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Trane Engineered Smoke Control System for Tracer Summit Weekly self-testof dedicated systems

Models: BAS-APG001-EN Engineered Smoke Control System for Tracer Summit

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Weekly self-test of dedicated systems

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Trane Engineered Smoke Control System for Tracer Summit manual Weekly self-testof dedicated systems, needs to be introduced

Contents

BAS-APG001-EN Applications GuideEngineered Smoke Control System for TRACER SUMMITPage BAS-APG001-ENSeptember Applications GuideEngineered Smoke Control System for TRACER SUMMITBAS-APG001-EN NOTICE Page Contents ContentsBAS-APG001-EN BAS-APG001-EN ContentsContents BAS-APG001-EN ContentsBAS-APG001-EN ContentsChapter Smoke control overviewPressurization method Methods of smoke controlCompartmentation method Dilution methodTable 1: Recommended minimum pressure difference Methods of smoke controlFigure 2: Sample airflow method Airflow methodChapter 1 Smoke control overview Applications of smoke control methods Applications of smoke control methodsBuoyancy method Zoned smoke control3.If the system has a return air damper, it closes Chapter 1 Smoke control overviewApplications of smoke control methods Stairwell smoke controlCompensated pressurization technique Figure 5: Sample non-compensatedsystem Non-compensatedpressurization techniqueChapter 1 Smoke control overview BAS-APG001-EN Elevator shaft smoke controlApplications of smoke control methods Chapter 1 Smoke control overview Atrium smoke controlSmoke exhausting technique Figure 8: Sample natural smoke venting technique Natural smoke venting techniqueSmoke filling technique Applications of smoke control methodsChapter 1 Smoke control overview Smoke detection and system activationUnderground building smoke control Atrium smoke exhausting detection and activation Zoned smoke control detection and activationStairwell smoke control detection and activation Elevator smoke control detection and activationFigure 9 Sample stratification Vertical gridHorizontal grid Chapter 1 Smoke control overviewDedicated system approach Design approaches to smoke controlNo-smokeapproach Tenability approachChapter 1 Smoke control overview Design considerations for smoke controlPlugholing Design considerations for smoke control Smoke feedbackBAS-APG001-EN Chapter 1 Smoke control overviewZone operating modes Pre-installationconsiderationsChapter 2 Pre-installationconsiderations Associated equipmentAlarm mode Fire alarm system equipmentManual pull stations Area smoke detectorsBeam smoke detectors Duct smoke detectorsSprinkler flow devices Fire alarm control panelChapter 2 Pre-installationconsiderations Lights Audible trouble indicatorManual switches Smoke control system equipmentSmoke dampers Chapter 2 Pre-installationconsiderationsBAS-APG001-EN FansVerification of operation equipment Associated equipmentTracer MP581 programmable controller Equipment supervisionChapter 2 Pre-installationconsiderations Automatic weekly self-testing System testingAlarm response Automatic smoke control matrixEquipment Chapter 2 Pre-installationconsiderationsFirst smoke zone in alarm First smoke zone in alarmTable 7. NFPA response time requirements Response timesCable distance considerations Response timesType Chapter 2 Pre-installationconsiderationsTable 8. Cabling practices and restraints Maximum distanceSmoke control system overview Installation diagramsChapter 3 Installation diagrams System riser diagramsFigure 12. Sample fan starter wiring diagram System termination diagramsSystem termination diagrams Figure 13. Sample FSCS panel Tracer MP581 to FSCS wiringChapter 3 Installation diagrams •Tracer MP581 and FSCS must be in the same room System termination diagramsFigure 14. Tracer MP581 to FSCS wiring Chapter 3 Installation diagramsFACP Tracer MP581 to FACP wiringSystem termination diagrams Figure 15. Tracer MP581 to FACP wiring Chapter 3 Installation diagramsOperating environment requirements Installing the Tracer