SSAAFFEETTYY WWAARRNNIINNGGOnly qualified personnel should install and service the equipment. The installation, starting up, and servicing of heating, ventilating, and air-conditioningequipment can be hazardous and requires specific knowledge and training. Improperly installed, adjusted or altered equipment by an unqualified personcould result in death or serious injury. When working on the equipment, observe all precautions in the literature and on the tags, stickers, and labels thatare attached to the equipment.

June 2020 VVAAVV--SSVVXX0088NN--EENN

Installation, Operation, and MaintenanceVariTrane™ Variable Air Volume(VAV) Terminal Air UnitsShutoff, Fan Powered, and CoolSense™ SensibleCooling

SSiinnggllee--DDuucctt:: VCCF, VCEF, VCWFDDuuaall--DDuucctt:: VDDFFFaann--PPoowweerreedd:: VPCF, VPEF, VPWF, VSCF, VSEF, VSWFFFaann--PPoowweerreedd LLooww HHeeiigghhtt:: LPCF, LPEF, LPWF, LSCF, LSEF, LSWFCChhiilllleedd WWaatteerr SSeennssiibbllee CCoooolliinngg TTeerrmmiinnaall UUnniittss:: LDCF, LDEF, LDWF

©2020 Trane VAV-SVX08N-EN

IntroductionRead this manual thoroughly before operating orservicing this unit.

Warnings, Cautions, and NoticesSafety advisories appear throughout this manual asrequired. Your personal safety and the properoperation of this machine depend upon the strictobservance of these precautions.

The three types of advisories are defined as follows:

WARNINGIndicates a potentially hazardous situationwhich, if not avoided, could result in death orserious injury.

CAUTIONIndicates a potentially hazardous situationwhich, if not avoided, could result in minor ormoderate injury. It could also be used to alertagainst unsafe practices.

NOTICEIndicates a situation that could result inequipment or property-damage onlyaccidents.

Important Environmental ConcernsScientific research has shown that certain man-madechemicals can affect the earth’s naturally occurringstratospheric ozone layer when released to theatmosphere. In particular, several of the identifiedchemicals that may affect the ozone layer arerefrigerants that contain Chlorine, Fluorine and Carbon(CFCs) and those containing Hydrogen, Chlorine,Fluorine and Carbon (HCFCs). Not all refrigerantscontaining these compounds have the same potentialimpact to the environment. Trane advocates theresponsible handling of all refrigerants-includingindustry replacements for CFCs and HCFCs such assaturated or unsaturated HFCs and HCFCs.

Important Responsible RefrigerantPracticesTrane believes that responsible refrigerant practicesare important to the environment, our customers, andthe air conditioning industry. All technicians whohandle refrigerants must be certified according to localrules. For the USA, the Federal Clean Air Act (Section608) sets forth the requirements for handling,reclaiming, recovering and recycling of certainrefrigerants and the equipment that is used in theseservice procedures. In addition, some states ormunicipalities may have additional requirements thatmust also be adhered to for responsible managementof refrigerants. Know the applicable laws and followthem.

WWAARRNNIINNGGPPrrooppeerr FFiieelldd WWiirriinngg aanndd GGrroouunnddiinnggRReeqquuiirreedd!!FFaaiilluurree ttoo ffoollllooww ccooddee ccoouulldd rreessuulltt iinn ddeeaatthh oorrsseerriioouuss iinnjjuurryy..AAllll ffiieelldd wwiirriinngg MMUUSSTT bbee ppeerrffoorrmmeedd bbyy qquuaalliiffiieeddppeerrssoonnnneell.. IImmpprrooppeerrllyy iinnssttaalllleedd aanndd ggrroouunnddeeddffiieelldd wwiirriinngg ppoosseess FFIIRREE aanndd EELLEECCTTRROOCCUUTTIIOONNhhaazzaarrddss.. TToo aavvooiidd tthheessee hhaazzaarrddss,, yyoouu MMUUSSTT ffoolllloowwrreeqquuiirreemmeennttss ffoorr ffiieelldd wwiirriinngg iinnssttaallllaattiioonn aannddggrroouunnddiinngg aass ddeessccrriibbeedd iinn NNEECC aanndd yyoouurr llooccaall//ssttaattee//nnaattiioonnaall eelleeccttrriiccaall ccooddeess..

WWAARRNNIINNGGPPeerrssoonnaall PPrrootteeccttiivvee EEqquuiippmmeenntt ((PPPPEE))RReeqquuiirreedd!!FFaaiilluurree ttoo wweeaarr pprrooppeerr PPPPEE ffoorr tthhee jjoobb bbeeiinngguunnddeerrttaakkeenn ccoouulldd rreessuulltt iinn ddeeaatthh oorr sseerriioouuss iinnjjuurryy..TTeecchhnniicciiaannss,, iinn oorrddeerr ttoo pprrootteecctt tthheemmsseellvveess ffrroommppootteennttiiaall eelleeccttrriiccaall,, mmeecchhaanniiccaall,, aanndd cchheemmiiccaallhhaazzaarrddss,, MMUUSSTT ffoollllooww pprreeccaauuttiioonnss iinn tthhiiss mmaannuuaallaanndd oonn tthhee ttaaggss,, ssttiicckkeerrss,, aanndd llaabbeellss,, aass wweellll aass tthheeiinnssttrruuccttiioonnss bbeellooww::

•• BBeeffoorree iinnssttaalllliinngg//sseerrvviicciinngg tthhiiss uunniitt,,tteecchhnniicciiaannss MMUUSSTT ppuutt oonn aallll PPPPEE rreeqquuiirreedd ffoorrtthhee wwoorrkk bbeeiinngg uunnddeerrttaakkeenn ((EExxaammpplleess;; ccuuttrreessiissttaanntt gglloovveess//sslleeeevveess,, bbuuttyyll gglloovveess,, ssaaffeettyyggllaasssseess,, hhaarrdd hhaatt//bbuummpp ccaapp,, ffaallll pprrootteeccttiioonn,,eelleeccttrriiccaall PPPPEE aanndd aarrcc ffllaasshh ccllootthhiinngg))..AALLWWAAYYSS rreeffeerr ttoo aapppprroopprriiaattee SSaaffeettyy DDaattaaSShheeeettss ((SSDDSS)) aanndd OOSSHHAA gguuiiddeelliinneess ffoorrpprrooppeerr PPPPEE..

•• WWhheenn wwoorrkkiinngg wwiitthh oorr aarroouunndd hhaazzaarrddoouusscchheemmiiccaallss,, AALLWWAAYYSS rreeffeerr ttoo tthhee aapppprroopprriiaatteeSSDDSS aanndd OOSSHHAA//GGHHSS ((GGlloobbaall HHaarrmmoonniizzeeddSSyysstteemm ooff CCllaassssiiffiiccaattiioonn aanndd LLaabbeelllliinngg ooffCChheemmiiccaallss)) gguuiiddeelliinneess ffoorr iinnffoorrmmaattiioonn oonnaalllloowwaabbllee ppeerrssoonnaall eexxppoossuurree lleevveellss,, pprrooppeerrrreessppiirraattoorryy pprrootteeccttiioonn aanndd hhaannddlliinnggiinnssttrruuccttiioonnss..

•• IIff tthheerree iiss aa rriisskk ooff eenneerrggiizzeedd eelleeccttrriiccaallccoonnttaacctt,, aarrcc,, oorr ffllaasshh,, tteecchhnniicciiaannss MMUUSSTT ppuuttoonn aallll PPPPEE iinn aaccccoorrddaannccee wwiitthh OOSSHHAA,, NNFFPPAA7700EE,, oorr ootthheerr ccoouunnttrryy--ssppeecciiffiicc rreeqquuiirreemmeennttssffoorr aarrcc ffllaasshh pprrootteeccttiioonn,, PPRRIIOORR ttoo sseerrvviicciinnggtthhee uunniitt.. NNEEVVEERR PPEERRFFOORRMM AANNYY SSWWIITTCCHHIINNGG,,DDIISSCCOONNNNEECCTTIINNGG,, OORR VVOOLLTTAAGGEE TTEESSTTIINNGGWWIITTHHOOUUTT PPRROOPPEERR EELLEECCTTRRIICCAALL PPPPEE AANNDDAARRCC FFLLAASSHH CCLLOOTTHHIINNGG.. EENNSSUURREEEELLEECCTTRRIICCAALL MMEETTEERRSS AANNDD EEQQUUIIPPMMEENNTT AARREEPPRROOPPEERRLLYY RRAATTEEDD FFOORR IINNTTEENNDDEEDDVVOOLLTTAAGGEE..

VAV-SVX08N-EN 3

WWAARRNNIINNGGFFoollllooww EEHHSS PPoolliicciieess!!FFaaiilluurree ttoo ffoollllooww iinnssttrruuccttiioonnss bbeellooww ccoouulldd rreessuulltt iinnddeeaatthh oorr sseerriioouuss iinnjjuurryy..

•• AAllll TTrraannee ppeerrssoonnnneell mmuusstt ffoollllooww tthheeccoommppaannyy’’ss EEnnvviirroonnmmeennttaall,, HHeeaalltthh aanndd SSaaffeettyy((EEHHSS)) ppoolliicciieess wwhheenn ppeerrffoorrmmiinngg wwoorrkk ssuucchh aasshhoott wwoorrkk,, eelleeccttrriiccaall,, ffaallll pprrootteeccttiioonn,, lloocckkoouutt//ttaaggoouutt,, rreeffrriiggeerraanntt hhaannddlliinngg,, eettcc.. WWhheerree llooccaallrreegguullaattiioonnss aarree mmoorree ssttrriinnggeenntt tthhaann tthheesseeppoolliicciieess,, tthhoossee rreegguullaattiioonnss ssuuppeerrsseeddee tthheesseeppoolliicciieess..

•• NNoonn--TTrraannee ppeerrssoonnnneell sshhoouulldd aallwwaayyss ffoolllloowwllooccaall rreegguullaattiioonnss..

WWAARRNNIINNGGFFiibbeerrggllaassss WWooooll!!EExxppoossuurree ttoo ggllaassss wwooooll ffiibbeerrss wwiitthhoouutt aallllnneecceessssaarryy PPPPEE eeqquuiippmmeenntt ccoouulldd rreessuulltt iinn ccaanncceerr,,rreessppiirraattoorryy,, sskkiinn oorr eeyyee iirrrriittaattiioonn,, wwhhiicchh ccoouullddrreessuulltt iinn ddeeaatthh oorr sseerriioouuss iinnjjuurryy.. DDiissttuurrbbiinngg tthheeiinnssuullaattiioonn iinn tthhiiss pprroodduucctt dduurriinngg iinnssttaallllaattiioonn,,mmaaiinntteennaannccee oorr rreeppaaiirr wwiillll eexxppoossee yyoouu ttoo aaiirrbboorrnneeppaarrttiicclleess ooff ggllaassss wwooooll ffiibbeerrss aanndd cceerraammiicc ffiibbeerrsskknnoowwnn ttoo tthhee ssttaattee ooff CCaalliiffoorrnniiaa ttoo ccaauussee ccaanncceerrtthhrroouugghh iinnhhaallaattiioonn..YYoouu MMUUSSTT wweeaarr aallll nneecceessssaarryy PPeerrssoonnaall PPrrootteeccttiivveeEEqquuiippmmeenntt ((PPPPEE)) iinncclluuddiinngg gglloovveess,, eeyyee pprrootteeccttiioonn,,aa NNIIOOSSHH aapppprroovveedd dduusstt//mmiisstt rreessppiirraattoorr,, lloonnggsslleeeevveess aanndd ppaannttss wwhheenn wwoorrkkiinngg wwiitthh pprroodduuccttssccoonnttaaiinniinngg ffiibbeerrggllaassss wwooooll..

PPrreeccaauuttiioonnaarryy MMeeaassuurreess::

•• AAvvooiidd bbrreeaatthhiinngg ffiibbeerrggllaassss dduusstt..

•• UUssee aa NNIIOOSSHH aapppprroovveedd dduusstt//mmiisstt rreessppiirraattoorr..

•• AAvvooiidd ccoonnttaacctt wwiitthh tthhee sskkiinn oorr eeyyeess.. WWeeaarrlloonngg--sslleeeevveedd,, lloooossee--ffiittttiinngg ccllootthhiinngg,, gglloovveess,,aanndd eeyyee pprrootteeccttiioonn..

•• WWaasshh ccllootthheess sseeppaarraatteellyy ffrroomm ootthheerr ccllootthhiinngg;;rriinnssee wwaasshheerr tthhoorroouugghhllyy..

•• OOppeerraattiioonnss ssuucchh aass ssaawwiinngg,, bblloowwiinngg,, tteeaarr--oouutt,, aanndd sspprraayyiinngg mmaayy ggeenneerraattee ffiibbeerrccoonncceennttrraattiioonnss rreeqquuiirriinngg aaddddiittiioonnaallrreessppiirraattoorryy pprrootteeccttiioonn.. UUssee tthhee aapppprroopprriiaatteeNNIIOOSSHH aapppprroovveedd rreessppiirraattoorr..

FFiirrsstt AAiidd MMeeaassuurreess::

•• EEyyee CCoonnttaacctt -- FFlluusshh eeyyeess wwiitthh wwaatteerr ttoorreemmoovvee dduusstt.. IIff ssyymmppttoommss ppeerrssiisstt,, sseeeekkmmeeddiiccaall aatttteennttiioonn..

•• SSkkiinn CCoonnttaacctt -- WWaasshh aaffffeecctteedd aarreeaass ggeennttllyywwiitthh ssooaapp aanndd wwaarrmm wwaatteerr aafftteerr hhaannddlliinngg..

About This ManualThis manual describes the installation of withrecommended wiring, piping, and mounting of single-duct, dual-duct, fan-powered, and low-height VAVterminal units, and chilled water sensible coil terminalunits.

See also the following reference documents:

• BAS-SVX40-EN —Wireless Comm IOM

• BAS-SVX55-EN — Wireless Comm Network DesignBest Practices Guide

• BAS-SVX62*-EN — Tracer® UC210 ProgrammableVariable-Air-Volume (VAV) Box Controller

• VAV-SVX07*-EN — Tracer® UC400 ProgrammableBACnet® Controller for VAV Units

• VAV-SVP01*-EN — VAV VV550 LonTalk® Controller

• VAV-SVX01*-EN — VAV-UCM 4.2 IOM

• VAV-SVX02*-EN — VariTrane™ PneumaticControls

Receiving and HandlingThese units are shipped completely assembled with theexceptions of some optional attenuators for fan-powered units, outlet duct temperature sensors onnon-VCEF products, water valves, and accessories.Upon receiving the equipment, complete the following:

• Locate the nameplate and refer to the model andsales order number and check that the correct unitshave been delivered.

• Inspect the control enclosures and air valve casingfor dents or punctures.

• Verify that all options have been included, such asfilters, controls, heating coils, water valves, etc.Also check that the unit voltages agree with thebuilding parameters.

• Manually rotate fan (if applicable) to assure thatthere are no obstructions within the housing.

• Claims for in-transit damage must be filedimmediately with the delivery carrier.

• For hot water re-heat units, check the coil fins andmake sure that coils are not damaged.

• Locate and verify that the correct zone sensors arewith the order. These will be marked with an orange“Accessories Enclosed” label. Store in a securelocation until needed. Accessories lost at the jobsite are NOT covered by the Trane warranty.

• If a discrepancy occurs between what was orderedand what is received, contact you local Tranerepresentative immediately.

• Read appropriate section in this manual forinstallation procedures prior to starting equipment.

