BAS-APG001-ENApplicationsGuideEngineered Smoke Control Systemfor TRACER SUMMIT™
Contentsiv BAS-APG001-ENBinary outputs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 94Analog outputs (UUKL no
Chapter 6 Installing the EX2 expansion module88 BAS-APG001-ENFigure 46. Mounting the metal-enclosure EX2AC-power wiringUse 16 AWG copper wire for ac-
AC-power wiringBAS-APG001-EN 89CAUTIONEquipment damage!Complete input/output wiring before applying power to the EX2 mod-ule. Failure to do so may cau
Chapter 6 Installing the EX2 expansion module90 BAS-APG001-ENFigure 47. Power and ground terminalsNote:If a power transformer must be shared between
I/O bus wiringBAS-APG001-EN 91I/O bus wiringThe EX2 communicates with the Tracer MP581 and up to three other EX2 modules on an IEEE-485 link. This lin
Chapter 6 Installing the EX2 expansion module92 BAS-APG001-ENFigure 49. I/O bus wiring example 2
Setting the I/O bus addressesBAS-APG001-EN 93Setting the I/O bus addressesEach EX2 on the link with the Tracer MP581 must have a unique address. Confi
Chapter 6 Installing the EX2 expansion module94 BAS-APG001-ENThe EX2 module has four binary outputs, four analog outputs, and six universal inputs.Uni
Analog output and universal input setupBAS-APG001-EN 95Figure 51. Typical input/output terminal wiring diagram for the EX2 expansion module
Chapter 6 Installing the EX2 expansion module96 BAS-APG001-ENInterpreting EX2 LEDsThe information in this section will help you interpret LED activity
Interpreting EX2 LEDsBAS-APG001-EN 97Status LEDThe Status LED on the EX2 module operates differently from the status LED on LonTalk devices. Table 25
ContentsBAS-APG001-EN vNode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 131Binding types . . .
Chapter 6 Installing the EX2 expansion module98 BAS-APG001-EN
BAS-APG001-EN 99Chapter 7ProgrammingProgramming occurs after hardware installation is complete. The smoke control system must be programmed for automa
Chapter 7 Programming100 BAS-APG001-ENIn general, the BCU cannot pass information faster than every 5 seconds. This is the fastest a CPL routine can r
Subsequent alarmsBAS-APG001-EN 101Subsequent alarms(UL 864: 49.8)When multiple input signals are received from more than one smoke zone to initiate di
Chapter 7 Programming102 BAS-APG001-ENThe wireless connector, smokeAlarmFloor, is used for the following two reasons:• Because smokeAlarmFloor clears
Smoke alarm annunciationBAS-APG001-EN 103Smoke alarm annunciationSystems serving two or more zones shall visually identify the zone of origin of the s
Chapter 7 Programming104 BAS-APG001-ENFrom requirements 33.2.1 and 33.2.2, we can see that there is a decoupling between annunciation and reaction. Th
Weekly self-test of dedicated systemsBAS-APG001-EN 105Weekly self-test of dedicated systems(UL-864: 49.7)Dedicated smoke-control systems shall employ
Chapter 7 Programming106 BAS-APG001-EN(On/Off), self-test enable, and self-test reset. Damper direction and fan state are set to Open/On for 5 minutes
Weekly self-test of dedicated systemsBAS-APG001-EN 107[Figure 57 needs to be introduced.]Figure 57. ast overridesense 3-13-2006
Contentsvi BAS-APG001-EN
Chapter 7 Programming108 BAS-APG001-ENFigure 58 illustrates how adding self-testing to the system affects programming for damper control on each floor
End process verificationBAS-APG001-EN 109End process verificationEnd process verification confirms that a device responded to an operation command. En
Figure 59 illustrates a basic actuator failure routine. Some changes are necessary when automatic self-testing is added to the program. The different
End process verificationBAS-APG001-EN 111Figure 61. ast actuator fail checkb 3-13-06
Chapter 7 Programming112 BAS-APG001-ENCommunication watchdogSince multiple Tracer MP581s are used to interface with the mechanical equipment and FACP
Communication watchdogBAS-APG001-EN 113Figure 62. Watchdog communication relationship between a system MP581 and the central FSCP control MP581 Figur
Chapter 7 Programming114 BAS-APG001-ENinformation. A program fragment illustrating the collection process is shown in Figure 65.Figure 65. Collection
Communication watchdogBAS-APG001-EN 115Figure 66. Determining overall communication status for the systemFinally, the FSCP Comm Fault LED is controll
Chapter 7 Programming116 BAS-APG001-ENLamp test and audio alarm silenceA lamp test must be performed for every FSCS panel. This test will cause all in
