how the Auxiliary Thermocouple is used Disabled Display Only Temp Main Ctl Temp ESD Disabled 4 20 Output Mode 4 20 Out Mode Configures 4 20 Output mode Valve Control 1 Valve Control 2 Temp Output Valve Control 1 4 20 Low Fire Setting 4 20 Out Lo Fire Setting Sets the minimum output for the 4 20mA Output when used for Valve Control 0 to 70 40 4 20 Gain Setting 4 20 Out Cntrl Gain Sets the adjustment speed of the control loop for the 4 20mA Output when used for Valve Control 0 1 to 1 s 0 5 s EXPANSION CARDS MENU 6 This menu contains settings relating to expansion cards MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING 4 20 Input Card Enable 4 20 Input Card Enabled Enable the 4 20mA Expansion Card and setpoints No Yes No 4 20 Level Units 4 20 LVL Units Adjusts the display units for the 4 20mA Level Input m3 BBL GAL L Hidden m3 4 20 Level Range 4 20 LVL Range Adjusts Max Level of the tank 0 10000 Hidden 120m3 4 20 Level Zero Offset 4 20 LVL Zero Offset Adjusts the level reading corresponding to a 4mA input 0 to Low Setpoint Hidden 0 4 20 Level Low Setpoint 4 20 LVL Low Setpnt Adjusts 4 20 Low Level trip point 0 Max Volume Hidden 60m3 4 20 Level High
35. 20 LVL Factors 4 20 LVL Factors Z x S y 4 20mA Level zero point and span point calibration factors for Debug N A N A 3 5 8 Clear Cal Clear All Cal Capital Data Restore all calibration factors to 0 Yes No No 3 5 8 9 APPENDIX C RESETTING TO DEFAULTS The system settings can all be reset to factory defaults by following these instructions 1 Make sure that the system is stopped 2 Navigate to the Reset to Factory Defaults menu item at the bottom of Menu 4 3 Use the Arrow keys to change the setting to Yes and then press the OK key 4 The system will display Parameter Saved and will then reboot 5 After rebooting the system will display the message CONFIGURATION RESET TO DEFAULT alternating with Check Settings and Setpoints 6 Press the OK key to acknowledge this warning This process only resets the user settings back to factory defaults and does not affect the calibration settings To reset the calibration settings to defaults refer to the Field Calibration section Note that older versions of firmware did reset both the user settings and the calibration settings to de faults Also note that all settings are stored on the Door Card If the Door Card is replaced for any reason the settings will need to be re entered and calibration may need to be performed FOR ANY QUESTIONS PLEASE VISIT OR CALL US www profireenergy com 1 855 PRO FIRE www profireenergy com
36. 24VDC Coil Coil Ion Ion High Fire Main Low Fire Low Fire Pilot Pilot 1 2 3 6 5 4 XXXXXX XXXXX XXX 2 3 0 XXXXXX SPARE FUSE RESET E v1 8 005 INTERNAL COIL IGNITION TERMINALS STATUS CONTACT OUTPUT HW SERIAL VERSION LABEL EXPANSION CARD SLOT FLAME DETECTION TERMINAL STATUS CONTACT FUSE LEVEL DRY CONTACT INPUT PRESSURE DRY CONTACT INPUTS MISC DRY CONTACT INPUTS 4 20mA OUTPUT FW VERSION LABEL THERMOCOUPLE INPUTS MAIN FUSE SPARE MAIN FUSE SPARE STATUS CONTACT FUSE DOOR CARD CONNECTOR POWER TERMINALS optional expansion VALVE OUTPUTS 2 4 Wiring The wiring in this section is required for all PF2100 installations Skipping or performing any steps in this section incorrectly will likely result in the PF2100 not functioning properly POWER The PF2100 can be powered from 12VDC or 24VDC The maximum current that the PF2100 can safely handle without blowing the main fuse is 5A The system on its own draws about 100mA The rest of the current is used by additional hardware such as valves Make sure that you select a power supply that is rated appropriately for the total amount of current that will be consumed by all devices attached to it VALVES There are four valve control outputs on the PF2100 Pilot Low Fire 4 20mA Output and High Fire Main Ensure that each valve has a separate return wire Multiple valves sharing common return wir
37. ADY PURGE IGNITE FLAME MAIN PILOT DELAY TIMER 2s 0s 4 20 PRESSURE 20mA 4mA 4 20 PRESSURE INPUT 2 3 1 EVENT PRESSURE LOW SP PRESSURE HIGH SP CHART 3 EVENTS 1 System started by user with pressure above high setpoint due to a slow leak in the regulator Pressure begins to drop slowly through pilot valve 2 Main valve opens and pressure begins to drop faster through main valves 3 The pressure drops below the high setpoint within 2s of the main valves opening and the system continues running Chart 4 Auto Restart Enabled TIMER MAX 0s 4 20 PRESSURE 20mA 4mA 4 20 PRESSURE INPUT SYSTEM STATE RUNNING RUNNING WAITING ON PRESSURE 3 6 5 2 1 4 EVENT PRESSURE LOW SP PRESSURE HIGH SP CHART 4 EVENTS 1 System already running with pressure between High and Low setpoints 2 Hand valve on fuel train closed Pressure begins to drop 3 Pressure falls below the low set point Delay timer starts counting down max valve depends on the Level Pressure Delay setting 4 Delay timer expires and burner turns off System state is now Waiting on Pressure 5 Hand valve is opened and pressure increases quickly 6 Pressure rises above low setpoint and system begins running again Chart 5 Level Event Restart Disabled TIMER MAX 0s SHUTDOWN RUNNING 4 20 PRESSURE 20mA 4mA 4 20 PRESSURE INPUT SYSTEM STATE 3 6 5 2 1
38. AILABLE SYSTEM MENUS AVAILABLE Manual Mode System Stopped System State Process Temperature No Yes 1 6 and sometimes 7 Manual Mode System Running System State Process Temperature No Yes 1 3 Auto Mode System Running Process Setpoint Process Temperature Yes No None DIAGNOSTIC OPTIONS Viewing Event Counters Menu 2 contains a series of counters that increment automatically in response to various events These counters can be used to troubleshoot issues with a particular installation Each counter will count to a maximum of 1000 and then will stop incrementing At the bottom of Menu 2 is an option to clear these counters Clearing the counters also clears the event log 1 ESDs Increments each time the system shuts down as a result of the ESD Contact opening the High Temp ESD Setpoint being exceeded by either Process Temp or Aux Temp if enabled or a high or low voltage alarm 2 Flame Fails Increments each time the system shuts down as a result of failing to ignite the pilot within the allocated number of retries 3 High Pressure ESDs Increments each time the system shuts down as a result of the High Pressure Contact opening or the 4 20 Pressure reading exceeding the 4 20 High Pressure Setpoint 4 Level ESDs Increments each time the system shuts down as a result of the Level Contact opening or the 4 20 Level reading dropping below the 4 20 Low Level Setpoint 5 Low Pressure ESDs Increme
39. ATUS CONTACT SETTINGS The Status Contact will always open if the system is shut down due to an alarm condition There are two settings that affect the behavior of the Status Contact Alarm Mode and Low Temp Alarm Setpoint Alarm Mode Menu 4 The Alarm Mode is used to select whether the Status Contact will open when the unit is stopped remotely via the Start Contact It can be set to 1 Alarm When Off The Status Contact opens when the unit is stopped turned off remotely via the Start Contact 2 No Alarm When Off The Status Contact remains closed when the unit is stopped turned off remotely via the Start Contact Low Temp Alarm Setpoint Menu 1 When enabled the Status Contact will remain open until the Process Temperature exceeds this setpoint See the Process Setpoints section for more detail AUXILIARY TEMPERATURE SETTINGS There are two settings that affect the way that the Auxiliary Temperature signal is used by the system Process Control and Aux Temp Mode Process Control Menu 5 This setting is used to select the thermocouple input that is associated with the Auxiliary Temperature signal See the Process Control Settings section for more details AUX Temp Mode Menu 5 Aux Temp mode can be set to any of the following 1 Disabled The Aux Temp signal is ignored by the system 2 Display Only The Aux Temp signal is only used for display purposes It can be read on the PF2100 display in manual mode via the Review
40. EMAND 1 2 3 4 50 DEAD BAND DEAD BAND TEMP EXCEEDS LOW FIRE SETPOINT PROCESS TEMPERATURE STANDARD PROCESS CONTROL LOW FIRE SETPOINT ENABLED CONTROL TEMP DROPS BELOW LOW FIRE SETPOINT MINUS DEADBAND 122 TIME C F LOW FIRE SETPOINT HIGH FIRE SETPOINT DROPPED HEAT DEMAND 4 3 2 1 50 DEAD BAND PILOT VALVE CLOSES PILOT RELIGHTS MAIN BURNER RELIGHTS PROCESS TEMPERATURE 122 TIME C F 1 3 4 PROCESS SETPOINT HIGH TEMP ESD SETPOINT PILOT OFF SETPOINT 2 50 DEAD BAND SYSTEM SHUTS DOWN PROCESS TEMPERATURE STANDARD PROCESS CONTROL HIGH TEMPERATURE ESD ENABLED 122 TIME C F EXTREME DROP IN HEAT DEMAND 1 2 3 PROCESS SETPOINT HIGH TEMP ESD SETPOINT ENTRY DESCRIPTION ASSOCIATED COUNTER LO PRS ESD The system shut down because the Low Pressure Contact was opened or the 4 20mA Low Pressure Setpoint was dropped below Low Pressure ESDs LO VOLT The system input voltage dropped below the Low Voltage Alarm threshold ESDs LOW ALARM The Proc Temp signal dropped below the Low Temp Alarm Setpoint MANUAL The system switched to Manual Mode because the user pressed the MODE button MENU CTL Menu 5 Control was entered This will show even if no settings are modified MENU SETPT Menu 1 Setpoints was entered This will show even if no settings are modified MENU SYS Me
41. ESSURE 1 2 3 CHART 3 EVENTS 1 System started by user with High Pressure Contact open 2 Main Valve opens and timer starts counting down 2s 3 High Pressure Contact closes within 2s of the main valves opening and the system continues to run 5 EXPANSION CARDS 5 1 4 20mA Expansion Card An optional 4 20mA Expansion Card can be installed in the PF2100 which provides two 4 20mA inputs as well as a pair of complementary dry contact outputs 4 20MA FUEL TRAIN PRESSURE MEASUREMENT This card can be used as an alternative to the High and Low Pressure Contacts which are built into the PF2100 This input can be wired to a 4 20mA Pressure Transmitter to obtain an actual reading of the fuel train pressure The transmitter range and units can be set along with low and high pressure thresholds The reading can be displayed on the PF2100 display or read remotely via Modbus if the optional Modbus Expansion Card is also installed 4 20MA TANK LEVEL MEASUREMENT This can be used as an alternative to the Level Contact which is built into the PF2100 This input can be wired to a 4 20mA Level Transmitter to obtain an actual reading of the tank level The transmitter range and units can be set along with low and high level thresholds The reading can be displayed on the PF2100 display or read remotely via Modbus if the optional Modbus Expansion Card is also installed TANK HIGH LEVEL DRY CONTACTS Both Normally Open NO and Normally Closed
42. M READY PURGING IGNITE EVENT PROOF OF CLOSURE 5 2 PURGE TIME MAX 0s 3 1 4 CHART EVENTS 1 The system begins in the Alarm State because the Proof of Closure PoC Contact is open while it is not running 2 Proof of Closure closes purge time begins counting down system does not start running automatically 3 User starts system in Auto Mode System counts down the remaining purge time on the display 4 Purge Time Elapses system ignites pilot detects flame and begins counting down the Pilot to Main delay 5 Proof of Closure opens before Main Valves turn on the system shuts down due to the incorrect valve state If this contact is not needed it must be shorted out with the provided jumper or a wire LEVEL INPUT The Level Input is generally used in tank heater applications A level switch is installed in the tank to de termine when the tank fluid level drops below to position of the fire tube This switch is then connected to the Level Input Contact on the PF2100 If the fluid level drops below the switch position the switch opens and the PF2100 will stop heating the tank This is to prevent damage to the tank and fire tube which may result from applying heat to the empty tank Generally this situation arises when a tanker truck arrives on site and empties the tank into the truck The system can be setup to begin heating the tank again automatically after the level of fluid rises back above the switch posi
43. PF2100 USER MANUAL TABLE OF CONTENTS PF2100 MANUAL V2 3 1 INTRODUCTION 1 1 Important Safety Information 1 2 HW amp FW Versioning 1 3 Approvals 1 4 Available Models 1 5 Included Components 1 6 Common Applications amp Optional Hardware 1 7 System Diagram 1 8 Terminal Card Descriptions 2 INSTALLATION 2 1 Installation Warnings 2 2 Mounting Considerations 2 3 Terminal Card Diagram 2 4 Wiring 3 USER INTERFACE amp SETTINGS 3 1 User Interface 3 2 Menu Navigation 3 3 Menu Map 3 4 Initial System Settings 3 5 Process Control Behavior Examples 3 6 Optional Settings 3 7 System Operation 4 SYSTEM BEHAVIOR 4 1 System Behavior 4 2 Contact Behavior 5 EXPANSION CARDS 5 1 4 20mA Expansion Cards 5 2 Modbus Expansion Cards 6 TROUBLESHOOTING 6 1 Common Issues amp Solutions 6 2 Shutdown Messages 6 3 Alarm Codes 6 4 Warning Messages 6 5 Flame Detection Troubleshooting Guide 6 6 Thermocouple Troubleshooting Guide 7 APPENDIX A PID TUNING PROCEDURE 8 APPENDIX B FIELD CALIBRATION 9 APPENDIX C RESETTING TO DEFAULTS 1 INTRODUCTION The PF2100 BMS Burner Management System is an electronic control and monitoring system designed for use on a wide array of natural draft burner industrial applications It provides electronic pilot ignition flame detection temperature control and remote monitoring In addition to being an extremely useful tool it improves safety by p
44. Setpoint 4 20 LVL High Setpnt Adjusts 4 20 High Level trip point 0 Max Volume Hidden 117m3 4 20 Pressure Units 4 20 PRS Units Adjusts the display units for the 4 20mA Pressure Input PSI kPa inWC cmWC ksc Hidden PSI 4 20 Pressure Range 4 20 PRS Range Adjusts Max pressure of the fuel train 0 2000 Hidden 30 0 PSI 4 20 Pressure Low Setpoint 4 20 PRS Low Setpnt Adjusts 4 20 Low Pressure trip point 0 High Setpoint Hidden 3 0 PSI 4 20 Pressure High Setpoint 4 20 PRS High Setpnt Adjusts 4 20 High Pressure trip point Low setpoint Max Pressure Hidden 25 0 PSI MODBUS Enable Address Modbus Card Enable control and address for the Modbus Expansion Card Disabled 1 128 Disabled 4 20 Card FW Version 4 20 FW Display Expansion Card FW Version N A N A MODBUS Card FW Version MBUS FW Display Expansion Card FW Version N A N A REVIEW MENU This read only menu allows various commonly needed system settings and status parameters to be reviewed while the system is running MENU MAP ON SCREEN BRIEF DESCRIPTION ESD Setpoint ESD Setpnt Temp at which system will shutdown Process Setpoint ProcSetpnt Temp at which High Fire Main Valve will turn off Low Fire Setpoint LF Setpnt Temp at which Low Fire Valve will turn off if Low Fire is enabled Pilot Off Setpoint Pilot off Temp at which Pilot Valve will turn off if Pilot is enabled 4 20 High Level Setpoint HLV Leve