Upon receiving the equipment, please inspect each unitand components for external or internal damage. Referto the bill of lading to insure all equipment and

IInnttrroodduuccttiioonn

4 VAV-SVX08N-EN

accessories have been received. Contact your localTrane sales representative and notify the truckingcompany immediately of any short ship or damagedequipment.

Read this manual thoroughly before operating orservicing this unit.

CopyrightThis document and the information in it are theproperty of Trane, and may not be used or reproducedin whole or in part without written permission. Tranereserves the right to revise this publication at any time,and to make changes to its content without obligationto notify any person of such revision or change.

TrademarksAll trademarks referenced in this document are thetrademarks of their respective owners.

Revision History• Updated the Single-Duct VAV Units and Dual-Duct

VAV Units Model Numbers.

• Updated Discharge Duct Temperature SensorInstallation section in Unit Installation chapter.

• Updated Chilled water sensible coil terminal units—lb/kg table in Weights section in Unit Installationchapter.

• Added Electronic Duct Temperature SensorInstallation section in Unit Installation chapter.

• Updated Fan Motor Replacement section inMaintenance chapter.

IInnttrroodduuccttiioonn

VAV-SVX08N-EN 5

Model Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Single-Duct VAV Units . . . . . . . . . . . . . . . . . . . . 6

Dual-Duct VAV Units . . . . . . . . . . . . . . . . . . . . . . 9

Fan-Powered VAV Units Model NumberDescriptions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

Chilled Water Sensible Cooling TerminalUnits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Unit Information. . . . . . . . . . . . . . . . . . . . . . . . . . . 15Single Duct VAV Units . . . . . . . . . . . . . . . . . . . 15

Typical Single Duct VAV Units . . . . . . . . 15

Dual-Duct VAV Units . . . . . . . . . . . . . . . . . . . . 15

Fan-Powered/Fan-Powered Low-HeightVAV Units. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

Typical Fan-powered Units . . . . . . . . . . . 16

Chilled Water Sensible Cooling TerminalUnits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

Unit Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Single-Duct VAV Units . . . . . . . . . . . . . . . . . . . 19

Dual-Duct VAV Units . . . . . . . . . . . . . . . . . . . . . 19

Fan-Powered VAV Units and ChilledWater Sensible Cooling TerminalUnits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20

Bracket Locations — FanPowered . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Bracket LocationsChilled WaterSensible Cooling TerminalUnits. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

Duct Connections. . . . . . . . . . . . . . . . . . . . . . . . 24

Water Coil Connections . . . . . . . . . . . . . . . . . . 24

Discharge Duct Temperature SensorInstallation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

Electronic Duct Temperature SensorInstallation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25

Unit Accessibility . . . . . . . . . . . . . . . . . . . . . . . . 25Clearances . . . . . . . . . . . . . . . . . . . . . . . . . . 26

Mounting Actuator . . . . . . . . . . . . . . . . . . . . . . 26

Stand-alone Units . . . . . . . . . . . . . . . . . . . . . . . 26Stand-alone UCM 4.2. . . . . . . . . . . . . . . . . 26Stand-alone VV550 LonTalkControl. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Stand-alone UC400. . . . . . . . . . . . . . . . . . . 26Stand-alone UC210. . . . . . . . . . . . . . . . . . . 27

Bottom Access . . . . . . . . . . . . . . . . . . . . . . . . . . 27

Weights. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27

Unit Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31Fan Motor Amperage . . . . . . . . . . . . . . . . . . . . 31

Adjusting the SCR Motor SpeedControl . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31

Electrically Commutated Motor(ECM). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32

Wiring Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . 45Wiring — Electric Heater ControlBox. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46

Control Box Wiring . . . . . . . . . . . . . . . . . . . . . . 59

Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67Motors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67

Fan Wheel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67

Filter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67Filter Change Out . . . . . . . . . . . . . . . . . . . . 67

Water Coil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67

Fan Motor Replacement . . . . . . . . . . . . . . . . . . 67

SCR Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . 68

Table of Contents

6 VAV-SVX08N-EN

Model NumbersSingle-Duct VAV Units

Digit 1, 2— Unit Type

VC = VariTrane™ Single—Duct

Digit 3— Reheat

C = Cooling OnlyE = Electric HeatW = Hot Water Heat

Digit 4 — Development Sequence

F = Sixth

Digit 5, 6 — Primary Air Valve

04 = 4" inlet (225 cfm)05 = 5" inlet (350 cfm)06 = 6" inlet (500 cfm)08 = 8" inlet (900 cfm)10 = 10" inlet (1400 cfm)12 = 12" inlet (2000 cfm14 = 14" inlet (3000 cfm)16 = 16" inlet (4000 cfm)24 = 24" x 16" inlet (8000 cfm)

Digit 7, 8, 9—Not Used

000 = N/A

Digit 10, 11—Design Sequence

** = Factory Assigned

Digit 12, 13, 14, 15— Controls

DD00 = Trane Actuator Only and EnclosureDD01 = UCM4 Cooling Only ControlDD02 = UCM4 N.C. On/Off Hot WaterDD03 = UCM4 Prop Hot WaterDD04 = UCM4 Staged On/Off Elec HeatDD05 = UCM4 Pulse Width MOD Elec HeatDD07 = UCM4 N.O. On/Off Hot WaterDD11 = VV550 DDC- Controller, Cool OnlyDD12 = VV550 DDC- Ctrl to operate N.C. On/Off Water ValveDD13 =VV550 DDC- Ctrl to operate PropWater ValveDD14 = VV550 DDC- Ctrl On/Off Elec HeatDD15 = VV550 DDC- Ctrl w/Pulse WidthModulationDD16 = VV550 DDC- Controller VentilationFlowDD17 = VV550 DDC- Ctrl to Operate N.O.On/Off Water ValveDD19 = VV550 DDC- Controller with FlowTrackingDD20 = VV550 DDC- Vent Flow Control l toOperate N.C. Water ValveDD21 = VV550 DDC- Vent Flow w/ On/OffElec Heat

Digit 12, 13, 14, 15 — Controls(continued)DD22 = VV550 DDC- Vent Flow control tooperate prop water valveDD23 = VV550 DDC- Basic plus- Local(Electric heat- PWM) RemoteDD24 = VV550 DDC- Basic plus- Local(Water heat- Modulating)DD25 = VV550 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.O. 2-position)DD26 = VV550 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- Modulating)DD27 = VVV550 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- Modulating)DD28 = VV550 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.O. 2-position)DD29 = VV550 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- NC 2-position)DD30 = VV550 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.C. 2-position)DD31 =VV550 DDC- Basic plus- Local (Waterheat- N.C. 2-position) Remote (Water- N.O.2-position)DD32 = VV550 DDC- Basic plus- Local(Electric heat- Staged) Remote (Staged EH)DD33 = VV550 DDC- Vent Flow control tooperate N.O. On/Off water valveDD41 = UC400 DDC- Basic (No water orelectric heat)DD42 = UC400 DDC- Basic (Water heat- N.C.2-position)DD43 = UC400 DDC- Basic (Water heat-Modulating)DD44 = UC400 DDC- Basic (Electric heat-Staged)DD45 = UC400 DDC- Basic (Electric heat-PWM)DD46 = UC400 DDC- Ventilation flow-cooling onlyDD47 = UC400 DDC- Basic (Water heat- N.O.2-position)DD49 = UC400 DDC- Flow Tracking (Coolingonly)DD50 = UC400 DDC- Ventilation Flow (Waterheat- N. C. 2-positionDD51 = UC400 DDC- Ventilation Flow(Electric heat- Staged)DD52 = UC400 DDC- Ventilation Flow (Waterheat- Modulating)DD53 = UC400 DDC- Basic plus- Local(Electric heat- PWM) Remote (Staged EH)DD54 = UC400 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.C. 2-position)DD55 =UC400 DDC- Basic plus Local (Waterheat- Modulating) Remote (Water- N.O.2-position)

Digit 12, 13, 14, 15— Controls(continued)DD56 = UC400 Basic plus - Local (Water heat- N.O. 2-position) Remote (Water -Modulating)DD57 = UC400 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- Modulating)DD58 = UC400 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.O. 2-position)DD59 = UC400 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- N.C. 2-position)DD60 = UC400 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.C. 2-position)DD61 = UC400 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- N.O. 2-position)DD62 = UC400 DDC- Basic plus- Local(Electric heat- Staged) Remote (Staged EH)DD63 = UC400 DDC- Ventilation Flow (Waterheat- N.O. 2-position)DD65 = UC400 Basic (Electric HeatModulating SCR)DD66 = UC400 Basic plus- Local (Electricheat-Modulating SCR) Remote (Staged EH)DD67 = UC400 Ventilation Flow (Electricheat- Modulating SCR)DD71 = UC210 DDC- Basic (No water orelectric heat)DD72 = UC210 DDC- Basic (Water heat- N.C.2-position)DD73 = UC210 DDC- Basic (Water heat-Modulating)DD74 = UC210 DDC- Basic (Electric heat-Staged)DD75 = UC210 DDC- Basic (Electric heat-PWM)DD76 = UC210 DDC Ventilation flow- coolingonlyDD77 = UC210 DDC- Basic (Water heat- N.O.2-position)DD79 = UC210 DDC- Flow Tracking (Coolingonly)DD80 = UC210 DDC- Ventilation Flow (Waterheat- N.C. 2-position)DD81 = UC210 DDC- Ventilation Flow(Electric heat- Staged)DD82 = UC210 DDC- Ventilation Flow (Waterheat- Modulating)DD83 = UC210 DDC- Basic plus- Local(Electric heat- PWM) Remote (Staged EH)DD84 = UC210 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.C. 2-position)DD85 = UC210 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.O. 2-position)DD86 = UC210 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- Modulating)

VAV-SVX08N-EN 7

Digit 12, 13, 14, 15— Controls(continued)DD87 = UC210 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- Modulating)DD88 = UC210 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.O. 2-position)DD89 = UC210 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- N.C. 2-position)DD90 = UC210 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.C. 2-position)DD91 = UC210 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- N.O. 2-position)DD92 = UC210 DDC- Basic plus- Local(Electric heat- Staged) Remote (Staged EH)DD93 = UC210 Ventilation Flow (Water heat-N.O. 2-position)DD95 = UC210 Basic (Electric HeatModulating SCR)DD96 = UC210 Basic plus- Local (Electricheat-Modulating SCR) Remote (Staged EH)DD97 = UC210 Ventilation Flow (Electricheat-Modulating SCR)ENCL = Shaft Only in EnclosureENON = Shaft Out Side for Electric UnitsFM00 = Other Actuator and ControlFM01 = Trane Supplied Actuator, Other CtrlPC00 = N.C. Actuator and Linkage OnlyPC04 = N.C. with DA Stat, 3000 SeriesPC05 = UC210 DDC- Ventilation flow- coolingonlyPCSS = UC210 DDC- Basic (Water heat- N.O.2-position)PN00 = UC210 DDC- Flow Tracking (Coolingonly)PN04 = UC210 DDC- Ventilation Flow (Waterheat- N. C. 2-position)PN05 = N.C. with RA STAT, 3000 SeriesPN11 = Auto Dual Min.PN32 = N.O. PNEU Constant Vol.PN34 = N.O. 3000 Series Constant Vol.,RASTATPNON = Shaft Out Side for Pneumatic UnitsPNSS = Normally-Open SpecialN.C. = Normally-ClosedN.O. = Normally-OpenDA Stat = Direct-acting Pneumatic T-stat (ByOthers)RA Stat = Reverse-acting Pneumatic T-stat(By Others)PN = PneumaticFM = Factory Installation of Customer-supplied ControllersPVR = Pneumatic Volume Regulator

Digit 16— Insulation

A = 1/2” Matte-facedB = 1” Matte-facedD = 1” Foil-facedF = 1” Double WallG = 3/8” Closed-cell

Digit 17, 18—Not Used

00= Not Applicable

Digit 19—Outlet Plenum (Slip-and-Drive Connection0 = NoneA = 1 Outlet RHB = 1 Outlet ENDC= 1 Outlets, LHD = 2 Outlets, 1RH, 1ENDE= 2 Outlets, 1LH, 1ENDF= 2 Outlets, 1RH, 1LHH= 3 Outlets, 1LH, 1RH, 1ENDJ = 4 Outlets, 1LH, 1RH, 2END

Note: See unit drawings for outlet sizes/damper information.

Digit 20—Not Used

0 = Not Applicable

Digit 21—Water Coil

0 = None1 = 1 Row2 = 2 Row3 = 3 Row4 = 4 RowA = 1 Row PremiumB = 2 Row PremiumC= 3 Row PremiumD = 4 Row Premium

Digit 22— Electrical Connections

F= Able to Flip for LH/RH Connections (VCEFOnly)L = Left, Airflow hits in faceR = Right, Airflow hits in face0 = Opposite side connection, coil and control(VCWF Only)

Note: VCCF/VCWF can be flipped in field foropposite connections.

Digit 23— Transformer

0 = None1 = 120/24V, 50 VA2 = 208/24V, 50 VA3 = 240/24V, 50 VA4 = 277/24V, 50 VA5 = 480/24V, 50 VA6 = 347/24V, 50 VA7 = 380/24V, 50 VA8 = 575/24V, 50 VA

Note: For VCEF units with transformers theVA depends on the staging, control,and contactor type (ranges are 50 VAto 75 VA, for 1 and 3 phase)

Digit 24— Disconnect Switch

0 = NoneW =With

Note: VCCF/VCWF— toggle disconnect.VCEF-door interlocking powerdisconnect.