Lamp test and audio alarm silenceBAS-APG001-EN 117Triggering a lamp test affects all LEDs on the smoke control panel. Figure 69 shows an example of ho
BAS-APG001-EN 1Chapter 1Smoke control overviewSmoke is one of the major problems created by a fire. Smoke threatens life and property, both in the imm
Chapter 7 Programming118 BAS-APG001-ENNondedicated smoke purge(UL-864: 3.21.h)The term nondedicated refers to a system that provides the building’s HV
Variable-air-volume systemBAS-APG001-EN 119Variable-air-volume systemFor variable-air-volume (VAV) systems, some form of duct pressure relief is requi
Chapter 7 Programming120 BAS-APG001-EN
BAS-APG001-EN 121Chapter 8Network variable bindingsOverviewThe LonTalk communications protocol allows data to be shared between devices (stand-alone o
Chapter 8 Network variable bindings122 BAS-APG001-ENTracer MP580/581 bindingsThis section discusses which network variables will be necessary to achie
Custom bindingsBAS-APG001-EN 123Custom bindingsA distinction is made between FSCP and mechanical system control in this section. While smoke control p
Chapter 8 Network variable bindings124 BAS-APG001-ENIn Table 31, the term multi-vibrator is used to indicate a network variable whose state is changed
Custom bindingsBAS-APG001-EN 125Figure 71. Watchdog communication in a hub-based system System hubsMechanical systemSmoke control panel interfaceMP58
Chapter 8 Network variable bindings126 BAS-APG001-ENUUKL binding list (smoke alarm status)Table 32 shows an example list of smoke alarm custom binding
Custom bindingsBAS-APG001-EN 127UUKL binding list (FCSP override control)Table 33 shows an example list of FSCP override custom bindings. Override com
Chapter 1 Smoke control overview2 BAS-APG001-ENMethods of smoke controlSmoke control system designers use five methods to manage smoke. They use the m
Chapter 8 Network variable bindings128 BAS-APG001-ENUUKL binding list (actuator Open/Close or On/Off status)Table 34 shows an example list of actuato
Custom bindingsBAS-APG001-EN 129UUKL binding list (actuator failure status)Table 35 shows an example list of actuator failure status bindings. Actuato
Chapter 8 Network variable bindings130 BAS-APG001-ENUUKL binding list (automatic self-test trigger and status)Table 37 shows an example list of actuat
Understanding bindingsBAS-APG001-EN 131A heartbeated network variable has a timer associated with it. When the timer expires, the heartbeated network
Chapter 8 Network variable bindings132 BAS-APG001-ENtargets can be either input NVs or output NVs, depending on the shape of the binding. For a one-to
Understanding bindingsBAS-APG001-EN 133The address table consists of the following elements (refer to column headings in Table 38):• Use Domain at Ind
Chapter 8 Network variable bindings134 BAS-APG001-ENA unique subnet/node binding type is a specific path from device X to device Y. Any number of actu
Understanding bindingsBAS-APG001-EN 135Figure 74. One-way subnet/node bindingIn the example shown in Figure 75 on page 135, the custom bindings consu
Chapter 8 Network variable bindings136 BAS-APG001-ENFigure 76. Group bindingGroups are unique. Two unique groups are shown in Figure 77. One consists
Understanding bindingsBAS-APG001-EN 137Figure 77. Group binding uniquenessWhen a group binding is made, all members of the group have an entry in the
Methods of smoke controlBAS-APG001-EN 3Figure 1: Sample pressure difference across a barrierTable 1 provides the National Fire Protection Association
Chapter 8 Network variable bindings138 BAS-APG001-ENmade, each member of the group has a entry made in its address table. For this example, all the de
Understanding bindingsBAS-APG001-EN 139Figure 79. Mixed subnet/node and group bindings
Chapter 8 Network variable bindings140 BAS-APG001-EN
BAS-APG001-EN 141Appendix AReferencesHuggett, C. 1980. Estimation of Rate of Heat Release by Means of Oxygen Consumption Measurements, Fire and Materi
Appendix A References142 BAS-APG001-EN
Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice. Only
Chapter 1 Smoke control overview4 BAS-APG001-ENTable 2: Maximum allowable pressure differences across doorsAirflow methodThe airflow method controls
Applications of smoke control methodsBAS-APG001-EN 5A disadvantage of the airflow method is that it supplies increased oxygen to a fire. Within buildi
