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Honeywell 4022 System Manual

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Precision Platform 4022 Scanner
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Summary of Contents for Honeywell 4022

  • Page 1 Honeywell Precision Platform 4022 Scanner System manual...

  • Page 2: Confidentiality Statement

    All information and specifications contained in this manual have been carefully researched and prepared according to the best efforts of Honeywell, and are believed to be true and correct as of the time of this printing. However, due to continued efforts in product improvement, we reserve the right to make changes at any time without notice.
  • Page 3 Introduction The purpose of this manual is to provide an explanation of maintenance of the Precision Platform 4022 Series Scanners. This manual documents the maintenance of:  Scanner Frame  Heads  Communications  Power Distribution Assembly  Precision Measurement Processor (PMP)
  • Page 4 • A Termination PCB that provides a central termination point for the power tracks and scanner control cables, and signal conditioning for analog and digital I/O A Model 4610-00 Remote Universal Precision Measurement Processor (UPMP) for 4022-33 , including: • A computer that acquires, processes, and transmits data between the scanner and the Da Vinci Server •...
  • Page 5 Figure 1-1 Precision Platform 4022-33 Scanner...
  • Page 6 Scanner Support Processor. A typical configuration of the Precision Platform Scanner in the mill environment is shown in Figure 2. Figure 2 Typical configuration- 4022-33 Precision platform scanner with Remote PMP Precision platform 4022 Scanner frame The Precision Platform 4022 Scanner frame consists of : ...
  • Page 7 Other features isolate the scanner frame from differential expansion and contraction of the scanner and the floor to which it is bolted. Carriages supporting the heads scan across the sheet in the cross direction. Accurate head alignment is preserved by the drive motor and a system of belts that move the carriages along a smooth fiberglass track at a constant speed.
  • Page 8 • A belt tension adjustment where the drive belts connect to the upper and lower head carriages. Figure 3 Head Drive system (scanner 4022) Head movement monitoring and control The scanner is equipped with various switches that monitor and control head movement. Table 5-1 lists the switches and their functions.

  • Page 9: Preset Switch

    The preset and limit switches are mounted on rails on the bottom flange of the upper beam. The crash switches are clamped to the lower fiberglass head carriage tracks at each end of the scanner. The emergency Stop (or EStop) switches are on the end support doors at each end of the scanner Typical connection of the crash and switch on scanner termination board can be seen on figure show that the movement monitoring signal is connected to J35 and J33.
  • Page 10 A crash switch is located at each end of the scanner along the lower beam (a total of two crash switches per scanner). They serve as safety devices to protect the heads (and also the field personnel) if they fail to turn around before reaching the end of the track.
  • Page 11 Scan control panel The scan control panel on the distant end support has buttons to control scanning functions and enable sensors. An LED to the left of each button lights to indicate that the button function is active. On some scanners, the panel also contains a key-operated switch for use in controlling X- ray source functions.
  • Page 12 XRAY Keyswitch to control X-ray sensor, disables power to POWER ash source , Enables power to ash source (after using reset) The button labels and switches on your panel might not match those shown in the figure. For example, if your scanner does not include an X-ray sensor the scan control panel will not include the X-ray button label and key switch.

  • Page 13: Status Label

    Figure 4 Switch decoder board for Scan Control Panel Each of the scan control (touch) panel switch decoder board light bars (DS1through DS8) consists of four yellow LEDs in series. Each light bar corresponds to a panel button. When a function controlled by a button is active, the corresponding light bar illuminates a translucent area beside the button.
  • Page 14 ISOTOPE SHUTTER Indicates that the shutter for the isotope source (basis OPEN weight) is open. (Red light is on.) X-RAY SHUTTER Indicates that the shutter for the X-ray source (ash OPEN sensor) is open. (Red light is on.) BOTH SHUTTERS Indicates that the shutters for isotope (basis weight) CLOSED and X-ray (ash sensor) sources are closed.
  • Page 15 Cable End Support Figure xx shows the cable end support and its contents, including: • Shutter Status satellite box (indicates whether the basis weight and Ash sensor shutters are open or closed) • Head drive system (head drive motor, reduction pulleys, and drive belts) – moves the heads back and forth across the scanner frame.
  • Page 16 Sample and reference panel The Sample and Reference Panel is located on the cable end support of the scanner. You can initiate samples and references from the rotary switch on this panel. The sample paddle power cable plugs into a connector on the panel. You can also control the power to the drive motor and to the headsplit clutch solenoid.
  • Page 17 System (MSS). This chapter provides a description of the Cable End electrical assemblies as well as the electronic components of the 4610-00 UPMP used with the 4022-33. The UPMP is located remotely from the scanner in a wall-mounted enclosure. This chapter is divided into the following main sections: •...

