Fireye BurnerLogiX YB110 Manual
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Fireye BurnerLogiX YB110 Manual

Microprocessor-based integrated burner management control
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®
BL-1001
August 7, 2018
®
YB110/YB230 FIREYE
BurnerLogiX
MICROPROCESSOR-BASED
INTEGRATED BURNER
MANAGEMENT CONTROL
APPROVED
DESCRIPTION
®
The Fireye
BurnerLogix™ System is a microprocessor based burner management control system
designed to provide the proper burner sequencing, ignition and flame monitoring protection on auto-
matically ignited oil, gas, and combination fuel burners. In conjunction with limit and operating con-
trols, it programs the burner/blower motor, ignition and fuel valves to provide for proper and safe
burner operation. Through SMART LED'S, the control provides current operating status and lockout
information in the event of a safety shutdown. Optional VFD and LCD displays are available that
may be either plugged in or mounted remotely to give full language descriptors of current status and
diagnostic lockout information. Refer to BurnerLogix PROGRAMMER SELECTION later in this
document for the various combinations of programmer and display modules.
A complete BurnerLogix system includes the YB110 (YB230) chassis equipped with the type of
flame amplifier required for the application, appropriate flame detector, plug-in programmer mod-
ule, wiring base and optional alpha-numeric display. Interchangeable programmer modules allow for
complete versatility in selection of function, timing and flame failure response times.
The optional alpha-numeric display has 2 lines by 16 characters per line. It is available in either vac-
uum fluorescent or liquid crystal formats. The advantage of VFD is high brightness and extended
temperature range down to –40°F. Both displays contain a fully functional keypad. You can easily
scroll through the various menus to view the current operating status, review programmer configura-
tion, and lockout history. When mounted remotely, the displays provide NEMA 4x(IP66) protection.
An advantage of the BurnerLogix control family is the ability to set many of the operating parame-
ters associated with proper and reliable burner operation allowing inventory of various programmer
types to be kept to a minimum.
The YB110 (YB230) is a chassis/flame amplifier module complete with mounting screws and blank
display module. The display module (BLV512 (vfd) or BLL510 (lcd)), if required, must be ordered
separately. Interchangeable YP programmer modules allow for complete versatility in selection of
control function, timing, and flame scanning means. Functions such as pre-purge time, recycling or
non-recycling interlocks, high fire proving interlock, and trial for ignition timing of the pilot and
main flame are determined by the programmer module. The BurnerLogix system can be used with
ultra-violet, auto-check infrared, flame rod, self-check ultra-violet flame scanners or direct coupled
integrated scanners by choosing the proper chassis/flame amplifier module.
1

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  • Page 1 ® BL-1001 August 7, 2018 ® YB110/YB230 FIREYE ™ BurnerLogiX MICROPROCESSOR-BASED INTEGRATED BURNER MANAGEMENT CONTROL APPROVED DESCRIPTION ® The Fireye BurnerLogix™ System is a microprocessor based burner management control system designed to provide the proper burner sequencing, ignition and flame monitoring protection on auto- matically ignited oil, gas, and combination fuel burners.
  • Page 2  Wiring bases for the BurnerLogix control are available pre-wired with 4 foot (1.2m) lead wires color coded and marked for easy installation or with an integral terminal block capable of a accepting up to 2 X 14 AWG wires. The wiring base terminal block is available with knockouts for conduit or open ended for cabinet mounting.

  • Page 3: Table Of Contents

    ® TABLE OF CONTENTS BURNERLOGIX SPECIFICATIONS ............. . PART NUMBERS AND APPROVALS .
  • Page 4  Table of Figures FIGURE 1. BURNERLOGIX ORDERING INFORMATION ............FIGURE 2.

  • Page 5: Burnerlogix Specifications

    ® ..BURNERLOGIX SPECIFICATIONS Supply Voltage: YB110 120 VAC (+10%, -15%) 50/60 Hz YB230 230 VAC (+10%, -15%) 50/60 Hz Power Consumption: 25 VA Temperature Rating: -40°C (-40°F) to +60°C (140°F) Protection Category: YB110 (YB230) control NEMA 1 (IP01) Display, remote mounted NEMA 4X (IP66) Unit Dimensions: Wiring base 60-2810-1 - 4.0"...