45. Verify proper settings and check for issues outside the system HT_TC The High Temp Thermocouple is open or otherwise wired incorrectly Check wiring LoVolt The system voltage is below the Low Voltage Alarm point Verify proper settings and check for issues outside the system LowPrs The Low Pressure Contact is Open or the 4 20mA Expansion Card s Pressure Input is reading a value below the 4 20 Pressure Low Setpoint In either case Auto Restart is set to Off Verify proper settings and check wiring Lvl_Inp The Low Level Contact is Open or the 4 20mA Expansion Card s Level Input is reading a value below the 4 20 Level Low Setpoint In either case Level Event Restart is set to Off Verify proper settings and check wiring MbusErr The Modbus Card is not responding This may indicate that it is not installed correctly or that it is enabled when not present at all ProcTC The Process Thermocouple is open or otherwise wired incorrectly Check wiring RemShut Modbus Shutdown Command Received Check the data being sent through the Modbus connection Sys_Err System Error The Terminal Card is not communicating with the Door Card This may indicate a faulty ribbon cable or incompatible firmware TC_MM The High Temp and Process Thermocouples are reading temperatures that are too far apart This may indicate a failed thermocouple improper wiring or a damaged Door or Termina
46. ack is used to determine how much the valve should be open at any given point in time More details can be found in the PID Controller section The Valve Controls use a traditional safety solenoid valve connected to the PF2100 s Main Valve output The Low Fire setting must also be enabled by setting it to On at Proc Setpoint 1 Process Temperature In this mode the 4 20mA Output will encode the Proc Temp signal as a 4 20mA signal Note that the Proc Temp may correspond to either the Process Thermocouple or the AUX Thermocouple input depending on the Process Control setting The signal is scaled such that 4mA 0C and 20mA the High Temp ESD Setpoint 2 Valve Control 1 When the PF2100 enters Low Fire the proportional valve begins fully closed and linearly ramps so that it reaches the 4 20 Low Fire setting just as the Low to High Fire Delay elapses Once High Fire begins the PID Controller adjusts the valve accordingly 3 Valve Control 2 When the PF2100 starts the proportional valve idles at the 4 20 Low Fire setting Once High Fire begins the PID Controller adjusts the valve accordingly 4 20 Low Fire Setting Menu 5 This setting is only available when the 4 20 Output Mode is set to Valve Control 1 or Valve Control 2 It specifies the minimum value that the proportional valve will ever be open This is the starting position of the main valve each time it is turned on It can be set to any value from 0 to 70 ALARM ST
47. alibrator User Stop The user pressed the Stop key on the keypad 6 3 Alarm Codes The following is a list of alarm codes that may show on the Alarm screen of the PF2100 display These codes indicate a persistent problem that must be cleared before the system can be restarted Use the table below to determine the meaning of these codes ON SCREEN DESCRIPTION POSSIBLE SOLUTIONS 4 20Lvl The 4 20 Input Card s Level Input is reading a value below the 4 20 Level Low Setpoint and Level Event Restart is set to Off Verify proper settings and check for issues outside the system 4 20Prs The 4 20 Input Card s Pressure Input is reading a value below the 4 20 Pressure Low Setpoint and Auto Restart is set to Off Verify proper settings and check for issues outside the system AuxTC The system is in a mode that requires the Aux Thermocouple and the Aux Thermocouple is open or otherwise wired incorrectly Check wiring DC_TC The TC430 temperature sensor on the Door Card is not responding ESD_Inp The ESD Contact is Open Check wiring FlmTest There is a problem with the Flame Detection wiring or circuitry Check wiring PoC_Inp The Proof of Closure contact is open Check wiring HiVolt The system voltage is above the High Voltage Alarm point Verify proper settings and check for issues outside the system HT_ESD The Process Temperature is above the High Temp ESD Setpoint
48. ame just not enough The DC voltage should drop to 5VDC or lower 8VDC is better for stable flame detection Adjust the flame rod positioning to try to de crease the voltage while the flame is present The problem could be related to flame anchoring To verify this place a grounded rod in the flame Did placing the grounded rod in the flame improve the DC voltage reading Recheck the orifice size and increase the pilot pressure Try replacing the pilot nozzle Set the system up to use separate rods for flame detection and ignition 6 6 Thermocouple Troubleshooting Guide Problem with Thermocouples Make sure that both the High Temp and Pro cess thermocouples are connected Is the system reading Process TC ProcTC HH thermo couple or ProcHTC Yes No Likely TC s not equal or TC mismatch Set a Multimeter to read millivolts DC mVDC and measure across High Temp_TC and HighTemp_TC Also measure across Process_TC Are the voltages measured across the two thermocouples within 0 1 mVDC Check the thermocouple wir ing and make sure that the thermocouples are paired correctly not reversed The thermocouple indication by the system may be faulty Install a jumper across Pro cess_TC and Process_TC Did the error clear The system is likely reading correctly Set the meter to read conti nuity and check that the thermocouples are paired correctly and not reversed If the
49. ances If you can t update your firmware immediately repositioning the flame rod so that it is more fully immersed in the flame can lessen the occurrence of this issue Status Contact Remains Closed Even When The System is Stopped The status contacts are polarity sensitive Try reversing the Status and Status wires Status Contact Never Closes The current or voltage ratings on the status contact may have been exceeded Verify that you are not exceeding these ratings If the ratings were exceeded check the terminal Card HW version to determine the appropriate solution v1 6 Replace the Terminal Card v1 7 Replace the Status Contact Fuse on the Terminal Card THERMOCOUPLES Thermocouple Readings are Bouncing 1 Verify that the Valve PWM Settings are correct for the valves being used Using incorrect settings for a valve can result in more noise than necessary The lowest noise will result when the PWM setting is set to 20 for low power valves and 100 for regular valves 2 Verify that proper system grounding is in place Especially check that all solenoids are connected to earth ground Thermocouple Readings are Incorrect 1 Check if the thermocouple wiring polarity is reversed Yellow should be connected to positive and red to negative 2 Check that no thermocouple pairs are crossed ie positive from one TC paired with negative from another TC 3 Make sure that only Type k thermocouple wire and connector
50. and one for flame detection allows for greater flexibility in rod placement and often yields better performance 3 USER INTERFACE amp SETTINGS The user interface has keys indicator lights and a display screen for the software interface including things such as menus and status screens 3 1 User Interface The physical interface consists of three parts 1 An illuminated display 2 Indicator lights 3 A keypad DISPLAY The screen on the PF2100 displays two lines of text which are used to show system status warnings alarms prompts and menus It is illuminated for ease of reading in both bright sunlight and darkness When the system first powers on the display will show the system name and firmware version for a few seconds after this it will show the Home Screen KEYPAD DIAGRAM FLAME DISPLAY UP KEY MODE KEY PILOT LIGHT IGNITE LIGHT DOWN KEY AUTO LIGHT MANUAL LIGHT MAIN LIGHT MAIN KEY OK KEY FLAME LIGHT STOP KEY IGNITE KEY MENU KEY PILOT KEY INDICATOR LIGHTS Flame Light Indicates that the system is detecting the pilot flame Auto Light Indicates that the system is running in auto mode Manual Light Indicates that the system is running in manual mode Pilot Light Indicates that the pilot valve is open Ignite Light Indicates that the system is sparking to ignite the pilot Main Light Indicates that he main valve is open KEYS Stop Key Used to stop t
51. aneously to unlock the Calibration Menu menu 7 which is normally hidden 3 Press the Menu Key repeatedly until menu 7 is shown 4 Press OK If prompted enter the L2 Password 5 Press the Menu Key repeatedly until Cal Data is shown on the display 6 Use the Up or Down keys to select Yes 7 Press OK and the message Parameter Saved will show on the display briefly 8 Press and hold the OK key for 3 seconds until the message Password Logout is displayed on the screen The Calibration Menu is now hidden again CALIBRATION MENU 7 This menu is used to adjust the calibration of thermocouples 4 20mA Output and 4 20mA Expansion Card inputs This menu is hidden by default MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING SECTION Cal Process TC Zero Cal Proc TC Zero Calibrate Process Thermocouple zero point by shorting the Input N A N A Cal High Temp TC Zero Cal HiTemp TC Zero Calibrate High Temp Thermocouple zero point by shorting the Input N A N A Cal Aux TC Zero Cal AUX TC Zero Calibrate Aux Thermocouple zero point by shorting the Input N A N A Cal Process TC Span Cal Proc TC Span xxC Calibrate Process Thermocouple span point by applying a calibrated reference then adjust the on screen value N A N A Cal High Temp TC Span Cal HiTemp TC Span xxC Calibrate High Temp Thermocouple span point by applying a calibrated reference then adjust
52. be accessed while the PF2100 is running MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING Auto Restart Auto Restart Enables system to restart from a power failure low pressure or high voltage event On Off Off Purge Time Purge Time Adjusts the time from all valves closed to Pilot relight attempts 10 900 sec 30 sec Pilot to Main Delay Pilot to Main Delay Adjusts the time from Pilot proven to Main Valve opening 5 600 sec 15 sec Restart Attempts Restart Attempts Adjusts the number of Restart Attempts after an unexpected flame failure before a shutdown 0 3 3 Level Event Restart Level Event Restart Enables recovery from a Low Level event On Off Off Pressure Level Delay PRS LVL Delay Pressure and Level shutdown delay On Off Off Alarm Mode Alarm Mode Adjusts the behaviour of Status Contact relative to Start Contact Alm when Off No Alm When Off No Alm when Off Password Enable Password Enable Password Protection Menu 1 3 On Off Off Display Sleep Display Sleep Enable Sleep Mode for the Display Never After 10 Min Never Pilot Valve Power Setting Pilot Solenoid PWM Adjusts the Pilot Valve PWM duty cycle Off 80 60 40 20 60 Main Valve Power Setting Main Solenoid PWM Adjusts the Main Valve PWM duty cycle Off 80 60 40 20 60 System Voltage Setting System Voltage Configures the expected input voltage
53. ce automatically In Auto Mode the PF2100 will automatically attempt to relight the pilot if it ever goes out unexpectedly AUTO MODE START FLAME DETECTED SHUTDOWN ERROR FLAME DETECT FLAME DETECT FLAME DETECT PROCESS CONTROL STARTS The Process Control sequence will be explained in more detail later STARTING IN MANUAL MODE When the system is started in Manual Mode using the Pilot Ignite and Main Keys it must be manually moved through the ignition sequence In Manual Mode the PF2100 will NOT automatically attempt to relight the pilot if it ever goes out unexpectedly It will only attempt to relight the pilot if it was turned off by the system as a result of normal process control ie Waiting on Temp Waiting for Level etc PRESS AND HOLD RELEASE FLAME DETECTED SHUTDOWN ERROR FLAME DETECT PROCESS CONTROL STARTS The Process Control sequence will be explained in more detail later PROCESS CONTROL The PF2100 maintains a process at a user specified temperature The system monitors the temperature and adjusts to increase or decrease the temperature as needed This is an automated sequence of events based on user settings This process of monitoring and controlling is called Process Control The system uses a gas fired heater with an electronic ignition circuit and several electronic fuel valves also called solenoids It also has a flame detection circuit and up to three temperature measuring the
54. ck for issues outside the system Aux Thermocouple Error The Auxiliary Thermocouple is open Check wiring Comparison Setpoints One of the Setpoints in the Door Card does not match the corresponding value in the Terminal Card Reset system to factory defaults Comparison C_byte x y The Door Card s internal control byte x did not match the Terminal Card s internal status byte y Remove solenoid wires if the problem is resolved check the solenoid wiring If the problem remains the same the boards or ribbon cable may need to be replaced Comparison ESD DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the ESD Contact xxx will be either ON or OFF Remove ESD wires and jumper the terminals if the problem is resolved check the wiring If the problem remains the boards or ribbon cable may need to be replaced Comparison LVL DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the Level Contact xxx will be either ON or OFF Remove ESD wires and jumper the terminals if the problem is resolved check the wiring If the problem remains the boards or ribbon cable may need to be replaced Comparison MAN DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the Main Valve Output xxx will be either ON or OFF Remove solenoid wires if the problem is resolved check the solenoid wir
55. d This signal is called the Auxiliary Temperature or Aux Temp Note that these two signals are not necessarily the same as Proc TC and Aux TC which are the names of the physical thermocouple inputs on the Terminal Card The Aux Temp signal is only compared to the Aux Setpoint if enabled There are four settings that directly affect Process Control Process Control Input Low Fire Enable Pilot Off Enable and Aux Temp Mode Note that changing any of these settings may cause the Process setpoints High Temp ESD Pilot Off Low Fire Process Low Temp Alarm Deadband and Aux to reset to factory defaults A warning message will display if this occurs Process Control Input Menu 5 This setting selects which thermocouple inputs will be used as the primary and auxiliary temperature control signals as shown in the following table SETTING PROC TEMP AUX TEMP Proc TC Proc TC Aux TC Aux TC Aux TC Proc TC In previous firmware versions this could also be set to Disabled In this case Process Control was disabled and the system allowed the burner to always be lit and running The typical use for this was to have an external device such as a PLC controlling the process The PLC would turn the system on and off using the Start contacts This behaviour can still be achieved by setting all Process Setpoints to maximum Low Fire Enable Menu 5 This setting is used to toggle the use of the Low Fire Setpoint for Primary Process Control Low
56. e Deadband setting and will close when it is above the Low Fire Setpoint The Deadband setting also provides a temperature margin below the Aux Setpoint when the Aux Temp Mode setting is set to Temp Main Ctl In this case the main valve s will open when the Auxuliary Temperature is below the Aux Setpoint minus the Deadband setting and will close when it is above the Aux Setpoint This setting can be set to a maximum of 150 C or the Process Setpoint whichever is lower The minimum value is 1 C AUX Setpoint Menu 1 This setpoint is enabled only if Aux Temp Mode in menu 5 is set to Temp Main Ctl or Temp ESD In the first case if the Auxiliary Temperature goes above the Aux Setpoint the main valve s will close The pilot will remain on until the Process Temp exceeds the Pilot Off Setpoint if Pilot Off is enabled In the second case the system will shut down if the Auxiliary Temperature goes above the Aux Setpoint This setting can be set to a maximum of 1350 C The minimum value is 0 C 3 5 Process Control Behavior Examples Using very basic settings the PF2100 behaves as follows STANDARD PROCESS CONTROL 50 DEAD BAND TEMP EXCEEDS SETPOINT PROCESS TEMPERATURE TEMP DROPS BELOW SETPOINT 122 TIME C F MAIN ON MAIN OFF 1 The Main Valve opens and the Process Temperature increases 2 The Process Temperature exceeds Process Setpoint the Main Valve closes and the Process Temperature b