Chapter 1 Smoke control overview6 BAS-APG001-ENZoned smoke control cannot limit the spread of smoke within the smoke control zone. Consequently, occup
Applications of smoke control methodsBAS-APG001-EN 7Figure 4: Sample HVAC operation during smoke controlWhen an HVAC system serves only one smoke con
Chapter 1 Smoke control overview8 BAS-APG001-ENIf the technique employs modulated supply airflow, a fan provides at least minimum pressure when all st
Applications of smoke control methodsBAS-APG001-EN 9Single and multiple injection pressurization techniquesThe single injection and multiple injection
Chapter 1 Smoke control overview10 BAS-APG001-ENmore information about elevator shaft smoke control, refer to Klote, J.K., and Milke, J.A. (Design of
Applications of smoke control methodsBAS-APG001-EN 11Natural smoke venting techniqueThe natural smoke venting technique employs vents in the atrium ce
Chapter 1 Smoke control overview12 BAS-APG001-ENUnderground building smoke controlThe smoke control objective for underground buildings is to contain
Smoke detection and system activationBAS-APG001-EN 13Zoned smoke control detection and activationZoned smoke control activation occurs on a signal fro
Chapter 1 Smoke control overview14 BAS-APG001-ENBeam smoke detectors minimize interference problems created by stratified hot air under atrium ceiling
Design approaches to smoke controlBAS-APG001-EN 15Design approaches to smoke controlSmoke control methods provide a mechanical means of directing smok
Chapter 1 Smoke control overview16 BAS-APG001-ENDesign considerations for smoke controlTwo occurrences will hinder smoke control: • Plugholing• Smoke
Design considerations for smoke controlBAS-APG001-EN 17Smoke feedbackSmoke feedback occurs when smoke enters a pressurization fan intake and flows int
BAS-APG001-ENSeptember 2006ApplicationsGuideEngineered Smoke Control System for TRACER SUMMIT™
Chapter 1 Smoke control overview18 BAS-APG001-EN
BAS-APG001-EN 19Chapter 2Pre-installation considerationsThis chapter provides considerations that must be given prior to installing an engineered smok
Chapter 2 Pre-installation considerations20 BAS-APG001-ENNormal modeA zone is in normal mode when no fire, smoke, or sprinkler alarms are present in t
Associated equipmentBAS-APG001-EN 21beam, and duct smoke detectors; manual pull stations; and sprinkler flow devices.Area smoke detectorsArea smoke de
Chapter 2 Pre-installation considerations22 BAS-APG001-ENsystem, since a pull station is not necessarily activated in the zone that contains the smoke
Associated equipmentBAS-APG001-EN 23LightsThe FSCS provides lights that show the mode of each zone and the status of each piece of smoke control mecha
Chapter 2 Pre-installation considerations24 BAS-APG001-ENThe smoke control system controls fans and positions dedicated and nondedicated dampers, both
Associated equipmentBAS-APG001-EN 25Smoke dampers are ordered as a complete assembly. They are typically two-position dampers and have end switches th
Chapter 2 Pre-installation considerations26 BAS-APG001-ENand dampers: status switches, differential pressure switches, airflow paddle switches, curren
System testingBAS-APG001-EN 27System testingSystem testing is a pre-installation consideration. To verify proper operation, the smoke control system m
BAS-APG001-ENApplications Guide, Engineered Smoke Control System for Tracer Summit™This guide and the information in it are the property of American S
Chapter 2 Pre-installation considerations28 BAS-APG001-ENTable 5. Sample automatic smoke control matrix (dedicated) Table 6. Sample automatic smoke
Response timesBAS-APG001-EN 29Response timesResponse times are a pre-installation consideration. For a discussion of response time requirements for sm
Chapter 2 Pre-installation considerations30 BAS-APG001-ENDistance limitations for unmonitored data paths are severely limited. Table 8. Cabling pra
BAS-APG001-EN 31Chapter 3Installation diagramsSmoke control system overviewAn engineered smoke control system can be added on to a Tracer Summit™ buil
Chapter 3 Installation diagrams32 BAS-APG001-ENSystem riser diagramsSystem riser diagrams (Figure 11) show panel locations, power requirements, power
System termination diagramsBAS-APG001-EN 33System termination diagramsSystem termination diagrams show wire terminations at panels and field devices.
Chapter 3 Installation diagrams34 BAS-APG001-ENTracer MP581 to FSCS wiringThe FSCS panel is designed for a specific smoke control system (Figure 13).