  • Page 6: Table 2: Load Ratings

     Table 2: LOAD RATINGS Terminal Typical Load A. Maximum Rating B. Maximum Rating C. Alternate Rating @120V-50/60 Hz @230V-50/60 Hz Burner/Blower Motor 9.8 F.L.A. * 4.0 F.L.A. * 240 VA Pilot Duty 58 L.R.A. 20 L.R.A. (Motor Starter Coil) 10-11-12-X Modulator 125 VA Pilot Duty...
  • Page 7 ® APPROVALS Underwriters Laboratories Inc.: MCCZ File MP1537 Controls, Primary Safety - Listed MCCZ2 File MP1537 Controls, Primary Safety - Component MCCZ7 File MP1537 Controls, Primary Safety Certified for Canada MCCZ8 File MP1537 Controls, Primary Safety Certified for Canada - Component Factory Mutual: Approved Acceptable by:...

  • Page 8: Part Numbers And Approvals

     PART NUMBERS AND APPROVALS Table 3: AGENCY APPROVALS BurnerLogix Chassis/Flame Amp. Module APPROVED YB110UV YB110UVSC YB110IR YB110IR2 YB110FR YB110DC YB230UV YB230UVSC YB230IR YB230IR2 YB230FR YB230DC BurnerLogix Programmer Module YP100 YP102 YP138 YP118 YP183 YP200 YP202 YP300 YP302 YP113 YP115 BurnerLogix Displays BLV512 BLL510...

  • Page 9: Ordering Information

    ® Table 4: APPLICABLE BULLETINS Programmers, Non-recycle Operation Programmers, Recycle Operation YP-1001 Programmers, Non-modulating Displays BD-5001 Wiring base installation, 60-2810-1 133-676 Wiring base installation, 60-2812-1 133-677 Wiring base installation, 60-2814-1 133-677 Table 5: ORDERING INFORMATION BurnerLogix Chassis/Flame Amplifier Module YB110UV 120 VAC input with UV non self-check amplifier YB110UVSC 120 VAC input with UV self-check amplifier...

  • Page 10: Table 7: Burnerlogix Displays

    IT1000 Alarm annunciation system using wireless technology PPC6000 Parallel Positioning System 61-5745-3 Shutter drive assembly for redundant self-check scanners Table 10: SCANNER SELECTION FIREYE P/N DESCRIPTION USE WITH CHASSIS BULLETIN 48PT2-1003 Infrared 1/2" straight mount 96"(2438mm) TC-ER cable 48PT2-9003 Infrared 1/2" 90° angle mount 96" (2438mm) TC-ER cable...
  • Page 11 ® Table 10: SCANNER SELECTION (Continued) FIREYE P/N DESCRIPTION USE WITH CHASSIS BULLETIN 85UVF4-1QDWR Phoenix Integrated Scanner, 4 sec FFRT – Ultra-violet with 8-pin electri- cal quick disconnect. FM, UL_CUS approved. 85UVF4-2QDWR Fiber optic version of standard Phoenix Integrated Scanner, 4 sec FFRT –...

  • Page 12: Figure 1. Burnerlogix Ordering Information

     FIGURE 1. BURNERLOGIX ORDERING INFORMATION CHASSIS/AMPLIFIER 120 VAC, 50/60 Hz YB110UV YB110UVSC YB110IR YB110FR YB110DC 230 VAC, 50/60 Hz YB230UV YB230 UVSC YB230IR FRONT VIEW SIDE VIEW (WITH OPTIONAL DISPLAY INSTALLED) (WITH OPTIONAL PROGRAMMER AND DISPLAY INSTALLED) DISPLAY MODULE PROGRAMMER MODULE YP100 BLV512 - VACUUM FLUORESCENT...

  • Page 13: Installation Procedure

    ® INSTALLATION PROCEDURE WIRING BASE Select either the pre-wired wiring base (60-2810-1) or terminal block style (60-2812-1, 60-2814-1). Either wiring base type can be mounted on a din rail or directly mounted to the cabinet back plate. Refer to Figure 2 for mounting dimensions. FIGURE 2.
  • Page 14  INSTALLATION PROCEDURE WIRING BASE Install the wiring base where the relative humidity never reaches the saturation point. The Burner- Logix system is designed to operate in a maximum 90% relative humidity continuous, non-condens- ing environment. Do not install the BurnerLogix system where it can be subjected to vibration in excess of 0.5G continuous maximum vibration.