Digit 25— Power Fuse

0 = NoneW =With

Digit 26— Electric Heat Voltage

0 = NoneA = 208/60/1B = 208/60/3C = 240/60/1D = 277/60/1E = 480/60/1F = 480/60/3G = 347/60/1H = 575/60/3J = 380/50/3K = 120/60/1

Digit 27, 28, 29— Electric Heat kW

000 = None010 = 1.0 kW015 = 1.5 kW460 = 46.0 kW

Notes:

• 0.5 to 8.0 kW in 1/2 kWincrements

• 8.0 to 18.0 kW in 1 kWincrements

• 18.0 to 46.0 kW in 2 kWincrements

Digit 30— Electric Heat Stages

0 = None1 = 1 Stage2 = 2 Stages Equal3 = 3 Stages Equal

Digit 31— Electric Heat Contactors

0 = None1 = 24V Magnetic2 = 24V Mercury3 = PE w/Magnetic4 = PE w/Mercury5 = 0–10Vdc SCR Heat; UC400/UC2106 = 0–10Vdc SCR Heat; FMTD/ENCL/DD007 = 24V SSR (Solid State Relay)A = 24V Mercury Left HandB = 24V Mercury Right HandC = PE w/Mercury Left HandD = PE 2/Mercury Right Hand

Digit 32, 33—Not Used

00 = Not Applicable

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8 VAV-SVX08N-EN

Digit 34— Actuator

0 = StandardA = Spring Return, Normally OpenB = Spring Return, Normally ClosedC = Belimo™ ActuatorG = Trane Analog Actuator (UC210 or UC400only)

Digit 35— Sensor Options

0 = Standard, Wired1 = Factory-mounted Wireless Receiver(Sensor Accessory)2 =Wireless Comm Interface Modular FM3 = Trane Air-Fi™ Wireless CommunicationsInterface

Digit 36— Pre-wired FactorySolutions0 = None1 = Factory-mounted DTS2 = HW Valve Harness3 = Both DTS/HW Valve Harness4 = Averaging DTS Factory-installed in Unit(Required UC210/UC400 w/SCR Heat)5 = Analog HW Valve, field provided

Digit 37— Bottom AccessWith CamLocks0 = None1 = Access Left Side Terminal Unit2 = Access Right Side Terminal Unit3 = Access Left Side Terminal Unit w/WaterConnection Right Side4 = Access Right Side Terminal Unit w/WaterConnection Left Side

Digit 38—Piping Package

0 = NoneA = 2–Way Automatic BalancingB = 3–Way Automatic Balancing

Digit 39—Water Valve

0 = None1 = Proportional HW Valve 0.7 Cv2 = Proportional HW Valve 2.7 Cv3 = Proportional HW Valve 6.6 Cv4 = Proportional HW Valve 8.0 Cv5 = Analog HW Valve, field provided (UC210or UC400 only)6 = Proportional, HW Valve, 1.7 Cv7 = Proportional, HW Valve, 5.0 Cv

Digit 40— Flow Rate

00 = No HeatA = 0.5 gpm, 0.03 l/sB = 1.0 gpm, 0.06 l/sC = 1.5 gpm, 0.09 l/sD = 2.0 gpm, 0.13 l/sE = 2.5 gpm, 0.16 l/sF = 3.0 gpm, 019 l/sG = 3.5 gpm, 0.22 l/sH = 4.0 gpm, 0.25 l/sJ = 4.5 gpm, 0.28 l/sK = 5.0 gpm, 0.31 l/sL = 5.5 gpm, 0.35 l/s

Digit 40 — Flow Rate (continued)

M = 6.0 gpm, 0.38 l/sN = 6.5 gpm, 0.41 l/sP = 7.0 gpm, 0.44 l/sQ = 7.5 gpm, 0.47 l/sR = 8.0 gpm, 0.50 l/sS = 9.0 gpm, 0.57 l/sT= 10.0 gpm, 0.63 l/sU= 11.0 gpm, 0.69 l/sV= 12.0 gpm, 0.76 l/sW = 13.0 gpm, 0.82 l/sX= 14.0 gpm, 0.88 l/sY = 15.0 gpm, 0.95 l/sZ = 16.0 gpm, 1.01 l/s1 = 17.0 gpm, 1.07 l/s2 = 18.0 gpm, 1.14 l/s3 = 19.0 gpm, 1.20 l/s4 = 20.0 gpm, 1.26 l/s5 = 21.0 gpm, 1.32 l/s6 = 22.0 gpm, 1.39 l/s7 = 23.0 gpm, 1.45 l/s

Digit 41 — Air Leakage Class

0 = Standard Air Leakage1 = Certified Ultra-Low Air Leakage

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VAV-SVX08N-EN 9

Dual-Duct VAV Units

Digit 1, 2, 3— Unit Type

VDD = VariTrane™ Dual—Duct

Digit 4 — Development Sequence

F = Sixth

Digit 5, 6 — Primary Air Valve

05 = 5" inlet (350 cfm)06 = 6" inlet (500 cfm)08 = 8" inlet (900 cfm)10 = 10" inlet (1400 cfm)12 = 12" inlet (2000 cfm14 = 14" inlet (3000 cfm)16 = 16" inlet (4000 cfm)

Digit 7, 8 — Secondary Air Valve

05 = 5" inlet (350 cfm)06 = 6" inlet (500 cfm)08 = 8" inlet (900 cfm)10 = 10" inlet (1400 cfm)12 = 12" inlet (2000 cfm14 = 14" inlet (3000 cfm)16 = 16" inlet (4000 cfm)

Digit 9— Not Used

0 = Not applicable

Digit 10, 11—Design Sequence

** = Factory Assigned

Digit 12, 13, 14, 15— Controls

DD00 = Trane Actuator OnlyDD01 = Dual UCM4.2 Cooling Only ControlDD08 = Dual UCM4.2 Constant VolumeDD11 = Dual VV550 DDC, Cooling OnlyDD18 = Dual VV550 DDC, Constant VolumeDD41 = UC400 DDC Basic, No Water orElectric HeatDD48 = UC400 DDC Basic, Constant VolumeENON = Shaft Out Side for Electric UnitsFM00 = Other Actuator and ControlFM01 = Trane Supplied Actuator, Other CtrlPC03 = NC Heating Valve, N.O. Cooling ValvePCSS = Normally Closed SpecialPN08 = N.O. Heat/Cool. Actuators andLinkage OnlyPN09 = N.O. Heating, N.O. Cooling, w/PVRPN10 = N.O. Heating, N.O. Cooling, w/PVR(CV Discharge)PNON = Shaft Outside for Pneumatic UnitsPNSS = Normally Open Special

Digit 16 — Insulation

A = 1/2” Matte-facedB = 1” Matte-facedD = 1” Foil-facedF= 1” Double WallG = 3/8” Closed-cell

Digit 17—Not Used

0 = Not Applicable

Digit 18—Not Used

0 = Not Applicable

Digit 19 —Outlet Plenum (Slip-and-Drive Connection)0 = NoneA = 1 Outlet RHB = 1 Outlet ENDC= 1 Outlets, LHD = 2 Outlets, 1RH, 1ENDE= 2 Outlets, 1LH, 1ENDF= 2 Outlets, 1RH, 1LHG = 2 Outlets, 2ENDH= 3 Outlets, 1LH, 1RH, 1ENDJ = 4 Outlets, 1LH, 1RH, 2END

Note: See unit drawings for outlet sizes/damper information.

Digit 20—Not Used

0 = Not Applicable

Digit 21—Not Used

0 = Not Applicable

Digit 22—Not Used

0 = Not Applicable

Digit 23 — Transformer

0 = None1 = 120/24V, 50 VA2 = 208/24V, 50 VA3 = 240/24V, 50 VA4 = 277/24V, 50 VA5 = 480/24V, 50 VA6 = 347/24V, 50 VA7 = 575/24V, 50 VA

Digit 24— Disconnect Switch

0 = NoneW =With Toggle

Digit 25— Power Fuse

0 = NoneW =With

Digit 26— Not Used

0 = Not Applicable

Digit 27— Not Used

0 = Not Applicable

Digit 28— Not Used

0 = Not Applicable

Digit 29— Not Used

0 = Not Applicable

Digit 30—Not Used

0 = Not Applicable

Digit 31— Not Used

0 = Not Applicable

Digit 32— Not Used

0 = Not Applicable

Digit 33— Special Options

0 = NoneX = Varies, Factory Assigned

Digit 34— Actuator

0 = StandardA = Belimo™ ActuatorB = Trane Analog Actuator (UC400 only)

Digit 35—Wireless Sensor

0 = Sensor/Receiver Standard1 =Wireless Sensor/Receiver Mounted3 = Trane Air-Fi®Wireless CommunicationInterface

Note: All sensors selected in accessories.

Digit 36— Duct Temperature Sensor

0 = None1 =With Duct Temperature Sensor

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10 VAV-SVX08N-EN

Fan-Powered VAV Units Model Number Descriptions

Digit 1, 2— Unit Type

VP = VariTrane™ Fan-Powered ParallelVS = VariTrane™ Fan-Powered SeriesLP = VariTrane™ Fan-Powered Low HeightParallelLS = VariTrane™ Fan-Powered Low HeightSeries

Digit 3— Reheat

C = Cooling OnlyE = Electric HeatW = Hot Water Heat

Digit 4 — Development Sequence

F = Sixth

Digit 5, 6 — Primary Air Valve

04 = 4" inlet (225 cfm)05 = 5" inlet (350 cfm)06 = 6" inlet (500 cfm)08 = 8" inlet (900 cfm)10 = 10" inlet (1400 cfm)12 = 12" inlet (2000 cfm14 = 14" inlet (3000 cfm)16 = 16" inlet (4000 cfm)RT = 8" x 14" inlet (1800 cfm)

Note: 10, 12, 14, and 16 not available on lowheight units.

Digit 7, 8— Secondary Air Valve Used

00 = N/A

Digit 9 — Fan

A = DS02 Fan (1300 nom cfm)B = PS02 Fan (1160 nom cfm)C = DS03 Fan (1950 nom cfm)P = 02SQ Fan (500 nom cfm)Q =03SQ Fan (1100 nom cfm)R = 04SQ Fan (1350 nom cfm)S = 05SQ Fan (1550 nom cfm)T =06SQ Fan (1850 nom cfm)U = 07SQ Fan (2000 nom cfm)

Digit 10, 11—Design Sequence

** = Factory Assigned

Digit 12, 13, 14, 15 — Controls

DD01 = Cooling Only ControlDD02 = N.C. On/Off Hot WaterDD03 = Prop Hot WaterDD04 = Staged On/Off Elec HeatDD05 = Pulse Width Mod of Elect HeatDD07 = N.O. On/Off Hot WaterDD11 = VV550 DDC- Controller, Cooling OnlyDD12 = VV550 DDC- Control w/N.C. On/OffHW ValveDD13 = VV550 DDC- Control w/Prop. HwValveDD14 = VV550 DDC- Control On/Off ElectricHeatDD15 = VVV550 DDC- Control w/Pulse WidthModulationDD17 = VVV550 DDC- Control w/N.O On/OffHW ValveDD41 = UC400 DDC- Basic (No water orelectric heat)DD42 = UC400 DDC- Basic (Water heat- N.C.2-position)DD43 = UC400 DDC- Basic (Water heat-Modulating)DD44 = UC400 DDC- Basic (Electric heat-Staged)DD45 = UC400 DDC- Basic (Electric heat-PWM)DD47 = UC400 DDC- Basic (Water heat- N.O.2-position)DD53 = UC400 DDC- Basic plus- Local(Electric heat- PWM) Remote (Staged EH)DD58 = UC400 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.O. 2-position)DD59 =UC400 DDC- Basic plus Local (Waterheat- Modulating) Remote (Water- N.C.2-position)DD60 = UC400 DDC- Basic Plus Local (WaterHeat- N.O. 2-position) Remote Water- N.C.2-position)DD61 = UC400 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- N.O. 2-position)DD62 = UC400 DDC- Basic plus- Local(Electric heat- Staged) Remote (Staged EH)DD65 = UC400 Basic (Electric HeatModulating SCR)DD66 = UC400 Basic plus- Local (Electricheat-Modulating SCR) Remote (Staged EH)

Digit 12, 13, 14, 15— Controls(continued)DD71 = UC210 DDC- Basic (No water orelectric heat)DD72 = UC210 DDC- Basic (Water heat- N.C.2-position)DD73 = UC400 DDC- Basic (Water heat-Modulating)DD74 = UC210 DDC- Basic (Electric heat-Staged)DD75 = UC210 DDC- Basic (Electric heat-PWM)DD77 = UC210 DDC- Basic (Water heat- N.O.2-position)DD83 = UC210 DDC- Basic plus- Local(Electric heat- PWM) Remote (Staged EH)DD84 = UC210 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.C. 2-position)DD85 = UC210 DDC- Basic plus- Local(Water heat- Modulating) Remote (Water-N.O. 2-position)DD86 = UC210 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- Modulating)DD87 = UC210 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- Modulating)DD88 = UC210 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.O. 2-position)DD89 = UC210 DDC-Basic plus- Local (Waterheat- N.C. 2-position) Remote (Water- N.C.2-position)DD90 = UC210 DDC- Basic plus- Local(Water heat- N.O. 2-position) Remote(Water- N.C. 2-position)DD91 = UC210 DDC- Basic plus- Local(Water heat- N.C. 2-position) Remote(Water- N.O. 2-position)DD92 = UC210 DDC- Basic plus- Local(Electric heat- Staged) Remote (Staged)DD95 = UC210 Basic (Electric HeatModulating SCR)DD96 = UC210 Basic plus- Local (Electricheat-Modulating SCR) Remote (Staged EH)DD00 = Trane Actuator OnlyENCL = Shaft Only in EnclosureENON = Shaft Out Side for Electric UnitsFM00 = Other Actuator and ControlFM01 = Trane Supplied Actuator, Other CtrlPN00 = N.O. Actuator and Linkage OnlyPN05 = N.O. with RA STAT, 3000 SeriesPN51 = Pneumatic N.O. w/3011, DPS FanPN52 = Pneumatic N.O. w/3011, DPM FanPNON = Shaft Out Side for Pneumatic Units

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VAV-SVX08N-EN 11

Digit 16— Insulation

A = 1/2” Matte-facedB = 1” Matte-facedD = 1” Foil-facedF = 1” Double WallG = 3/8” Closed-cell

Digit 17—Motor Type

D = PSC MotorE = High-efficiency ElectronicallyCommutated Motor (ECM)F = Variable Speed High-efficiencyElectronically Commutated Motor (ECV)

Digit 18—Motor Voltage

1 = 115/60/12 = 277/60/13 = 347/60/14 = 208/60/15 = 230/50/1

Digit 19—Outlet Connection

1 = Flanged2 = Slip–and-Drive Connection

Digit 20— Attenuator

0 = None

Digit 21—Water Coil

0 = None1 = 1 Row, Plenum Inlet Installed RH2 = 2 Row, Plenum Inlet Installed RH3 = 1 Row, Discharge Installed LH4 = 1 Row, Discharge Installed RH5 = 2 Row, Discharge Installed LH6 = 2 Row, Discharge Installed RHA = 1 Row Premium, Water Coil InletB = 2 Row Premium, Water Coil InletC = 1 Row Premium, Hot Coil on Discharge LHD = 1 Row Premium, Hot Coil on DischargeRHE = 2 Row Premium, Hot Coil on Discharge LHF = 2 Row Premium, Hot Coil on Discharge RH

Digit 22— Electrical Connections

F = Flippable Left and Right HandL = Left, Airflow hits in faceR = Right, Airflow hits in faceW = Narrow Corridor LH, High Voltage, InletFacingX = Narrow Corridor RH, High Voltage, InletFacing

Note: Digits W and X, fan-powered seriesonly.

Digit 23— Transformer

0 = Not Applicable

Digit 24 —Disconnect Switch

0 = NoneW =With

Note: Electric reheat w/door interlockingpower disconnect, cooling only andwater reheat w/toggle disconnect.

Digit 25 — Power Fuse

0 = NoneW =With

Digit 26 — Electric Heat Voltage

0 = NoneA = 208/60/1B = 208/60/3C= 240/60/1D = 277/60/1E= 480/60/1F= 480/60/3G = 347/60/1H= 575/60/3J = 380/50/3K= 120/60/1

Note: Digit K not available wit low height.

Digit 27, 28, 29— Electric Heat kW

000 = None010 = 1.0 kW015 = 1.5 kW460 = 46.0 kW

Notes:

• 0.5 to 8.0 kW in 1/2 kWincrements

• 8.0 to 18.0 kW in 1 kWincrements

• 18.0 to 46.0 kW in 2 kWincrements

Digit 30 — Electric Heat Stages

0 = None1 = 1 Stage2 = 2 Stages Equal3 = 3 Stages Equal

Note: Digit 3 not available with low height.

Digit 31— Electric Heat Contactors

0 = None1 = 24V Magnetic2 = 24V Mercury3 = PE w/Magnetic4 = PE w/Mercury5 = 0-10Vdc SCR Heat; UC4006 = 0-10Vdc SCR Heat; FMTD/ENCL/DD007 = 24V SSR (Solid State Relay)

Notes: SCR cannot be selected with thefollowing:

• kW>10,208V, 3Ph, Low Height

• kW>22,480V, 3Ph, Low Height

• Voltage = 575V

Digit 32— Air Switch

0 = Not ApplicableW =With

Digit 33—Not Used

0 = Not Applicable

Digit 34— Actuator

0 = StandardA = Belimo™ ActuatorG = Trane Analog Actuator (UC210 or UC400only)

Digit 35—Wireless Sensors

0 = None1 = Factory-mounted Wireless Receiver(Sensor Accessory)2 =Wireless Comm Interface Modular FM

Note: All sensors selected in accessories.