57. e 4X INPUT 12VDC 2 6W Display ON 12VDC 1 1W Display OFF 24VDC 2 9W Display ON 24VDC 1 2W Display OFF OUTPUT 12VDC 5A max INDUCTIVE 24VDC 5A max INDUCTIVE AMBIENT 40 C 55 C THIS EQUIPMENT IS SUITABLE FOR USE IN CLASS I DIVISION 2 GROUPS ABCD OR NON HAZARDOUS LOCATIONS ONLY 1101 009 E0000 Rev 3 0 SERIAL NO MODEL NO 1PS21 E0000 D E M O BURNER MANAGEMENT SYSTEM 2100 DETERMINE DRILL LOCATIONS CONDUIT AND CABLES AS REQUIRED MOUNTING INSTRUCTIONS 1 Remove the included bag of components taped to the mounting brackets 2 Attach the two mounting brackets to the back of the PF2100 enclosure using the 4 provided screws 3 Determine the best location to drill holes in the product enclosure for the wires to enter It is recommended that these holes be drilled on the bottom of the enclosure as shown 4 Install grommets or conduit ports as required 5 Securely mount the enclosure to a pole structure or building as indicated by the site engineer or technician 2 3 Terminal Card Diagram F2 SPARE FUSE Status Status Start Start ESD ESD Proof of Closure Proof of Closure HighPressure HighPressure LowPressure LowPressure Level Level HighTemp_TC Yellow HighTemp_TC Red Process_TC Yellow Process_TC Red AUX_TC Yellow AUX_TC Red High Fire Main 4 20mA Out 4 20mA Out Earth Ground Common 12
58. e Versions From anywhere in the User Interface press the Up and Down Keys simultaneously The system will show four different firmware versions in sequence CARD CURRENT FW VERSION NOTE Door Card DC FW E1 8 115 Terminal Card TC FW E1 8 101 4 20mA Expansion Card 4 20 FW v4 1 Will show if not installed or not enabled in Menu 6 Modbus Expansion Card MBUS FW v4 1 Will show if not installed or not enabled in Menu 6 4 SYSTEM BEHAVIOR This section of the manual describes the behavior of the PF2100 when various features are enabled vs disabled Simplified state diagrams are provided and discussed to give a high level understanding of how the system works 4 1 System Behavior The following diagrams illustrate the behavior of the PF2100 during common system events Note that when the PF2100 changes states while in Auto mode the new state will be shown momentarily on the display In Manual Mode the current state is always shown on the display SYSTEM START UP When the system is powered on the start up sequence is as follows 1 PF2100 displayed in large text 2 Firmware versions of the Door and Terminal Card 3 The Home Screen showing the system state The system state will be Ready if no alarms are present Otherwise the state will be Alarm STARTING IN AUTO MODE When the system is started in Auto Mode by pressing the Mode and OK Keys it will run through the ignition sequen
59. e difference between the current value of the process variable and the desired setpoint value and then adjusting some manipulated variable to compen sate for the difference The PID Controller gets its name from the initials of the three tuning coefficients that are built into the control algorithm the Proportional coefficient the Integral coefficient and the De rivative coefficient These coefficients set the Controller s response to three types of errors the current error Proportional the sum of all past errors Integral and the predicted future error Derivative PF2100 PID Controller The PID Controller is used to maintain the Process Temperature as closely as possible to the Process Setpoint The Controller adjusts the 4 20mA output signal which in turn drives a proportional valve The more the valve is open the more gas passes through and the more heat is applied to the process Feedback is provided to the control algorithm by subtracting the thermocouple measurement the Process Temperature from the desired temperature the Process Setpoint PID Controller Menu 1 To perform temperature control with a proportional valve the PF2100 uses a PID Controller with temperature as its input The PID Controller uses three parameters to specify how it performs its control PID Proportional Band PID Integral PID Derivative The default parameters are sufficient for most common heater applications but they can be tuned for faster co
60. e mandatory and must be connected to a Dual Element thermocouple The Auxiliary thermocouple is only needed when a second process temperature such as the outlet temperature on a line heater must be monitored Otherwise the Auxiliary thermocou ple terminals can be left unconnected All thermocouples are cold junction compensated For this reason it is important to make sure that Type k thermocouple wire and connectors are used exclusively The temperature compensation is done using an ambient temperature sensor located on the terminal card near the thermocouple terminals Process Thermocouple This thermocouple is normally used on the primary temperature control device The system shuts down if an open circuit is detected on this thermocouple It should be placed in the same thermowell as the High Temp thermocouple using a dual element thermocouple High Temperature Thermocouple This thermocouple is used for the high temp shutdown The system shuts down if an open circuit short circuit or short to ground is detected on this thermocouple It should be placed in the same thermowell as the Process thermocouple using a dual element thermocouple AUX Thermocouple This thermocouple is optional and can be enabled in menu 5 It can be used to monitor stack temperature or to control a secondary process temperature The system shuts down if an open circuit is detected and the AUX thermocouple is enabled All Thermocouples Must Be Isolated from ground
61. ection for solutions to see if one matches your needs 2 Consult the support section of our website at www profireenergy com 3 Contact us on our support line at 1 855 PRO FIRE 776 3473 6 1 Common Issues amp Solutions Under each issue is a list of possible solutions EXPANSION CARDS Cannot Write Setpoints via Modbus 1 Check that the system has the latest firmware Firmware older than v1 8 005 did not support this feature 2 Check that the Modbus Card has the latest firmware Firmware older than v4 0 did not support this feature FLAME DETECTION System Has Visible Flame But Cannot Detect It 1 The flame rod pilot assembly and the gap between them should be fully engulfed in flame If not adjust the rod positioning 2 Check that the flame detection wiring does not exceed the recommended maximum length 3 Check that the Ion wire is securely connected as per the appropriate wiring diagram 4 Check that the ground connection between the PF2100 and the pilot assembly is secure 5 Put the PF2100 into Manual Mode and use the Review Menu to check the flame quality level 6 Consult the instructions in the Flame Detection Troubleshooting Guide for further details on Flame Detection SHUTDOWN System Shuts Down with a High Low Voltage Message Shutdown 1 Make sure that the system voltage setting matches the power supply s nominal voltage 2 Check that the system has the latest fir
62. ed to remotely start and stop the system and to adjust some setpoint values REMOTE SETPOINT ADJUSTMENT This card can be used to remotely adjust some setpoints such as High Fire Low Fire and Pilot Off setpoints Note that these settings are not stored in memory If the system is powered off and then on again these settings will revert back to the last values entered directly using the keypad Refer to the Modbus Expansion Card Manual for further details on installation and operation of this card MODBUS EXPANSION CARD Some PF2100 models come with this card pre installed MODBUS EXPANSION CARD SETTINGS This setting applies to the Modbus Expansion Card which must be installed in the PF2100 s expansion slot Modbus Enable Address menu 6 The Modbus Card is disabled by setting the address to zero and enabled by setting the address to any non zero value The address is shown on the display as a decimal number which can be set to any value in the range of 1 to 254 This corresponds to hexadecimal values 0x01 to 0xFE 6 TROUBLESHOOTING This section is designed to help you troubleshoot the PF2100 A list of common issues and solutions reference tables containing Shutdown Messages Alarm Codes and Warning Messages and step by step guides for troubleshooting specific issues are included in this section If you are having trouble with your PF2100 System please consult the following resources in this order 1 Consult this s
63. egins to drop 3 The Process Temperature drops below the Process Setpoint minus Deadband the Main Valve opens and the Process Temperature begins to increase again LOW FIRE ON AT PROC SETPOINT This example has the Process High Fire and Low Fire Setpoints enabled It has been set to turn on at the Process Setpoint This example uses two valves a Low Fire valve and a High Fire valve Both valves start open in this example The system behaves the same as in the standard process control diagram until the demand for heat drops 1 The Process Temperature continues to rise 2 The Process Temperature exceeds the Low Fire Setpoint the Low Fire Valve closes and the Process Temperature drops 3 The Process Temperature drops below the Process Setpoint minus the Deadband the High Fire Valve opens and the Process Temperature begins to increase again PROPORTIONAL VALVE CONTROL The Low Fire On Proc Setpoint can be used in conjunction with a proportional valve connected to the 4 20mA Output In this mode the PID Controller adjusts the proportional valve and attempts to fix the temperature at the Process Setpoint LOW FIRE ON AT LOW FIRE SETPOINT This example has the Low Fire feature enabled and set to On at Low Fire Setpoint In this case the Low Fire Valve will close when it exceeds the Low Fire Setpoint and will reopen after it drops below the Low Fire Setpoint minus Deadband The system behaves the same as in the
64. emains the Terminal Card is likely damaged Check the solenoid connections for shorts to ground or across the terminals before installing a new board Modbus Card Shutdown The system shut down because a remote shutdown command was received via Modbus Check the data being sent through the Modbus connection Modbus Card Shutdown Remote Cmd Error The system received an undefined command from the Modbus Expansion Card Check the data being sent through the Modbus connection Pilot Key Stuck The Pilot Key was held for more than 30s while in manual mode Check for mechanical failure of the key Pro Thermocouple Error The Process Thermocouple is open or shorted Check wiring Proof of Closure Should be Closed The Proof of Closure Contact was detected to be Open when it was not expected to be This may indicate a faulty valve or wiring Purge Values Mismatch The Door Card and Terminal Card do not agree on the value of the Purge Time Setting Reset to factory defaults Run CRC Error Main Program Memory CRC Error Reset to factory defaults Solenoid Feedback Error Check Solenoid Wiring The solenoids were observed to have a state opposite to the one being driven by the PF2100 Remove all valve wires and run the system If the problem resolves there is a wiring issue with the solenoids If the problem remains the Terminal Card is likely damaged Check the solenoid connections for shorts to grou
65. es will not function properly Pilot Valve The Pilot valve is required and must be wired for all installations Low Fire Valve The Low Fire valve may also be required by local code or for proper operation of your particular application Low Fire is often used on high Btuh burners burners that exceed 5 MM Btuh to establish a draft before opening the High Fire valve Failure to do this on high Btuh burners can cause the burner to starve itself of oxygen which puts out the flame 4 20mA Output The 4 20mA Output can be used to control a proportional valve designed for a 4 20mA current loop Using a proportional valve allows for finer control of the burner s temperature as opposed to the 2 or 3 levels possible with normal valves Typically the 4 20mA Output is used in conjunction with a normal valve The 4 20mA Output also supports low fire High Fire Main Valve The High Fire valve is required and must be wired for all installations This valve is sometimes called the Main Valve especially when Low Fire is not used It is possible to connect multiple valves to the same control output in parallel or series If you do this be sure that the configuration you are using meets local codes and does not exceed the total current rating of the PF2100 The negative valve control wires are NOT connected directly to ground Therefore you cannot use a com mon return wire for all valves THERMOCOUPLES The High Temp and Process thermocouple inputs ar
66. etpoint is always compared against the High Temp Thermocouple regardless of the Process Control setting The system will immediately shut down if this thermocouple exceeds this setpoint Because the High Temp Thermocouple and Process Thermocouple must always be in the same thermowell these two thermocouples can be thought of as being the same Note that the internal signal to which the Process Thermocouple is associated Proc Temp or Aux Temp will change depending on the Process Control setting This particular graph is a representation of a high temperature shutdown Once the Process Temperature exceeds the High Temp ESD Setpoint the system will shut down and require user input to acknowledge the error The system behaves the same as in the standard process control diagram until the demand for heat drops 1 Heat demand suddenly and substantialy decreases This could be caused by a rapid decrease in flow by the line heater or a sudden emptying of a tank heater 2 The Process Temp rises sharply 3 The High Temp Thermocouple temperature rises above the High Temp ESD Setpoint the system immediately shuts down and the High Temp Thermocouple temperature begins to decrease slowly AUX TEMP MODE TEMP MAIN CTL When Aux Temp Mode is set to Temp Main Ctl it enables the Auxiliary Temperature input The Proc Temp signal measures the outlet temperature of a line heater and the Aux Temp signal measures the bath tem perature If the heat dema
67. fines voltage limits to protect and allow the proper operation of the attached valves If the PF2100 detects that the input voltage is getting close to these limits it will display a warning message If the voltage exceeds these limits the system will shut down and cut power to the valves The following options are available VOLTAGE SETTING CHOOSE THIS OPTION WHEN 12 V The Power Supply and all valves are 12 VDC 24 V The Power Supply and all valves are 24 VDC The exact limits used are shown in the following table Note that the high voltage limits also depend on the Pilot Valve Power Setting and Main Valve Power Setting which can also be found in Menu 4 V SETTING PILOT MAIN VALVE PWM SETTING LOW V ALARM LOW V WARNING HIGH V WARNING HIGH V ALARM 12V At least one equal to 100 lt 8 4V lt 9 9V gt 14 6V gt 15 6V 12V Both less than 100 lt 8 4V lt 9 9V gt 16 1V gt 16 8V 24V At least one equal to 100 lt 17 9V lt 19 9V gt 28 6V gt 30 0V 24V Both less than 100 lt 17 9V lt 19 9V gt 33 1V gt 40 0V PROCESS CONTROL SETTINGS For the PF2100 Process Control refers to controlling the temperature of a process This process usu ally involves heating fluid in a tank or pipe A primary temperature control signal is required for Process Control This is called the Process Temperature or Proc Temp Optionally an auxiliary temperature control signal can also be accepte