  • Page 18: Part Description

    Figure 6 Cable End Electrical Overview Summary of major part used in cable end assemblies Honeywell Part description Part Number Termination Board (all scanners) 05441900 PMP Logic PCB used with Termination Board (all 05442000 scanners) AC Power Distribution Assembly (all scanners)
  • Page 19 • Provides current protection to two separate circuits. • Provides over-temperature protection for the components housed in the cable end including the motor controller. • Provides solid state switching of sheet guide heater power. Figure 6-2 shows the major components of the AC Power Distribution Assembly. Figure 7 AC Distribution Assembly Two circuit breaker provides protection for: CB1 : 10 Amp –...

  • Page 20: Encoder Assembly

    Figure 8 Thermostat connection schematic AC Motor The ac motor used on the 4022-30, 31 and 40 scanners is a one-half horsepower, nominal 230V, three-phase induction motor rated at 75 Hz maximum frequency of operation. It comes with an attached cooling fan. AC motor connection are terminated on TS4 located on the bottom of scanner behind the termination board.

  • Page 21: Termination Board

    Figure 10 Transformer connection schematic Transfomer output goes to scanner head through termination board. Upper head connected to J9 and lower head connected to J19. Each output are protected by 10A fuses near the CB1. Cable End Electrical PC Board The scanner Cable End also contains the Termination Board with Logic PCB.
  • Page 22 Termination board LEDs, Jumpers, Fuses Termination Board Wire Jumpers Termination Board indicators (4022-30 and 4022-31) BW Sensor model Upper power track health - Good TB11-14 to TB11-15 Upper power track health – Bad Head over temperature TB11-13 to TB11-14 and...

  • Page 23: Motor Controller

    Termination board connector and signals Terminal Termination board Terminal Termination board Function Function AC Power Motor controller J9-1 56 VAC Air Gap & Trim J26-1 0–10V speed J9-2 56 VAC Air Gap & Trim J26-2 Analogue return J9-3 56 VAC Air Gap & Trim J26-3 Forward J9-4...
  • Page 24 Terminal Termination board Terminal Termination board Function Function Cable End Accessories Drive End Accessories J30-26 Caliper enable C/I J31-30 Ash power enable J30-27 Ash amber sense J31-31 Ground J30-28 Ash switched 24 VE from head J31-32 24 VS J30-29 Ash power J31-33 Water flow J30-30...
  • Page 25 Termination board schematic Logic PCB The Logic PCB plugs in to the Termination PCB. The Logic PCB houses most of the active components required to operate the scanner and to monitor certain conditions of the heads and the basis weight shutter.
  • Page 26 1.5A – Spare 1A – Spare Remote 4610 Universal PMP Scanner 4022 signal processed externally on 4610 UPMP, for cable connection between scanner and UPMP refer to drawing xxxx. Figure 12 Base assembly of UPMP 4610 The 4610-00 cabinet includes the following items which will be discussed in detail later...
  • Page 27  The termination PCB (6580500126) where the scanner and sensor IO will be terminated.  The EDAQ based frame controller assembly (6580801565).  Programmed MSS computer (6580801828)  The programmed MSS computer (6580801828).  Between two and six sensor EDAQ boards (6581500030). ...
  • Page 28 The Q4610-00 also incorporates the function of the radiation indication/fault detection card (6580500053/05334900) that had been supplied with earlier generation systems. The function of this PCB is to enforce safety conditions based on the expected status of the shutter and the signal level seen at the ash receiver. The output of this portion of the circuitry provides the status of the red lamp, the x-ray enable and if required a fault indication.