Summit BMTX BCUMounting the hardware Avoid equipment damage12 in. 30 cm Chapter 4 Installing the Tracer Summit BMTX BCUClearances Mounting the hardware Figure 17. BMTX BCU enclosure dimensionsFigure 18. Enclosure mounting holes Mounting the back of the enclosureChapter 4 Installing the Tracer Summit BMTX BCU Hazardous voltage Wiring high-voltageac powerWiring high-voltageac power Hazardous voltage Chapter 4 Installing the Tracer Summit BMTX BCUUse copper conductors only BAS-APG001-EN Wiring high-voltageac powerFigure 19. AC wiring Hazardous voltage EMI/RFI considerationsChapter 4 Installing the Tracer Summit BMTX BCU Checking the earth groundFigure 20. Checking the earth ground EMI/RFI considerationsChapter 4 Installing the Tracer Summit BMTX BCU Connecting the main circuit boardFigure 22. Connecting the frames Connecting the main circuit boardFigure 23. Installing the door Installing the doorChapter 4 Installing the Tracer Summit BMTX BCU BAS-APG001-EN LonTalk connections Ethernet connection Chapter 4 Installing the Tracer Summit BMTX BCUInstallation guidelines Table 13. Tracer MP581 specifications SpecificationsSelecting a mounting location Selecting a mounting locationEquipment damage Operating environment requirements12 in. 30 cm Clearances and dimensionsFigure 26. Minimum clearances for enclosure Left view Figure 27. Tracer MP581 enclosure dimensionsSelecting a mounting location Top viewFigure 28. Enclosure mounting holes Mounting the back of the enclosureTable 15. Tracer MP581 models Wiring high-voltageac powerWiring high-voltageac power Circuit requirementsUse copper conductors only Wiring high-voltagepowerHazardous voltage BAS-APG001-EN Wiring high-voltageac powerHazardous voltage To check the quality of the earth ground EMI/RFI considerationsChecking the earth ground Hazardous voltageBAS-APG001-EN EMI/RFI considerationsFigure 31. Checking the earth ground Input/output wiring guidelines Wiring inputs and outputsFigure 32. Wire routing Wire routingProviding low-voltagepower for inputs and outputs Wiring inputs and outputsFigure 33. Screw-terminallocations Screw terminal locationsWiring inputs and outputs Wiring universal inputsWiring binary inputs Figure 35. Wiring analog outputs Wiring analog outputsWiring inputs and outputs Wiring binary outputsEquipment damage Checking binary inputsChecking 0–10Vdc analog outputs Checking outputsChecking binary outputs Equipment damageChecking 0-20mA analog outputs Equipment damageBAS-APG001-EN Checking outputsWiring LonTalk to the Tracer MP581 3.At the last controller on the LonTalk link Wiring LonTalk to the Tracer MP581Figure 39. Connecting the cables Installing the circuit boardFigure 40. Connecting the frames Installing the circuit board24 Vac power connector Figure 41. 24 Vac power-supplycable connectionInterpreting LEDs Service Pin buttonFigure 42. Service Pin button and LED locations Table 18. Binary output LEDs Service LEDTable 19. Red Service LED Binary output LEDsTable 21. Yellow Comm LED Status LEDComm LED Table 20. Green Status LEDFigure 43. Aligning the enclosure door Installing the doorRemoving the door BAS-APG001-EN Installing the doorBAS-APG001-EN Table 22. Operating environment specifications Installing the EX2 expansion moduleChapter 6 Installing the EX2 expansion module Storage environmentMounting location Figure 45. Terminal strip locations Terminal stripsMounting the metal-enclosuremodule Terminal stripsHazardous voltage AC-powerwiringChapter 6 Installing the EX2 expansion module Hazardous voltageEquipment damage Wiring AC-powerto the metal-enclosuremoduleAC-powerwiring Equipment damageFigure 47. Power and ground terminals Chapter 6 Installing the EX2 expansion moduleFigure 48. I/O bus wiring example I/O bus wiringI/O bus wiring Figure 49. I/O bus wiring example Chapter 6 Installing the EX2 expansion moduleFigure 50. DIP switch on board Setting the I/O bus addressesInput/output terminal wiring Setting the I/O bus addressesBinary outputs Analog output and universal input setupChapter 6 Installing the EX2 expansion module Universal inputsBAS-APG001-EN