Digit 36— Pre-wired FactorySolutions0 = None1 = Factory-mounted DTS2 = HW Valve Harness3 = Both DTS/HW Valve Harness

Digit 37— Bottom Access

0 = NoneW = Access Left Side Terminal Unit

Digit 38—Piping Package

0 = NoneA = 2–Way Automatic BalancingB = 3–Way Automatic Balancing

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12 VAV-SVX08N-EN

Digit 39—Water Valve

0 = None1 = Proportional HW Valve 0.7 Cv2 = Proportional HW Valve 2.7 Cv3 = Proportional HW Valve 6.6 Cv4 = Proportional HW Valve 8.0 Cv5 = Analog HW Valve, Field Provided (UC210or UC400 only)6 = Proportional HW Valve 1.7 Cv7 = Proportional HW Valve 5.0 Cv

Digit 40— Flow Rate

00 = No HeatA = 0.5 gpm, 0.03 l/sB = 1.0 gpm, 0.06 l/sC = 1.5 gpm, 0.09 l/sD = 2.0 gpm, 0.13 l/sE = 2.5 gpm, 0.16 l/sF = 3.0 gpm, 019 l/sG = 3.5 gpm, 0.22 l/sH = 4.0 gpm, 0.25 l/sJ = 4.5 gpm, 0.28 l/sK = 5.0 gpm, 0.31 l/sL = 5.5 gpm, 0.35 l/sM = 6.0 gpm, 0.38 l/sN = 6.5 gpm, 0.41 l/sP = 7.0 gpm, 0.44 l/sQ = 7.5 gpm, 0.47 l/s

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VAV-SVX08N-EN 13

Chilled Water Sensible Cooling Terminal Units

Digit 1, 2— Unit Type

LD = Chilled Water Sensible Cooling TerminalUnits

Digit 3— Heating

C = Cooling OnlyE = Electric HeatW = Hot Water Heat

Digit 4 — Development Sequence

F = Sixth

Digit 5, 6 — Primary Air Valve

04 = 4" inlet (225 max cfm)05 = 5" inlet (350 max cfm)06 = 6" inlet (500 max cfm)08 = 8" inlet (900 max cfm)RT = 8x14” inlet (1800 max cfm)

Digit 7, 8— Secondary Air Valve

00 = N/A

Digit 9 — Fan

A = DS01 Fan (700 max cfm)B = DS02 Fan (1300 max cfm)

Digit 10, 11—Design Sequence

** = Factory Assigned

Digit 12, 13, 14, 15— Controls

DD00 = Trane Actuator OnlyENCL = Shaft Only in EnclosureFM00 = Other Actuator and ControlFM01 = Trane Supplied Actuator, OtherControlSC41 = UC400 DDC- Sensible Cooling- Basic(No water or electric heat)SC43 = UC400 DDC- Sensible Cooling- Basic(Water heat, Modulating)SC44 = UC400 DDC- Sensible Cooling- Basic(Electric heat- Staged)SC62 = UC400 DDC- Sensible Cooling- Basicplus Local (Electric heat- Staged), Remote(Staged)SC65 = UC400 DDC- Sensible Cooling- Basic(Electric Heat Modulating SCR)SC66 = UC400 DDC- Sensible Cooling- Basicplus Local (Electric heat- Modulating SCR)Remote (Staged)

Digit 16 — Insulation

A = 1/2” Matte-facedB = 1” Matte-facedD = 1” Foil-facedF= 1” Double WallG = 3/8” Closed-cell

Digit 17 —Motor Type

E= High-efficiency Motor (ECM)F= Variable Speed High-efficiencyElectronically Commutated Motor (ECV)

Digit 18 —Motor Voltage

1 = 115/60/12 = 277/60/1

Digit 19 —Outlet Connection

1 = Flanged2 = Slip–and-Drive Connection

Digit 20 — Attenuator

0 = No AttenuatorW =With Attenuator

Digit 21 —Water Coil

0 = None3 = 1 Row, Discharge Installed, LH4 = 1 Row, Discharge Installed, RH5 = 2 Row, Discharge Installed, LH6 = 2 Row, Discharge Installed, RHC= 1 Row Premium, Hot Coil on Discharge,LHD = 1 Row Premium, Hot Coil on Discharge,RHE= 2 Row Premium, Hot Coil on Discharge,LHF= 2 Row Premium, Hot Coil on Discharge,RH

Digit 22 — Control, Heat Connections

F= Flippable Left and Right Hand

Digit 23 —Unit Filter

0 = Construction Throw-away Filter8 =MERV 8 Filter

Digit 24 —Disconnect Switch

0 = NoneW =With

Digit 25 — Power Fuse

0 = NoneW =With

Digit 26— Electric Heat Voltage

0 = NoneA = 208/60/1B = 208/60/3C = 240/60/1D = 277/60/1E = 480/60/1F = 480/60/3

Digit 27, 28, 29— Electric Heat kW

000 = None005 = 0.5 kW010 = 1.0 kW015 = 1.5 kW200 = 20.0 kW

Notes:

• 0.5 to 8.0 kW in 1/2 kWincrements

• 8.0 to 18.0 kW in 1 kWincrements

• 18.0 to 20.0 kW in 2 kWincrements

Digit 30— Electric Heat Stages

0 = None1 = 1 Stage2 = 2 Stages Equal

Digit 31— Electric Heat Contactors

0 = None1 = 24V Magnetic5 = SCR Heat, UC4006 = SCR Heat, FM00/ENCL/DD00

Digit 32— Airflow Switch

0 = NoneW =With

Digit 33— Not Used

0 = Not Applicable

Digit 34— Actuator

0 = StandardA = Belimo™ ActuatorD = Trane Analog Actuator (UC210 or UC400only)

Digit 35—Wireless Sensors

0 = None1 = Factory-mounted Wireless Receiver(Non-Communicating)3 = Air-Fi®Wireless Communications

Note: All sensors selected in accessories.

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14 VAV-SVX08N-EN

Digit 36— Pre-wired FactorySolutions0 = None1 = Discharge Temperature Sensor (DTS)2 = Hot Water (HW) Valve Harness3 = DTS and HW Valve Harness7 = Chilled Water (CW) Valve Harness8 = CWand HW Valve HarnessB = DTS with CW Valve HarnessC = DTS with CWand HW Valve Harness

Digit 37— Not Used

0 = Not Applicable

Digit 38— HotWater Piping Package

0 = NoneA = 2–way Automatic BalancingB = 3–way Automatic Balancing

Digit 39— HotWater Valve

0 = None1 = Proportional, HW Valve, 0.7 Cv2 = Proportional, HW Valve, 2.7 Cv3 = Proportional, HW Valve, 6.6 Cv4 = Proportional, HW Valve, 8.0 Cv5 = Analog, HW Valve, field provided (UC210or UC400 only)6 = Proportional, HW Valve, 1.7 Cv7 = Proportional, HW Valve, 5.0 Cv

Digit 40— HotWater Flow Rate

0 = None (No Flow Rate)A = 0.5 gpm (0.03 L/s)B = 1 gpm (0.06 L/s)C = 1.5 gpm (0.09 L/s)D = 2 gpm (0.13 L/s)E = 2.5 gpm (0.16 L/s)F = 3 gpm (0.19 L/s)G = 3.5 gpm (0.22 L/s)H = 4 gpm (0.25 L/s)J = 4.5 gpm (0.28 L/s)K = 5 gpm (0.32 L/s)L = 5.5 gpm (0.35 L/s)M = 6 gpm (0.38 L/s)N = 6.5 gpm (0.41 L/s)P = 7 gpm (0.44 L/s)Q = 7.5 gpm (0.47 L/s)

Digit 41— Sensible Cooling Coil

2 = 2–Row Standard Cooling Coil4 = 4–Row Standard Cooling Coil6 = 6–Row Standard Cooling Coil

Digit 42— ChilledWater CoilConnectionsD = Cooling Coil Connections at UnitDischarge EndV = Cooling Coil Connections at Air Valve End

Digit 43 — ChilledWater PipingPackage0 = NoneA = 2–way Automatic BalancingB = 3–way Automatic Balancing

Digit 44 — ChilledWater Valve

0 = None1 = Proportional Valve, 0.7 Cv2 = Proportional Valve, 2.7 Cv3 = Proportional Valve, 6.6 Cv4 = Proportional Valve, 8.0 Cv5 = Analog CW Valve, Field-Provided (UC400Only)6 = Proportional Valve, 1.7 Cv7 = Proportional Valve, 5.0 Cv

Digit 45 — ChilledWater Flow Rate

0 = None (No Flow Rate)A = 0.5 gpm (0.03 L/s)B = 1 gpm (0.06 L/s)C= 1.5 gpm (0.09 L/s)D = 2 gpm (0.13 L/s)E= 2.5 gpm (0.16 L/s)F= 3 gpm (0.19 L/s)G = 3.5 gpm (0.22 L/s)H= 4 gpm (0.25 L/s)J = 4.5 gpm (0.28 L/s)K= 5 gpm (0.32 L/s)L = 5.5 gpm (0.35 L/s)M = 6 gpm (0.38 L/s)N = 6.5 gpm (0.41 L/s)P = 7 gpm (0.44 L/s)Q = 7.5 gpm (0.47 L/s)

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VAV-SVX08N-EN 15

Unit InformationSingle Duct VAV UnitsThe basic unit consists of a sheet metal casing with anair valve, which is used to modulate the air beingdelivered into the occupied zone. The unit is designedto modulate either cooling or heating air between 40°Fand 140°F (4.44°C and 60°C). Air enters the air valvethrough the round or rectangular inlet and exits intothe sheet metal casing to be distributed to the zoneeither through integral round outlets in the casing orthrough rectangular duct attached to the discharge ofthe unit.

The basic unit can also be ordered with factory-mounted electric or hot water heating coils attached tothe discharge.

These re-heat units are used primarily to reheat air-to-zone temperature when the load in the occupied spaceis low.

Primary air is modulated through the VariTrane™ airvalve by rotating the damper blade. All air valves havea round/rectangular inlet for easy fit-up with incomingduct work.

Typical Single Duct VAV UnitsFigure 1. Typical single duct unit; VCCF VCWF, VCEF

Dual-Duct VAV UnitsDual-duct units provide two air valves: one as heatingprimary air and the other as cooling primary air. Bothdischarge into the common outlet, which leads to thezone being controlled. See Figure 2, p. 16.

Units are provided with a slip and drive rectangularduct connection or can be ordered with integral outletplenum.

16 VAV-SVX08N-EN

Sequencing of hot and cold air valve is dependent onjob requirements. One typical control is valves workingin conjunction to respond to zone temperature.

When the cooling valve becomes fully closed orreaches a specified minimum, the heating valve willbegin to modulate or vice versa. The typical result isthat air flowing to the zone varies from maximumdown to a minimum and back up to maximum as loadvaries and controls would cause one air valve to closeand the other to open.

Another typical application is when the unit provides aconstant volume to the zone. When the zone sensor istied directly to the heating valve, it will modulate theheating valve according to the zone temperature.

When the heating valve is fully closed or there is a callfor cooling in the zone, the cooling valve will be atconstant supply. As the space becomes too cool, theheating valve will modulate open, decreasing thecooling valve flow. The typical result is that the airflowing into the zone stays at a constant flow whetherthe unit is heating or cooling.

Factory-installed Trane unit controls available include;

• UC400 — one required per unit• VV550 — two required per unit• UCM — two required per unit

Figure 2. Typical dual-duct unit; VDDF

Fan-Powered/Fan-Powered Low-Height VAV UnitsVariTrane™ fan-powered and low-height fan-poweredunits can be either parallel or series, with or without re-heat. Refer to the following figures.

Typical Fan-powered UnitsFigure 3. Parallel fan-powered terminal unit (top) &series fan-powered terminal units (bottom)

Figure 4. Low height series: LSCF (top) & low heightseries: LSWF (bottom)

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VAV-SVX08N-EN 17

Figure 5. Low height series: LSEF (top) & low heightparallel: LPCF (bottom)

Figure 6. Low height parallel: LPWF (top) & lowheight parallel: LPEF (bottom)

The fan on a series unit runs continuously wheneverthe main air handler unit is in operation. There arethree (3) methods to start the fan: 1) remotely, 2) by aduct pressure switch, or 3) by a combination of both.The particular fan control method may vary from unitto unit, depending upon job needs.

Typically, heater is off while air valve modulatesprimary air and responds to zone temperature. If zonetemperature decreases to the point where a decrease inprimary air will not maintain the desired temperature,the re-heat will be activated to increase thetemperature of the discharge air.

On a parallel unit, the VariTrane™ air valve deliversprimary cooling air to the unit outlet. When the spacetemperature decreases beyond air valve control, the

fan is turned on as the first stage of heat. The fandelivers plenum air from above the occupied space tothe unit outlet, which is mixed with primary air anddelivered to the occupied space.

NNoottee:: Either the fan, the air valve, or both can deliverairflow into the occupied space. In order toprevent primary airflow from exiting through thefan when the fan is not running on a parallel unit,a back draft damper is provided. When the fan isnot running, the efficiency of this system is thesame as a standard single-duct VAV unit.

Typically, the control systems applied to parallel unitscause the air valve to close to zero or a minimum flowbefore the fan is activated. After the fan is activated, theoptional heat will be activated upon further reductionin zone temperature. Therefore, minimal primary air ismixed with the heated air.

VariTrane™ fan-powered unit fan sizes 02SQ–05SQand 08SQ–10SQ were performance tested at .12 in. w.g. and sizes 06SQ and 07SQ were tested at .15 in. w.g.Units are not designed to operate without ducts andbelow these tested static pressures.

NNoottee:: Fan-powered units are available with rectangulardischarge connection only. The optional heateris mounted on the discharge of the unit. Hotwater coils are connected to either the plenuminlet or on the discharge on parallel units, and tothe discharge of series units.

Chilled Water Sensible CoolingTerminal UnitsChilled water sensible cooling terminal units areavailable with or without re-heat. Refer to the followingfigures.

Figure 7. Chilled water sensible cooling unit

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18 VAV-SVX08N-EN

Figure 8. Chilled water sensible cooling unit with hotwater coil

Figure 9. Chilled water sensible cooling unit withelectric heat

The function of the Trane chilled water sensible coolingterminal units is a little different than traditional VAV

Terminal Units. These terminal units are part of assyysstteemm that uses a dedicated outdoor-air unit todistribute outdoor air to an air valve on each terminalunit to meet the ventilation requirements of the zone.Each terminal unit is also equipped with a cooling coilmounted on the plenum inlet. Recirculated air from theplenum (or directly from the occupied space) is drawnin through this cooling coil by the local fan. This cooledair is then mixed with the conditioned (cooled,dehumidified, heated, or humidified) outdoor air fromthe dedicated OA unit, and distributed through thedownstream ductwork to the zone.

In most applications, the water supplied to this localcooling coil is controlled to a temperature above thedew point in the zone. This avoids moisture in the airfrom condensing on the coil, so it operates dry andprovides only sensible cooling. All thedehumidification must then be provided by thededicated outdoor-air unit. Trane chilled water sensiblecooling terminal units are built with a drip pan locatedbeneath the cooling coil, with a moisture sensorinstalled in it, to detect and prevent any moisture fromgetting on the ceiling beneath the units or into theoccupied space below. These terminal units can beconfigured with either a hot water coil or electric heatermounted at the unit discharge.

