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Specifications (13)
Rec..&obi_ L e N C 5-, 4 , 6 Z b £fr /a e. %° Y " ( 5d-tat ws) Zrx-57- £ 3 City ita: LT 1 OFFICE COPY From: 06/05/2007 12:09 #070 P.001 /001 __.._ - r i { i ft•tt. a _ °. --• f , i - 4sTiti3cOjte . 1 1 i [ . l'fb ti- . - N.' .,:f e. 1 V t - 1 . l i Ile. .9 A - --A-114.60---- — — _ ._ - X 1 tv.- I -I r libi (Z,, tJ t' { //1e, " NOTE: SUPPORT CHANNEL — INTEGRAL TO AC UNIT. HVAC UNIT PROVIDE 8" WIDE X 8" LONG 16 GAUGE SHEET METAL RUBBER GASKET STRAP. SECURELY FASTEN TO CURB & AC UNIT. PROVIDE ONE STRAP PER SIDE FOR UNITS • , _ P - i UP TO 5000 LBS. AND TWO t _ _ STRAPS PER SIDE FOR UNITS ;: r OVER 5000 LBS. 0 - -- #12 x 3/" SCREW PRE —FAB CURB BY • - - - - - - 0 � FASTEN STRAP SECURELY TO RTU MANUFACTURER , - _ - • W /NAIL STRIP - - _ _ _ CHANNEL AND TO NAILER STRIP - - -- #12 x 3" SELF TAPPING SCREW --- N _ _ -- FLASHING SERCURELY FASTEN CURB _ _= RIGID INSULATION BY ROOFING TO ROOF DECK i = == ROOFING CONTRACTOR. PER MANUFACTURER'S ; - _ _ C ANT STRIP 4 INSTALLATION RECOMMENDATIONS ' LEVEL CURB AS REQ'D MIN. 12 O.C. W /16d NAILS - I " OR #12 x 3" SCREWS — ROOF DECK Y U O J CURB SUPPORT FRAMING ci (REFER TO STRUCTURAL PLANS.) C a E P. SCALE: N.T.S. i ++ j ` .�. - - ' i s Submittal D -CT 10 -31 -00 Mk W Linear Bar Diffusers • ,- l i fi' Aluminum ® Fixed Bars Models: CT -480 • 1/4" Spacing • '/8" Bars • 0° Deflection CT-481 • '/4" Spacing • 1 /8" Bars • 15° Deflection C T - 5 8 0 • '/a'' SR_ acina • 1 /8" Bars • 0° Deflpctton CT -581 • '/z11 Spacing • 1 /8" Bars • 15° Deflection CT -541 • ' /Z" Spacing • ' /4e' Bars • 15° Deflection Core with Border Core with Frame & Border Idalial P.--VA f ''... II I Type 13 border is shown. For other available types, please Type 1A frame & border combination is shown. For other see next page. available types, please see next page. Core with Heavy Duty Mounting Frame for Floor Applications Core only iiiii rri i Core is always fumished with. Type H Type 5 heavy duty mounting frame is shown. For other additional Model CT -540 core is shown. For other available models, available types, please see next page. reinforcing. please see below. Available Cores Check ❑ selection V." Spacing 'l2" Spacing 'le" Bars 'h" Bars V." Bars ❑ Model CT-480 • 0° Deflection ❑ Model CT -580 • 0° Deflection ❑ Model CT -540 • 0° Deflection Duct Size minus 3/4" Duct Size minus 3/4" Duct Size minus 3/4" 1/4" r 1/8" 11/2 "r- -y .-1/8" 11/2 "r- 1 5 7/32" 1 5/32" 1 5/32" 1 5/32" t t Support Bar ❑ Model CT-481 • 15° Deflection Model CT -581 • 15° Deflection ❑ Model CT -541 • 15° Deflection Duct Size Duct Size minus 3/4" minus 3/4" _ _ Duct Size minus 3/4" 1/8" — r -� 1/2" — -- 7/32" 11/2" �+ 1I6" qr r-�-{ - --.•-1/4" 1 f f 1 pr -{ I f f 5/32" 1 5 HUH � 1 2" Support Bar t Support Bar t Support Bar 1 All dimensions are in inches. t NOTE: Not recommended for floor applications with heavy loads or high traffic. Note: If placing furniture on cores, furniture legs should be a minimum of core spacing plus two bars wide to avoid placing a horizontal load on core. D -4.0 —S (Please see reverse side.) Submittal FL -4.0 3 -13 -06 Hanger & Mounting Clips Check SAr ' if provided. CFB — Concealed Fastner .Clip Usage Chart ❑ Mounting Bracket NS — Sound Stop Border 1 Slot 2 Slot 11 1-42, WC2, WC3 H2, WC2, WC3, USH, Sound Stop USH, UHC, SC1 SC1 v ,--4= 1 , t 14 H3, H4, H6, USH, UHC N/A _ 22, 55 1-13, H4, H5, USH, UHC N/A 66, 77 H1, WC2, WC4, UHC H1, WC2, WC4, USH 1 \ f j ��' 16 H1, H2C4, H1, WC2, WC4, USH 7 :1W.1•11 r UHC, USH S , C1 I�� `\ U HC is used only in , FL - 10, 2 , W FL 15 and FL -20 Accessories (Optional) Check [rif provided. Optional Blank -Offs Optional FlowBar Inlet Damper Model T ❑ FBBO -10 Inlet H ' I 4 ❑ FBBO -15 �\\ 6" ` 51/4 ❑ FBBO -20 8" 51/4 H ❑ FBBO -25 kN'' 10" 51/4 j ❑ FBBO -30 12" 7. 8 ■.__ Note: Blankoffs are painted black. 3/16" - H-- 6" Not available for curved FlowBar. Provided in 72" lengths. Field cut to length. Note: Inlet damper shipped loose. Optional Return Hood /Light Shield Model ' ❑ FBR -10 AdikiNa Number Slot H ❑ FBR -15 . "c.W. y ' r� of Slots Width (Height) N bt tffRM J y � '. k r' ❑ FBR -20 t w t4 46;' � � � r �t .' 1 3 3/8 ❑ FBR-25 Vet-47''' 1 1/2 3 3/8 • FBR -30 , ;e. 1 2 3 3/8 Model Uninsulated = `;t,.. 