  • Page 29: Power Supply

    The MSS computer is an assembly including a purchased computer programmed with Q4610-00 specific software. This computer is the same unit used on Honeywell’s Q4000-80 scanner. The programmed assembly is field replaceable. The MSS computer is described in detail in the Experion MX MSS & EDAQ Data Acquisition Manual, document # 6510020381.
  • Page 30 For a new MSS spare, the MSS will has a default address on the Ethernet port connected to the QCS server network of 192.168.10.101. If this is not the correct address, it can be changed from the MSS Web address. 1.
  • Page 31 Figure 18 MSS Set time menu The absolute value of the MSS clock is not used to correlate scanner data to scanner position; however, it is convenient if the time stamps on the scanner logs correspond to the QCS server alarm page times. Resetting the MSS time reboots all EDAQs on the scanner.
  • Page 32 Figure 19 Layout of indicator on UPMP MSS 2. Connect to the MSS Web page (see Subsection 3.7.1) and verify that the page loads and shows the present IP addresses and MAC addresses. Verify these against the Experion MX MSS IP setup page, being careful to note that the Experion MX page uses dots (unconventionally) to separate the hexadecimals in the MAC address numbers.
  • Page 33 Shop, Manual and Auto scanning modes, see Figure xx Figure 21 EDAQ Based frame controller on UPMP For 4022 scanner this switch take over the function of the selection located on scanner termination board.
  • Page 34 Switch S1 on scanner must be set to the “Computer” setting at all times. This allows the EDAQ based frame controller to properly execute all scanner modes as  Shop mode allows the scanner to continually scan forward and reverse under the control of the frame controller and MSS.
  • Page 35 Figure 22 EDAQ Positioning on UPMP EDAQ1 node ID 3 is used for Basis weight and moisture sensor EDAQ1 node ID 4 is used for ASH sensor EDAQ1 node ID 5 is used for Porosity sensor (Serial communication) EDAQ PCB Layout show on figure xxx...
  • Page 36 Figure 23 EDAQ PCBA Layout Programmed motor controller The Q4610-00 includes an ½ horse-power variable speed AC motor controller. (The offering does not support scanners with AC motors.) The AC motor controller same unit that used 4606 models. This is a factory programmed motor controller based on purchased part 6541900038 and programmed according to procedure 6513020603.

  • Page 37: Preventive Maintenance Schedules

    Preventive Maintenance Schedules This chapter deals with the recommended preventive maintenance and replacement schedules for the Precision Platform 4022 scanner. The maintenance of this scanner can be broken down into these areas of the scanner: • General Scanner Maintenance • Air System •...
  • Page 38 Mechanical expansion joint Switches, buttons lamps fuses Main voltage Chiller Removing replaceing beam cover sections Cover condensation removal Air system Air pressure and flow Air filters Air wipe Vents Scanner purge flow Scanner purge inlet filter Power tracks Power tracks inspection Power track adjustment...
  • Page 39 Upper lower power track replacement Carriage static drain wire tracks Carriage wheels replacement Static eliminator drain lines inspect replace Scanner track clean maintain Dust wiper inspection Drive belt system Drive belt inspection Motor drive belt replacement Belt tension adjustment Head alignment Head alignment...
  • Page 40 Head drive replacement Belt idler pulley inspection Belt idler pulley replacement Belt support bracket adjustment Head separation clutch Head separation clutch maintenance Clutch replacement Motor Encoder Head position encoder inspection Head position encoder replacement Motor inspection and cleaning motor replacement Drive motor torque...
  • Page 41 limiting and verifiying Torque motor setting verification adjustment Motor controller replacement Heads Sensors Head separating Head realignment check Liquid cooling system Open loop cooling system maintenance Close loop cooling system maintenance Chiller maintenance Maintaining scanner logbook A scanner/sensor maintenance logbook recommended to be made for each scanner with The daily, weekly, monthly, yearly, checklist should be signed off each time it is performed (including inspection date, who inspected, what was done, and other pertinent information).

  • Page 42: Scanner Maintenance

    Also, enter any changes to the scanner in the logbook. This includes any items that have been replaced, air pressure and flow changes, coolant flow changes, scanner damage, scanner upgrades or similar information. Scanner Maintenance This chapter contains procedures for maintaining these scanner components: •...