68. he process The Aux Temp signal can be used as a secondary control signal The way that this signal is used will vary depending on the Aux Temp Mode setting If enabled an Aux Setpoint gets compared to this signal AUTOMATIC RESTART EVENTS In all waiting states the system turns off the burner and pilot and waits for some event to occur before restarting There are two other groups of waiting states which may be optionally enabled Auto Restart and Level Event Restart Each of these states can be entered automatically from any other Process Con trol state if the associated condition is satisfied Several waiting states are enabled when the Auto Restart feature is enabled The conditions and the trig gering states are as follows Waiting on Low Voltage System Voltage below Low Alarm Waiting on High Voltage System Voltage above High Alarm Waiting on Low Pressure Low Pressure Contact open or 4 20mA Pressure below Setpoint One waiting state is enabled when the Level Event Restart feature is enabled Waiting on Low Level Level Contact Open or 4 20mA Level below Low Setpoint Once the triggering condition is cleared the system will automatically restart via the Relight procedure RELIGHT PROCEDURE After the system has been initially started if it needs to be automatically relit the system responds based on the reason the pilot is off If the event is a controlled one the PF2100 follows the Process Con trol sequence using the sy
69. he system immediately or in other words turn off the burner Menu Key Used to navigate through the menu Up Key Used to adjust a setting upwards and to scroll up through lists Down Key Used to adjust a setting downwards and to scroll down through lists OK Key Used to enter a menu acknowledge a prompt save an edited setting or return to the home screen Mode Key Used to toggle between Manual and Auto modes of operation Pilot Key Used in Manual Mode to test the Pilot Valve Ignite Key Used in Manual Mode to test the Ignition Circuit Main Key Used in Manual Mode to test the Main Valve 3 2 Menu Navigation The software user interface is shown on the PF2100 display While the system is powered the state of the system is displayed on the screen The user can also change settings via this interface Below is a diagram showing the various types of information that can be accessed through the interface The default system screen at startup and when idling is the Home Screen Most items are accessed through the Home Screen but some can be accessed from anywhere in the interface PF2100 Menus Warning Messages Firmware Version Screen Quick Setpoint Adjust Automatic Mode Warning Messages Firmware Version Screen Shutdown Menu System Menu Review Menu Manual Mode Certain settings can be viewed only in Manual Mode or only in Auto Mode MANUAL VS AUTO MODE When the system first powers
70. his may have an impact on measurement accuracy Fuel Train Pressure Settings For the Fuel Train Pressure Settings to be visible the PRS DIP Switch on the 4 20mA Input Card must be enabled 1 4 20 LOW PRESSURE SETPOINT menu 6 If the 4 20mA PRS input drops below this setpoint the burner will turn off to prevent flame from burning back into the fuel train 2 4 20 HIGH PRESSURE SETPOINT menu 6 If the 4 20mA PRS input exceeds this setpoint the system will shut down 3 4 20 PRESSURE RANGE menu 6 Specifies the maximum capacity of the tank s 4 20mA Pressure transmitter 4 4 20 PRESSURE UNITS menu 6 Specifies the units of measurement Note that this may have an impact on measurement accuracy 4 20MA EXPANSION CARD BEHAVIOR The 4 20mA Expansion Card provides an alternate method of monitoring tank level and fuel train pres sure This is via 4 20mA loop transmitters These devices can be used in place of the switches attached to the level and pressure contacts on the PF2100 Using transmitters allows actual measurements of the level and pressure to be shown on the PF2100 s display or read remotely via Modbus if the Modbus Card is installed 4 20MA LEVEL INPUT amp OUTPUT CONTACTS The 4 20mA Level Input is used to monitor tank level in the same way as the Level Contact The behavior and features are identical to those described in the previous Contact Behavior section The difference is that a Level Transmitter is
71. hutdown condition examples include the Process Temperature rising above the High Temp ESD Setpoint the High Pressure Contact Opening the ESD Contact Opening etc Many conditions can cause shutdowns Some conditions will only trigger a shutdown if it is enabled in the system settings See the fault chart in this guide for more details Modbus Card Option if installed This method can be used to stop the system using a remote device over a Modbus RTU network 1 Have the remote device write 4321 to the 40100 register to stop the system 2 Set the remote device to poll the 40100 register and wait for it to clear to zero This indicates that the system has processed the command 3 Set the remote device to poll the 10001 register and wait for it to change to 0 This indicates that the system has stopped ADJUST SETTINGS amp REVIEW STATUS There are four ways to check and adjust system settings and to view system status Home Screen The Home Screen is accessible at any time by pressing and holding the OK Key for 3 seconds 1 Manual Mode The Home Screen displays the System State and the Process Temperature 2 Auto Mode The Home Screen displays the Process Setpoint and the Process Temperature Quick Setpoint Adjust auto mode only This feature allows some Process Setpoints to be adjusted as a group even when the system is running Affected setpoints are the Low Fire Setpoint if enabled the Process Setpoint and
72. ing If the problem remains the same the boards or ribbon cable may need to be replaced Comparison PLT DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the Pilot Valve Output xxx will be either ON or OFF Remove solenoid wires if the problem is resolved check the solenoid wiring If the problem remains the same the boards or ribbon cable may need to be replaced Comparison PoC DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the Proof of Closure Contact xxx will be either ON or OFF Remove ESD wires and jumper the terminals if the problem is resolved check the wiring If the problem remains the boards or ribbon cable may need to be replaced Comparison PRH DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the High Pressure Contact xxx will be either ON or OFF Remove ESD wires and jumper the terminals if the problem is resolved check the wiring If the problem remains the boards or ribbon cable may need to be replaced Comparison PRL DC xxx TC xxx The Door Card and Terminal Card do not agree on the state of the Low Pressure Contact xxx will be either ON or OFF Remove ESD wires and jumper the terminals if the problem is resolved check the wiring If the problem remains the boards or ribbon cable may need to be replaced Comparison STRT DC xxx TC
73. ing They should be wired in parallel rather than in series Expected Battery Life is Not Achieved 1 The PF2100 is not set up by default to use low power valves with a PWM setting of 20 2 The PF2100 is not set up to put the display to sleep when not in use 3 The solar panel is undersized 4 The solar panel is shaded or not located in full sun The Battery is Not Being Charged at All 1 Check the Solar Charger for damage or defective parts Look for flashing error codes on the controller s LEDs 2 The solar panel is undersized 3 The solar panel is shaded or not located in full sun 4 The battery is defective SOLENOIDS Valves Are Not Opening 1 Check if the positive and negative wires are reversed 2 Make sure that each valve has a separate negative return wire connected to the correct terminal A common ground wire cannot be used and will not work 3 Check if the proper PWM setting is used for each valve 4 Check if the valve voltage ratings match the system voltage 12V or 24V System Shuts Down With Terminal Card Command Refused Master Power Solenoid Feedback Check the solenoid wiring to make sure that no wires are crossed and that separate return wires are used for each valve STATUS CONTACT Status Contact Opens but System Continues To Run Check that the system has the latest firmware Some firmware versions older than v1 8 005 had a bug that might lead to this under certain circumst
74. ithin 2s after the main valve has been opened the system will shut down Otherwise it will continue running The response to the contact opening is always immediate and cannot be configured If this contact is not needed it must be shorted out with the provided jumper or a wire Chart 1 High Pressure Contact Opens While Running TIMER 2s 0s SYSTEM STATE READY PURGE IGNITE FLAME MAIN PILOT DELAY SHUTDOWN HIGH PRS CONTACT OPEN CLOSED EVENT HIGH PRESSURE 2 3 1 CHART 1 EVENTS 1 System started by user with High Pressure Contact closed 2 High Pressure Contact opens while the system is running with the mains open and starts counting down 2s 3 Timer expires with High Pressure Contact still open system shuts down Chart 2 High Pressure Contact Open On Start Does Not Close TIMER 2s 0s SYSTEM STATE READY PURGE IGNITE FLAME MAIN PILOT DELAY SHUTDOWN HIGH PRS CONTACT OPEN CLOSED EVENT HIGH PRESSURE 1 2 3 CHART 2 EVENTS 1 System started by user with High Pressure Contact open 2 Main valve opens and timer starts counting down 2s 3 Timer expires High Pressure Contact still open and the system shuts down Chart 3 High Pressure Contact Open On Start Does Close TIMER 2s 0s SYSTEM STATE READY PURGE IGNITE FLAME MAIN PILOT DELAY SHUTDOWN HIGH PRS CONTACT OPEN CLOSED EVENT HIGH PR
75. ive PID D Expressed in Minutes this causes the PID to compensate based on the changing error Disabled by default 0 0 to 999 9 min 0 0 min PID Proportional Band PID PB Expressed in percent this is inversely proportional to the PID controller s proportional gain 0 0 to 999 9 10 0 PID Integral PID I Expressed in Minutes per Reset this is the amount of time required for the PID integral term to yield the same output as the proportional term 0 0 to 999 9 min rst 4 0 min rst PID Derivative PID D Expressed in Minutes this causes the PID to compensate based on the changing error Disabled by default 0 0 to 999 9 min 0 0 min HISTORY MENU 2 This menu contains informational event counters and the event log MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING Relights Re Lights Number of Pilot Relight attempts 0 to 1000 N A Flame Fails Flame Fails Number of Shutdowns due to failure to light the pilot 0 to 1000 N A Resets Resets Number of power failures or manual resets 0 to 1000 N A ESDs ESDs Number of system shutdowns caused by faults 0 to 1000 N A High Pressure ESDs HPR ESDs Number of High Pressure Shutdowns 0 to 1000 N A Low Pressure ESDs LPR ESDs Number of Low Pressure Shutdowns 0 to 1000 N A Level ESDs LVL ESDs Number of Level Contact Shutdowns 0 to 1000 N A Thermocouple Errors TC Errs Number
76. l Status Connect to PLC positive input contact or other alarm device The status and contacts will be closed when the system is running and opened when the system is shutdown Dry contact output to indicate system status to an external device ie PLC Note that the contacts are DC only and are not internally connected to power or ground 40VDC 250mA 15 Status Connect to PLC negative input contact or other alarm device Start Remote start input from an external device ie PLC Dry contact switch is expected The input is internally pulled up to 9VDC via a 3 75k resistance Jumper and if not used All input contacts can use a single common ground return if desired Start Ground ESD External Shutdown input typically plant ESD loop ESD Ground Proof of Closure Proof of Closure from main valve s Proof of Closure Ground High Pressure Input from a mechanical High Pressure switch High Pressure Ground Low Pressure Input from a mechanical Low Pressure switch Low Pressure Ground Level Input from a float switch mounted in the bath Dry contact switch is expected The input is internally pulled up to 9VDC via a 3 75k resistance Jumper and if not used All input contacts can use a single common ground return if desired Level Ground 2 INSTALLATION The PF2100 can be used with many different systems Before
77. l Card Check thermocouple readings with dry block or process calibrator Val_MM The Door and Terminal Card s setpoints do not match Reset to factory defaults 6 4 Warning Messages The following is a list of warning messages that may flash periodically on the PF2100 display These mes sages indicate a problem that may be developing or a condition from which the system may automatically restart once cleared Use the table below to determine the meaning of these messages ON SCREEN DESCRIPTION Check all settings Other settings have changed A major process control setting was changed and the process control setpoints were reset to factory defaults This includes the High Temp ESD Setpoint the Pilot Off Setpoint the Low Fire Setpoint the Process Setpoint the Low Temp Alarm Setpoint the Deadband setting and the Aux Setpoint HI Volt Warning The system voltage is getting close to the High Voltage Alarm threshold and may stop or shutdown soon High Prs Warning The High Pressure Contact is open or the 4 20 Pressure Input is above the 4 20 Pressure High Setpoint The contact must be closed shortly after the main valve opens and the 4 20 Pressure is below the setpoint or the system will shutdown LO Volt Warning The system voltage is getting close to the Low Voltage Alarm threshold and may stop or shutdown soon Low Temp Alarm The process temperature is below the Low Temp Alarm Setpoint and the Status Contact is Open
78. l at which 4 20mA Output contacts will toggle 4 20 Low Level Setpoint LLV Level below which the system will shutdown or wait if Level Event Restart is enabled 4 20 High Pressure Setpoint HPR Pressure above which the system will shutdown after Main 4 20 Low Pressure Setpoint LPR Pressure below which the system will shutdown or wait if Auto Restart is enabled Flame Flame Current Flame Quality Aux Temp AUX Temp Current Aux Temp reading 4 20 Level Reading LVL Current 4 20mA Level input reading 4 20 Pressure Reading PRS Current 4 20mA Pressure input reading TC Debug Screen DH ww TH xx TP yy TA zz Shows the current readings of all temperature sensors simultaneously always in degrees celsius regardless of the display unit setting DH Door Card High Temp Thermocouple TH Termincal Card High Temp Thermocouple TP Terminal Card Process Thermocouple TA Terminal Card Ambient Thermocouple Alarms Alarms Lists up to 3 simultaneous alarm codes if any are present 3 4 Initial System Settings The following settings need to be modified for every installation 1 Valve Modulation Settings Pilot and Main 2 System Voltage 3 Process Control Settings 4 Process Setpoints High Temp ESD Pilot Off Process Low Fire Low Alarm Deadband VALVE MODULATION SETTINGS The Pilot and Main Valve outputs can be modulated with a pulsed DC signal to conserve power using Pulse Width Modulation PWM The duty cycle of the modulati