2 1/2 3 3/8 ❑ FBRI -1 0 Insulation '' � 4 3 3 3/8 ❑ FBRI -15 iiiiiiiiiiiiiiiiiiiiiiio , ", 0 j n i � 1 2 1/8 ❑ FBRI-20 „, r,„,„„ " ; 1 1/2 3 1/8 ❑ FBRI -25 2 -112 �`r 4t r 2 2 41/8 ❑ FBRI -30 ' �, s �'' 2 1/2 5 1/8 Note: ___ 3 61/8 Return Hoods are 51% f 1 Y_ -,v free area. Finish is #84 black. Insulated Optional FBP or FBPI Plenum For dimensional information and drawings of Model Model Optional FlowBar plenums, FBP and FBPI, ❑ FBP -1 ❑ FBPI -10 please refer to submittal AP -FBP. ❑ FBP -15 ❑ FBPI -15 ❑ FBP -20 ❑ FBPI -20 ❑ FBP -25 ❑ FBPI -25 ❑ FBP -30 ❑ FBPI -30 ■ Border Type ❑ Border Type 77 ❑ Any border, except BT77 Submittal FL -3.0 3 -13 -06 Hanger & Mounting Clips Check E if provided. ❑ UHC — Upper Hanger Clip ❑USH — Upper Support Hanger ❑ SC1 — Spline Clip USH • k i UHC — \ 1/4 � \ SCI 1 �� 17=1 ril r1 I ,1 I,I 1,1 . Suspends the FlowBar assembly from the Suspends one side of the FlowBar assembly Support Border Type 11 on Bolt -Slot type ceiling structure using standard hanger wire. from the ceiling structure. suspension systems. ❑ SS1 - Spline Support Clip ❑ SS1 — Connector Clip ❑ H1 — Hard Ceiling Clip (field formed) (as shipped) ° 0 0 0 ° 0 0 o 1113 i iiltii - r . a �� ° o � Ms - 0 ss1 H1 Integrates standard drop "Tees" with FlowBar Used for mounting Border Types 66 or 16 assembly. Adjoins multiple sections of FlowBar. with standard 5/8" gyp board. ❑ H2 — Hard Ceiling Clip ❑ H3 — Hard Ceiling Clip ❑ H3 — Hard Ceiling Clip .(:; Ill IL_ L 1 —1 imam H3 H2 H3 Used for mounting Border Types 11 or 16 Used to mount short side of Border Type 14 Can be used to mount Border Type 22 with with standard 5/8" gyp board. with standard 5/8" gyp board. standard 5/8" gyp board. ❑ H4 — Hard Ceiling Clip ❑ H5 — Hard Ceiling Clip 4 0 ❑ H6 — Hard Ceiling Clip II li 1 1_ 17-1j. H HS e Mounts the long side of assembly with Border Used to mount Border 22 to 1/2" gyp board Mounts the long side of Border 14 to 1/2" gyp Type 14 border for 5/8" gyp board. (residential). board (residential). ❑ WC2 — Wall Clip ❑ WC3 — Wall Clip ❑ WC4 — Wall Clip / WC4 i wcz WC3 / / , I _i_71 .'-‘----=41.7. r___, lt Mounts Border Types 11, 66, or 16 away from a wall when a reveal is required. This reveal Used for flush mounting Border Types 66 or . can be used as a return air slot. Mounts Border Types 11 or 16 flush to a wall. 16 to a wall. Frame & Border Types, Dimensions Check ❑ selection ❑ Frame & Border Type 1A ❑ Frame & Border Type 1B ❑ Frame & Border Type 2 • 1" Border • 1 Border •'/. Border 7 p Tr4-1 0 =D plus 2112" 0 =D 1 1 � � 1 " lus 2" 0 = D plus 1/4" -.}� D minus 3/4" 1 • 1/4" t D minus 3/4" 1 I I I 3/16" 3/4" D minus 3/4" 1 3/8 1=1. t� 3/8" 6" 4 .1 1 9/16 "T I , ,/8" l II I = Duct Size f1 "+{ =Duct Sze f11/4" D = Duct Size ❑ Frame & Border Type 3 ❑ Frame & Border Type 4 • ' /z" Border • '/4" Border • Spring Latch • Spring Latch — 0 = 0 plus 7/16" y L.• 0 =D —.--I 1/2" D minus 3/4" -+{ i /C• r _ D minus 3 /4• I 7/16" v.' 1 9/16" _.. 1 1 9/16 3/16" — - �- D = Duct Size D = Duct Sae Border Types, Dimensions Check ❑ selection ❑ Border Type 7 ❑ Border Type 11 • B ='/2 order Type 13 • B = 1 • '/4" Border ❑ Border Type 12 • B =' /. ❑ Border Type 14 • B =1 1 /4 f- 0 = D minus 1/4" • '/2" or'/." Border • 1" or 1'/." Border a 0 = 2B plus D minus 3/4" - 1/4"1--*— D minus 3/4" 0 = 28 plus D minus 3/4" 3/1 4 1 8D minus 3/4" 3/16" B —••-r-- D minus 3/4" 3/16" T 1 f 1 1/4" 1 1 ... .... [ 1 I 1 1/4" � F i l ,/4' f-■- - D= DuctSize Border Type 7 is not available with L--.- 0 = Duct Size L_ D = Duct Size Type A (screw hole) fastening. Heavy Duty Mounting Frames for Floor Applications Check ❑ selection • (See submittal D -CT -HD for loading limitations.) ❑ Frame Type 5 . ❑ Frame Type 6 ❑ Frame Type 15 • 1" Flange f 0 " plus 15/8- • No Flange f D • Carpet Clamp Flange 1/8' + -1' 0 minus 3 /8" 3/16" 7- D minus 3 /8' . �- 0 = 0 plus 1 /4' 1 3 /8'to 11/16" 6' 1 7/ _� 1/2" r _ D minus 3/4' 1 --- -� ---- Minimum 1 3/16' 1 51/1 6" ------ 1.,- - Duct Width 1 7/8" 1 7/8 I 1 � is 3' i ! l v2" 2' 1 11/32'+ L.