  • Page 43: Air System

    AC main voltage Verify all power supply voltages and AC power are as per the installation drawing. Correct as necessary Chiller Blow chiller condenser clean using compressed air Keep condenser fan clean of dust. Keep the water tank clean to prevent clogging on pipe Air system This section applies to both air purge and compressed air supply Air pressures and flow...
  • Page 44 Power tracks Maintaining the power tracks Maintaining the power tracks is critical for smooth scanner operation  Blow out any debris using pressurized air  Check hose and cable clearance  Check hose, cables, and links for wear  Check service loops ...
  • Page 45 2. Move sensor head to fully extended position, and remove beam cover over area of the power track bend, and remove three snap link covers exposing the cable in the power track bend. Ensure proper clearance between each ribbon cable layer. At the bend hold all power track cables except the innermost, then pull the innermost cable snug to the snap link body.
  • Page 46  Scanner air purge  Regular Power track maintenance of the ribbon cable tension To perform any maintenance, troubleshooting, or replacement of WARNING: components, ensure that power is disabled at the breaker. 1. Push heads to the Distant End of the scanner (opposite the Cable End). 2.
  • Page 47 Carriages, Static drain wire and tracks Replacing the carriage wheels Each head carriage has 16 load wheels and 16 guide wheels. The wheels are mounted in wheel pad assemblies attached to the upper and lower head carriers. The load wheels are set parallel to the horizontal top track surface, while the guide wheels are set parallel to the vertical side surfaces Use this procedure to replace the carriage load wheels and guide wheels 1.
  • Page 48 However, they must be cleaned periodically to remove wheel rubber and dust that might stick to the fiberglass. If the tracks come out of alignment because of a wreck or some other cause, they will require realignment by a Honeywell factory technician.

  • Page 49: Drive Belt System

    Drive belt system Inspecting the drive belts Inspect the drive belts looking for • Excess wear on teeth or belt edges • Exposed fiber strands Replacing the motor drive belt To replace the motor drive belt 1. Remove the beam covers adjacent to the cable end support 2.
  • Page 50 Adjusting belt tension and head CD alignment Adjust the head drive belt tension under these conditions:  The heads do not hold the cross direction (CD) alignment.  The head drive belts have been replaced.  Possible other maintenance procedures that require the loosening of the head drive belts.
  • Page 51 Turn on the Motor Power keyswitch and scan the heads for ten minutes. Recheck the head alignment at both ends of the scanner. Readjust after shutting off the Motor Power keyswitch using the above procedures, if necessary. Adjusting head MD alignment and gap To adjust the head machine direction (MD) alignment and gap: Scan the heads to the offsheet position at the cable end of the scanner.
  • Page 52 Make sure the belt is placed correctly on all drive belt supports located in the beam. Make sure the belt is not twisted and that it is properly located on each pulley. Repeat steps 4 through 8 for the lower belt. Adjust the upper belt tension such that the belt is correctly tensioned using the belt tension tool.
  • Page 53 Scan the heads to the offsheet position at the cable end of the scanner and turn off the Motor Power keyswitch. Remove the beam covers at the cable and distant ends of the scanner. Loosen the head drive belts. The heads will need to be realigned after the pulleys are changed.
  • Page 54 Figure 26 High Pressure Air Manifold...
  • Page 55 Figure 27 Low Pressure Air Manifold...
  • Page 56 Maintaining head internal temperatures Check head temperatures daily on the User Station. Head internal temperatures are preset at the factory. This temperature should hold constant between 38°C (100°F) and 49°C (120°F), and, most importantly, vary less than ±1°C (1.8°F). Under most conditions, the ideal internal head temperature is 40°C (104°F).
  • Page 57 Setting internal head temperature This is the procedure for setting the internal head temperature 1. Place the heads in the park position. 2. Remove the head covers. 3. Turn the solenoid control pot to the mid position. It is a 10-turn pot, so turn it fully counterclockwise (it will click when fully counterclockwise) and then turn it five turns clockwise.