79. lication simply remove the associated jumper and connect a switch in its place Start Contact The Start Contact can be used to attach a remote start stop switch This is often connected to a PLC dry contact output When the contact is open the system is stopped For safety reasons a double action is required to start the system remotely via this contact This is accomplished by closing the switch opening it and then closing it again Once the system is running open the switch again to stop it ESD Contact The ESD Contact can be used to attach an emergency shutdown switch This is often connected to a mushroom switch mounted on a remote panel or to a PLC dry contact output When the contact is open the system is stopped The system cannot be started via this contact but this contact must be closed in order to start the system Proof of Closure Contact The Proof of Closure Contact can be used to receive the feedback signal from a Main Valve that has a Proof of Closure output If multiple main valves with Proof of Closure outputs are used these can be wired together in series Before the system attempts to light the pilot it will check that the Proof of Closure Contact is closed If it is open it will not light the pilot High Pressure Contact The High Pressure Contact can be connected to a High Pressure Switch installed in the fuel train Typically this switch is placed immediately after the Main valve in the fuel train When the system i
80. load by bypassing the coil Flow Chart 1 Is the same rod being used for both flame detection and ignition Check the ION wire for shorts to ground or nicks Measure the AC voltage on the ION wire where it connects to the coil Is it close to the same voltage that was mea sure across the ION and ION terminals Does the system stay running with the flame arrestor open Does the system stay running with the flame arrestor open Flow Chart 2 Set the Multimeter to measure DC voltage across ION and ION with the system in manual mode Is the reading across ION and ION around 5VDC Remove the wire from ION and measure the DC voltage be tween the ION and ION terminals again Is the voltage across the ION and ION termi nals around 5VDC Put the system into Auto Mode and monitor the voltage on the Multi meter While sparking the voltage will jump around ignore this Take note of the voltage after the spark ing while the flame is still present Did the voltage drop below 5V when the flame was present Does the system stay running with the flame arrestor open Does the system stay running with the flame arrestor open The system is not seeing the flame at all The circuit from the rod through the flame to the nozzle to ground is not being completed Check the grounding to the pilot nozzle Check for cracked ce ramic on the flame rod The system is sensing fl
81. mall oscillations in gas pressure and tank level The rejection is accomplished by requiring these contacts to remain open for a continuous period of time called the delay before shutting down In the case of the 4 20mA Expansion Card the Pressure and Level readings must remain below their respective low setpoints for the delay time before shutting down If the Level Event Restart is enabled in the restart settings the delays are applied before entering a waiting state as opposed to shutting down Note that these delays only apply to the contacts opening and the 4 20mA signals dropping below their respective low setpoints The system does not have a delayed response to the contacts closing or rising above their 4 20mA low setpoints There is also no delay applied to rising above or falling below the 4 20mA high setpoints There is no delay applied to the system s response to the contacts closing This setting can be set to either enabled or disabled When disabled there is a small delay When enabled the delay is lengthened There are separate delays for Pressure and Level The following table lists the delays used in all cases SETTING LOW PRESSURE DELAY LEVEL DELAY Enabled 6s 20s Disabled 2s 2s 3 7 System Operation This section includes information about how to start and stop the system how to review key system settings how to adjust setpoints while the system is running and how to check the system firmware versions
82. mware Firmware older than v1 8 005 was prone to shutdown on transient voltage spikes and dips 3 Make sure that some other load is not causing the supply to drop periodically Remove other devices from the supply or if that is not an option monitor the supply voltage with a data logger 4 Make sure the power supply is rated appropriately for the valves and other peripheral devices attached to the PF2100 System Shuts Down On High Temperature ESD 1 Check that the HT ESD setpoint is not set too close to the operating temperature of the system Measurement accuracy and process control overshoot can cause the system to shutdown if they are too close System Shuts Down On an Open TC Error 1 Check the thermocouple connections inside the PF2100 Note that both the Process and High Temp thermocouples are required 2 Check for breaks in the thermocouple wiring System Shuts Down On TCS Not Being Equal 1 Press the Up and Down arrows together 2 Press the Up arrow until you get to a screen with 4 temperature readings DH TH TP and TA 3 If the TH and TP readings are close but DH is different follow these steps 4 Go to the calibration menu 5 Step through the menu to Cal High Temp xxxC 6 Press the Up arrow once 7 Press OK 8 Go back to the screen with the temperature readings and make sure the issue is corrected SOLAR POWER Solar Output Voltage is 12V when 24V is Expected 1 Check solar panel wir
83. nd increases the bath temperature may rise quickly The Aux Setpoint is used to shut off the Main Valves to protect the bath and fire tube in the event of excessive bath temperature AUX TEMP MODE TEMP ESD If the Aux Temp Mode is set to Temp ESD then the Aux Temp signal must be below the Aux Setpoint or the system will shut down Normally this happens independent of the High Temp ESD previously described However it is possible for the High Temp ESD Setpoint and the Aux ESD Setpoint to both be applied to the same thermocouple This happens when Process Control is set to Aux TC and Aux Temp Mode is set to Temp ESD In this case whichever setpoint is lower will be used In this mode the Aux Setpoint is used as another ESD setpoint It is always compared against the Auxil iary Temperature signal which depends on the Process Control setting The system will immediately shut down if this signal exceeds this setpoint 3 6 Optional Settings 4 20MA OUTPUT SETTINGS The 4 20mA Output is built into the Terminal Card not part of the 4 20mA Expansion Card It can be used to echo the process temperature to a PLC or control a proportional valve 4 20 Output Mode Menu 5 Set the 4 20mA Output mode to Process Temperature Valve Control 1 or Valve Control 2 The 4 20mA Output is intended to drive a proportional valve The signal is scaled such that 4mA Valve Closed and 20mA Valve Fully Open A PID control loop based on Process Temperature feedb
84. nd or across the terminals before installing a new board System Error Illegal Process Control or Display State Reset to factory defaults Terminal Card Ambient Fail The Terminal Card could not measure the ambient temperature The Door Card failed to detect this Reset to factory defaults Likely a faulty terminal card Terminal Card Command Refused The Terminal Card received a valid command from the Door Card but the command was refused because it would result in an invalid or unsafe state The Door Card failed to detect this Remove all valve wires and run the system If the problem resolves there is a wiring issue with the solenoids If the problem remains the Terminal Card is likely damaged Terminal Card Communication The Terminal Card is not communicating with the Door Card This may indicate a faulty ribbon cable or incompatible firmware The Door Card failed to detect this Make sure the ribbon cable is properly installed Likely a fault with door ribbon or terminal Terminal Card High TC Grounded The Terminal Card detected that the High Temp Thermocouple was shorted to ground The Door Card failed to detect this Check for continuity from the high temp TC to ground If there is no connection remove the thermocouple and replace it with a jumper If the problem persists it is likely a door or terminal card fault Terminal Card High Temp Alarm The Terminal Card detected that the High Temp Therm
85. nd or platform for the comfort of the operators PLEASE CONSIDER THE FOLLOWING WHEN CHOOSING AN INSTALL LOCATION Accessability The system should be easily accessible so that the operator can change settings and observe its operation It is preferable that the system be mounted facing away from the sun to make it easier to read the display and LED indicators on the front panel Security In some situations it may be desirable to mount the system in a location not accessible to the general public to prevent accidental or intentional tampering Operator Safety Avoid placing the system in locations that are dangerous to the operator Examine the area surrounding the potential installation site and look for such things as nearby open flames or close proximity to tanks that might overflow and other harmful situations Performance Choose a mounting location that allows ground and ignition wires to be kept as short as possible This ensures the best ignition and flame detection Product Protection To protect the system from being damaged it should not be mounted 1 Where chemicals may splatter or bubble over from a tank onto the system Chemicals on the keypad may interfere with an operator s ability to control the product or view the display and LED indicators 2 Directly to a heated tank where excessive heat may damage the product Refer to the maximum operating temperature listed in this document 3 On anything that may tip ove
86. nitially starts it ignores this input It lights the pilot and opens the main valve as normal If the High Pressure Contact remains open 2s after the mains are turned on the system shuts down This 2s delay is to relieve any pressure that might have built up in the fuel train as a result of regulator leakage Any time the main valves are open the system will shut down if the High Pressure Contact opens and remains open for 2s See the 4 20mA Expansion Card section for more details Low Pressure Contact The Low Pressure Contact can be connected to a Low Pressure Switch installed in the fuel train Typically this switch is placed immediately before the Main valve in the fuel train The Low Pressure Contact operates using averaged time to help reject brief fluctuations in gas pressure The contact must be open continuously for 2 or 6 seconds depending on the Pressure Level Delay setting before the system will shut down If Auto Restart is enabled the system restarts automatically when the Low Pressure Contact re closes See the 4 20mA Expansion Card section for more details IGNITION COIL FLAME DETECTION This section provides some tips to set up the system for reliable ignition and flame detection Note that there are three possible ways to wire the ignition coil and flame detection circuit with the PF2100 as illustrated in the table below WIRING OPTIONS CONFIGURATION COIL TYPE SINGLE ROD DUAL ROD Internal Coil Ex
87. ntact closed 2 Low Pressure contact opens timer begins counting down 3 Timer expires system waits for Low Pressure contact to close 4 Low Pressure contact closes system starts running again HIGH PRESSURE INPUT The High Pressure Input Contact is used to monitor fuel train pressure when excess fuel pressure may result in damage to the pilot nozzle or otherwise cause improper operation A high pressure switch can be installed on the fuel train and then connected to the High Pressure Input Contact on the PF2100 If the fuel pressure increases above the switch s mechanically set pressure setting the switch opens and the PF2100 will close all valves and stop running The system always shuts down from a High Pressure Event and cannot be programmed to automatically restart if the event clears The system can be started when the High Pressure Contact is open This is to allow for easy recovery from the common issue of leaky regulators If the regulator upstream from the high pressure switch is leaky it can allow pressure to accumulate at the switch s position over time while the system is not run ning Since there is no way to relieve this pressure other than to open a downstream valve the system must be allowed to start running under this condition So the system will start light the pilot and open the main valve to allow the built up pressure to be relieved If the pressure does not drop low enough to close the High Pressure Contact w
88. ntrol if necessary See Appendix A for the recommended tuning procedure for the PID Controller RESTART SETTINGS The PF2100 can be configured to automatically restart after certain alarm conditions clear The number of restart attempts is configurable There are three settings that affect restart behavior Auto Restart Level Event Restart and Restart Attempts The number of restart attempts the system will make differs depending on the mode and the reason that the burner is being re lit MODE PROCESS CONTROL FLAME OUT Manual 3 0 Auto 3 User Configurable Auto Restart Menu 4 If this setting is enabled the system will restart automatically once all alarm conditions are cleared and if the reason that the system stopped running was any of the following 1 System Input Voltage too low including power cycle 2 System Input Voltage too high 3 Low Pressure Contact open 4 4 20mA Pressure Input below Low Setpoint Level Event Restart Menu 4 If this setting is enabled the system will restart automatically once all alarm conditions are cleared and if the reason that the system stopped running was any of the following 1 Level Contact open 2 4 20mA Level Input below Low Setpoint Restart Attempts Menu 4 A restart attempt is an attempt by the system to light the burner These can occur under two types of circumstances 1 As a result of normal process control Examples Include The system is started by a user by switching t
89. nts each time the system shuts down as a result of the Low Pressure Contact opening or the 4 20 Pressure reading dropping below the 4 20 Low Pressure Setpoint 6 Thermocouple Errors Increments each time the system shuts down as a result of a thermocouple issue such as a short circuit open circuit or ground short 7 Relights Increments each time the system attempts to automatically re ignite the pilot The first ignition attempt after a manual start is not counted 8 Resets Increments each time the door card is reset by a power loss or by manually pressing the reset button 9 System Errors Increments each time the system shuts down as a result of an internal system error 10 Terminal Card Errors Increments each time the system shuts down as a result of a terminal card error Viewing the Event Log The Event Log can be accessed from the end of Menu 2 The log contains entries for various types of events such as System Starts Stops Shutdowns Menu Accesses etc The log holds a maximum of 32 events The first event 1 is the most recent and the last event 32 is the oldest When the log is full the oldest event is removed from the list to make room for the next newest event Navigate through the log using the up and down arrow keys Press OK to return to the Home Screen The log can be cleared using the item at the end of Menu 2 Clearing the log also resets all event counters to zero The following is an alphabe