System termination diagramsBAS-APG001-EN 35The wiring between a Tracer MP581 and the FSCS is non-supervised and power limited. Additional requirements
Chapter 3 Installation diagrams36 BAS-APG001-ENFigure 14. Tracer MP581 to FSCS wiring
System termination diagramsBAS-APG001-EN 37Tracer MP581 to FACP wiringThe wiring between the Tracer MP581 and the FACP is non-supervised and power lim
BAS-APG001-ENNOTICE:Warnings and Cautions appear at appropriate sections throughout this manual. Read these carefully:WARNINGIndicates a potentially
Chapter 3 Installation diagrams38 BAS-APG001-ENFigure 15. Tracer MP581 to FACP wiring
BAS-APG001-EN 39Chapter 4Installing the Tracer Summit BMTX BCUMounting the hardwareMake sure that the selected location meets the operating environmen
Chapter 4 Installing the Tracer Summit BMTX BCU40 BAS-APG001-ENClearancesMake sure that the mounting location has enough room to meet the mini-mum cle
Mounting the hardwareBAS-APG001-EN 41Figure 17. BMTX BCU enclosure dimensionsFront viewTop viewBottom viewLeft viewRight viewNote: Six of the twelve
Chapter 4 Installing the Tracer Summit BMTX BCU42 BAS-APG001-ENMounting the back of the enclosureThe back of the enclosure is shipped with the termina
Wiring high-voltage ac powerBAS-APG001-EN 432. Set the enclosure back aside and drill holes for the screws at the marked locations.Drill holes for #10
Chapter 4 Installing the Tracer Summit BMTX BCU44 BAS-APG001-ENCAUTIONUse copper conductors only!Unit terminals are designed to accept copper conducto
Wiring high-voltage ac powerBAS-APG001-EN 45Figure 19. AC wiring
Chapter 4 Installing the Tracer Summit BMTX BCU46 BAS-APG001-ENEMI/RFI considerationsTake care to isolate HVAC controllers from electromagnetic interf
EMI/RFI considerationsBAS-APG001-EN 47Figure 20. Checking the earth ground
Chapter 4 Installing the Tracer Summit BMTX BCU48 BAS-APG001-ENConnecting the main circuit boardThe main circuit board is attached to a plastic frame.
Connecting the main circuit boardBAS-APG001-EN 49Figure 22. Connecting the frames3. Connect the 24 Vac power cable to the termination board. The seve
Chapter 4 Installing the Tracer Summit BMTX BCU50 BAS-APG001-ENInstalling the doorTo install the enclosure door:1. Unpack the door and check for missi
Transtector, Ethernet (UUKL nondedicated only), and LonTalk connections on the BMTX BCUBAS-APG001-EN 51Transtector, Ethernet (UUKL nondedicated only),
Chapter 4 Installing the Tracer Summit BMTX BCU52 BAS-APG001-ENFigure 25 shows the Ethernet LAN connection (UUKL nondedicated only) and the LonTalk co
BAS-APG001-EN 53Chapter 5Installing the Tracer MP581 programmable controllerInstallation guidelinesGuidelines for installing a Tracer MP581 include:•
Chapter 5 Installing the Tracer MP581 programmable controller54 BAS-APG001-ENSpecificationsThe Tracer MP581 conforms to the specifications shown in Ta
Selecting a mounting locationBAS-APG001-EN 55Selecting a mounting locationMake sure that the location meets the operating environment require-ments an
Chapter 5 Installing the Tracer MP581 programmable controller56 BAS-APG001-ENClearances and dimensionsMake sure that the mounting location has enough
Selecting a mounting locationBAS-APG001-EN 57Figure 27. Tracer MP581 enclosure dimensionsNote:Six of the twelve knockouts are dual-sized knockouts fo
ContentsBAS-APG001-EN iContentsChapter 1 Smoke control overview . . . . . . . . . . . . . . . . . . . . . 1Methods of smoke control. . . . . . . . . .