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VAV-SVX08N-EN 19

Unit InstallationWWAARRNNIINNGG

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Due to their weight, the VAV terminal units should besuspended from the uppermost ceiling, independent ofthe false ceiling grid. In fact, VAV terminal units areprimarily designed for installation in the plenum spacebetween the upper most ceiling and the false ceilinggrid below it. See “Weights,” p. 27 for unit weights.Suspension devices are to be supplied by the installer.Units must be installed level and upright. Failure tolevel the unit properly may prevent proper operation ofthe controls and/or terminal unit. Units are notdesigned to be installed vertically. Consequently, thiswill also void the U.L. ratings and any warranty on theunit.

Single-Duct VAV UnitsFigure 10. Single-duct hanging recommendations

Depending upon the size and weight of the single-ductunit, it may be capable of being supported by theductwork that is connected to it. No hanger bracketsare provided on these units since the unit should besupported by means of a hanger strap. The hangerstrap should be secured directly to the unit casing asshown above.

• For cooling only single-duct units or single-ductunits with hot water coil, the unit may be rotated180° for opposite side connections.

• For units with electric heat, the unit can be flippedto either RH or LH connection orientation if modelnumber digit 22 Electrical Connections = F.

Dual-Duct VAV UnitsDual-duct units should be supported by either hangerstraps or by using a threaded rod in conjunction withthe hanger brackets that are provided on the unit.

Figure 11. Dual-duct hanger bracket locations

AIRVALVE

AIRVALVE

COOLING HEATING

C

A

B

TOP VIEW

20 VAV-SVX08N-EN

Table 1. Dual duct VAV unit hanger locationdimensions

InletSize(in)

A B C

in mm in mm in mm

5 thru10

23.15 588 25.25 641 1.38 35

12 thru16

23.15 588 37.25 946 1.38 35

Fan-Powered VAV Units andChilled Water Sensible CoolingTerminal UnitsFan-powered (standard and low-height) and chilledwater sensible cooling terminal units should besupported by either hanger straps or by using athreaded rod in conjunction with the hanger bracketsthat are provided on the unit. Care should be exercisedto insure that the hanging straps do not block the sideaccess panel. Refer to the following figures.

Bracket Locations — Fan PoweredFigure 12. Parallel hanger bracket location sizes

BB

Primary Air�ow

Primary Air�ow

AirValve

AirValve

Flow Ring tubing

Flow Ring tubing

OPTIONAL SUPPRESSOR

OPTIONAL SUPPRESSOR

C

AirflowDischarge Outlet

AirflowDischarge Outlet

Heater

Water Coil

Term

inal Box

A A

43.546(1106 mm)

D

Table 2. Parallel hanger bracket location dimensions

Fan SizeA B

in mm in mm

02SQ 26.75 679 38.95 989

03SQ, 04SQ, 05SQ 29.75 756 38.95 989

06SQ 36.75 933 38.95 989

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VAV-SVX08N-EN 21

Figure 13. Series hanger bracket locations

Flow Ring tubing

Flow Ring tubing

OPTIO

NAL

SUPP

RESS

OR

OPTIO

NAL

SUPP

RESS

OR

AirValve

AirValve

Water CoilElectric Heater

A

B

G

F

1.625”(41 mm)

A

1.625”(41 mm)

B

H

Table 3. Series hanger bracket location dimensions

Fan SizeA B

in mm in mm

02SQ 18.75 476 41.2 1041

03SQ, 04SQ 20.75 527 41.2 1041

05SQ 26.75 679 41.2 1041

06SQ, 07SQ 27.25 692 41.2 1041

Table 4. Series hanger bracket location dimensions — electric heat only

Fan SizeF G H

in mm in mm in mm

02SQ 20.13 511 53.75 1365 19.0 483

03SQ, 04SQ 23.88 606 59.75 1517 19.0 483

05SQ 28.97 736 59.75 1517 19.0 483

06SQ, 07SQ 29.88 759 58.25 1479 17.5 445

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22 VAV-SVX08N-EN

Figure 14. Low-height parallel DS02/PS02

39.1[993]

39.1[993]

39.1[993]

39.1[993]

39.1[993]

37.9[963]

34.3[871]

34.3[871]

34.3[871]

34.3[871]

0.8[20]

56.3[1430]

34.3[871]

Primary Airflow

Primary Airflow

Water Coil

Optional ElectricHetaer

Airflow PlenumInlet

Primary Airflow

Airflow PlenumInlet

Airflow PlenumInlet

Airflow DischargeOutlet

Airflow DischargeOutlet

Airflow DischargeOutlet

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VAV-SVX08N-EN 23

Figure 15. Low-height series DS02/PS02/DS03 w/hot water or electric heat

32.3[821]

41.2[1047]

2.0[51]

41.2[1047]

32.3[821]

61.2[1555]

Primary Airflow

Airflow PlenumInlet

AirflowDischarge Outlet

Primary Airflow

Airflow PlenumInlet

Airflow DischargeOutlet

Optional ElectricHeater

Water Coil

UUnniitt IInnssttaallllaattiioonn

24 VAV-SVX08N-EN

Bracket LocationsChilled Water Sensible Cooling TerminalUnitsFigure 16. Bracket locations — cooling only unit, andunit with hot water coil

41,2 [1045]

27,0 [685]

Primary Airflow

AirflowPlenum Inlet

AirflowDischarge

Outlet

Hot Water Coil(not present on cooling-only units)

Figure 17. Bracket locations — electric heat unit

24,9 [631]

61,2 [1553]

2,1 [53]

Primary Airflow

AirflowPlenum Inlet

AirflowDischarge

Outlet

41,2[1045]

Duct ConnectionsAll VariTrane™ units should be provided with aminimum of 1.5-duct diameters of straight duct prior tothe inlet of the unit. It is recommended that at least 48inches of straight duct be provided from the dischargeof the units prior to any take-offs or transitions.

IImmppoorrttaanntt:: This is a requirement for electric heat fan-powered units used in applications with100% downward discharge.

In order to maintain good air distributionover the elements and not createturbulence which could cause a limit cutoutthere should be four feet of ductwork,consistent of the discharge dimensions ofthe heater. downstream of the reheat coilprior to any diffuser takeoffs forVariTrane™ electric coils.

1. After all connections are made, check that the entireductwork system is airtight. In some high-pressuresystems, duct sealer may be necessary.

NNoottee:: All inlet duct on the VAV boxes are sizedapproximately 0.125 inches smaller indiameter than the nominal size in order toallow the incoming duct to slide over the inletof the VAV box.

2. Provide insulation around the entire inlet collar (allthe way to the unit casing).

NNoottee:: Use caution not to damage the flow tubeswhen making ductwork connections orinsulating.

3. Cut slits in the insulation for the flow tubes andsecure with duct tape.

4. If the unit is to be installed in a location with highhumidity, external insulation around the heatingcoil should be installed as required.

Water Coil ConnectionsNNootteess:: The following coils have 0.375 inches OD water

coil piping connections.

• Single Duct 1-row coils (inlet sizes 05, 05, 06,08 or 10 only)

• Low Height Parallel Inlet 1-row

• Low Height Parallel Discharge 1-row

All others require a 0.875 inches OD water coilpiping connections.

1. If necessary, you can change the coil connectionfrom left-handed to right-handed (and vice-versa)by disconnecting the coil from the unit and rotatingthe coil like a steering wheel 180°.

NNoottee:: The exception is that the coil connectioncannot be changed on parallel fan poweredunit with hot water coil on plenum inlet.

2. Use port at the bottom for inlet and top for outlet on

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VAV-SVX08N-EN 25

single row coils. For multi-row coils, always plumbin counter flow orientation.

• Water inlet is always on the airflow downstreamside of the hot water coil.

• Water outlet is always on the upstream side ofthe hot water coil.

3. Care should be taken to properly support the watercoil piping connections while connecting theadjoining pipe.

4. It is recommended that piping to the water coilshould be done after field-mounted controls,external insulation, and ductwork connections havebeen completed.

IImmppoorrttaanntt:: Do not connect water valve or pipeextensions to the water coil connectionsunless supported.

Discharge Duct TemperatureSensor InstallationNNoottee:: TThhiiss pprroocceessss iiss ttoo bbee uusseedd ffoorr ccoonnttrrooll

sseeqquueenncceess tthhaatt iinnvvoollvvee DDiisscchhaarrggee AAiirrTTeemmppeerraattuurree ((DDAATT)) ccoonnttrrooll..

Several Tracer® UC210/UC400 control sequencesperform direct DAT control of the VAV unit when bothmodulating unit heat and modulating ECM fan arepresent or when modulating unit heat is present on anon-fan-powered VAV unit. Supported modulating unitheat options include proportional hot-water and SCR-controlled electric heat. In these Tracer® UC210/UC400control sequences, the DAT is a control input to the unitcontroller.

IImmppoorrttaanntt:: To ensure good control of the DAT andoverall level of heat being supplied to thezone, it’s critical to locate the DAT sensor ina location in the downstream ductwork thatis not too close to the heating water orelectric coils.

1. Locate mounting location for DAT sensor aminimum of 1.5 equivalent duct diametersdownstream of the heating coils and midwaybetween top and bottom on the side of theductwork.

2. Mount the DAT sensor using the instructionsprovided at the end of this manual.

3. If not already factory wired to unit controller, wireDAT sensor to unit controller using unit schematic.

Electronic Duct TemperatureSensor InstallationVisually inspect the sensor unit and harness fordamage. Return damage or defective products.

Tools required for installation:

• Cutter to release zip tie

• DVM (Digital Volt ohm Meter)

• Appropriate screw driver for mounting screws

• Appropriate drill and drill bit for mounting screws

NNootteess::

• Installer must be a qualified, experiencedtechnician.

• Cut loose harness, verify location.

• Avoid location where excessive vibration,moisture, corrosive fumes or vapors arepresent.

1. Determine the sensor mounting location on theduct. The sensing element is located within 1 inch(25mm) of the end of the sensing probe, and itshould be located in the air stream typical of thetemperature requiring sensing.

2. Use the mounting plate supplied as a template (orrefer to Figure 18, p. 25 for duct mountingdimensions) for mounting hole location.

Figure 18. Mounting dimensions

3. Mount the sensor to the duct using (2) #8–1/6 x 1/2–in sheet metal screws.

Unit Accessibility• Single-duct and dual-duct units provided with hot

water reheat have an access panel located on the

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26 VAV-SVX08N-EN

side of the water coil. All other single-duct and dual-duct units are provided without access, as allfunctioning components are external to the unit.

• Fan-powered terminals are provided with a slidingside access.

• Low-height terminal units have a removablebottom panel.

ClearancesFor proper service, it is recommended that at least 3inches” of side clearance be provided to service andaccess single-duct and dual-duct terminals units.

• Fan-powered VAV units have a plenum inlet thatmust be clear of obstructions. Allow at least 36inches of clearance in front of the side access andplenum opening.

• Low-height fan-powered terminals require thesame plenum clearance requirement that applies tothe standard fan-powered units. However theaccess to the internal components is located on thebottom of the unit.

• Fan-powered VAV units with Suppressor attenuatorrequires at least 4.5 inches (6 inches preferred)clearance above the plenum opening.

It is also recommended that 6 inches of clearance beprovided to the top and bottom of all the units.

NNoottee:: The minimum clearance for controls and heatercontrols should be 36 inches for all modelsexcept units with 575-volt electric heaters, whichrequire 48 inches of clearance. NEC™ and/orlocal codes override all clearance requirements.

Mounting ActuatorIImmppoorrttaanntt:: When installing or replacing the actuator

tighten the actuator set screw per themanufacturer’s instructions. Failure tofollow the manufacturer’s specificationsmay result in unit malfunction.

Trane offers a factory-mounted actuator with a 90-second drive time. The actuator drives 1° per second. Afield-installed actuator may be used if desired. Theactuator shaft has a 0.5 inch diameter and is designedto travel clockwise to close the damper and counter-clockwise to open the damper. There is an indicator onthe end of the actuator shaft that can be used todetermine the position of the damper.

Stand-alone UnitsStand-alone UCM 4.2When there is no communication to the UCM controland the unit is in the stand-alone mode the controlaction is determined by the auxiliary temperaturesensor located on TB3-5 and TB3-6 terminals on theUCM board. In order for the auxiliary sensor to

determine the control action (heat, cool) it must belocated in the supply duct, upstream of the VAV unit.The auxiliary temperature is then compared to the zonetemperature. If the supply air temperature is 10degrees above the zone temperature, then the controlaction will be heat. If the supply air temperature is lessthan or equal to the zone temperature, then the controlaction will be cool. If the supply air temperature isbetween the zone temperature and the zonetemperature + 10ºF (5.5°C) [zone temperature < supplyair temperature < zone temperature + 10ºF] (5.5°C), thecontrol action remains the same and the UCM controlsto the minimum flow set point. If an auxiliary sensor isnot installed the UCM will retain the last control actionin effect.

Stand-alone VV550 LonTalk ControlWhen there is no communication to the VV550 controland the unit is in the stand-alone mode the controlaction is determined by the auxiliary temperaturesensor located on TB3-5 and TB3-6 terminals on theVV550 board. The control must also be configuredthrough the Inputs Tab of Analog Input 4 as PrimarySupply Air Sensor. In order for the auxiliary sensor todetermine the control action (heat, cool) it must belocated in the supply duct, upstream of the VAV unit.The auxiliary temperature is then compared to the zonetemperature. If the supply air temperature is 10degrees above the zone temperature, then the controlaction will be heat. If the supply air temperature is lessthan or equal to the zone temperature, then the controlaction will be cool. If the supply air temperature isbetween the zone temperature and the zonetemperature + 10ºF (5.5°C) [zone temperature < supplyair temperature < zone temperature + 10ºF] (5.5°C), thecontrol action remains the same and the UCM controlsto the minimum flow set point. If an auxiliary sensor isnot installed the UCM will retain the last control actionin effect.

Stand-alone UC400When there is no communication to the UC400 controland the unit is in the stand-alone mode the controlaction is determined by the auxiliary temperaturesensor located on AI5 terminals on the UC400 control.This input may have to be changed from AI4 (DischargeAir Input) as wired from the factory. In order for theauxiliary temperature sensor to determine the controlaction (heat, cool) it must be located in the supply duct,upstream of the VAV unit. The auxiliary temperature isthen compared to the zone temperature. If the supplyair temperature is 10°F above the zone temperature,then the control action will be heat. If the supply airtemperature is less than or equal to the zonetemperature, then the control action will be cool. If thesupply air temperature is between the zonetemperature and the zone temperature +10°F (5.5°C)[zone temperature < supply air temperature < zonetemperature +10°F] (5.5°C), the control action remains

UUnniitt IInnssttaallllaattiioonn

VAV-SVX08N-EN 27

the same and the UC400 controls to the minimum flowset point. If an auxiliary sensor is not installed theUC400 will retain the last control action in effect.

Stand-alone UC210When there is no communication to the UC210 controland the unit is in the stand-alone mode the controlaction is determined by the auxiliary temperaturesensor located on AI3 terminals on the UC210 control.From the factory, this input is configured for dischargeair temperature and needs to be field reconfigured assupply air temperature using Tracer® TU. In order forthe auxiliary temperature sensor that is configured forsupply air temperature to determine the control action(heat, cool) it must be located in the supply duct,upstream of the VAV unit. The supply air temperatureis then compared to the zone temperature. If the supplyair temperature is 10°F above the zone temperature,then the control action will be heat. If the supply airtemperature is less than or equal to the zonetemperature, then the control action will be cool. If thesupply air temperature is between the zonetemperature and the zone temperature +10°F (5.5°C)[zone temperature < supply air temperature < zonetemperature +10°F] (5.5°C), the control action remainsthe same and the UC210 controls to the minimum flowset point. If an auxiliary temperature sensor is notinstalled and configured for supply air temperature, theUC210 will retain the last control action in effect.