  • Page 15: Figure 3. Yp110 Programmer

    ® INSTALLING THE YP PROGRAMMER MODULE FIGURE 3. YP110 PROGRAMMER The YP programmer module plugs into the side of YP100 the YB110 (YB230) chassis module. They can only be installed in one direction. DO NOT ATTEMPT TO FORCE THE YP PROGRAM- MER INTO THE CHASSIS.

  • Page 16: Table 12: Burnerlogix Programmer Selection

    MENDED THAT AN "IR LEARN" OPERATION BE PERFORMED TO GUARANTEE RELIABLE OPERATION. REFER TO IR LEARN SECTION FOR MORE INFORMA- TION. Table 12: BURNERLOGIX PROGRAMMER SELECTION Proven Proven Terminal 6, FIREYE Pre-purge High Fire Low Fire Interrupted Early Spark PART...

  • Page 17: Ptfi*Mtfi Timings

    ® Table 12 Continued FIREYE PTFI PTFI PILOT MTFI MTFI Running Flame Firing PART (5/6) (W/6) PROVING (5/6) (W/6) Interlock Fail Time Rate NUMBER 6 Only (3-P) (Seconds) Motor SETTINGS SHOWN ARE FACTORY DEFAULT YP100 10/10 10/15 Non-recycle YP102 10/10...

  • Page 18: Led Indicator Lights

     The selections provided for PTFI*MTFI timings are: Table 13: PILOT AND MAIN TRIAL FOR IGNITION TIMING SELECTION PTFI MTFI COMMENT Term 5 Term 6 Term 5 Term 6 10/10*10/15 5/5*0/10 NO SPARK DURING MTFI 5/5*0/5 NO SPARK DURING MTFI 5/5*10/15 SHORTENED PTFI 5/5*10/10...

  • Page 19: Replaceable Fuse

    Using an appropriate tool, remove the defective fuse and discard. Install a Fireye replacement fuse (P/N 23-197). Re-install the BurnerLogix control in accordance with the installation procedure detailed in a previous section.

  • Page 20: Description Of Functions Of Operating Controls

     OPERATING CONTROL FUNCTIONS Operating Controls: Pressure or temperature activated, the operating control closes, causing the burner start-up sequence to begin. When the operating control opens, the burner shuts off. The operating control is connected in the L1-3 circuit on the wiring base. Limit Switches: These are pressure, water level or temperature activated a.

  • Page 21: Keypad Description

    ® FIGURE 4. KEYPAD DESCRIPTION The NEXT key is used to scroll down through the various menus. It is used to increment in the modify mode. The BACK key is used to scroll up through the menus. It is also used to decrement the value when in the modify mode.

  • Page 22: Program Set Up Sub-Menu

     PROGRAM SET UP SUB-MENU The sub-menu "PROGRAM SETUP" allows the user to review the various operational settings of the programmer module (e.g. programmer type, purge timing, etc.) and in some instances modify the operational parameters to suit the application requirement. Use the MODE key to enter and exit the sub-menu.

  • Page 23: To View And Modify A Programmable Parameter

    ® Table 15: MODIFIABLE PARAMETERS LOCATED IN PROGRAM SETUP MENU Parameter Factory Default Range Description Purge time 00:30s 0:00s – 60:00m, 1 second Applies to open damper purge time in YP1XX and YP2XX pro- increments. grammers and low fire start time in YP3XX programmers 0:00s-60:00m, YP113 0:00s-60:00m, YP115 Note: 0 sec purge requires a display with Engr code 9 or higher...

  • Page 24: Flame Scanners

    72 inches, closer if possible. Select a scanner location that remains within the ambient temperature limits of the UV Scanner. If cooling is required, use an insulating coupling (Fireye #35-69 for UV1A, UV2 Scanners, #35- 127-1 for 45UV5) to reduce conducted heat.