- 11132' -+- -a -D = Duct Size t 0 = Duo Size 1" Dud Size = D Removable core is furnished with frame. See Removable core is furnished with frame. See Removable core is always furnished with H rein - front page for core selections. When spring clip front page for core selections. When spring clip is forcing. See front page for core selections. • Not is fumished, add an additional 1/4" to duct width. fumished, add an additional 1/4" to duct width. available on CT480 and CT481. Core Only (No Frame, No Border) Type CO ❑ 2 Submittal FL -5.0 3 -13 -06 End Fabrication Check Riff provided. SX --- (Straight) End Border Y Open End ECX End Cap c ' I �c D c U/ D I Cu....," o f \� , �D :i . / ■ ♦ � /% % K a KO Border Type Slot Width - - - SXX SXY YY ECXX ECXY C 0 C O C O C O C O 1 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 11/2 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 11 2 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 21/2 D+3/8 0+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 3 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 1 NA NA NA NA D D 0+1/8 D+1/8 D+1/16 0+1/16 11/2 NA NA NA NA D D 0+1/8 D+1/8 D+1/16 D+1/16 22/55 2 NA NA NA NA D D D+1/8 D+1/8 D+1/16 D+1/16 21/2 NA NA NA NA D D NA NA NA NA 3 NA NA NA NA D D NA NA NA NA 1 • 0+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 0 +1/16 D+1/16 11/2 D+3/8 D+21/8 D+3/16 0+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 66/77 2 0+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 0+1/16 0+1/16 21/2 D+3/8 D+21/8 D+3/16 D+11/16 D D 0+1/8 0+1/8 D+1/16 0+1/16 3 D+3 /8 D+21/8 D+3/16 0+11/16 D D D+1/8 D+1/8 0+1/16 0+1/16 1 NA NA NA NA D D D+1/8 D+1/8 0+1/16 D+1/16 11/2 NA NA NA NA D D D+1/8 D+1/8 0+1/16 D +1/16 14 2 NA NA NA NA D D D+1/8 D+1/8 D+1/16 D+1/16 21/2 NA NA NA NA D D D+1/8 D+1/8 D+1/16 0 +1/16 3 NA NA NA NA D D 0+1/8 D+1/8 D+1/16 0+1/16 1 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 0+1/16 11/2 0+3/8 D+21/8 0+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 16 2 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 0+1/8 D+1/16 0+1/16 21/2 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 3 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 0 +1/16 D+1/16 (NA) indicates not available Dimensions in Inches D = ordered or specified length Standard Finish: • #26 White border • Flat Black interior. • Borders 22 and 14 are finished black. General Description • Lengths greater than 12 feet are • Pattern controllers change • Diffuser material is extruded furnished in multiple sections, the direction of the air flow. Maximum aluminum. number and size determined by the length is 24 ". Pattern controllers factory. Spline clips are shipped with are furnished in multiple sections • Assembled one slot unit weighs the unit. for diffusers longer than 24 ". approximately 1 lb./ft. This submittal is meant to demonstrate general dimensions of this product. The drawings are not meant to detail every aspect of the product. Drawings are not to scale. Titus reserves the right to make changes without written notice. All rigb4 ran ,.d. No parr o/ Olin work may b reproduced a Vanemd4d in en loan or by any means, electronic or mechanical, including pbolocopying and recordmg, or by any inlormaaon storage retrieval aya4m wyhouI p*,oisaion in venting Irom Tomkina Iodusthea, Inc. Submittal D -CT 10 -31 -00 • Accessories (Optional) Check ❑ if provided ❑ Model 07 Directional Blades ❑ Model AG -30 Single Blade ; Damper 10 Model AG -35 Opposed Damper - ' Mill ' ' - 1 M,... _ 1 1 11/4" 7 3" 2 7/16' 7.--11 ` -J i' -. s. For Model CT diffuser widths 1'/: through 4 ". For all widths of Model CT diffusers 3" or Friction hinge on 1'/2" and 2" widths. Screwdriver For Model CT diffusers 3" and wider. Not recom- greater. Cannot be attached to Frame & operator on 2'h" through 4 ". Cannot be attached mended for Models CT-480 and CT -481. Cannot Border Types 3 and 4. Can be used with to Frame & Border Types 3, 4, 5, 6 or 15. For be attached to Frame & Border Types 3 and 4. Type 5, 6, 15 if Type B Spring Clip Fastening those types use Model AG -35B damper on dif- Use Model AG -35 B damper for those types. is omitted. fusers 3" and wider. Note: Minimum duct width is 3 ". ❑ Model BLKS Steel Blank - Off ❑ Model AD Access Door (Not Available on types 3, 4, 5, 6 and15.) / Note: ° ° Maximum 0 0 °o : ° Length 0 o r o , is 6 Feet 1 1/16" / il BLKS 6„ For all widths of Model CT diffusers. W4. `` ` 111111111MEN ` \'J 1 Furnished in 6 foot lengths for field cutting 4- L2 L1 1L3 R3 [ R1 R2 a Specify and installation. Steel, painted flat black. Dimension X X X - 0 Optional Mitered Corners D ❑ MC-480 • 'A" Spacing • ' /a" Bars • 0° Deflection 1 Outside \ � ° 1 - �\i ❑ MC 481 • /." Spacing • /a" Bars • 15 Deflection D ' ) , D' El MC -580 • '/2" Spacing • '1e" Bars • 0° Deflection •'- D 0 D = 0 0 = o side 4� ❑ MC -581 • '/2" Spacing • ' /s" Bars • 15° Deflection In 1 ❑ Type C • Side Wall, Inside ❑ MC -540 • '/2" Spacing • '/." Bars • 0° Deflection ❑ MC -541 • 1 /2' Spacing • '1." Bars • 15° Deflection Floor, Ceiling or Sill