Bottom AccessAn optional bottom access can be provided in thecasing of fan powered series or parallel terminal unit.

The 22-gauge door is lined with 1 inch, 26-gauge, dualwall insulation and thermal lined with 1 inch – 1 lb.density fiberglass insulation with a 3.85 R-value.

Each door includes 1 to 6 cam locks that are used tosecure the door to the casing.

The cam lock engages a metal encapsulated frame onthe unit that encloses the unit insulation to prevent airerosion.

The cam lock engagements are interlocked using a flathead screwdriver. Once unlocked, the entire doorassembly can be removed for access.

Figure 19. Bottom access

WeightsTable 5. Single-duct units — lb/kg

UnitSize

SingleWall Dual Wall

VCCF VCEF

VCWF

VCCF VCEF

VCWF

1–Row 2–Row 3–Row 4–Row 1–Row 2–Row 3–Row 4–Row

4568

16/716/716/716/7

38/1738/1738/1738/17

21/1021/1021/1021/10

22/1022/1022/1024/11

23/1123/1122/1024/11

24/1124/1124/1126/12

19/919/919/920/9

48/2248/2248/2249/22

24/1124/1124/1125/11

25/1125/1125/1128/13

26/1226/1225/1128/13

27/1227/1227/1230/14

1012141624

22/1027/1232/1535/1652/24

46/2152/2460/2769/3184/38

29/1337/1744/2049/2270/32

32/1540/1848/2254/2477/35

32/1541/1951/2356/2576/35

36/1645/2055/2561/2882/37

27/1234/1541/1946/2163/29

60/2768/3180/3691/41106/48

34/1543/2053/2460/2781/37

37/1747/2157/2665/2988/40

37/1748/2260/2767/3087/40

41/1952/2464/2972/3393/42

Table 6. Dual-duct units — lb/kg

Unit Size VDDF VDDFw/Dual Wall

0505050606060508

54/2454/2454/2455/25

68/3168/3168/3168/31

0608051008080610

55/2556/2556/2556/25

69/3169/3170/3270/32

UUnniitt IInnssttaallllaattiioonn

28 VAV-SVX08N-EN

Table 6. Dual-duct units — lb/kg (continued)

Unit Size VDDF VDDFw/Dual Wall

0810101006120812

57/2661/2857/2658/26

70/3274/3470/3271/32

1012121208141014

59/2760/2778/3579/36

72/3384/38102/46103/47

1214141408161016

80/3681/3779/3680/36

104/47105/48103/47104/47

121614161616

81/3782/3783/38

105/48105/48106/48

Table 7. Parallel fan-powered units — lb/kg

SingleWall Dual Wall

VPxFSuppressorUnit Size VPCF VPEF

VPWF

VPCF VPEF

VPWF

1–Row 2–Row 1–Row 2–Row

0502SQ0602SQ0603SQ0802SQ

81/3780/3683/3881/37

110/550109/49112/51110/50

92/4291/41105/4892/42

95/4394/43108/4995/43

115/52114/52117/53115/52

144/65143/65146/66144/65

126/57125/57139/63126/57

129/59128/58142/64129/59

15.5/7.015.5/7.016.5/7.515.5/7.0

0803SQ0804SQ1002SQ1003SQ

83/3884/3882/3784/38

112/51113/51111/50113/51

105/48106/4893/42106/48

108/49109/4996/44109/49

117/53118/54116/53118/54

146/66147/67145/66147/67

139/63140/64127/58140/64

142/64143/65130/59143/65

16.5/7.516.5/7.515.5/7.016.5/7.5

1004SQ1005SQ1006SQ1007SQ

85/3998/44114/52122/55

114/52128/58144/65152/69

107/49120/54127/58135/61

110/50123/56130/59138/63

119/54132/60148/67156/71

148/67162/73178/81186/84

141/64154/70161/73169/77

144/65157/71164/74172/78

16.5/7.516.5/7.520.5/9.320.5/9.3

1203SQ1204SQ1205SQ1206SQ

85/3986/3999/45115/52

114/52115/52129/59145/66

107/49108/49121/55128/58

110/50111/50124/56131/59

119/54120/54133/60149/68

148/67149/68163/74179/81

141/64142/64155/70162/73

144/65145/66158/72165/75

16.5/7.516.5/7.515.5/7.020.5/9.3

1207SQ1404SQ1405SQ1406SQ

123/5687/39100/45116/53

153/69116/53130/59146/66

136/62109/49122/55129/59

139/63112/51125/57132/60

157/71121/55134/61150/68

187/85150/68164/74180/82

170/77143/65156/71163/74

173/78146/66159/72166/75

20.5/9.316.5/7.516.5/7.520.5/9.3

1407SQ1606SQ1607SQ

124/56117/53125/57

154/70147/67155/70

137/62130/59138/63

140/64133/60141/64

158/72151/68159/72

188/85181/82189/86

171/78164/74172/78

174/79167/76175/79

20.5/9.320.5/9.320.5/9.3

UUnniitt IInnssttaallllaattiioonn

VAV-SVX08N-EN 29

Table 8. Series fan–powered units — lb/kg

Unit Size

SingleWall Dual Wall

VSxFSuppressorVSCF VSEF

VSWF

VSCF VSEF

VSWF

1–Row 2–Row 1–Row 2–Row

0402SQ0502SQ0602SQ0603SQ0604SQ

78/3578/3577/3576/3487/39

104/47104/47103/47105/48116/53

85/3985/3984/3888/4099/45

87/3987/3986/3992/42103/47

93/4293/4292/42100/45111/50

119/54119/54118/54129/59140/64

100/45100/4599/45112/51123/56

102/46102/46101/46116/53127/58

11.0/5.011.0/5.011.0/5.016.5/7.516.5/7.5

0802SQ0803SQ0804SQ1002SQ1003SQ

79/3677/3588/4081/3780/36

105/48106/48117/53107/49109/49

86/3989/40100/4588/4092/42

88/4093/42104/4790/4196/44

94/43101/46112/5196/44104/47

120/54130/59141/64122/55133/60

101/46113/51124/56103/47116/53

103/47117/53128/58105/48120/54

11.0/5.016.5/7.516.5/7.511.0/5.016.5/7.5

1004SQ1005SQ1006SQ1007SQ1203SQ

91/4192/42104/47117/5382/37

120/54121/55135/61148/67111/50

103/47104/47119/54132/6094/43

107/49108/49124/56137/6298/44

115/52116/53133/60146/66106/48

144/65145/66164/74177/80135/61

127/58128/58148/67161/73118/54

131/59132/60153/69166/75122/55

16.5/7.516.5/7.522.5/10.222.5/10.216.5/7.5

1204SQ1205SQ1206SQ1207SQ1404SQ

92/4294/43105/48118/5493/42

121/55123/56136/62149/68122/55

104/47106/48120/54133/60105/48

108/49110/50125/57138/63109/49

116/53118/54134/61147/67117/53

145/66147/67165/75178/81146/66

128/58130/59149/68162/73129/59

132/60134/61154/70167/76133/60

16.5/7.516.5/7.522.5/10.222.5/10.216.5/7.5

1405SQ1406SQ1407SQ1606SQ1607SQ

96/44106/48119/54107/49120/54

125/57137/62150/68138/63151/68

108/49121/55134/61122/55135/61

112/51126/57139/63127/58140/64

120/54135/61148/67136/62149/68

149/68166/75179/81167/76180/82

132/60150/68163/74151/68164/74

136/62155/70168/76156/71169/77

16.5/7.522.5/10.222.5/10.222.5/10.222.5/10.2

Table 9. Low height parallel units — lb/kg

Unit Size

SingleWall Dual Wall

LPxFAttenuatorLPCF LPEF

LPWF

LPCF LPEF

LPWF

1–Row 2–Row 1–Row 2–Row

05DS0205PS0206DS0206PS02

90/4193/4290/4192/42

109/49110/50108/49110/50

97/4499/4596/4398/44

99/45101/4696/43100/45

114/51116/52113/51115/52

132/60133/60131/59133/60

120/54122/55119/54121/55

122/55124/56121/55123/56

————

08DS0208PS0214RTDS0214RTPS02

91/4193/42109/49111/50

109/49110/50121/55123/56

97/4499/45109/49111/50

99/45101/46111/50113/51

114/51116/52132/60134/61

132/60133/60144/65146/66

120/54122/55132/60134/61

122/55124/56134/61136/61

————

Table 10. Low–height series units — lb/kg

Unit Size

Single Wall Dual Wall

LSCF LSEF

LSWF

LSCF LSEF

LSWF

1–Row 2–Row 1–Row 2–Row

04DS0204PS0205DS0205PS02

89/4191/4289/4191/42

107/49108/49107/49108/49

95/4397/4495/4397/44

97/4499/4597/4499/45

112/51114/52112/51114/52

130/59131/60130/59131/60

118/54120/55118/54120/55

120/55122/55120/55122/55

06DS0206PS0206DS0308DS02

88/4090/4194/4389/41

106/48108/49112/51107/49

94/4396/44100/4595/43

96/4498/45104/4797/44

111/50113/51117/53112/51

129/59131/60135/61130/59

117/53119/54123/56118/54

119/54121/55127/58120/55

UUnniitt IInnssttaallllaattiioonn

30 VAV-SVX08N-EN

Table 10. Low–height series units — lb/kg (continued)

Unit Size

Single Wall Dual Wall

LSCF LSEF

LSWF

LSCF LSEF

LSWF

1–Row 2–Row 1–Row 2–Row

08PS0208DS0310DS03

91/4295/4397/44

108/49113/51115/52

97/44101/46103/47

99/45105/48107/49

114/52118/54120/55

131/60136/62138/63

120/55124/56126/57

122/55128/58130/59

14RTDS0214RTPS0214RTDS03

107/49109/50100/45

119/54121/55118/54

107/49109/50106/48

109/50111/50110/50

130/59132/60122/55

142/65144/65140/64

130/59132/60128/58

132/60134/61132/60

Table 11. Chilled water sensible coil terminal units — lb/kg

Unit Size

SingleWall Dual Wall

LDCF LDEF

LDWF

LDCF LDEF

LDWF

1–Row 2–Row 1–Row 2–Row

DS01 117/53 135/61 123/56 126/57 136/62 154/70 142/64 146/66

DS02 125/57 143/65 131/59 135/61 148/67 166/75 154/70 158/72

UUnniitt IInnssttaallllaattiioonn

VAV-SVX08N-EN 31

Unit SetupFigure 20. Flow sensor ΔP vs. airflow delivery

0.01

0.1

1

10

10 100 1,000 10,000

Airflow (CFM)

Flow

Sen

sor

Diffe

rential Pr

essu

re (

inch

es w

ate

r)

4”6” 8"

5”10" 12" 14" 16"

8" x 12"

16" x 24"

Fan Motor AmperageReference unit submittal data and motor nameplate.

Adjusting the SCR Motor SpeedControlIn order to make units more convenient and efficient tobalance, an SCR (silicone control rectifier) is providedas standard on all fan-powered units.

The SCR is located on the side of the fan control box.To adjust the speed of the motor, the external knobmust be rotated either clockwise or counterclockwisedepending on the desired speed adjustment.

There is an internal potentiometer setting on the SCRcontroller that can be accessed by removing the controlbox cover. This internal potentiometer is set at thefactory to the specific motor voltage.

It may be necessary to adjust this in the fielddepending on the building power factor.

32 VAV-SVX08N-EN

Figure 21. SCR (top) & internal potentiometer(bottom)

DO NOT SET THISPOTENTIOMETERBELOW THE VOLTAGEOF THE FAN MOTOR.

Max

208 v–277 v

347 v

120 v

NNoottee:: Do not set this potentiometer below the voltageof the fan motor.

Electrically Commutated Motor(ECM)Figure 22. ECM control board

Trane offers an energy efficient ECM motor as a motoroption. The optional Tracer® UC210 and UC400 unitcontrollers directly interface with the ECM to controlfan airflow and to do fan on/off control. With other unitcontrol options, the ECM Control Board is used to setthe fan airflow set point while the unit controller does

fan on/off control via a binary output. The followingtables provide a mapping from fan percent-on settingto fan airflow in CFM for each fan type and size. Otherfan settings can be determined either by interpolatingfrom these tables or by using the following equation:

• CFMsetting = CFMmin + {(Potentiometer Setting) x[(CFMmax - CFMmin)/100]}

There is an LED on the ECM control board, which willblink one time for every 100 CFM of motor setting. Forexample, the LED on a unit set for 790 CFM will blinkseven (7) times. The LED on a unit set for 800 CFM willblink 8 times.

NNoottee:: This feature only verifies that the CFM is setproperly. This feature does not indicate at whatspeed the motor is actually running.

The ECM must be load tested. In other words, the fanmust be connected to properly test the ECM. Analternate fan-interface board is available with less-controls and factory-mount-of-third-party-unit-controlsoptions that allows for fan modulation and fan on/offcontrol via the unit controller.

Table 12. VPxF 03SQ ECM CFM

Motor Min CFM: 160Motor Max CFM: 1085

CFM L/sec % Setting

160170179188198

7680848993

12345

207216226235244

98102107111115

678910

254263272282291

120124129133137

1112131415

300310319328338

142146151155159

1617181920

347356366375385

164168173177181

2122232425

394403413422431

186190195199204

2627282930

441450459469478

208212217221226

3132333435

UUnniitt SSeettuupp

VAV-SVX08N-EN 33

Table 12. VPxF 03SQ ECM CFM (continued)

Motor Min CFM: 160Motor Max CFM: 1085

CFM L/sec %Setting

487497506515525

230234239243248

3637383940

534543553562571

252256261265270

4142434445

581590599609618

274278283287292

4647484950

627637646655665

296300305309314

5152535455

674683693702711

318323327331336

5657585960

721730739749758

340345349353358

6162636465

767777786795805

362367371375380

6667686970

814823833842852

384389393397402

7172737475

861870880889898

406411415419424

7677787980

908917926936945

428433437442446

8182838485

954964973982992

450455459464468

8687888990

10011010102010291038

472477481486490

9192939495

Table 12. VPxF 03SQ ECM CFM (continued)

Motor Min CFM: 160Motor Max CFM: 1085

CFM L/sec % Setting

10481057106610761085

494499503508512

96979899100

Table 13. VPxF 04SQ ECM CFM

Motor Min CFM: 220Motor Max CFM: 1510

CFM L/sec % Setting

220233246259272

104110116122128

12345

285298311324337

135141147153159

678910

350363376389402

165171178184190

1112131415

415429442455468

196202208215221

1617181920

481494507520533

227233239245251

2122232425

546559572585598

258264270276282

2627282930

611624637650663

288294301307313

3132333435

676689702715728

319325331338344

3637383940

741754767780793

350356362368374

4142434445

UUnniitt SSeettuupp

34 VAV-SVX08N-EN

Table 13. VPxF 04SQ ECM CFM (continued)