  • Page 58: Troubleshooting

    Troubleshooting This chapter covers possible issues with the 4022-33 Scanner. It is divided into two sections: • Alarm based troubleshooting: Troubleshooting steps to be taken in response to a specific alarm generated in the Experion MX system. • Non-alarm based troubleshooting: Troubleshooting steps that may not be related to a specific alarm in the Experion MX system.
  • Page 59 Head position is not correct due to Inspect encoder belt tension, inspect belt scanner mechanical failure, loose belt, tension. Calibrate scanner loose encoder wheel, encoder failure Scanner in manual Scanner command from operator Verify manual / auto selection on endbell mode station / server is not working scanner and FC at PMP is set on Auto...

  • Page 60: Part Numbers

    Part Numbers 4022-33 Scanner component part numbers listed in table Part Part description Quantity UOM number 00356400 BELT,SPRT BRACKET- WEIGHT REDUCED DC Each DRIVE 05414000 PCBA,TERMINATION, ENVIROPAK ENDBELL Each 07265501 SLIDER, GROUNDWIRE SCANNER Each 07619601 PULLEY, IDLER ASSY Each 08117001...
  • Page 61 UPMP 4610 component part numbers listed in table Part Part description Quantity UOM number 6580801397 AC MOTOR CONTROLLER ASSEMBLY 4606 Each 6580801565 ASSY, FC AND EDAQ PCBS Q4000 Each 6581500030 PCBA EDAQ Each 6580802056 ASSY, MSS COMP W/FAN PROGRAMMED Each 6541002775 P/S 24V 20A@60C , 26A@40C , COMPACT Each 6543160055 ETHERNET SWITCH 8 PORT SFN 8GT...
  • Page 62 Drawing Reference...
  • Page 87 APPROVED DATE (YY.MM.DD) 75.10.22 00.03.06 00.03.09 00.03.13 TITLE SCANNER 4022 SCHEMATIC PCBA RADIATION LIGHT CONTROL MX PN: 05285200S rev. C PROJECT The information contained herein is STANDARD PART proprietary to MEASUREX DEVRON INC. and is not to be reproduced, communicated...
  • Page 98 NPTH DIA=3.18 mm) Registration Mark SCHEMATIC TOOL2 The information contained herein is proprietary to Honeywell and is not to be reproduced, communicated to a third party, or used in any PROJECT way without the express written permission of NPTH DIA=3.18 mm) STANDARD PART Honeywell International Inc.
  • Page 99 COLOUR AND FOTO SENSORS (EDAQ RS-485) SDAQ SENSORS - EDAQ SYNC LINE (TO/FROM SCANNER) DIGITAL INPUTS AND OUTPUTS (FROM SCANNER) (TO/FROM SCANNER) TB14 TB15 (c01di01) UNI_EDGE_IN/SPARE_DI_01 UNI_EDGE_IN_RTN (c02do13) CALIPER_CLEAN_MTR CALIPER_CLEAN_MTR_RTN UP_COLOUR_TX+ UP_COLOUR_TX- (c01di02) AUX_EDGE_IN/SPARE_DI_02 AUX_EDGE_IN_RTN (c02do15) TILE_IR TILE_IR_RTN UP_COLOUR_RX+ UP_COLOUR_RX- (c01di04) CALIPER_ENABLE_IN CALIPER_ENABLE_IN_RTN...