  • Page 25: Operation - 45Uv5 & 55Uv5 Self-Checking Uv Scanner

    Use l/2" x 1 l/2" pipe nipple between UV1A Scanner and the coupling. Use 3/8" pipe nipple and a l/2" x 3/8" bushing on UV2 installations. Request the assistance of any Fireye field office for recommendations of a proper scanner instal- lation on a non-standard application.

  • Page 26: Wiring - Uv Scanners

     FIGURE 10. UV SELF CHECK SCANNER OPERATION SHUTTER OPEN 3.7 SEC. SHUTTER CLOSED 0.4 SEC. TIME WIRING - UV SCANNERS To connect the scanner to the control, the UV1A Scanner is supplied with either 36"(.9m) or 72" (1.8m) of flexible cable. The 45UV5 is supplied with four 72” (1.8m) lead wires. Install them in a suitable length of flexible armor cable and connect it to the control.

  • Page 27: Operation - Ir Learn

    ® FIGURE 11. SCANNER INSTALLATION SCANNER TARGET SCANNER MUST NOT ABOVE REFRACTORY SIGHT REFRACTORY SCANNER LINE-OF-SIGHT COMBUSTION CHAMBER MAIN CENTER LINE BURNER OF MAIN FLAME PILOT BURNER SCANNER SIGHTING TUBE SCANNER WIRING Attach the cable supplied with the scanner to a junction box. Splice the cable wires to a pair of wires not smaller than #l8.
  • Page 28  The LEARN process is not subject to the 8 hour burn-in and therefore will always be available. If the LEARN process is activated at STANDBY, the LEARN process will involve both pilot and main flame. If the LEARN process is activated during the main firing period (AUTO) the LEARN process will only involve the main flame learn.

  • Page 29: Installation - 69Nd1 Flame Rod

    Use 6" to 8" (152.4mm x 203.2mm) length of pipe between scanner and hot furnace front plate. Use an insulating tube (P/N 35-69) on the end of the iron pipe. Force air into the sighting tube. Use Fireye Sealing Union (P/N 60-801). Make sure your sighting tube does not extend more than halfway into refractory wall.

  • Page 30: Installation - 85 Series Phoenix Scanner

    Fireye Phoenix 85UVF self-checking scanners are used to detect 295 to 340 nanometers wavelength ultraviolet emissions. Fireye Phoenix 85IRF self checking scanners are used to detect 830 to 1100 nanometers wavelength infrared emissions. Fireye Phoenix scanners are suited for application to duct burners, industrial gas/oil burners, refinery applications, ignition systems and Low NOx detection and for continuous or non-continuous burner operation.

  • Page 31: Figure 13. Burnerlogix Tyb110Dc/Yb230Dc With 85Uvf4-1Qdwr Scanner

    ® BMS = Burner Management System (by others). Do not use Red as 24 volt ground. External 2.0 Amp fuses recommended. A safety ground screw is provided on the scanner end plate. An external ground wire must be installed if line voltage is applied to the relay contacts. Table 16: PHOENIX SCANNER CABLE COLOR CODE NEW 59-546 CABLE COLOR CODE...

  • Page 32: Installation - 95 Series Insight Scanners

    21 choices of flame flicker frequency, a total of four selectable programmable files to store setpoints, plus adds remote communication capability via Fireye Windows 95/98/NT user software. All FIREYE InSight scanner models are powered by 24 Vdc and contain electronic self-checking (no mechanical shutter required). The scanners contain an eight character alpha-numeric LED display and a four (4) push-button keypad to enable the user to view operating parameters and select set- points.

  • Page 33: Figure 14. Insight Wiring Diagram

    ® FIGURE 14. INSIGHT WIRING DIAGRAM TYPE 95IR/95UV/95DS QUICK-DISCONNECT FIREYE CABLE 59-497-020xx-WR PIN NUMBER COLOR CODE BLACK/RED INPUT 24 VDC POWER INPUT WHITE/BLUE POWER 24VDC WHITE/BLACK FLAME REFER TO RELAY (Note 1) CONFIGURATION DIAGRAMS ON FAULT WHITE/RED FOLLOWING PAGES RELAY...

  • Page 34: Figure 15. Connect Burnerlogix & Insight I

     FIGURE 15. CONNECT BURNERLOGIX & INSIGHT I (WR= with resistor) CABLE GLAND FLEX CONDUIT CONNECTORS CONNECTORS...