90. nu 4 System was entered This will show even if no settings are modified POC STOP The Proof of Closure Contact was open when it should not have been causing the system to shutdown RELIGHT The pilot was successfully relit after it went out unexpectedly Relights RESET The system was reset due to a loss of power or a manual press of the Door Card s reset button Resets RETRY The Pilot failed to light and one or more retry attempts were made RUNNING The system successfully lit the pilot START The system switched to Auto mode at a point in time when the pilot was not lit STOPPED The system stopped because the user pressed the STOP button while the Pilot Valve was open SYSTEM ERR An internal system error has occurred System Errors TCERR AUX The AUX Thermocouple is out of range Thermocouple Errors TCERR HT The High Temp Thermocouple is out of range or grounded Thermocouple Errors TCERR PROC The Process Thermocouple is out of range Thermocouple Errors TC NOT EQ The system detected an unacceptable difference between the Process and High Temp Thermocouple readings The acceptable difference varies with the HT ESD Setpoint ESD as follows 15C when ESD lt 200C 25C when 200C lt ESD lt 400C 35C when 400C lt ESD lt 800C 45C when 800C lt ESD TERM ERR Communications between the Terminal Card and the Door Card has been interrupted Terminal Card Errors Viewing Firmwar
91. o Auto Mode The system is started remotely via the Start Contact The Pilot Turns off as a result of process control and then is automatically turned back on after the temperature drops below the Pilot Off Setpoint The system automatically restarts after recovering from one of the situations described in the Auto Restart or Level Restart sections 2 As a result of the pilot flame unexpectedly going out Examples Include The gas supply is cut off Excessive wind blows out the burner flame Insufficient oxygen supply snuffs out the burner flame The flame detection rod becomes dirty and unable to detect flame TIMING DELAY SETTINGS There are four time delay settings that can be adjusted to match the needs of various applications Purge Time Menu 4 This setting is used to set the minimum amount of time that must elapse between when all valves are known to be closed and the next time that the pilot is lit This will be the minimum elapsed time between relights and also the minimum amount of time before lighting the burner after a loss of power The purge time ensures that dangerous amounts of gas are not present in the fire tube before the pilot is lit thus reducing the risk of an explosion Generally the larger the burner the larger the purge time should be Local codes may dictate the amount of purge time required for a given application This setting can be set to a minimum of 10s and a maximum of 900s Pilot To Main Delay Menu 4
92. o adjust the Process Control Setpoints MENU MAP ON SCREEN BRIEF DESCRIPTION RANGE DEFAULT SETTING Pilot Off Setpoint Pilot Off Setpnt Adjusts the temperature at which the Pilot Valve will turn off when Pilot Off is enabled 1 to 1349 C 34 to 2460 F 85 C 185 F Low Fire Setpoint Low Fire Setpnt Adjusts the temperature at which the Low Fire Valve will turn off when Low Fire is enabled 2 to 1349 C 36 to 2460 F Hidden 85 C 185 F Process Setpoint Proc Setpnt Adjusts the temperature at which the High Fire Main Valve will turn off 1 to 1349 C 34 to 2460 F 80 C 176 F Low Temp Alarm Setpoint Low Temp Alarm Setpnt Adjusts the temperature where the Status Contact will close if enabled Disabled 1 to 1349 C 34 to 2460 F Disabled Deadband Deadband Adjusts the Deadband Used with the Process Setpoint and sometimes Low Fire and Aux Setpoints 1 to 150 C 1 to 240 F 2 C 3 F Aux Setpoint AUX Setpnt Adjusts the Auxiliary Setpoint 0 to 1350 C 32 to 2462 F Hidden 20 C 68 F PID Proportional Band PID PB Expressed in percent this is inversely proportional to the PID controller s proportional gain 0 0 to 999 9 10 0 PID Integral PID I Expressed in Minutes per Reset this is the amount of time required for the PID integral term to yield the same output as the proportional term 0 0 to 999 9 min rst 4 0 min rst PID Derivat
93. ocouple exceeded the High Temp ESD Setpoint The Door Card failed to detect this Check for continuity from the high temp TC to ground If there is no connection remove the thermocouple and replace it with a jumper If the problem persists it is likely a door or terminal card fault Terminal Card Reciprocal Comp The Terminal Card detected that the Door Card status or High Temp ESD Setpoint did not match The Door Card failed to detect this Reset to factory defaults Remove all wires but power install default jumpers If the problem persists there is likely a problem with the one of the boards Terminal Card Shutdown Detect The Terminal Card detected an alarm condition The Door Card failed to detect this Reset to factory defaults Remove all wires except power install default jumpers If the problem persists there is likely a problem with the one of the boards Terminal Card Voltage Sense The Terminal Card detected that the system voltage was outside of allowable limits The Door Card failed to detect this Reset to factory defaults Remove all wires except power install default jumpers If the problem persists there is likely a problem with the one of the boards Thermocouples Not Equal Check Wiring The High Temp and Process Thermocouples are reading temperatures that are too far apart This may indicate a failed thermocouple or improper wiring Check thermocouple readings with dry block or process c
94. oil Model with 4 20mA Expansion Card and Modbus Expansion Card 1 5 Included Components CODE DESCRIPTION E0000 E0400 E0M00 E04M0 EC000 EC400 ECM00 EC4M0 A PF2100 B Mounting Brackets amp Screws C Installation Guide D Internal Coil E Ferrules 2 F Straight Silicone Boots 2 G Ignition Cable 20ft H 4 20mA Expansion Card I Modbus Expansion Card EXPANSION CARDS F A E I G B D H C GENERAL FEATURES Designed for use with natural draft fire tube heaters Meets or exceeds all relevant codes and standards Easy installation with clearly marked component I O Easily accessible removable terminal connections Rapid 3 second shut down on flame out Electronic spark ignition Low power operating mode to accommodate solar panel or TEG applications Auto relight or manual operation Transient protected and fail safe circuits All solid state circuit components CSA compliant for Class I Division 2 locations Certified for use on B 149 compliant valve trains Optional internal or external ignition coil INPUTS amp OUTPUTS Digital inputs for safety interlock device connections 6 Digital outputs 5 4 20mA output 1 Flame rod input 1 Thermocouple inpu
95. om line of the Home Screen Some messages can be dismissed by pressing the OK key eg Unit restarted from LVL event Others persist until the warning condition is resolved eg LO Volt Warning SHUTDOWN SCREEN When the system shuts down as a result of an alarm condition it will flash the word SHUTDOWN in large text on the display alternately with a more detailed message explaining the reason that the system shut down The Shutdown Screen can always be dismissed by pressing OK toggling the Start Contact or sending the Start Command via Modbus 3 3 Menu Map For a complete description of each item please refer to the menu definitions section The debug func tions are not shown here if needed they are located in the Field Calibration section of the manual NAVIGATION 1 Press MENU until you get to the desired menu The Review menu is accessible by pushing the Down arrow 2 Press OK to select an option 3 Press MENU until you get to the submenu option you want to change view 4 Press or to adjust the selected setting 5 Press OK to set the new value 6 Press MENU to cancel changes 7 Press OK to exit to the home screen Ready Proc Temp Menu 1 Setpoints Menu 2 History Menu 3 System Info Pilot Off Setpoint Relights High Temp TC Reading Review Menu Low Fire Setpoint Flame Fails Process TC Reading ESD Setpoint Process Setpoint Resets 4 20 mA Output Process Se
96. on can be adjusted independently for each valve Each can be set to 100 80 60 40 or 20 The 100 setting applies continuous DC volt age ie no modulation to the valve and is the highest power option The 20 setting applies DC voltage 20 of the time and is the lowest power option Only valves that are compatible with modulation should be used with a duty cycle of less than 100 These valves are sometimes called Low Power or Peak and Hold valves since they require only short periodic voltage pulses to hold the valve open Do not use a duty cycle of 100 with low power valves as this can damage them If a multimeter is used to measure the valve power the measured voltage will be reduced proportionally with the PWM setting The pilot and main valve power settings can be adjusted to match the needs of various applications Pilot Valve Power Setting Menu 4 Adjusts the PWM Duty Cycle of the Pilot Valve output Main Valve Power Setting Menu 4 Adjusts the PWM Duty Cycle of both the Low Fire and High Fire Valve outputs SYSTEM VOLTAGE The PF2100 is designed to operate with a nominal 12VDC or 24VDC Power Supply The system will not be damaged by applying any voltage in or near this range regardless of menu settings Note that attached valves are typically not designed to accept both 12VDC and 24VDC If the valve voltage ratings are ex ceeded the valves may become damaged System Voltage Setting Menu 4 This setting de
97. on the flame rod Clean the arrestor and look for other air restric tions Flame quality remains 100 pilot when the main comes on Make sure that the pilot orifice is correction for the gas used 54 for natural gas Make sure that there is a metal on metal connection from the pilot noz zle to the housing and a ground wire from the housing to the PF2100 Make sure that the ignition rod is fully immersed in the flame Take note of the maximum voltage Is the voltage greater than 25VAC Remove the wire from ION and measure the AC voltage between the ION and ION terminals again Is the voltage above 35VAC Measure the AC voltage from the flame rod to ground if the rod is accessible If it is not accessible remove the wire from the flame rod and measure on the connector Is the voltage measure at the rod close to the voltage measure across the ION and ION terminals It is possible that the terminal card is faulty Is the wire run length from the burner to the PF2100 longer than 25 ft Please continue to Flow Chart 1 below Please continue to Flow Chart 2 below Something is loading the signal Make sure that the wire type is not shielded Look for partial ground shorts or nicked wires The length loading on the wire is too high Using ignition wire for ION will allow the signal to be run up to 50 ft Using separate rods for flame detection and ignition can also reduce the ION
98. or s positive lead in its place 4 Turn on the process calibrator and set it to source a current of 4mA 0 5 Press the OK key and the message Calibrating Wait will appear for several seconds followed by the message Parameter Set after the calibration has successfully completed Calibrate the Pressure Input s Span point 1 Press the Menu Key repeatedly until Calibrate 4 20 PRS Span is shown on the display 2 Use the Up or Down key to select Yes and begin the calibration process The display will now read Apply 20mA then press OK 3 Set the process calibrator to source a current of 20mA 100 4 Press the OK key and the message Calibrating Wait will appear for several seconds followed by the message Parameter Set after the calibration has successfully completed 5 Disconnect the process calibrator from the Pressure input and reconnect any wiring that was removed from it previously Disconnect the process calibrator s negative lead from the ground pin on the 4 20mA Input Card RESETTING CALIBRATION DATA If you want to reset the calibration settings to default use the Cal Data option at the end of menu 7 This process resets the following calibrations to defaults 1 Calibration of the Thermocouples 2 Calibration of the 4 20mA Output 3 Calibration of the 4 20mA Intput 1 Make sure that the system is stopped 2 Press the UP and Down Keys simult
99. ot be lower than ambient 20 C 1 Make sure that the system is stopped 2 Remove the 3 pairs of thermocouple wires High Temp Process and Aux from the P8 Pluggable Header on the Terminal Card 3 Short each pair of thermocouple inputs individually using a jumper or short piece of copper wire ie short HT to HT short Proc to Proc and short Aux to Aux 4 Press the UP and Down Keys simultaneously to unlock the Calibration Menu menu 7 which is normally hidden 5 Press the Menu Key repeatedly until menu 7 is shown 6 Press OK If prompted enter the L2 Password 7 Cal Proc TC Zero will show on the display 8 Press OK and the message Calibrating Wait will appear on the display for about 5 seconds Afterwards the message Parameter Saved will show on the display briefly 9 Press the Menu Key to go to the next item 10 Repeat steps 8 and 9 for the Cal HiTemp TC Zero and Cal Aux TC Zero menu items 11 Reconnect the 3 pairs of thermocouple wires High Temp Process and Aux to the P8 Pluggable Header on the Terminal Card 12 Set the High Temp Process and Aux thermocouples to a known reference temperature using a dry block or other calibrated reference The reference temperature should be at least 20C above the ambient temperature and preferably close to the maximum planned operating temperature 13 Cal Proc TC Span will show on the display 14 Use the Up and
100. r due to wind or snow Some examples include poles not set properly into the ground or tripods not secured with anchor bolts or guy wires 4 In locations that may be prone to flooding 1 8 5 5 P R O F I R E N HAZARD ECT WHILE CIRCUIT IS LIVE UNLESS AREA IS KNOWN HAZARDOUS OR EQUIVALENT RTISSEMENT RISQUE D EXPLOSION NE PAS DEBRANCHER TANT QUE LE CIRCUIT EST SOUS TENSION A MOUNS QU IL NE S AGISSE D UN EMPLACEMENT NON DANGEREAUX WARNING EXPLOSION HAZARD SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR CLASS I DIVISION 2 AVERTISSEMENT RISQUE D EXPLOSION LA SUBSTITUTION DE COMPOSANTS PEUT RENDURE CE MATERIEL INACCEPTABLE POUR LES EMPLACEMENTS DE CLASSE I DIVISION 2 UCTIVE E IN CLASS I DIVISION 2 DOUS LOCATIONS ONLY 1101 009 E0000 Rev 3 0 FLAME MC 248705 1 8 5 5 P R O F I R E WARNING EXPLOSION HAZARD DO NOT DISCONNECT WHILE CIRCUIT IS LIVE UNLESS AREA IS KNOWN TO BE NON HAZARDOUS OR EQUIVALENT AVERTISSEMENT RISQUE D EXPLOSION NE PAS DEBRANCHER TANT QUE LE CIRCUIT EST SOUS TENSION A MOUNS QU IL NE S AGISSE D UN EMPLACEMENT NON DANGEREAUX WARNING EXPLOSION HAZARD SUBSTITUTION OF COMPONENTS MAY IMPAIR SUITABILITY FOR CLASS I DIVISION 2 AVERTISSEMENT RISQUE D EXPLOSION LA SUBSTITUTION DE COMPOSANTS PEUT RENDURE CE MATERIEL INACCEPTABLE POUR LES EMPLACEMENTS DE CLASSE I DIVISION 2 CSA 22 2 No 199 2007 ANSI Z21 20 2007 UL1998 2004 Class 1 Div 2 Grp ABCD IP54 T4A NEMA Typ