  • Page 100 FRAME CONTROLLER SIGNALS (SCANNER TO EDAQ 0) DIGITAL INPUTS AND OUTPUTS (FROM/TO SCANNER) SIGNALS TO FRAME CONTROLLER (TO TB1) SIGNALS TO FRAME CONTROLLER ALTERNATIVE TERMINOLOGY: REVERSE LIMIT aka CABLE END LIMIT) (MOTOR MOVEMENTS CONTROL) (TO TB3 AND TB5) FORWARD LIMIT aka OTHER END LIMIT) COMPUTER_IN SIGNAL PROVIDES ONLY A STATUS OF CPU SW FROM SCANNER (c00di00)
  • Page 101 ANALOG INPUTS (FROM SCANNER TO EDAQ 1) +15VDC +15VDC +15VDC +15VDC 10nF 10nF 10nF 10nF EDAQ1_IN_1+ EDAQ1_IN_5+ EDAQ1_IN_9+ EDAQ1_IN_13+ BW_IN LM358A MOI_B_IN/MW_TEMP_IN LM358A ASH_P_SX_TEMP_IN LM358A UP_HD_TEMP_IN LM358A 22.6K 37.4K 22.6K 37.4K 22.6K 37.4K 22.6K 37.4K SHEET 14 (TB5.01) SHEET 14 (TB5.09) SHEET 14 (TB5.15) SHEET 14 (TB6.09) 4.7nF...
  • Page 102 ANALOG INPUTS (FROM SCANNER TO EDAQ 2) +15VDC +15VDC +15VDC +15VDC C117 C118 C119 C120 10nF U17A 10nF U18A 10nF U19A 10nF U20A EDAQ2_IN_1+ EDAQ2_IN_5+ EDAQ2_IN_9+ EDAQ2_IN_13+ ANALOG_IN_01 LM358A ANALOG_IN_05 LM358A ANALOG_IN_09 LM358A ANALOG_IN_13 LM358A 22.6K 37.4K 22.6K 37.4K 22.6K 37.4K 22.6K 37.4K...
  • Page 103 ANALOG INPUTS (FROM SCANNER TO EDAQ 3) +15VDC +15VDC C213 C214 10nF U33A 10nF U34A R139 R140 EDAQ3_IN_1+ R141 R142 EDAQ3_IN_5+ ANALOG_IN_17 LM358A ANALOG_IN_21 LM358A 22.6K 37.4K 22.6K 37.4K SHEET 13 (TB12.05) SHEET 13 (TB12.13) C215 C216 4.7nF 4.7nF -15VDC -15VDC AGND AGND...
  • Page 104 DIGITAL INPUTS (SCANNER TO EDAQs) DIGITAL OUTPUTS (EDAQs TO SCANNER) SIGNAL FLOW FOR ALL INPUTS SIGNAL FLOW FOR ALL OUTPUTS +24V_IN1 +24V_IN1 +24V_OUT2 +24V_OUT1 +24V_OUT1 +24V_OUT1 1N4148W 1N4148W 1N4148W 1N4148W 1N4148W 1N4148W DS11 DS17 DS13 DS14 DS15 DS16 GREEN GREEN GREEN GREEN GREEN...
  • Page 105 DIGITAL INPUTS DIAGNOSTICS (FROM SCANNER TO FRAME CONTROLLER) SIGNAL FLOW FOR ALL INPUTS SCANNER FRAME CONTROLLER SIDE SIDE +24V_IN1 +24V_IN1 +24V_IN1 +24V_IN1 +24V_IN1 +24V_IN1 1N4148W 1N4148W 1N4148W 1N4148W 1N4148W 1N4148W DS33 DS34 DS35 DS36 DS37 DS38 GREEN GREEN GREEN GREEN GREEN GREEN APTD1608CGCK...
  • Page 106 +15VDC +15VDC RADIATION FAULT DETECTION AND INDICATOR CIRCUIT R225 +24V_OUT2 RP1A 100K +15VDC +15VDC R226 1N4148W DS62 U40A RP2A RP2B RP2C RP2D 2.1K TVS1 APT1608SURCK MC14049 SMAJ30CA-13-F ADJUSTABLE THRESHOLD LEVEL R227 RP2E RP2F RP2G RP2H 2.21K EACH STEP ADDS ABOUT 23 mV TO R228 6 7 8 AGND...
  • Page 107 THERMISTORS MEASUREMENTS THERMISTOR CHANNEL 1 THERMISTOR CHANNEL 3 PLACE SW1 IN LOWER POSITION PLACE SW3 IN LOWER POSITION TO MEASURE THERMISTOR VALUE TO MEASURE THERMISTOR VALUE 6 SW1A 6 SW3A BW_SX_TEMP_IN UPR_HEAD_TEMP_IN SW1B SW3B BW_SX_TEMP/THERM1 UPR_HEAD_TEMP/THERM3 THERMISTOR_1A THERMISTOR_3A BW_SX_TEMP_RTN UPR_HEAD_TEMP_RTN R247 R248 4PDT...