D El Type 0 • 0° Deflection ❑ Type A • Deflection Inside ) ❑ Type B • Deflection Outside 9 . , D D = 0 D =0 Overall Dimension 0 for Various Frame & Border Types ❑ Type D • Side Wall, Outside Duct Duct Frame & Border Type Width D' Length D 1A 1B 2 3 4 5 6 7 11 12 13 14 15 CO 2 -4 12 12 ,s he 13 3 /Ie 12 'la 12 ' /,s 12 12 3 /,e 12 11 '/a 12 ' /a 12 3 /e 12 5 /e 12 '/a 12 '/s 12 4 '/2 -6 18 18 'she 19 3 /16 18 5 /a 18 3 /,s 18 18 13 /,6 18 17 '/e 18 '/a 18 '/e 18 5 /8 18 '/a 18 '/a 18 Standard Finish: #26 White General Description • TITUS linear bar diffusers are designed for • Lengths greater than 6 feet are furnished in • All deflection bars are fixed and are parallel both supply and return applications. multiple sections, the number and size deter- to the long dimension. • Standard lengths are 1, 2, 3, 4, 5 and 6 feet, mined by the factory. • Fixed bars are extruded aluminum. furnished as complete, welded assemblies. • Sections can be joined end -to -end for contin- . Border Types 5,. 6 and 15 are the only frame uous appearance, using standard alignment styles available for floor applications. strips or alignment pins. s : : s , ® Note: This submittal is meant to demonstrate general dimensions of this product. The drawings on this submittal are not meant to detail every D -4.0 -S a s p e ct of t prod with - exactness. Drawings are not to scale. TITUS reserves the right to make changes without written notice. M rigrss reserve°. No par, of this work may oe reprocuced or transmitted in any lone or any means. electronic or mechanical. including protowpymg and recording. or by any information storage removal system without pe•miss,on ,n wnnng from Tomlons Industnes. Inc. - 4 . T 0 '. The Leader In Air Management Submittal ttal AP- FL -1.0 3 -13 -06 ❑ FL -10 •1" Slot FlowBar Linear ❑ FL- 15.11/z' slot ❑ FL -20. Slot ❑ FL -25 • 2 1 /2" Slot — 'XFL -30. Slot ‘ � -; FlowBar TM Architectural Ceiling Diffusers Aluminum • FlowBar Linear Model W 1 Model r w ❑ FL -10 1 ❑ FL -10 � 1 ❑ FL -15 j ❑ FL -15 � . ❑ FL -20 - ❑ FL -20 111'76" ❑ FL -25 I 2 5/18 ❑ FL -30 • t I. II -1I- .I II - {-- ATSTA —I r--- I s I C------I Border Type 11 Border Type 22 Model w Model w ❑ FL -10 ❑ FL -10 ❑ FL -15 ❑ FL -15 ❑ FL -20 7.177 ❑ FL -20 l 1 ❑ FL -25 2.978" ❑ FL -25 ❑ FL -30 1 ❑ FL -30 t i 1.6 A S —I—A • 1(2 "] r S L D Border Type 14 Border Type 66 Model ❑ FL -10 r W I Pattern Controller ❑ FL -15 1 i 1 1 i El FL -20 \ \ �I� _�� ❑ FL -25 H 1 `-\ \ I J . _ sue .47 ii 0 FL-30 r te, ....,. � "`� L I I � �, 1—A---L—S-1--- L D —1 v I i I U Border Type 16 ❑ High Throw (standard) ❑ Jet Throw (o ptional) Model w l ❑ FL -10 ❑ FL -15 S W A C D H ❑ FL - 111/16° e) Model Slot Width Border Border Border Height 1 Width Width Width Width ❑ FL -25 2 5/16" iii FL -10 1. 2 3/4 7/8 1 5/8 1 3/8 1 11/16 ❑ FL - FL - 1 1/2 3 3/4 1 1/8 1 7/8 1 5/8 1 11/16 I FL -20 2 4 3/4 1 3/8 2 1/8 1 7/8 1 11/16 L A -- I-- A FL -25 2 1/2 5 3/4 1 5/8 NA 2 1/8 2 5/16 Border Type 55 FL - 3 6 3/4 1 7/8 NA 2 3/8 2 5/16 Dimensions are in inches. Submittal FL -2.0 3 -13 -06 FlowBar Concealed Fastening Check 'if provided. Model ❑ FL -10 0 Ceiling Opening Width FlowBar 1 -Slot 2 -Slot 2 -Slot ❑ FL -15 % Model ❑ FL -20 /L--------1112 2CRA & 2 CRB 2CRN ❑ FL -25 �ai'��►� FL -10 3" 5 1/2" 6 3/8" ❑ FL -30 �' FL 15 4" 7 1/2" 8 3/8" r ill ` \Q FL -20 5" 9 1/2" 10 3/8" FL -25 6" 11 1/2" 12 3/8" Border Type 77 FL -30 7" 13 1/2" 14 3/8" Border Type 77 (Concealed Fastening) uses Border Type 66 extrusions and adds a mounting bracket, a #10 x 2 1/2 screw, and a hole in the spreader. Accessories (Optional) Check [rif provided. Optional FlowBar Cross L . Model r A — ❑ FBC -10 \ Border Type 11 Border Type 66 ❑ FBC -15 No. of Slot ❑ FBC -20 I�� Slots Width L W A W A ❑ FBC -25 `° . \ \ \ \ \ \ \ \ \ \ \ \�\\\\\\\\\ \\ w 1 14 3/4 2 3/4 6 3 3/4 5 1/2 ❑ FBC -30 /0 1 NIMMIIII 1 1 1/2 15 3/4 3 3/4 6 4 3/4 5 1/2 jam. \ 1 2 16 3/4 4 3/4 6 5 3/4 5 1/2 1/4 2 1/2 17 3/4 5 3/4 6 6 3/4 5 1/2 3 18 3/4 6 3/4 6 7 3/4 5 1/2 Note: Slot is blanked off Optional FlowBar Mitered Corner L Border Type 11 Border Type 66 [ A No. Slot Model of Slots Width L W A L W A r i ❑ FBMC - 1 8 3/4 2 3/4 6 9 1/4 3 3/4 5 1/2 ❑ FBMC - 1 1/2 9 3/4 3 3/4 6 10 1/4 4 3/4 5 1/2 ❑ FBMC - - 1 2 10 3/4 4 3/4 6 11 1/4 5 3/4 5 1/2 1/2 11 1 3/4 5 314 6 12 2 1/4 6 3/4 5 1/2 ❑ FBMC - �� 3 12 3/4 6 3/4 6 13 1/4 7 3/4 5 1/2 111 FBMC - 1 11 3/16 5 3/16 6 1111/16 6 3/16 51/2 11/2 13 3/16 7 3/16 6 1311/16 8 3/16 51/2 2 2 15 3/16 9 3/16 6 '15 11/16 10 3/16 5 1/2 ..a ; ..