Analog output and universal input setupFigure 52. LED locations on the EX2 Interpreting EX2 LEDsChapter 6 Installing the EX2 expansion module Binary output LEDsTable 25. Status LED Status LEDCommunications LEDs Interpreting EX2 LEDsBAS-APG001-EN Chapter 6 Installing the EX2 expansion moduleTable 27. Time response requirements ProgrammingResponse times Chapter 7 Programming Operational priorityTable 28. Operational priority Subsequent alarmsSubsequent alarms Chapter 7 Programming Figure 53. Subsequent alarms—FirstreactionFigure 54. Smoke alarm annunciation Smoke alarm annunciationSmoke alarm annunciation Chapter 7 Programming From requirements 33.2.1 and 33.2.2, we can see that there is a decoupling between annunciation and reaction. The series of network variables shown in Figure 54, nvoSwitch05 through nvoSwitch12, are used to directly control the smoke alarm LEDs on the FSCP. For example, a smoke alarm for floor 1 is received. The mechanical system reacts by pressurizing floor 2 and exhausting floor 1. Following that, floor 2 goes into smoke alarm. The alarm needs to be annunciated even though the mechanical system does not react. In this case, nvoSwitch06 passes the smoke alarm state to MP580-3by using a custom binding. At MP580-3,the binary output that controls the floor 2 smoke alarm LED is turned onFigure 55. Triggering the automatic self-testAST Weekly self-testof dedicated systemsWeekly self-testof dedicated systems Figure 56. Mechanical reactions during AST Chapter 7 ProgrammingFigure 57. ast overridesense Weekly self-testof dedicated systemsFigure 57 needs to be introduced Figure 58. Effect of AST on damper control Chapter 7 ProgrammingFigure 59. Sample TGP showing fail test technique End process verificationEnd process verification Figure 60. ast actuator fail checka BAS-APG001-EN End process verificationFigure 61. ast actuator fail checkb Chapter 7 Programming Communication watchdogBAS-APG001-EN Communication watchdogChapter 7 Programming BAS-APG001-EN Figure 67. Control of the FSCP Comm Fault LEDCommunication watchdog Chapter 7 Programming Lamp test and audio alarm silenceBAS-APG001-EN Lamp test and audio alarm silenceControlling damper actuators Nondedicated smoke purgeChapter 7 Programming Variable-air-volumesystem Variable-air-volumesystemConstant-volumesystem UL-testedprogramsBAS-APG001-EN Chapter 7 ProgrammingBinding network variables Network variable bindingsOverview Heartbeated network variables Tracer MP580/581 bindingsReceiving data Sending dataCustom bindings Custom bindingsUUKL binding list watchdog communication Network Chapter 8 Network variable bindingsFunction OriginatorMechanical system Custom bindingsMP580-A MP580-BChapter 8 Network variable bindings UUKL binding list smoke alarm statusTable 32. Smoke alarm custom bindings Table 33. FSCP override custom bindings UUKL binding list FCSP override controlCustom bindings Table 34. Actuator status custom bindings UUKL binding list actuator Open/Close orOn/Off status Chapter 8 Network variable bindingsTable 35. Actuator failure status bindings UUKL binding list actuator failure statusUUKL binding list FSCP control Custom bindingsChapter 8 Network variable bindings Understanding bindingsCustom binding report Network Address NodeBinding types Basic binding shapes and the hub/target systemFigure 73. Rovers view of a fan-inbinding Address tableChapter 8 Network variable bindings Figure 72. Rovers view of a fan-outbindingUnderstanding bindings Designing bindingsBinding rules and limits Chapter 8 Network variable bindings Stacking bindings on unique binding pathsBAS-APG001-EN Understanding bindingsFigure 74. One-waysubnet/node binding Figure 75. Two-waysubnet/node bindingsFigure 76. Group binding Chapter 8 Network variable bindingsBAS-APG001-EN Understanding bindingsFigure 77. Group binding uniqueness Chapter 8 Network variable bindings BAS-APG001-EN Understanding bindingsFigure 79. Mixed subnet/node and group bindings BAS-APG001-EN Chapter 8 Network variable bindingsAppendix A ReferencesBAS-APG001-EN Appendix A ReferencesPage Trane