  • Page 35: System Info Sub-Menu

    Refer to the suggestions shown in this bulletin before proceeding to power the Fireye YB110 (YB230) BurnerLogix system. Items such as scanner installation, short circuit tests and safety infor-...

  • Page 36: Yp100 Operating Sequence

     FIGURE 17. YP100 OPERATING SEQUENCE Terminal PTFI MTFI AUTO Post STANDBY Purge Operating control Cycle complete Air flow (terminal P) must close within 10 seconds of HFS (M-8) closing Valve closes in one second 13 (POC) Proof of valve closure Don't care state X (HI) Purge Complete...

  • Page 37: Start-Up (Normal Cycle)

    ® START-UP (NORMAL CYCLE) Note: For direct spark ignited oil burners, substitute the words Main-Oil Valve for Pilot Valve. Constant 120 VAC must be available to the Ll-L2 terminals only on the wiring base. The operating control circuits (Ll-3) will close, signaling the burner to start its firing sequence. Terminal 13, fuel valve end switch must be closed.
  • Page 38  PTFI FLAME SIGNAL With flame proven at the end of PTFI, the main flame trial for ignition (MTFI) period begins. Terminal 7 is energized. The BLV512 displays: MTFI FLAME SIGNAL Terminal 5 is de-energized 10 seconds later and Terminal 6 is de-energized after another 5 seconds. The firing rate motor is sent to the automatic modulation position (10-11 circuit made) and is under the command of the proportional controller.

  • Page 39: Yp200 Operating Sequence

    ® FIGURE 18. YP200 OPERATING SEQUENCE OPEN DAMPER PURGE PTFI MTFI AUTO Post Purge (begins after terminal M energized or cycle start) Operating control Cycle complete Air Flow (terminal P) must close within 20 seconds of cycle start 13 (POC) Proof of valve closure Programmable time begins (30 sec minimum) Don't care state...

  • Page 40: Yp300 Operating Sequence

     FIGURE 19. YP300 OPERATING SEQUENCE Programmable Purge Time PTFI MTFI AUTO Post Purge Operating control Programmable Post Purge Cycle complete 13 (POC) Proof of valve closure Don't care state X (HI) 5 s Ignition 12 (LO) 11 (Auto) 6 (PV) 10 s 15 s Usually Intermittent...

  • Page 41: Figure 20. Burnerlogix Wiring Diagram

    ® FIGURE 20. BURNERLOGIX WIRING DIAGRAM SUGGESTED WIRING DIAGRAM FOR YP100/YP200 PROGRAMMERS Note: When Flame Rod is used jumper S2 to grounding screw in cabinet NON-RECYCLING T∞ RECYCLING INTERLOCKS RUNNING INTERLOCKS FUEL VALVE END SWITCH SCANNER TERMINALS BURNERLOGIX SYSTEM CONFIGURATION Disconnect Means and Overload...

  • Page 42: Yp138 Programmer

     FIGURE 21. YP300 WIRING DIAGRAM SUGGESTED WIRING DIAGRAM FOR YP300 PROGRAMMERS NON-RECYCLING T∞ RECYCLING INTERLOCKS Note: When Flame Rod is used RUNNING INTERLOCKS jumper S2 to grounding screw in cabinet FUEL VALVE END SWITCH SCANNER TERMINALS BURNERLOGIX SYSTEM CONFIGURATION YP300 SERIES 11 12 LOW FIRE...

  • Page 43: Figure 22. Yp138 Wiring Diagram

    ® FIGURE 22. YP138 WIRING DIAGRAM SUGGESTED WIRING DIAGRAM FOR YP138 PROGRAMMER Note: When Flame Rod is used NON-RECYCLING jumper S2 to grounding screw in RECYCLING INTERLOCKS RUNNING INTERLOCKS cabinet START* PILOT* FUEL VALVE HOLD INPUT END SWITCH SCANNER TERMINALS BURNERLOGIX SYSTEM CONFIGURATION Disconnect Means and...
  • Page 44  Terminal 21 holds the system indefinitely at the end of low fire start. When opened (off) terminal 21 starts pilot trial for ignition. If the count down method is set, at the end of a low fire start period the display indicates: HOLD 00:00...
  • Page 45 ® Notes on operation: While in AUTO or RUN mode, once the action started by T16 begins, it cannot be reversed by opening T16. At the conclusion of PTFI, if T16 is open, the control advances through MTFI to AUTO. If START INPUT (T21) and PILOT HOLD (T16) are both active in AUTO, T16 has priority and revert to pilot starts.