� 4 \ 2 1/2 17 3/16 11 3/16 6 17 11/16 12 3/16 5 1/2 3 19 3/16 13 3/16 6 1911/16 14 3/16 51/2 Note: Slot is blanked off Optional Two Slot Units S B W WN Model Slot Border Width Width I `"" 1 1 w `1 I w Width Width i i,fr i ,„ - i -- ] .4 FL -10 1 1 7/16 5 3/16 6 1/16 L.--J -J L,�E —L-J .,,, 1 -- : 2— �:� 1 FL -15 1 1/2 1 15/16 7 3/16 8 1/16 M ,. z cRN 2 CRB z cRA ,, ; FL - 20 2 2 7/16 9 3/16 10 1/16 o ,F1-25. 21/2 215/16 1 121/16 ; FL 30 3 3 7/16 13 3/16 1 1 ° 14 1/16 All dimensions are in inches. Submittal FL -3.0 3 -13 -06 Hanger & Mounting Clips Check [Riff provided. ❑ UHC – Upper Hanger Clip ❑ USH – Upper Support Hanger ❑ SC1 – Spline Clip UHC X10 US �� V � SC1 ., 1 ` J i'' J r 1 .1' . . r �� ICI 1�1 ICI ^, _....... r ___ __. Suspends the FlowBar assembly from the Suspends one side of the FlowBar assembly Support Border Type 11 on Bolt -Slot type ceiling structure using standard hanger wire. from the ceiling structure. suspension systems. ❑ SS1 – Spline Support Clip ❑ SS1 – Connector Clip o ❑ H1 – Hard Ceiling Clip (field formed) o o (as shipped) 0 a 0 o o L =. 1 t dry , ' v: -„,,,.... SSI / Ht Integrates standard drop "Tees" with FlowBar Used for mounting Border Types 66 or 16 assembly. Adjoins multiple sections of FlowBar. with standard 5/8" gyp board. ❑ H2 = Hard Ceiling Clip ❑ H3 – Hard Ceiling Clip ❑ H3 – Hard Ceiling Clip 4 000. f J . 4: t ®k.® ®. a � H3 H2 H3 Used for mounting Border Types 11 or 16 Used to mount short side of Border Type 14 Can be used to mount Border Type 22 with with standard 5/8" gyp board. with standard 5/8" gyp board. standard 5/8" gyp board. ❑ H4 – Hard Ceiling Clip ❑ H5 – Hard Ceiling Clip ❑ H6 – Hard Ceiling Clip l J ���i L J L J i l r =1_ 1 7 . . ,....., i . III Lk._ 111111111Wit _ _ J i ll i MEIN H4 HS MI HS Mounts the long side of assembly with Border Used to mount Border 22 to 1/2" gyp board Mounts the long side of Border 14 to 1/2" gyp Type 14 border for 5/8" gyp board. (residential). board (residential). ❑ WC2 — Wall Clip ❑ WC3 — Wall Clip ❑ WC4 — Wall Clip WC4 WC2 WC3 ' 1 1 li 1 Mounts Border Types 11, 66, or 16 away from a wall when a reveal is required. This reveal Used for flush mounting Border Types 66 or can be used as a return air slot. Mounts Border Types 11 or 16 flush to a wall. 16 to a wall. Submittal FL -4.0 3 -13 -06 Hanger & Mounting Clips Check Rrif provided. ❑ CFB — Concealed Fastner Clip Usage Chart Mounting Bracket El NS — Sound Stop Border 1 Slot 2 Slot 11 112, WC2, WC3 I-2, WC2, WC3, USH, t•-• Sound Stop USH, UHC, SC1 SC1 �� 14 H3,144, H6, USH, UHC N/A 22, 55 H3, H4, H5, USH, UHC N/A o � =%� _ 66, 77 H1, WC2, WC4, UHC H1, WC2, WC4, USH t i 1 H1, H2, WC2, WC4, H1, WC2, WC4, USH IMAM / • 16 UHC, USH, SC1 1I 1 , \\ UHC is used only in FL -10, FL -15 and FL -20 Accessories (Optional) Check dif provided. Optional Blank -Offs Optional FlowBar Inlet Damper Model ❑ FBBO -10 1 6 et 5 ❑ FBBO -15 ❑ FBBO -20 8" 51/4 T i l El (%, 10" 51/4 12" 8 --- - - - - -I El FBBO -30 - Note: Blankoffs are painted black. 3/16" ...-J 1--- 6" Not available for curved FlowBar. Provided in 72" lengths. Field cut to length. Note: Inlet damper shipped loose. Optional Return Hood /Light Shield y n Model li ❑ FBR - , ' . ';% Number Slot H ❑ FBR - . -,44 of Slots Width (Height) El FBR-20 t i , %�:, 1 3 3/8 El FBR -25 � :' 1;, . 1 1/2 3 3/8 ❑ FBR -30 ," 1 2 3 3/8 Model Uninsulated 2 1/2 3 3/8 ❑ FBRI -10 Insulation _ ` � R 3 3 3/8 - h� - ? - 1 21/8 ❑ FBRI -15 io 0 t§ 1 1 /2 3 1 /8 ❑ FBRI -20 ❑ FBRI -25 z -, T� ` 2 2 4 1/8 ❑ FBRI -30 L x=` -�¢ 21/2 51/8 Note: ' .T —,_�, ,. 3 6 1/8 Return Hoods are 51% 4ti free area. Finish is #84 black. Insulated Optional FBP or FBPI Plenum For dimensional information and drawings of Model Model Optional FlowBar plenums, FBP and FBPI, ❑ FBP ❑ FBPI - 10 please refer to submittal AP - FBP. ❑ FBP -15 ❑ FBPI -15 ❑ FBP -20 ❑ FBPI -20 ❑ FBP -25 ❑ FBPI -25 ❑ FBP -30 0 FBPI -30 Border Type ❑ Border Type 77 ❑ Any border, except BT77 f Submittal FL -5.0 3 -13 -06 • End Fabrication Check d if provided. SX (Straight) End Border Y Open End ECX End Cap c c I /D/ D �� D D 1 / CD • MIIIIMIII IIII 1 14101.0.11, ''.:. 