Chapter 5 Installing the Tracer MP581 programmable controller58 BAS-APG001-ENMounting the back of the enclosureThe back of the enclosure is shipped wi
Wiring high-voltage ac powerBAS-APG001-EN 592. Set the enclosure aside and drill holes for the screws at the marked locations.Drill holes for #10 (5 m
Chapter 5 Installing the Tracer MP581 programmable controller60 BAS-APG001-ENWiring high-voltage powerWARNINGHazardous voltage!Before making electric
Wiring high-voltage ac powerBAS-APG001-EN 61Figure 30. Terminal block for high-voltage power wiresWARNINGHazardous voltage!The cover plate must be i
Chapter 5 Installing the Tracer MP581 programmable controller62 BAS-APG001-ENEMI/RFI considerationsTake care to isolate HVAC controllers from electrom
EMI/RFI considerationsBAS-APG001-EN 63Figure 31. Checking the earth ground
Chapter 5 Installing the Tracer MP581 programmable controller64 BAS-APG001-ENWiring inputs and outputsThe Tracer MP581 enclosure is designed to simpli
Wiring inputs and outputsBAS-APG001-EN 65Wire routingFigure 32 shows how to route input/output wires through the enclosure. It also shows the location
Chapter 5 Installing the Tracer MP581 programmable controller66 BAS-APG001-ENScrew terminal locationsFigure 33 shows screw terminal locations on the t
Wiring inputs and outputsBAS-APG001-EN 67Wiring universal inputsThe Tracer MP581 controller has 12 universal inputs. Use the Rover ser-vice tool to co
ContentsBAS-APG001-EN iiSmoke control system equipment . . . . . . . . . . . . . . . . . . . . . . . . . . 23Equipment supervision . . . . . . . . .
Chapter 5 Installing the Tracer MP581 programmable controller68 BAS-APG001-ENWiring analog outputsThe Tracer MP581 controller has six analog outputs.
Wiring inputs and outputsBAS-APG001-EN 69Wiring binary outputsThe Tracer MP581 controller has six binary outputs. These are powered outputs, not dry-c
Chapter 5 Installing the Tracer MP581 programmable controller70 BAS-APG001-ENFigure 36. Wiring binary outputsChecking binary inputsTo check binary in
Checking outputsBAS-APG001-EN 71Checking outputsFollow the procedures in this section to test outputs for proper operation.IMPORTANTPerform the tests
Chapter 5 Installing the Tracer MP581 programmable controller72 BAS-APG001-EN1. Make sure that the actuator is connected but powered off.2. Set the mu
Checking outputsBAS-APG001-EN 733. Set the multi-meter to measure Vdc, then measure the voltage across the analog output at the signal and common scre
Chapter 5 Installing the Tracer MP581 programmable controller74 BAS-APG001-ENWiring LonTalk to the Tracer MP581IMPORTANTWhen installing the Tracer MP5
Wiring LonTalk to the Tracer MP581BAS-APG001-EN 753. At the last controller on the LonTalk link:• Connect the white wire to the first LonTalk screw te
Chapter 5 Installing the Tracer MP581 programmable controller76 BAS-APG001-ENInstalling the circuit boardThe main circuit board is not installed in th
Installing the circuit boardBAS-APG001-EN 775. Align the snaps on the top frame with the mounting locks on the bot-tom frame, as shown in Figure 40, t
ContentsBAS-APG001-EN iiiCircuit requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59Wiring high-voltage power
Chapter 5 Installing the Tracer MP581 programmable controller78 BAS-APG001-ENFigure 41. 24 Vac power-supply cable connection 24 Vac power connecto
Verifying operation and communication of the Tracer MP581BAS-APG001-EN 79Verifying operation and communication of the Tracer MP581This chapter describ
Chapter 5 Installing the Tracer MP581 programmable controller80 BAS-APG001-ENBinary output LEDsThe BO1–BO6 LEDs indicate the status of the six binary
Verifying operation and communication of the Tracer MP581BAS-APG001-EN 81Status LEDThe green Status LED indicates whether the controller has power app
Chapter 5 Installing the Tracer MP581 programmable controller82 BAS-APG001-ENInstalling the doorTo install the enclosure door:1. Unpack the door and c
Installing the doorBAS-APG001-EN 832. For doors with an operator display, disconnect the operator-display cable from operator display.3. Lift the door
Chapter 5 Installing the Tracer MP581 programmable controller84 BAS-APG001-EN
BAS-APG001-EN 85Chapter 6Installing the EX2 expansion moduleThe EX2 is a field-installed expansion module for the Tracer MP581 pro-grammable controlle
Chapter 6 Installing the EX2 expansion module86 BAS-APG001-ENFigure 44. Dimensions and clearances for metal-enclosure EX2Storage environmentThe stora
Terminal stripsBAS-APG001-EN 87Te r m i n a l s t r i p sThe EX2 module is shipped with terminal strips already in place (Figure 45). If you need to
Kommentare zu diesen Handbüchern