  • Page 46: Lockouts

     LOCKOUTS When a safety shutdown occurs, the control indicates through the LED’s the reason for the lockout. If equipped it displays a lockout message and when in the cycle the lockout occurred. The alarm cir- cuit (Terminal “A”) is energized. The non-volatile memory remembers the status of the control even if a power failure occurs.

  • Page 47: Diagnostic Messages

    ® Table 17: DIAGNOSTIC MESSAGES MESSAGE POSSIBLE CAUSE SOLUTION No programmer module plugged Remove power, insert programmer, press reset to clear fault CHECK into YB chassis/amplifier module PROGRAMMER Defective programmer module Remove power, replace programmer module Relay feedback error caused by Check all wiring, Re-inspect routing of all wires CHECK CHASSIS bad wiring...

  • Page 48: Lockout Codes

     LOCKOUT CODES During an alarm condition, the Alarm LED is made to flash at approximately a twice per second rate. The remaining LED’s are illuminated as a coded sequence identifying the reason for the lockout. This remains true if power is removed and then restored in a locked out condition. Table 18: LED LOCKOUT CODES LED DISPLAY READOUT ...

  • Page 49: Lockout History Sub-Menu

    ® LOCKOUT HISTORY SUB-MENU The sub-menu "LOCKOUT HISTORY" displays the last ten (10) lockouts, along with the burner cycle and burner hour when the lockout occurred. When the MODE key is pressed, the screen dis- plays the most recent lockout condition and the number of that lockout (e.g. LO #10 represents the 10th lockout of that control).

  • Page 50: Communications

     COMMUNICATIONS The protocol to be used is Modbus RTU. This is implemented by the master (PC, PLC, etc.) issuing a poll to the slave (BurnerLogix) and the slave responding with the appropriate message. A typical format of a poll request is as follows: Table 19: MESSAGE FORMAT DST refers to the logical address of the slave.

  • Page 51: Modbus Message Table

    10th Most Recent Lockout Data 40076 • • • • • • 40079 40080 • • Reserved for Fireye use • • • • 40090 INTERLOCK ANNUNCIATOR 40901 1 - 3 Returns lower, middle and upper interlock annunciator (YZ300) registers. YZ300 Expansion Module registers...

  • Page 52: Inputs

     To convert, multiply high word by 10000H (65536), add to this high byte of low word multiplied by 100H (256) and add to this the low byte of low word. Example: (98H*10000H) + (96H*100H) + 7FH = 98967FH = 9,999,999 minutes. As an example, the System on Minutes data is transmitted from the BurnerLogix to the interface as high word / low word as shown below: The same applies to Burner On Minutes and Burner Cycles.

  • Page 53: Figure 25. Default Wiring For Yz300 Interlock Annunciator

    ® Table 23: YZ300 YZ300 LOWER (40901) – REFER TO BULLETIN YZEM-3001 Bit 7 Bit 0 Term 47 Term 46 Term 44* Term 43 Term 3 Term 42 Term 41 Term 40 Low Oil Temp High Oil Low Water High Water Aux #3 Aux #2 Aux #1...

  • Page 54: Explanation Of Logstat

     EXPLANATION OF LOGSTAT LOGSTAT is an indication of what logic module the control is currently operating in during its cycle and is used for diagnostic purposes only. If a lockout occurs the current value of LOGSTAT is stored as part of the lockout information. The message displayed corresponds to the current logic module. Table 24: LOGSTAT LOGIC DISPATCHER VALUE...