1 [ 0-1 , ,/ 1 Border Type Slot Width - - SXX SXY YY ECXX ECXY C 0 C 0 C 0 C 0 C 0 1 D +3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 11/2 13+3 /8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D +1/16 D+1/16 11 2 D+3/8 D +21/8 D+3/16 D+11/16 D D D+1/8 D +1/8 D+1/16 D+1/16 21/2 D+3 /8 D+21/8 D+3/16 D +11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 3 D+3 /8 D+21/8 D+3/16 D+11/16 D D D +1/8 D+1/8 D+1/16 D+1/16 1 NA NIA NA NA D D D +1/8 D+1/8 D+1/16 D+1/16 11/2 NA NA NIA NA D D D+1/8 D+1/8 D+1/16 D+1/16 22/55 2 NA NA NA NA D D D+1/8 D+1/8 D+1/16 D+1/16 21/2 NA NA NA NA D D NA NA NIA NA 3 NA NA NA NA D D NA NA NA NA 1 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 D +1116 11/2 D+3 /8 D+21/8 D+3/16 D+11/16 D D D+1/8 0+1/8 D+1/16 D+1/16 66/77 2 D+3 /8 D+21/8 D+3/16 D+11/16 D D D+1 /8 D+1/8 D+1/16 D+1/16 21/2 D+3/8 D+21/8 D+3/16 D +11/16 D D D+1/8 D+1/8 D+1/16 D+1/16 3 0 +3/8 D+21/8 D+3/16 D+11/16 D D 0+1/8 D+1/8 0+1/16 D +1/16 1 NA NA NA NA D D D+1/8 D+1/8 D+1/16 D +1/16 11/2 NA NA NA NA D D D+1/8 0+1/8 D +1/16 D+1/16 14 2 NA NA NA NA D D 0+1/8 D+1/8 D+1/16 D +1/16 21/2 NIA NA NIA NA D D D +1/8 D+1 /8 D+1/16 0+1/16 3 NA NA NIA NA D D D +1/8 D+1/8 D+1/16 D+1/16 1 D+3/8 D+21/8 D+3/16 0 +11/16 D D D+1/8 D+1 /8 D+1/16 D+1/16 11/2 D+3/8 D+21/8 • D+3/16 D+11/16 D D D+1 /8 D+1/8 D+1/16 D +1/16 16 2 D+3 /8 D+21/8 D+3/16 D+11/16 D D 0+1/8 D +1/8 D +1/16 D +1/16 21/2 D+3/8 D+21/8 D+3/16 D+11/16 D D D+1/8 D+1/8 D+1/16 0+1/16 . 3 D+3/8 D+21/8 D+3/16 D +11/16 D D D+1/8 D+1 /8 D+1/16 D+1/16 (NA) indicates not available Dimensions in Inches D = ordered or specified length Standard Finish: • #26 White border • Flat Black interior. • Borders 22 and 14 are finished black. General Description • Lengths greater than 12 feet are • Pattern controllers change • Diffuser material is extruded furnished in multiple sections, the direction of the air flow. Maximum aluminum. number and size determined by the length is 24 ". Pattern controllers factory. Spline clips are shipped with are furnished in multiple sections • Assembled one slot unit weighs the unit. for diffusers longer than 24 ". approximately 1 lb./ft. This submittal is meant to demonstrate general dimensions of this product. The drawings are not meant to detail every aspect of the product. Drawings are not to scale. Titus reserves the right to make changes without written notice. All r,gM. ieaervetl. No parr of mra work maybe reprodvC* a ,. 5'! Iled In eny loan or by any means, eACUont or mechanical. mclud phowcopying and racordng, or by any mformabon storage rep,eoA system vnlhoul pa,,o as,w, in wmrrg from Tomkea Induaves, Inc. Single -.Duct �: p f r to t Service Model Number Description SD 2 -3 Selection Procedure SD 4 -5 General Data - Valve /Controiier Airflow. Guidelines SD 6 Performance Data -Air Pressure Requirements SD 7 - 9 Performance Data - Hot Water Coil SD 10 -15 Performance Data - Electric Data SD 16 -17 Performance Data - Acoustics SD 18 - 21 ` yy x^ Dimensional Data SD22 -27 Mechanical Specifications SD28 -30 c y a i k`d. VAV- PRC008 -EN SD 1 Sorg{ 4 pct Single - DuctVAV Digit 1, 2— UnitType DD15 LonTalk DDC Controller w/ Terminal Units VC VariTrane single -duc pulse -width modulation electric The features of the single -duct VAV Digit 3— Reheat heat control terminal units are described by the C Cooling Only DD17 on /off LonTalk DDC Controller w/ N.O. product categories shown in bold. E Electric Heat on /off hot water control Within each category the available W Hot Water Heat ATO8 FM Automated Logic ZN341v+ AT10 FM Automated Logic ZN141v+ options are listed. Digit 4— Development Sequence FM00 FM - Customer - supplied F Sixth actuator & controller Digit 5, 6— PrimaryAirValve FM01 FM -Trane actuator w/ 04 4" inlet (225 cfm) customer - supplied control `' 05 5" inlet (350 cfm) HNY2 FM Honeywell VI/7751H 06 6" inlet (500 cfm) INV3 FM Invensys MNL-V2R Stir • 4 08 8" inlet (900 cfm) PWR1 FM Siemens 540 -100 w/ 8 , 10 10" inlet (1400 cfm) GDE131.1 actuator 12 12" inlet (2000 cfm) PWR2 FM Siemens 540 -103 w/ .,_ ` � , 14 14" inlet (3000 cfm) GDE131.1 actuator 7 ........_.,...,....., ._.._ -. 