101. rated at the factory However there are circumstances where this may be nec essary such as if the door or terminal card was replaced in the field or if the system is very old and has drifted out of calibration Before recalibrating the system it is strongly recommended that you explore all other possible solutions first Be sure to verify that system settings are correct and that the devices attached to the system are calibrated correctly If it is deemed necessary to proceed with recalibrating the PF2100 follow the procedures below carefully Failure to perform the calibration correctly may result in worse performance than if the system had been left alone The PF2100 uses a two point calibration system to provide readings with greater accuracy than a sin gle point offset calibration The first point compensates for any fixed offset in the system and the second point defines the slope If the calibration fails for any reason there is an option in the calibration menu to clear all calibration data CALIBRATING THE THERMOCOUPLES For thermocouples the first calibration point is zero volts which corresponds to the ambient temperature of the terminal block where the thermocouple plugs into the Terminal Card The second calibration point is referenced to a known temperature that is well above the ambient temperature This temperature is typically the hottest temperature at which the system will operate but should not be higher than 1350 C and should n
102. re is only available on the Home Screen while running in Auto Mode It al lows the user to quickly adjust the Process Setpoint using the up and down keys The change takes effect immediately and does not need to be saved by pressing ok If password protection is enabled a pass word will need to be entered before this feature can be used If the Pilot Off and or Low Fire Setpoints are enabled this feature will also adjust them In this case each press of the up or down key will adjust all of these setpoints by 1 degree up or down All other setpoints are not affected by this feature SYSTEM MENUS The System Menus store all of the system settings in an organized fashion These menus are also used to show historical and system status information as well as to provide access to calibration features These menus cannot be accessed while the system is running in Auto Mode Some menus can only be accessed while the system is stopped Some menus require a Level 2 password and others require an optional Level 1 password REVIEW MENU The Review Menu provides a quick way for an operator to check key setpoints and system status acces sible only in Manual Mode FIRMWARE VERSION SCREEN The Firmware Version Screen shows the firmware version of all cards in the system including the Door Card Terminal Card and any installed Expansion Cards WARNING MESSAGES When the system detects a warning condition it will flash a warning message across the bott
103. reater than 5 MMBtuh it is recommended that the low fire feature with two safety shutoff valves be used At least one of these valves should use Proof of Closure This is required in many locations 3 Failure to properly ground the pilot assembly back to the PF2100 s Ion terminal may result in accidental electrocution product damage or simply failure to ignite the pilot 4 The PF2100 generates 20kV 40kV at its high voltage output terminal which can cause cardiac arrest Do not touch or place any object near the ignition coil s high voltage terminal or connected ignition wire while the product is operating Even without making physical contact with the terminal it is possible to draw a spark from several inches away especially if the pilot bracket is not properly grounded 5 Never leave the PF2100 running unattended without the door screws securely tightened down This is to prevent moisture from getting inside of the enclosure and damaging the product Moisture damage to the internal circuitry is not covered by the product warranty if the door has been left open 6 All conduit ports drilled into the PF2100 enclosure must be CSA NEMA Type 4 rated and be sealed in order to maintain the Type 4 rating 2 2 Mounting Considerations The PF2100 is typically mounted near the burner it is controlling or in another location that is both safe and easily accessible The recommended mounting height is 1 5m 5ft above the grou
104. reventing the flame from being lit under unsafe conditions 1 1 Important Safety Information Installation and use must conform to the directions in this manual System must be properly connected to earth ground for effective operation of flame detection circuitry Electrical devices connected to the controller must meet certain electrical standards and be within volt age limits Replacement fuses must be ceramic and of correct rating Avoid unauthorized replacement of the fuse WARNINGS This equipment is suitable for use in class 1 division 2 groups abcd or non hazardous locations only Do not service unless area is known to be non hazardous Do not open when energized EXPLOSION HAZARD Do not disconnect while circuit is live unless area is known to be non hazardous or equivalent EXPLOSION HAZARD Substitution of components may impair suitability for class 1 division 2 FOR ANY QUESTIONS PLEASE VISIT OR CALL US www profireenergy com 1 855 PRO FIRE 1 2 HW amp FW Versioning This version of the manual was written for use with PF2100 systems that have the following hardware and firmware versions ITEM HW VERSION FW VERSION Door Card v1 71 E1 8 206 Terminal Card v1 7 E1 8 206 4 20mA Card v3 0 v4 1 Modbus Card v2 0 v4 1 System hardware and firmware versions can be found printed on separate labels inside of the enclosure on each circuit board Please refer to the Profire Energy Inc
105. rmocouples The PF2100 has three inputs High Temp Proc Temp and Aux Temp By default these signals correspond to the High Temp Thermocouple the Process Thermocouple and the Aux Thermocouple respectively The Process Control setting allows the Process and Aux thermocouples to be swapped This is useful in circumstances that will be explained later HIGH TEMP HIGH TEMP THERMOCOUPLE THERMOWELL 1 THERMOWELL 2 PROCESS THERMOCOUPLE AUX THERMOCOUPLE PROC TEMP AUX TEMP PROCESS CONTROL SETTING ACTS LIKE A DPDT SWITCH PROCESS CONTROL ALGORITHM Internal Software Signals External Physical Connections It is expected that the High Temp Thermocouple and the Process Thermocouple will always be mounted in a common thermowell This is usually accomplished by using a duel element thermocouple The soft ware uses these two thermocouples as a check for each other as a failsafe If the readings from these two thermocouples do not agree within a specified amount of error the system will shut down The High Temp signal is used to protect the burner and other process equipment from being damaged due to excessive heat It cannot be disabled through any combination of process control settings The Proc Temp signal is the primary control signal for Process Control This signal is compared to the Deadband Low Temp Alarm Setpoint Process Setpoint Low Fire Setpoint and the Pilot Off Setpoints in order to control the temperature of t
106. s are used Even small sections of other types of wire can significantly disrupt the measurement 4 If a head connection is used verify that none of the above wiring issues exist there either 5 Check if the thermocouple is defective by trying a different thermocouple that is known to be good or by connecting the suspect thermocouple to a process calibrator 6 Check that the PF2100 is in proper calibration using a process calibrator If not recalibrate the system 6 2 Shutdown Messages The following is a list of messages that may flash on the PF2100 display after the system has shutdown Typically the word SHUTDOWN in large text will flash alternately with one of the messages below These messages indicate the reason that the system last shutdown and can be cleared by pressing the OK key except where noted Use the table below to determine the meaning of these messages This table is organized alphabetically ON SCREEN DESCRIPTION POSSIBLE SOLUTIONS Ambient Temps Not Equal The Ambient Temperature read by the Door Card does not match the one reported by the Terminal Card The door card and terminal card are different temperatures Check to see if one board is being heated by an external source such as direct sun on the door or being mounted on a hot tank Aux High Temp Aux Temp Mode is set to Temp ESD and the Auxiliary Temperature exceeded the High Temp ESD Setpoint Verify proper settings and che
107. s soon as the temperature rises above the Low Temp Alarm Setpoint 4 While Waiting If the system is in a waiting state the status contact will remain closed 5 While Restarting If the flame blows out and the system is in the process of relighting the pilot the status contact will remain closed If the pilot fails to relight within the specified number of relight attempts then the contact will open START INPUT The Start Input Contact is used to remotely stop and start the PF2100 This can be done by connecting it to an output relay on a PLC or to a switch located elsewhere on the site Generally speaking the system will begin running when the contact is closed and will stop running when the contact is open The excep tion to this is when the system shuts down as a result of an alarm condition In this case the contact must be closed to acknowledge the shutdown condition and must then be opened and closed again to restart the system The status contact can give some idea as to whether the system is shutdown However it is not always possible to do so so it is recommended to always start the system using the close open close sequence described above This will always work even if the system is not waiting for a shutdown message to be acknowledged Once the start sequence has been entered the system will start after the purge time has elapsed When the start contact is opened the system will always stop immediately START CONTACT
108. splay shows a Flame Quality of 100 4 After about 5 seconds the display will show Pilot On if the Pilot lit successfully 5 Press the Main Key to open the Main Valve The system will count down the Pilot to Main Delay and then open the Main Valve if the Process Temperature is within the expected range 6 The system will take over turning the valves on and off according to the system settings and the current Process Temperature 7 Press the Mode Key to switch the system into Auto Mode This allows the system to automatically restart from faults specified in the system settings If any of these checks fail consult the troubleshooting section of this guide Automatic Restarts If the Auto Restart feature is enabled the system will attempt to automatically start after a power failure This will only succeed if all alarms are clear Start Contact Option The Start Contact option can be used to start the system from a remote switch located elsewhere on the site or through a PLC output contact 1 If there are any Shutdown Messages showing on the display open the Start Contact and then close it again to acknowledge those messages 2 Open the Start Contact and then close it again to remotely start the system in Auto Mode This will only work if all alarms are clear Modbus Card Option if installed This method can be used to start the system via a remote device over a Modbus RTU network 1 Have the remote de
109. stem is waiting on level input because 4 20mA level input is below the low setpoint 2 Tank level rises above low setpoint System begins running heating tank 3 Tank level rises above the high setpoint the pump turns off and the remote alarm turns on to signal a truck to come and empty the tank 4 An operator arrives on site and begins emptying the tank into a tanker truck The pump turns back on and the alarm turns off 5 The tank level drops below the low setpoint and the level delay timer begins counting down 6 The level delay timer reaches zero after 2 or 20s depending on the Pressure Level Delay setting and the system stops heating the tank and returns to the Waiting on Level state 7 The tank is empty and the tanker truck leaves the site The tank level begins rising again 4 20MA PRESSURE INPUT The 4 20 Pressure Input is used to monitor fuel train pressure in the same way as the Pressure Contacts The behavior and features are identical to those described in the previous Low Pressure Contact and High Pressure Contact sections The difference is that a Pressure Transmitter is used instead of a pair of Pres sure Switches and the setpoints are set via a menu instead of mechanically on the switches When the 4 20 signal is below the low setpoint or above the high setpoint the system will stop When it is between the two setpoints it will run It can be setup to restart from a low event but not from a high event
110. stem settings If the pilot goes out unexpectedly the PF2100 checks to see which mode it is in In Manual mode the system goes straight to shutdown in Auto mode the system goes through Auto Mode Start Up Note that the number of retries varies depending on the reason for pilot being off three for Process Control none for Manual mode and the user defined amount in Auto mode 4 2 Contact Behavior This section discusses the behavior of the PF2100 s input and output contacts and its response to exter nal signals STATUS OUTPUT The Status Output Contact is generally used to remotely determine whether the system is operating nor mally It can be connected to a PLC and used to trigger a remote alarm so that a service technician can be sent to the site in the event of trouble In general the contact will be closed when the system is running and it will be open when the system is not running Five exceptions to this are as follows 1 On Start When the system is first started the status contact will remain open until after the pilot has been successfully lit 2 Alarm Mode If the Alarm Mode setting in menu 4 is No Alarm When Off the contact will remain closed if the system is stopped because the Start Contact is open 3 Low Temp Alarm If the Low Temp Alarm feature is enabled in menu 1 and the Process Temperature is currently below the Low Temp Alarm Setpoint the Status Contact will be open The contact will close again a
111. table provides connection details and a brief description of each terminal TERMINAL EXPECTED CONNECTIONS DESCRIPTION 12 24VDC Input power from a DC source Input power 10VDC 28VDC 5A MAX Common Ground back to DC source Internally connected to EGND EGND Earth Ground 4 20mA Out Proportional Valve positive terminal or PLC 4 20mA positive input This output can be used for either Proportional Valve Control or echoing the Process Temperature to a PLC A resistance of 120 to 250 is expected 4 20mA Out Ground return for the 4 20mA output HighTemp_TC YELLOW High Temp Thermocouple positive lead TYPE K thermocouple must be connected between the and terminals and must not be electrically connected to ground An uninterrupted connection using TYPE K thermocouple wire is required for an accurate reading HighTemp_TC RED High Temp Thermocouple negative lead Process_TC YELLOW Process Thermocouple positive lead Process_TC RED Process Thermocouple negative lead AUX_TC YELLOW Aux Thermocouple positive lead AUX_TC RED Aux Thermocouple negative lead High Fire Main High Fire Main Valve positive terminal Solenoid valves must be connected between the and terminals The negative terminal is not directly connected to ground so a common return wire for the High Fire Low Fire and Pilot valves cannot be used Maximum continuous current is 2A