Motor Min CFM: 220Motor Max CFM: 1510

CFM L/sec %Setting

806819832845859

381387393399405

4647484950

872885898911924

411417424430436

5152535455

937950963976989

442448454461467

5657585960

10021015102810411054

473479485491497

6162636465

10671080109311061119

504510516522528

6667686970

11321145115811711184

534540547553559

7172737475

11971210122312361249

565571577584590

7677787980

12621275128813021315

596602608614620

8182838485

13281341135413671380

627633639645651

8687888990

13931406141914321445

657663670676682

9192939495

14581471148414971510

688694700706713

96979899100

Table 14. VPxF 05SQ ECM CFM

Motor Min CFM: 280Motor Max CFM: 1850

CFM L/sec % Setting

280296312327343

132140147155162

12345

359375391407423

170177184192199

678910

438454470486502

207214222229237

1112131415

518534549565581

244252259267274

1617181920

597613629645661

282289297304312

2122232425

676692708724740

319327334342349

2627282930

756772787803819

357364372379387

3132333435

835851867883898

394402409417424

3637383940

914930946962978

431439446454461

4142434445

9941009102510411057

469476484491499

4647484950

10731089110511201136

506514521529536

5152535455

11521168118412001216

544551559566574

5657585960

UUnniitt SSeettuupp

VAV-SVX08N-EN 35

Table 14. VPxF 05SQ ECM CFM (continued)

Motor Min CFM: 280Motor Max CFM: 1850

CFM L/sec %Setting

12311247126312791295

581589596604611

6162636465

13111327134213581374

619626634641649

6667686970

13901406142214381454

656664671678686

7172737475

14691485150115171533

693701708716723

7677787980

15491565158015961612

731738746753761

8182838485

16281644166016761691

768776783791798

8687888990

17071723173917551771

806813821828836

9192939495

17871802181818341850

843851858866873

96979899100

Table 15. VPxF 06SQ ECM CFM

Motor Min CFM: 530Motor Max CFM: 2100

CFM L/sec %Setting

530546562577593

250258265273280

12345

609625641657673

287295302310317

678910

Table 15. VPxF 06SQ ECM CFM (continued)

Motor Min CFM: 530Motor Max CFM: 2100

CFM L/sec % Setting

688704720736752

325332340347355

1112131415

768784799815831

362370377385392

1617181920

847863879895911

400407415422430

2122232425

926942958974990

437445452460467

2627282930

10061022103710531069

475482490497505

3132333435

10851101111711331148

512520527535542

3637383940

11641180119612121228

549557564572579

4142434445

12441259127512911307

587594602609617

4647484950

13231339135513701386

624632639647654

5152535455

14021418143414501466

662669677684692

5657585960

14811497151315291545

699707714722729

6162636465

15611577159216081624

737744752759767

6667686970

UUnniitt SSeettuupp

36 VAV-SVX08N-EN

Table 15. VPxF 06SQ ECM CFM (continued)

Motor Min CFM: 530Motor Max CFM: 2100

CFM L/sec %Setting

16401656167216881704

774782789796804

7172737475

17191735175117671783

811819826834841

7677787980

17991815183018461862

849856864871879

8182838485

18781894191019261941

886894901909916

8687888990

19571973198920052021

924931939946954

9192939495

20372052206820842100

961969976984991

96979899100

Table 16. VSxF 03SQ ECM CFM

Motor Min CFM: 200Motor Max CFM: 1100

CFM L/sec %Setting

200209218227236

9499103107112

12345

246255264273282

116120124129133

678910

291300309318327

137142146150154

1112131415

336346355364373

159163167172176

1617181920

Table 16. VSxF 03SQ ECM CFM (continued)

Motor Min CFM: 200Motor Max CFM: 1100

CFM L/sec % Setting

382391400409418

180185189193197

2122232425

427436446455464

202206210215219

2627282930

473482491500509

223227232236240

3132333435

518527536546555

245249253257262

3637383940

564573582591600

266270275279283

4142434445

609618627636646

287292296300305

4647484950

655664673682691

309313318322326

5152535455

700709718727736

330335339343348

5657585960

745755764773782

352356360365369

6162636465

791800809818827

373378382386390

6667686970

836845855864873

395399403408412

7172737475

882891900909918

416420425429433

7677787980

UUnniitt SSeettuupp

VAV-SVX08N-EN 37

Table 16. VSxF 03SQ ECM CFM (continued)

Motor Min CFM: 200Motor Max CFM: 1100

CFM L/sec %Setting

927936945955964

438442446451455

8182838485

97398299110001009

459463468472476

8687888990

10181027103610451055

481485489493498

9192939495

10641073108210911100

502506511515519

96979899100

Table 17. VSxF 04SQ ECM CFM

Motor Min CFM: 275Motor Max CFM: 1500

CFM L/sec %Setting

275288300312325

130136142147153

12345

337350362374387

159165171177183

678910

399411424436449

188194200206212

1112131415

461473486498510

218223229235241

1617181920

523535548560572

247253258264270

2122232425

585597609622634

276282288293299

2627282930

Table 17. VSxF 04SQ ECM CFM (continued)

Motor Min CFM: 275Motor Max CFM: 1500

CFM L/sec % Setting

646659671684696

305311317323328

3132333435

708721733745758

334340346352358

3637383940

770783795807820

363369375381387

4142434445

832844857869882

393399404410416

4647484950

894906919931943

422428434439445

5152535455

9569689809931005

451457463469474

5657585960

10181030104210551067

480486492498504

6162636465

10791092110411171129

509515521527533

6667686970

11411154116611781191

539544550556562

7172737475

12031215122812401253

568574579585591

7677787980

12651277129013021314

597603609615620

8182838485

13271339135213641376

626632638644650

8687888990

UUnniitt SSeettuupp

38 VAV-SVX08N-EN

Table 17. VSxF 04SQ ECM CFM (continued)

Motor Min CFM: 275Motor Max CFM: 1500

CFM L/sec %Setting

13891401141314261438

655661667673679

9192939495

14511463147514881500

685690696702708

96979899100

Table 18. VSxF 05SQ ECM CFM

Motor Min CFM: 350Motor Max CFM: 2050

CFM L/sec %Setting

350367385402419

165173181190198

12345

436453470488505

206214222230238

678910

522539556573591

246254263271279

1112131415

608625642659676

287295303311319

1617181920

694711728745762

327335344352360

2122232425

779797814831848

368376384392400

2627282930

865882900917934

408416425433441

3132333435

95196898510031020

449457465473481

3637383940

Table 18. VSxF 05SQ ECM CFM (continued)

Motor Min CFM: 350Motor Max CFM: 2050

CFM L/sec % Setting

10371054107110881106

489498506514522

4142434445

11231140115711741192

530538546554562

4647484950

12091226124312601277

570579587595603

5152535455

12951312132913461363

611619627635643

5657585960

13801398141514321449

651660668676684

6162636465

14661483150115181535

692700708716724

6667686970

15521569158616041621

732741749757765

7172737475

16381655167216891707

773781789797805

7677787980

17241741175817751792

814822830838846

8182838485

18101827184418611878

854862870878886

8687888990

18951913193019471964

895903911919927

9192939495

19811998201620332050

935943951959967

96979899100

UUnniitt SSeettuupp

VAV-SVX08N-EN 39

Table 19. VSxF 06SQ ECM CFM

Motor Min CFM: 700Motor Max CFM: 2500

CFM L/sec %Setting

700718737755773

330339348356365

12345

791809827846864

373382391399408

678910

882900918937955

416425433442451

1112131415

973991100910271046

459468476485493

1617181920

10641082110011181137

502511519528536

2122232425

11551173119112091227

545554562571579

2627282930

12461264128213001318

588596605614622

3132333435

13361355137313911409

631639648656665

3637383940

14271446146414821500

674682691699708

4142434445

15181536155515731591

717725734742751

4647484950

16091627164616641682

759768777785794

5152535455

17001718173617551773

802811820828837

5657585960

Table 19. VSxF 06SQ ECM CFM (continued)

Motor Min CFM: 700Motor Max CFM: 2500

CFM L/sec % Setting

17911809182718461864

845854862871880

6162636465

18821900191819361955

888897905914922

6667686970

19731991200920272046

931940948957965

7172737475

20642082210021182136

97498399110001008

7677787980

21552173219122092227

10171025103410431051

8182838485

22452264228223002318

10601068107710851094

8687888990

23362355237323912409

11031111112011281137

9192939495

24272445246424822500

11461154116311711180

96979899100

Table 20. LPxF DS02 ECM CFM

Motor Min CFM: 100Motor Max CFM: 1300

CFM L/sec % Setting

100112124136148160

475359647076

012345

172184196208220

81879398104

678910

UUnniitt SSeettuupp

40 VAV-SVX08N-EN

Table 20. LPxF DS02 ECM CFM (continued)

Motor Min CFM: 100Motor Max CFM: 1300

CFM L/sec %Setting

232244256268280

109115121126132

1112131415

292304316328340

138143149155160

1617181920

352364376388400

166172177183189

2122232425

412424436448460

194200206211217

2627282930

472484496508520

223228234240245

3132333435

532544556568580

251257262268274

3637383940

592604616628640

279285291296302

4142434445

652664676688700

308313319325330

4647484950

712724736748760

336342347353359

5152535455

772784796808820

364370376381387

5657585960

832844856868880

393398404410415

6162636465

892904916928940

421427432438444

6667686970

Table 20. LPxF DS02 ECM CFM (continued)

Motor Min CFM: 100Motor Max CFM: 1300

CFM L/sec % Setting

9529649769881000

449455461466472

7172737475

10121024103610481060

478483489495500

7677787980

10721084109611081120

506512517523529

8182838485

11321144115611681180

534540546551557

8687888990

11921204121612281240

563568574580585

9192939495

12521264127612881300

591597602608614

96979899100

Table 21. LSxF DS02 ECM

Motor Min CFM: 100Motor Max CFM: 1300

CFM L/sec % Setting

100112124136148160

475359647076

012345

172184196208220

81879398104

678910

232244256268280

109115121126132

1112131415

292304316328340

138143149155160

1617181920

UUnniitt SSeettuupp

VAV-SVX08N-EN 41

Table 21. LSxF DS02 ECM (continued)

Motor Min CFM: 100Motor Max CFM: 1300

CFM L/sec %Setting

352364376388400

166172177183189

2122232425

412424436448460

194200206211217

2627282930

472484496508520

223228234240245

3132333435

532544556568580

251257262268274

3637383940

592604616628640

279285291296302

4142434445

652664676688700

308313319325330

4647484950

712724736748760

336342347353359

5152535455

772784796808820

364370376381387

5657585960

832844856868880

393398404410415

6162636465

892904916928940

421427432438444

6667686970

9529649769881000

449455461466472

7172737475

10121024103610481060

478483489495500

7677787980

Table 21. LSxF DS02 ECM (continued)

Motor Min CFM: 100Motor Max CFM: 1300

CFM L/sec % Setting

10721084109611081120

506512517523529

8182838485

11321144115611681180

534540546551557

8687888990

11921204121612281240

563568574580585

9192939495

12521264127612881300

591597602608614

96979899100

Table 22. LSxF DS03 ECM CFM

Motor Min CFM: 400Motor Max CFM: 1800

CFM L/sec % Setting

700.0712.5725.0737.5750.0762.5

330336342348354360

012345

775.0787.5800.0812.5825.0

366372378383389

678910

837.5850.0862.5875.0887.5

395401407413419

1112131415

900.0912.5925.0937.5950.0

425431437442448

1617181920

962.5975.0987.51000.01012.5

454460466472478

2122232425

1025.01037.51050.01062.51075.0

484490496501507

2627282930

UUnniitt SSeettuupp

42 VAV-SVX08N-EN

Table 22. LSxF DS03 ECM CFM (continued)

Motor Min CFM: 400Motor Max CFM: 1800

CFM L/sec %Setting

1087.51100.01112.51125.01137.5

513519525531537

3132333435

1150.01162.51175.01187.51200.0

543549555560566

3637383940

1212.51225.01237.51250.01262.5

572578584590596

4142434445

1275.01287.51300.01312.51325.0

602608614619625

4647484950

1337.51350.01362.51375.01387.5

631637643649655

5152535455

1400.01412.51425.01437.51450.0

661667673678684

5657585960

1462.51475.01487.51500.01512.5

690696702708714

6162636465

1525.01537.51550.01562.51575.0

720726732737743

6667686970

1587.51600.01612.51625.01637.5

749755761767773

7172737475

1650.01662.51675.01687.51700.0

779785791796802

7677787980

1712.51725.01737.51750.01762.5

808814820826832

8182838485

1775.01787.51800.01812.51825.0

838844850855861

8687888990

Table 22. LSxF DS03 ECM CFM (continued)

Motor Min CFM: 400Motor Max CFM: 1800

CFM L/sec % Setting

1837.51850.01862.51875.01887.5

867873879885891

9192939495

1900.01912.51925.01937.51950.0

897903908914920

96979899100

Table 23. LDxF DS01 ECM

Motor Min CFM: 100Motor Max CFM: 700

CFM L/sec % Setting

100106112118124130

475053565861

012345

136142148154160

6467707375

678910

166172178184190

7881848789

1112131415

196202208214220

929598101104

1617181920

226232238244250

106109112115118

2122232425

256262268274280

121123126129132

2627282930

286292298304310

135138140143146

3132333435

316322328334340

149152154157160

3637383940

UUnniitt SSeettuupp

VAV-SVX08N-EN 43

Table 23. LDxF DS01 ECM (continued)

Motor Min CFM: 100Motor Max CFM: 700

CFM L/sec %Setting

346352358364370

163166169171174

4142434445

376382388394400

177180183186188

4647484950

406412418424430

191194197200203

5152535455

436442448454460

205208211214217

5657585960

466472478484490

219222225228231

6162636465

496502508514520

234236239242245

6667686970

526532538544550

248251253256259

7172737475

556562568574580

262265268270273

7677787980

586592598604610

276279282284287

8182838485

616622628634640

290293296299301

8687888990

646652658664670

304307310313316

9192939495

676682688694700

318321324327330

96979899100

Table 24. LDxF DS02 ECM

Motor Min CFM: 500Motor Max CFM: 1300

CFM L/sec % Setting

500508516524532540

236239243247251254

012345

548556564572580

258262266269273

678910

588596604612620

277281284288292

1112131415

628636644652660

296300303307311

1617181920

668676684692700

315318322326330

2122232425

708716724732740

333337341345349

2627282930

748756764772780

352356360364367

3132333435

788796804812820

371375379382386

3637383940

828836844852860

390394398401405

4142434445

868876884892900

409413416420424

4647484950

908916924932940

428431435439443

5152535455

948956964972980

447450454458462

5657585960

UUnniitt SSeettuupp

44 VAV-SVX08N-EN

Table 24. LDxF DS02 ECM (continued)

Motor Min CFM: 500Motor Max CFM: 1300

CFM L/sec % Setting

988996100410121020

465469473477480

6162636465

10281036104410521060

484488492495499

6667686970

10681076108410921100

503507511514518

7172737475

11081116112411321140

522526529533537

7677787980

Table 24. LDxF DS02 ECM (continued)

Motor Min CFM: 500Motor Max CFM: 1300

CFM L/sec % Setting

11481156116411721180

541544548552556

8182838485

11881196120412121220

560563567571575

8687888990

12281236124412521260

578582586590593

9192939495

12681276128412921300

597601605609612

96979899100

UUnniitt SSeettuupp

VAV-SVX08N-EN 45

Wiring DiagramsNNootteess:: See programming guides listed below for

detailed class II low voltage unit controls wiringinformation on the following:

• UCM 4.2: VAV-SVX01*-EN

• UC400: VAV-SVX07*-EN

• UC210: BAS-SVX62*-EN

• VV550: VAV-SVP01*-EN

46 VAV-SVX08N-EN

Wiring — Electric Heater Control BoxFigure 23. Single duct , single phase, 1 leg, 3 stages

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 47

Figure 24. Single duct, single phase, 2 legs, 3 stages

WWiirriinngg DDiiaaggrraammss

48 VAV-SVX08N-EN

Figure 25. Single duct, three phase, delta, 3 stages

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 49

Figure 26. Single duct, single phase, SCR, 1 leg, 1 stage

WWiirriinngg DDiiaaggrraammss

50 VAV-SVX08N-EN

Figure 27. Single duct, single phase, SCR, 2 legs, 1 stage

2S1

L1 L2

P

2T1

24V

2T1

24V

CONTROL CIRCUITNEC CLASS-2

24VAC 50/60HZ

LOW VOLTAGE SECTIONTO

(SEE NAMEPLATE)LINE VOLTAGE

FUSESOPTIONAL

208

240

480

LINE VOLTAGESSINGLE PHASE

STAGES

1

UNLESS OTHERWISE NOTED, ALL SWITCHES ARE SHOWN AT 25° C(77° F), AT ATMOSPHERIC PRESSURE, AT 50% RELATIVE HUMIDITY,WITH ALL UTILITIES TURNED OFF, AND AFTER A NORMAL SHUTDOWNHAS OCCURRED.