  • Page 55: Burnerlogix Messages

    ® Table 25: BURNERLOGIX MESSAGES BURNERLOGIX MESSAGES T16 M-D LIMIT OPEN - AUTO HOLD FALSE FLAME- STANDBY LOW FIRE PURGE HOLD M-8 LIMIT OPEN- PURGE See Interlock Annunciation Message Table T16 M-D LOW LIMIT - AUTO LOCKOUT FLAME FAIL - PTFI T16 INPUT HOLD M-D LIMIT OPEN IGNITION TIMING - PTFI...

  • Page 56: Table 26: Diagnostic Messages

     Table 26: DIAGNOSTIC MESSAGES BURNERLOGIX MESSAGES SYSTEM DIAGNOSTIC MESSAGES LOCKOUT CHECK CHASSIS LOCKOUT CHECK PROGRAMMER See Interlock Annunciation Message Table LOCKOUT CHECK EXPANSION MODULE LOCKOUT CHECK WIRING LOCKOUT CHECK FUSE LOCKOUT CHECK SCANNER PURGE INTERLOCK RELATED MESSAGES HOLD M-8 LIMIT CLOSED LOCKOUT M-8 LIMIT CLOSED HOLD M-D LIMIT CLOSED LOCKOUT M-D LIMIT CLOSED...

  • Page 57: Interlock Annunciator

    ® Table 27: ANNUNCIATOR MESSAGES INTERLOCK ANNUNCIATOR STATE TERMINAL YZ300 INTERLOCK ANNUNCIATOR LOCKOUT MESSAGES HIGH WATER 3-43 LOW WATER 43-44 HIGH GAS PRESSURE 51-52 LOW GAS PRESSURE 50-51 AUX GAS 52-54 LOW OIL PRESSURE 47-48 HIGH OIL TEMPERATURE 44-46 LOW OIL TEMPERATURE 46-47 LOW ATOMIZING MEDIA 48-50...

  • Page 58: Operational Features

     OPERATIONAL FEATURES 4-20 mA TEST JACKS FIGURE 26. BOTTOM VIEW 4-20 mA JACKS 470%*- 470%*- For all amplifier types, the BurnerLogix provides 4-20 mA test %1//5 %1//5 jacks to represent the flame signal strength. The test jacks are located on the underside of the YB module (pictured at right). The ‘+’...

  • Page 59: Check-Run Switch

    ® CHECK-RUN SWITCH FIGURE 28. CHECK RUN SWITHCH 470%*- 470%*- The Check-Run switch is located on the underside of the YB %1//5 %1//5 Chassis Module (note drawing Fig. 28) and can be used to stop the control in its firing sequence at any time in the burner sequence.

  • Page 60: Operational Test

     OPERATIONAL TEST (BURNER COMMISSIONING) WARNING: Before testing the Burnerlogix operation on the boiler, close the manual main shut-off fuel valve. Failure to do this may cause injury or property damage. Close the manual main shut-off fuel valve. Recheck all limit circuit wiring for proper operation and correct connection. Confirm that the automatic main fuel valves are wired to terminal “7.”...
  • Page 61 ® When UV flame detection is used, a test is required to verify that UV radiation from the ignition spark is not being detected. To accomplish this, manually shut off both pilot and main fuels. Ini- tiate a normal start-up, and when the PTFI display comes on, observe the display which should read no signal more than 4.

  • Page 62: Suggested Grounding Rules

     FIGURE 29. PILOT FLAME TEST REFRACTORY REFRACTORY REFRACTORY MAIN MAIN MAIN FLAME FLAME FLAME PILOT PILOT PILOT FLAME FLAME FLAME MAIN MAIN MAIN BURNER BURNER BURNER PILOT PILOT PILOT BURNER BURNER BURNER SCANNER SCANNER SCANNER INSUFFICIENT PILOT MINIMUM PILOT NORMAL PILOT Scanner Wiring Take care to see that ignitor cables and scanner cables are routed away from one another on all instal-...

  • Page 63: Maintenance

    4 or 8 foot cable. Care must be taken not to route the ED580 cable in close proximity to any starter motor contactors located in the control panel or across any high voltage ignition wires. Refer to Fireye bulletin E-8002 for proper installation.
  • Page 64 Fireye warranty, as stated in its General Terms and Conditions of Sale, pertains only to the Fireye products and not to any other equipment or to the combined system or its overall performance.

This manual is also suitable for:

Burnerlogix yb230Burnerlogix yb230dc

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