  • Page 108 R263 +15VDC R264 11.5K 0.1% C273 R265 3.92K +15VDC 8200pF +15VDC C274 R266 R267 C275 CAL_HI_FRQ_IN COMP IN FOUT R268 560pF VOUT OPA627 4.22K 0.22uF +15VDC 1.21K 0.1% OFFSET_1 BAV21W-7-F C276 0.01uF OFFSET_2 -15VDC R269 AGND R270 CAL_LOW_FRQ_IN B/OFFSET CALIPER_IN OPA627 1_S_CAP AGND...
  • Page 109 +24V_IN FRAME CONTROLLER POWER +24V FC +24V_IN +24V_FC_FUSED +24V_FC POWER SUPPLIES POWER CONNECTOR 1N4148W FB10 TP13 (POWER FROM PMP DC POWER DISTRIBUTION) HI1206P121R-10 GREEN MBRB1045T4G 24V_FC_RTN 6.8uF 6.8uF +24V_IN +24V_FC_FUSED APTD1608CGCK FAIL FB12 HI1206P121R-10 2.21K HDR 2x2 24V_IN_RTN 24V_FC_RTN R143 1.21K 2.21K 24V_IN_RTN...
  • Page 110 SIGNAL FLOW FOR ANALOG INPUTS FROM SCANNER TO EDAQ2 TERMINAL BLOCK ENTRY EDAQ 2 - ANALOG INPUTS MAPPING ANALOG INPUTS (EDAQ 2) ANALOG_IN_01 EDAQ2_IN_1+ ANALOG_IN_01 EDAQ2_IN_1+ ANALOG_IN_01_RTN EDAQ2_IN_1- ANALOG_IN_01_RTN EDAQ2_IN_1- ANALOG_IN_01 ANALOG_IN_01_RTN ANALOG_IN_02 ANALOG_IN_02_RTN ANALOG_IN_03 ANALOG_IN_03_RTN ANALOG_IN_02 EDAQ2_IN_2+ ANALOG_IN_02 EDAQ2_IN_2+ ANALOG_IN_04 ANALOG_IN_04_RTN ANALOG_IN_02_RTN...
  • Page 111 SIGNAL FLOW FOR ANALOG INPUTS FROM SCANNER TO EDAQ1 THERMISTORS MEASUREMENTS BW_SX_TEMP/THERM1_IN BW_SX_TEMP_IN BW_SX_TEMP/THERM1 BW_SX_TEMP_IN BW_SX_TEMP/THERM1_RTN BW_SX_TEMP_IN_RTN BW_SX_TEMP_RTN/THERM1 BW_SX_TEMP_RTN ASH_PRIMARY_IN ASH_PRIMARY_IN_TO_RAD_FAULT BW_RX_TEMP/THERM2_IN BW_RX_TEMP_IN ASH_PRIMARY_IN_RTN BW_RX_TEMP/THERM2 BW_RX_TEMP_IN ASH_PRIMARY_RTN_TO_RAD_FAULT BW_RX_TEMP/THERM2_RTN BW_RX_TEMP_IN_RTN BW_RX_TEMP_RTN/THERM2 BW_RX_TEMP_RTN UP_HD_TEMP/THERM3_IN UP_HD_TEMP_IN UPR_HEAD_TEMP/THERM3 UPR_HEAD_TEMP_IN UP_HD_TEMP/THERM3_RTN UP_HD_TEMP_IN_RTN UPR_HEAD_TEMP_RTN/THERM3 UPR_HEAD_TEMP_RTN LOW_HD_TEMP/THERM4_IN LOW_HD_TEMP_IN LWR_HEAD_TEMP/THERM4 LWR_HEAD_TEMP_IN...
  • Page 112 PART No. DOC CODE The Information contained herein is proprietary to Honeywell and is not to be reproduced, communicated to a Inventor Drawing - See Model third party, or used in any way without the express written permission of Honeywell International Inc.
  • Page 133 IDENTIFY PER 6513020038 APPROX. WHERE SHOWN ONCE PROGRAMMED. MSS INSTALLATION DVD R200 6543210114 6543210114 VINYL LABEL HONEYWELL ASSY NO. REV LEVEL 6551430064 00283201 2. PLACE ALL UNUSED COMPONENTS IN A BAG AND INCLUDE WITH ASSEMBLY. 316SS WASHER SPLT 3x0.8mm T316...

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