NOTES:

1.

ALL FIELD WIRING MUST BE IN ACCORDANCE WITH THENATIONAL ELECTRIC CODE (NEC), STATE AND LOCAL REQUIREMENTS.

3.

DESCRIPTION

2K1,2K2,2K3,2K4

DEVICEDESIGNATION

HEATER CONTACTOR

LEGEND

2S1 DISCONNECT SWITCH

2F1,2F2,2F3 FUSE

2T1 CONTROL POWER TRANSFORMER

2S2 HIGH TEMPERATURE CUTOUT (MANUAL RESET)

2S3 HIGH TEMPERATURE CUTOUT (AUTO RESET)

2S4 SUPPLY AIR PROVING SWITCH

JACK/SOCKET CONNECTOR

PLUG/PIN CONNECTOR2J*-*

2P*-*

2HR* HEATER ELEMENT

DASHED LINES INDICATE RECOMMENDED FIELD WIRING BY OTHERS.DASHED LINE ENCLOSURES AND/OR DASHED DEVICE OUTLINESINDICATE COMPONENTS THAT ARE OPTIONAL OR GROUPEDTOGETHER. SOLID LINES INDICATE WIRING BY TRANE.

2.

SOLID STATE CONTACTORS

POWER SUPPLY

SSR1, SSR2

PW1

POWER SUPPLYOPTIONAL

2F1

2F2

2S4

LOW VOLTAGE LOCATED IN

SECTION

YEL

SSR1

OUTPUTSTATUS

1/L1OUTPUT

P3

P1

P2

P4

2/T1

ORG

GRY

BL BL

BK BK

SSR1

STATUSOUTPUT

1/L1OUTPUT

P2

P1

P4

P3

2/T1

GND

2J1-1 2P1-1

2J1-2 2P1-2

ORG

GRY2J1-2 2P1-2

2J1-1 2P1-1HEAT 1(0-10Vdc)

2K4

2K4

BLU

BLU

YEL BLU2H

R1

2J2-1 2P2-1

2J1-2 2P1-2

VDC+24

VACBLU

24

PW1

YELBRN

2S2

YEL

BRN

YEL2K4

BLU

2S3 BLU

YEL

BLU

BRN

YEL2J1-5 2P1-5

BLU 24VAC (HOT) BLU

24VAC Ret - GND

2J1-6 2P1-6

2J1-4 2P1-424Vdc

2J2-6 2P2-6

2J2-5 2P2-5

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 51

Figure 28. Single duct, three phase, delta, SCR, 1 stage

WWiirriinngg DDiiaaggrraammss

52 VAV-SVX08N-EN

Figure 29. Single duct, pneumatic controls, single phase, 1 leg

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 53

Figure 30. Fan powered, single phase, 1 leg, 2 stages

WWiirriinngg DDiiaaggrraammss

54 VAV-SVX08N-EN

Figure 31. Fan powered, single phase, 2 legs, 2 stages

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 55

Figure 32. Fan powered, three phase, wye, 2 stages

WWiirriinngg DDiiaaggrraammss

56 VAV-SVX08N-EN

Figure 33. Fan powered, pneumatic, single phase, 1 leg, 2 stages

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 57

Figure 34. Fan powered, pneumatic, single phase, 2 legs, 2 stages

WWiirriinngg DDiiaaggrraammss

58 VAV-SVX08N-EN

Figure 35. Fan powered, pneumatic, three phase, wye, 2 stages

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 59

Control Box Wiring

Figure 36. Single duct control box

WWiirriinngg DDiiaaggrraammss

60 VAV-SVX08N-EN

Figure 37. Fan-powered units with PSC motors, non-10SQ

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 61

Figure 38. Fan-powered units with ECM motor, non-10SQ

WWiirriinngg DDiiaaggrraammss

62 VAV-SVX08N-EN

Figure 39. Fan-powered units with ECV motor, non-10SQ

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 63

Figure 40. Fan-powered, pneumatic options, old style

WWiirriinngg DDiiaaggrraammss

64 VAV-SVX08N-EN

Figure 41. Fan-powered, ECM, pneumatic options, old style

WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 65

Figure 42. Fan-Powered, low-height incl 10SQ, pneumatic options, old style

FOR SERIES FAN POWERED TERMINAL UNITS ONLY.

EXTERNAL TO CONTROL BOX.

OPTIONAL OR ALTERNATE CIRCUITRY

DISCONNECT SWITCH, FUSE, & SCR ARE LOCATED

DETERMINED BY MOTOR VOLTAGE ON ORDER.

FUSE IS OPTIONAL.

VOLTAGE FOUND ON UNIT NAMEPLATE.

6.

5.

4.

FACTORY INSTALLEDBY OTHERS

2.

NOTES:

1.

NO

P.E. SWITCH-2

CC

P.E. SWITCH-1

BK

NC

BK

NC

BK NO

6.

BLOCKTERMINAL

24V

24V

1

W

2

W

3

4

CAPACITOR IS INSTALLED ON FAN HOUSING.3.

Fan-Powered Low-Height Control Box with Pneumatic Controls

DUCT PRESSURE MAIN CONTROL

Fan-Powered Low-Height Control Box with Pneumatic Controls

BR

MOTOR

CONTROL

BLOCKTERMINAL

SPEED

P.E. SWITCH

CNC

NO

BK

BK

FUSE

BK

4.SWITCH

DISCONNECT

BK

W

2.

GREEN

SCREW

GROUND

W

L1 N

2.

BR3.

FAN CONTROL BOX

W

BR

W

W

W W

BR

CAPACITOR W

CAPACITORBK

BK

MOTORFAN

3.

MOTOR 2(SIZE 10 ONLY)

FAN

OR FROM HEATER TERMINALLINE VOLTAGE

5.CAPACITOR

MOTOR

CONTROL

MOTOR

RELAY

SPEED

NO

PRESSURE

SWITCH

DUCT

BL CNC TRANSFORMER

BL Y

FUSE

BK

BK

L1

DISCONNECT

BK

BK

SWITCH

SCREW

GROUND

2.

N

GREEN

BR

FAN CONTROL BOX

BL

BK

BK

W

W

BK

W W

BR

2.

BR

W

BRW

BK

3.

MOTOR

FAN

CAPACITOR

3.

LINE VOLTAGEOR FROM HEATER TERMINAL

5.

BK

(SIZE 10 ONLY)MOTOR 2

FAN

4.

6.

CAUTION

WARNING

}

Duct Pressure Switch Option

BR

UNIT TERMINALS ARE NOT DESIGNEDTO ACCEPT OTHER TYPES OFCONDUCTORS.

FAILURE TO DO SO MAY CAUSEDAMAGE TO THE EQUIPMENT.

USE COPPER CONDUCTORS ONLY!

HAZARDOUS VOLTAGE!

DISCONNECT, LOCK OUT AND TAG ALL ELECTRIC POWER INCLUDING

FAILURE TO DISCONNECT POWERBEFORE SERVICING CAN CAUSESEVERE PERSONAL INJURY OR DEATH.

REMOTE DISCONNECTS BEFORE

DISCHARGE MOTOR START/RUN CAPACITORS BEFORE SERVICING.

SERVICING.

WWiirriinngg DDiiaaggrraammss

66 VAV-SVX08N-EN

Figure 43. Fan-powered, low-height incl 10SQ, ECM, pneumatic options, old style

FOR SERIES FAN POWERED TERMINAL UNITS ONLY.

EXTERNAL TO CONTROL BOX.

OPTIONAL OR ALTERNATE CIRCUITRY

DISCONNECT SWITCH, FUSE, & SCR ARE LOCATED

DETERMINED BY MOTOR VOLTAGE ON ORDER.

FUSE IS OPTIONAL.

VOLTAGE FOUND ON UNIT NAMEPLATE.

5.

4.

3.

FACTORY INSTALLEDBY OTHERS

2.

NOTES:

1.

NO

P.E. SWITCH-2

CC

P.E. SWITCH-1

BK

NC

BK

NC

BK NO

5.

W GBK R

NEUT.

RED

24V

RED

BL

NEUT.

RED

24V

RED

RBKW G

BLBL

4

W G RBK

NEUT.

RED

BK

24V

RED

24V 31

2

BOARDECM

BOARDECM

MOTORRELAY

BOARDECM

OR FROM HEATER TERMINALLINE VOLTAGE

Fan-Powered Low-Height Control Box w/ ECM with Pneumatic Controls

DUCT PRESSURE MAIN CONTROL

Duct Pressure Switch Option

(SIZE 10 ONLY)

DISCONNECTSWITCH

FUSE

3.

TRANSFORMER

BK

BLOCKTERMINAL

W

2.

24V

BL

Y

BK W

FANMOTOR

GR

GREENGROUNDSCREW

4.

W BK BK

W

MOTOR 2FAN

TO VAV

OR FROM HEATER TERMINALLINE VOLTAGE

MOTOR

BL

DUCT

SWITCH

PRESSURE

TRANSFORMER

BLBK 24V

Y

BL

C

NC

NO

FUSE

3.

BK

BK

DISCONNECTSWITCH

2.

W

W

SCREWGROUNDGREEN

GR

W BK

4.

Y

BK

TERMINALBLOCK

W

FAN FAN

(SIZE 10 ONLY)MOTOR 2

CONTROLLER

NO

P.E. SWITCH

C

NC

DISCONNECTSWITCH

FUSE

3.

BK W

TRANSFORMER

BK 24V

BL

Y

BLOCKTERMINAL

2.

W

GROUNDSCREW

GREEN

BKW

GR

4.FAN

MOTOR

Y

WBK

(SIZE 10 ONLY)MOTOR 2

FAN

LINE VOLTAGEOR FROM HEATER TERMINAL

5.

Y

CAUTION

WARNING

}

}

Fan-Powered Low-Height Control Boxw/ ECM with Electronic or DDC Controls(Depending on the size of the unit, the ECM boardmay or may not be located in the fan control box.)

Fan-Powered Low-Height Control Boxw/ ECM with Pneumatic Controls

FAN CONTROL BOX FAN CONTROL BOX

FAN CONTROL BOX

CAPACITORS BEFORE SERVICING.DISCHARGE MOTOR START/RUN

FAILURE TO DISCONNECT POWERBEFORE SERVICING CAN CAUSESEVERE PERSONAL INJURY OR DEATH.

UNIT TERMINALS ARE NOT DESIGNEDTO ACCEPT OTHER TYPES OF

FAILURE TO DO SO MAY CAUSEDAMAGE TO THE EQUIPMENT.

USE COPPER CONDUCTORS ONLY!

CONDUCTORS.

SERVICING.REMOTE DISCONNECTS BEFORE

HAZARDOUS VOLTAGE!

DISCONNECT, LOCK OUT AND TAG ALL ELECTRIC POWER INCLUDING

}

}WWiirriinngg DDiiaaggrraammss

VAV-SVX08N-EN 67

MaintenancePeriodic maintenance of the VariTrane™ product isminimal, but necessary for efficient operation. Routinemaintenance consists of inspecting/replacing the airfilters of the fan-powered terminals.

MotorsBoth the Permanent Split Capacitor( PSC) and theElectrically Commutated Motor (ECM) require nolubrication during its normal life of operation.

Fan WheelRoutinely inspect the fan wheel for dirt or debris andcleaned as necessary.

FilterRoutinely inspect and/or replace the filter on fan-powered terminals depending on the environmentalconditions of the plenum.

Filter Change Out• To remove the filter, turn each of the filter retaining

clips 90° (CW or CCW)

• Remove the filter and replace with new filter of thesame frame size.

• Return the filter clips to their retaining position byturning them 90° (CW or CCW) back to their originalposition.

Water Coil• Periodically inspect water coils and clean fins.

• Water coils are provided with an access panel asstandard to assist with inspection and cleaning.

Fan Motor Replacement

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Figure 44. Standard motor removal

Standard height fan-powered series and parallel fanmotors are replaceable through the filter opening andthe standard sliding side access panel. To access thefan motor, the fan housing must be detached byremoving the mounting bolts that hold the housing tothe fan board. Removing the entire housing allows thefan motor, fan housing, and fan wheel to be re-alignedon a workbench or floor and prevent any possible fanwheel rubbing that may occur. Removing the housingwill provide access to the motor shaft set screw thatholds the fan wheel to the motor shaft.

68 VAV-SVX08N-EN

The low height fan assembly has been designed to beremoved and replaced as a complete unit.

SCR AssemblySCR solid state relays are used to switch a single heaterstage on and off. An intelligent (Master) relay is usedfor all single phase applications. For three phaseapplications, a Master-Slave configuration is used toswitch two legs of three phase power to the heaterstage. The Master Relay controls one legindependently, and provides a control signal to theSlave Relay, which controls the second leg.

Figure 45. Typical heat sink fin orientation

Bottom View

Every Master or Master/Slave relay combination ismounted on a heat sink to prevent the relays fromoverheating during normal operation. The SCRassembly must always be mounted with the heat sinkfins oriented vertically (see above) with a minimumclearance of 0.5 inches on all sides of the heat sink forcooling. Where additional cooling slots are provided inthe heater, the VAV unit must be mounted with aminimum of 1 inch clearance in front of the slots.

When the 0-10 VDC control voltage is present at theMaster relay in both single and three phaseapplications, an ON indicating LED light on the Masterrelay will blink continually (approximately 0.5 secondson, 1.0 seconds off). If the load side voltage is alsopresent at the relay(s), the Master relay LED and theSlave relay LED blink rate will increase as the controlsignal increases. When the control signal reaches amaximum of 10 VDC, all LEDs will be lit continuously,indicating that the relays are full-open andcontinuously conducting. If the control signal is presentin three phase applications while the load side voltageis not, only the Master relay LED will light and the blinkrate will be constant.

If the SCR assembly does not appear to be functioningproperly, verify that all required voltages are presentand all that all wiring is properly connected. If all theseconditions are verified, and the SCR LED does not lightand/or the SCR relay does not conduct, the entire SCRheat sink assembly should be changed out. IndividualMaster or Slave relays should not be replaced.

MMaaiinntteennaannccee

VAV-SVX08N-EN 69

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70 VAV-SVX08N-EN

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VAV-SVX08N-EN 71

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Trane - by Trane Technologies (NYSE: TT), a global innovator - creates comfortable, energy efficientindoor environments for commercial and residential applications. For more information, please visittrane.com or tranetechnologies.com.

Trane has a policy of continuous product and product data improvements and reserves the right to change design and specifications withoutnotice. We are committed to using environmentally conscious print practices.

VAV-SVX08N-EN 06 Jun 2020

Supersedes VAV-SVX08M-EN (December 2019) ©2020 Trane