112. tem one of the boards or the ribbon cable may be faulty If the system runs for a while and then shuts down with this error after a random amount of time the problem is that the flickering of the flame is lining up with the internal self test Usually moving the rod more into the flame will resolve this issue High Pressure The High Pressure Contact remained open for more than 2s after the main valve opened This error can also be triggered by the 4 20 Input Card if the Pressure reading remains above the 4 20 Pressure High Setpoint for 2s after the main valve opened Verify proper settings and check for issues outside the system High Temp The Process Temperature rose above the High Temp ESD Setpoint Verify proper settings and check for issues outside the system High Temp Setpoint Mismatch The Door Card and Terminal Card do not agree on the value of the High Temp ESD Setpoint Reset to factory defaults High Voltage xx x Volts The system voltage remained above the High Voltage Alarm point for 20s or more and Auto Restart is disabled xx x is the voltage reading at the point in time when the shutdown occurred Verify proper settings and check for issues outside the system HT Thermocouple Error The High Temp Thermocouple is open Check wiring Ignite Key Stuck The Ignite Key was held for more than 30s while in manual mode Check for mechanical failure of the key Key Stuck Error xxxx One of the
113. ternal Coil WIRE LENGTHS When wiring the ignition and flame detection circuits the wire length must be carefully considered If the wire lengths are too long the PF2100 may not be able to deliver enough energy to the ignition rod to ignite the pilot The PF2100 may also fail to receive a signal from the flame rod for detecting flame GROUNDING Properly grounding the pilot assembly back to the PF2100 is critical for proper ignition and flame detec tion A ground wire should run from the Ion or EGND terminal of the PF2100 to the pilot assembly This wire can either be connected to a ground screw on the pilot bracket or to the burner housing If connect ed to the burner housing use a multimeter to verify that the burner housing has electrical continuity with the pilot assembly If not another wire must be added to connect it ROD POSITIONING Rod positioning is important for proper ignition and flame detection The ignition rod should be positioned by bending it if necessary so that there is a to gap between it and the front of the pilot nozzle The flame rod should be positioned by bending it if necessary such that 2 to 3 of its length is within the pilot flame Make sure the ignition rod and flame rod are not directly in line with each other Other wise the ignition rod may cast a shadow on the flame rod and cause the system to determine that no flame is present at the flame rod FLAME ANCHORING Flame
114. the on screen value N A N A Cal Aux TC Span Cal AUX TC Span xxC Calibrate Aux Thermocouple span point by applying a calibrated reference then adjust the on screen value N A N A Cal 4 20 Level Zero Calibrate 4 20 LVL Zero Calibrate 4 20mA Level Input zero point by applying a calibrated 4mA reference N A N A Cal 4 20 Level Span Calibrate 4 20 LVL Span Calibrate 4 20mA Level Input span point by applying a calibrated 20mA reference N A N A Cal 4 20 Pressure Zero Calibrate 4 20 PRS Zero Calibrate 4 20mA Pressure Input zero point by applying a calibrated 4mA reference N A N A Cal 4 20 Pressure Span Calibrate 4 20 PRS Span Calibrate 4 20mA Pressure Input span point by applying a calibrated 20mA reference N A N A Cal 4 20 Out Zero Cal 4 20 Out Zero x Calibrate 4 20mA Output zero point by adjusting until a multimeter reads 4mA N A N A Cal 4 20 Out Span Cal 4 20 Out Span x Calibrate 4 20mA Output zero point by adjusting until a multimeter reads 20mA N A N A 3 5 8 Display TC Zero Factors Cal Factors Zero w x y z Thermocouple zero point calibration factors for Debug N A N A 3 5 8 Display TC Span Factors Cal Factors Span w x y z Thermocouple span point calibration factors for Debug N A N A 3 5 8 Display 4 20 PRS Factors 4 20 PRS Factors Z x S y 4 20mA Pressure zero point and span point calibration factors for Debug N A N A 3 5 8 Display 4
115. tical list of all possible Event Log entries including a brief description of their meaning and the associated counter which will increment when that event occurs ENTRY DESCRIPTION ASSOCIATED COUNTER AUTO The system switched to Auto Mode because the user pressed the MODE and OK button AUX ESD The Aux Temp Mode setting is set to Temp ESD and the Aux Temp signal exceeded the Aux Setpoint ESDs ESD The system shut down as a result of the ESD contact being open ESDs FLAME FAIL The pilot went out and could not be relit automatically within the specified number of attempts 3 attempts on initial start user defined for other cases Flame Fails HI PRS ESD The system shut down because the High Pressure Contact was opened or the 4 20mA High Pressure Setpoint was exceeded High Pressure ESDs HI VOLT The system input voltage exceeded the High Voltage Alarm threshold ESDs HT ESD The High Temp ESD Setpoint was exceeded by either Proc Temp or Aux Temp if enabled and caused the system to shutdown ESDs LEVEL ESD The system shut down because the Level Contact was opened or the 4 20mA Low Level Setpoint was dropped below Level ESDs 50 DEAD BAND TEMP EXCEEDS LOW FIRE SETPOINT PROCESS TEMPERATURE STANDARD PROCESS CONTROL LOW FIRE SETPOINT ENABLED CONTROL TEMP DROPS BELOW PROCESS SETPOINT 122 TIME C F MAIN ON MAIN OFF DROPPED HEAT D
116. tion This is done by en abling the Level Event Restart setting in menu 4 The response to the contact opening is delayed by 2s to reject electrical noise that is common on some sites If long periods of severe noise are common on a particular site the delay can be increased to 20s by enabling the Pressure Level Delay feature in menu 4 If this contact is not needed it must be shorted out with the provided jumper or a wire Chart 1 Level Event Restart Disabled LEVEL CONTACT OPEN CLOSED SYSTEM STATE SHUTDOWN RUNNING EVENT LEVEL CONTACT 4 2 3 1 CHART 1 EVENTS 1 System already running with Level Contact closed 2 Level Contact opens timer begins counting down 3 Timer expires System shuts down 4 Level Contact closes system does not restart automatically Chart 2 Level Event Restart Enabled SYSTEM STATE RUNNING RUNNING WAITING ON LEVEL EVENT LEVEL CONTACT LEVEL CONTACT OPEN CLOSED 4 2 3 1 CHART 2 EVENTS 1 System already running with Level Contact closed 2 Level Contact opens timer begins counting down 3 Timer expires System waits for Level to close 4 Level Contact closes system starts running again LOW PRESSURE INPUT The Low Pressure Input is used to monitor fuel train pressure Insufficient fuel pressure may result in the flame burning back into the fuel train causing damage or improper operation A low pressure switch
117. tpoint Low Temp Alarm Setpoint ESDs Ambient Temp Low Fire Setpoint Deadband High Pressure ESDs Voltage Reading Pilot Off Setpoint AUX Setpoint Low Pressure ESDs Commission Date 4 20 High Level Setpoint Level ESDs Location 4 20 Low Level Setpoint Thermocouple Errors 4 20 Pressure Setpoint Terminal Errors 4 20 Low Pressure Setpoint System Errors Flame View Event Log Aux Temp Clear History 4 20 Level Reading 4 20 Pressure Reading Alarms Menu 4 System Startup Menu 5 Control Setup Menu 6 Expansion Cards Auto Restart High Temp ESD Setpoint 4 20 Expansion Card Enable Purge Time Process Control In put 4 20 Level Low Setpoint Pilot to Main Delay Low Fire Enable 4 20 Level High Setpoint Restart Attempts Low to High Fire Delay 4 20 Level Range Level Event Restart Pilot off Enable 4 20 Level Units Pressure Level Delay AUX Temp Mode 4 20 Pressure Low Setpoint Alarm Mode 4 20 Output Mode 4 20 Pressure High Setpoint Password Enable 4 20 Low Fire Setting 4 20 Pressure Range Display Sleep 4 20 Gain Setting 4 20 Pressure Units Pilot Valve Power Setting MODBUS Enable Address Main Valve Power Setting 4 20 Card FW Version System Voltage Setting MODBUS Card FW Version Temperature Display Units Commission Date Entry Commission Location Entry Rest to Factory Defaults SETPOINTS MENU 1 This menu is used t
118. ts 3 TECHNICAL SPECIFICATIONS TEMPERATURE RATINGS MIN MAX Operating Range 40 C 40 F 55 C 130 F Storage Range 40 C 40 F 80 C 176 F POWER CONSUMPTION 12V 24V Controller only display ON 2 6 W 2 9 W Controller only display OFF 1 1 W 1 2 W Maximum Total Current Draw 5A 5A Maximum Valve Current Draw 2A 2A Ignition Voltage Internal Coil up to 20 kV up to 40 kV TERMINAL BLOCKS VALUE Maximum Wire Gauge 12 AWG STATUS CONTACT VALUE Type Dry MAX Voltage 40VDC MAX Continuous Current 250mA Impedance When Closed 15 PHYSICAL DIMENSIONS VALUE Width 30 9 cm 12 15 in Height 23 4 cm 9 23 in Depth 13 4 cm 5 28 in WEIGHT VALUE E0000 Model 4 0lbs 1 8kg E0400 Model 4 5lbs 2 0kg E0M00 Model 4 5lbs 2 0kg EC000 Model 6 0lbs 2 6kg FUSES VALUE Main Fuse Rating 5A 250 V Ceramic Fast Blow Status Contact Fuse Rating 250mA 125V Ceramic Fast Blow Replacement Main Fuse LittelFuse 0314005 HXP Replacement Status Contact Fuse LittelFuse 0453 250 or 0451 250 1 6 Common Applications amp Optional Hardware Below are examples of some of the many applications that the PF2100 can be used in Line Heater Dehydrator Combustor Tank Heater Separator Treater Gas Production Unit Amine Reboiler Thermal Oxidizer Depending on your installation type other components may be required Commonly requested hardware includes
119. used instead of a Level Switch and the Low Level setpoint is set via a menu in stead of the physical position of the switch on the tank When the 4 20mA signal is below the Low Level setpoint the system will stop When it is above the setpoint the system will run The 4 20mA Expansion Card also has a pair of High Level Output Contacts which toggle when the Level Input exceeds the Level High Setpoint One contact is normally open and the other is normally closed Normally in this case means when the level is below the high setpoint The normally closed contact could be used to turn off the pump that is filling the tank and the normally open contact could be used to sound a remote alarm to signal that the tank is full To use the 4 20mA Level Input it must be setup as follows 1 Attach a properly calibrated Level Transmitter to the 4 20 Level Input 2 Enable the Level DIP Switch on the 4 20 Card 3 Enable the 4 20 Card in menu 6 4 Set the Level Low Setpoint High Setpoint Range and Units in menu 6 5 Disable the Level Contact by installing a jumper in it SYSTEM STATE WAITING WAITING RUNNING TIMER Max 0s PUMP NC CONTACT CLOSED 4 20 LEVEL 20mA LEVEL LOW SP LEVEL HIGH SP 4mA EVENT HIGH LEVEL OUTPUT CONTACTS ALARM NO CONTACT OPEN CLOSED OPEN 2 4 5 6 7 3 1 CHART 1 EVENTS 1 System started with tank empty Pump starts filling tank Burner is off and sy
120. vice write 1234 to the 40100 register to place the system into Auto Mode 2 Set the remote device to poll the 40100 register and wait for it to clear to zero This indicates that the system has processed the command 3 Set the remote device to poll the 10001 register and wait for it to change to 1 This indicates that the system is running STOPPING THE SYSTEM There are five different ways to stop the system Stop Key Option This is the most common way to stop the system 1 Press the Stop key The system will stop immediately Auto Key Option This method of stopping the system is used during the initial installation when testing the pilot valve main valve ignition circuit and flame detection circuitry in a slow sequence 1 Press the Mode Key to switch the system into Manual Mode This prevents the system from automatically restarting from faults specified in the system settings 2 Press the Main Key to close the Main Valve and disable process control 3 Press the Pilot Key to close the Pilot Valve and stop the system Start Contact Stop The system can be stopped us the same remote switch or PLC output as with starting the system using the Start Contact input 1 Open the Start Contact and leave it open The system will stop immediately Shutdown Conditions Whenever any shutdown condition is present the system will stop and stay stopped until the condition is removed and the fault is acknowledged S
121. w the Pressure Low Setpoint while the system was running with the Auto Restart feature disabled Verify proper settings and check for issues outside the system Expansion Card Error 4 20 Exp Card 4 20 PRS Open The 4 20mA Pressure Input is open reading below 3 75mA Check wiring Expansion Card Error 4 20 Exp Card Card Fail The 4 20mA Expansion Card is not responding This may indicate that the card is not installed correctly or that the feature is enabled when the card is not present Expansion Card Error Modbus Card Card Fail The Modbus Expansion Card is not responding This may indicate that the card is not installed correctly or that the feature is enabled when the card is not present Flame detected before start Flame was detected prior to the system igniting the pilot This may indicate a leaky valve inadequate purge time or a faulty Terminal Card Flame Fail The system failed to ignite the pilot within the allocated number of retry attempts See the Flame Detection Troubleshooting section Flame Rod Test Error Adjust Flame Rod Position The Flame Rod or associated wiring may be shorted to ground thus preventing it from properly detecting flame If the error shows up immediately and does not allow you to start the system remove the 4 pin terminal block to the ignition coil and try starting again If you can start the system there is a wiring problem If you cannot start the sys
122. website for the latest documentation 1 3 Approvals CSA 22 2 No 199 2007 ANSI Z21 20 2007 UL1998 2004 Class 1 Div 2 Grp ABCD IP54 CSA Type 4x CSA C22 2 No 0 M91 CSA C22 2 No 0 4 04 CSA C22 2 No 94 91 CSA C22 2 No 142 M1987 CSA C22 2 No 213 M1987 CSA E60079 0 2007 CSA E60079 15 2005 UL 508 17th Edition ANSI ISA 12 12 01 2007 UL 60079 0 2005 UL 60079 15 2002 248705 1 4 Available Models The PF2100 is available in two configurations Base Model and Internal Coil Model The Base Model is for use with externally mounted ignition coils This is useful when the controller must be mounted more than 5m 15ft away from the burner An external ignition coil can be purchased sepa rately from Profire for use with this model The Internal Coil Model includes a built in ignition coil and can be used whenever the controller can be mounted less than 5m 15ft away from the burner Optional expansion cards are also available 4 20mA Expansion Card 1PS166 Modbus Expansion Card 1PS167 BASE MODELS MODEL MODEL DESCRIPTION E0000 Base Model E0400 Base Model with 4 20mA Expansion Card E0M00 Base Model with Modbus Expansion Card E04M0 Base Model with 4 20mA Expansion Card and Modbus Expansion Card INTERNAL COIL MODELS MODEL MODEL DESCRIPTION EC000 Internal Coil Model EC400 Internal Coil Model with 4 20mA Expansion Card ECM00 Internal Coil Model with Modbus Expansion Card EC4M0 Internal C
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