16 16" inlet (4000 cfm) PW12 FM Siemens 550 -065 24 24" x 16" inlet (8000 cfm) PW13 FM Siemens 550 -067 Digit 7, 8 —Not Used VMA2 FM Johnson VMA -1420 Di Di N — E105 Analog -With optional on /off ._ _ VCCF reheat A ( Digit 9 —Not Used E128 Analog -With optional on /off 0 N/A reheat with dual- minimum cfm Digit 10, 11— Design Sequence E129 Analog -With optional on/off CO Third (factory assigned) reheat with constant - volume cfm � , . PC00 PN - N.C.Trane pneumatic Digit 12, 13, 14, 15—Controls actuator a _.,. ' = -r-• ENON No controls, field - installed DDC/ PC04 PN - N.C. with optional on /off HW, ® ',::7 M c.' electric DA Stat PNON No controls, field - installed PCO5 PN - N.C. with optional on /off pneumatic electric, RA Stat r . DDOO Trane elec actuator only PN00 PN - N.O.Trane pneumatic .. r ' ,� " DD01 DDC - Cooling only actuator, RA Stat �" - DD02 DDC - N.C. on /off water valve PNO4 PN - N.O. PVR, DA Stat VCWF control PN05 PN - N.O. PVR, RA Stat DD03 DDC- Prop hot water valve PN11 PN - N.O. dual - minimum cfm, control DA Stat DD04 DDC -On/off electric heat PN32 PN -Water Valve, N.O. constant DD05 DDC - Pulse -width modulation volume, DA Stat electric heat PN34 PN - Electric heat, N.O. constant DD07 DDC - N.O. on /off water valve volume, DA Stat - control a • t DD11 LonTalk DDC Controller— Notes: or . Cooling only N.C. = Normally - closed '` 1 DD12 LonTalk DDC Controller w/ N.C. N.O. = Normally -opened If * - on /off hot water control DA Stat = Direct- acting pneumatic t -stat (by i DD13 LonTalk DDC Controller w/ others) 14., proportional hot water control RA Stat = Reverse - acting pneumatic I ='� 'v' DD14 LonTalk DDC Controller -on /off t -stat (by others) electric heat control PN= Pneumatic FM = Factory installation of customer - VCEF supplied controller PVR = Pneumatic Voiume Regulator SD 2 VAV- PRC008 -EN Single-Duct ' , �„, „ r r " il Digit 16— Insulation Digit 23— Transformer Digit 27, 28, 29— Electric Heat kW A 1/2" Matte -faced 0 None 000 None B 1" Matte -faced 1 120/24 volt (50VA) 050 0.5 kW C 1/2" Foil -faced 2 208/24 volt (50VA) 010 1.0 kW D 1" Foil -faced 3 240/24 volt (50VA) 015 1.5 kW F 1" Double -wall 4 277/24 volt (50VA) G 3/8" Closed -cell 5 480/24 volt (50VA) 1 1 Digit 17 —Not Used 6 347/24 Volt (50VA) 460 46.0 kW 0 N/A 7 575/24 Volt (50 VA) 8 380/24 Volt (50VA) Notes: Digit 18 —Not Used 0.5 to 8.0 kW - 1/2 kW increments 0 N/A Note: ForVCEF units with transformers 8.0 to 18.0 kW - 1 kW increments Digit 19— Outlet Plenum (Connection the VA depends on the staging, control, 18.0 to 46.0 kW - 2 kW increments is Slip & Drive) and contactor type (ranges are 40VA Digit 30— Electric Heat Stages 0 None to 75VA) 9 9 0 None A 1 Outlet RH B 1 Outlet END Digit 24— Disconnect Switch 1 1 Stage 0 None 2 2 Stages Equal C 1 Outlet LH D 2 Outlets, 1 RH, 1 END W With 3 3 Stages Equal E 2 Outlets, 1 LH, 1 END Note: VCCF, VCWF- Toggle Disconnect Digit 31— Contactors F 2 Outlets, 1 RH, 1 LH VCEF- Door Interlocking Power 0 None, H 3 Outlets, 1 LH, 1 RH, 1 END Disconnect 1 24 -volt magnetic .,., J 4 Outlets, 1 LH, 1 RH, 2 END 2 24 -volt mercury Digit 25 —Power Fuse 3 PE with magnetic Note: See unit drawings for outlet sizes/ 0 None 4 PE with mercury damper information. W With Digit 32 —Not Used Digit 20 —Not Used Digit 26— Electric Heat Voltage 0 N/A 0 N/A 0 None Digit 33 —Not Used Digit 21 —Water Coil A 208/60/1 0 N/A 0 None C 208/60/3 Digit 34— Actuator 1 1 -Row C 240/60/1 0 Standard 2 2 -Row 80/60/1 E 480/60/1 A Spring Return (Normally Open) E 4 Digit 22— Electrical Connections (VCCI; F 480/60/3 B Spring Return (Normally VCWF can be flipped in the field to G 347/60/1 Closed) achieve opposite -hand connection) H 575/60/3 Digit 35— Sensor Options L Left (Airflow hitting you in the J 380/50/3 0 Standard (Wired) face) K 120/60/1 1 Factory Mounted Wireless R Right (Airflow hitting you in the Receiver (Sensor Accessory) face) 0 Opposite side connection -coil and control VAV- PRC008 -EN SD 3 Singl fie- , e-Duct oa f 4 : 4:: i,, i . � This section describes the catalog Select hot water coil from the coil Acoustics selection of single -duct VAV terminal performance table in the Performance The acoustical data found in the units with specific examples. A Data section of the catalog. "Performance Data section of the VAV computer selection program is also Selection: catalog is used to make a available to aid in selection ofVAV A one -row coil is sufficient to meet determination of the amount of noise terminal units. design conditions. From the HotWater the terminal unit will generate. Locate Selection of single -duct VAV terminal Coil Capacity Data of the Performance the table for the VAV terminal unit of units can involve three elements: Data Section, a one -row coil for a size interest. Sound power data and an • Air valve selection 12 air valve will operate at the above equivalent NC level for an ARI 885 -98 • Heating coil selection (if required) conditions as follows: transfer function is listed. • Acoustics Coil Capacity: 25.17 MBh Example: Water pressure drop: 0.72 ft WPD VCCF, Cooling - OnlyTerminal Unit, Size Air Valve Selection Air pressure drop (APD) of the hot 10 (See airValve Selection) The wide -open static pressure and water coil is included in the chart Cooling Airflow: 1100 cfm airflows are found in the performance preceding the hot water coil Maximum inlet static data section of the catalog.To select an performance data section. pressure: 1.5 in. wg air valve, locate the required design APD = 0.35 in. wg Interpolation gives sound power cooling airflow for your terminal unit data of: type and find the smallest air valve size Electric Heat Determine the kW required to meet Octave 2 3 4 5 6 7 NC that has a pressure drop equal to or zone design heat loss. Band lower than the maximum wide -open Disch. 68 68 65 65 60 57 28 static pressure requirement. kW = MBh / 3.414 Sound 1,41p Power MBh = Design Heat Loss Rad. 63 58 54 47 39 32 29 Selection Example— Sound Cooling Only VCCF Terminal Unit Select the nearest availabl kW with Power voltage and steps desired from the Design cooling airflow: 1700 cfm electric heater kW guideline table in the The NC level above is determined by Maximum wide open Performance Data section of the using either the catalog's ARI 885 -98 Air pressure drop: 0.25 in. wg catalog. Minimum cooling airflow: 850 cfm (mineral fiber for radiated sound) Example: transfer function for the conditions From the performance data charts, VCEF, Electric Unit Heat, Size 12 shown in the acoustics table. A select a valve size 12, which has a wide- (See Air Valve Selection) different transfer function could be open static pressure drop of 0.01 in. wg Heating airflow: 850 cfm applied as conditions dictate. Check the minimum and maximum cfm Voltage: 277/60/1 VAC The maximum NC level is NC -37. If the desired with the minimum and Design Heat Loss: Q = 25 MBh maximum NC level was exceeded, it maximum cfm allowed in the table in kW = 013.414 would have been necessary to reselect the general data section.The maximum kW = 25/3.414 the next larger unit size. setting of 1700 cfm is within the Computer Selection acceptable range.The desired minimum kW = 7.3 The advent of personal computers has setting of 850 cfm is acceptable for the Selection: served to automate many processes cooling only box desired. Note that if an Select 7.5 kW from the electric heat that were previously repetitive and electric reheat box was selected, the table in the voltage and stages time - consuming. One of those tasks is minimum cfm would be dependent required.The table shows the the proper scheduling, sizing, and upon the kW of the electric heater. (See minimum cfm allowable for the kW selection of VAV terminal units.Trane Electric Heat Unit Selection.) selected.The static pressure has developed a computer program to requirement is shown as 0.06 in. wg perform these tasks.The software is Heating Coil Selection (If for this example with a design cooling called theTrane Official Product required) flow of 1700 cfm. Selection System (TOPSS). First, determine the amount of heat Check Leaving AirTemperature: TheTOPSS program will take the input required to meet space and specifications and output the properly downstream duct heat losses from a LAT = o 1.085 x CFM +T sized VariTrane VAV terminal unit along load calculation. with the specific performance for that HotWater Heat T is the primary entering air size unit. Select a hot water coil sufficient to meet temperature 55 °F for this example. The program has several required the design heat loss. fields, denoted by red shading in the LAT •= 3414x75 + 55 = 82.8 Example: 1.085x850 TOPSS screen, and many other VCWF, Hot Water Unit Heat, Size 12 optional fields to meet the criteria you (See air Valve Selection) Decide if leaving air temperature of have. Required values include Heating airflow: 850 cfm 82.8 °F is satisfactory for your maximum and minimum airflows, Hot water flow: 1.0 gpm application. control type, and model. If selecting Design Heat Loss: Q =25 MBh models with reheat, you will be required to enter information to make SD 4 VAV- PRC008 -EN that selection also.The user is given Schedule View the option to look at all the information The program has many time - saving features such as: for one selection on one screen or as a • Copy /Paste from spreadsheets like Microsoft Excel schedule with the otherVAV units on • Easily arranged fields to match your schedule the job. ® Time - saving templates to store default settings The user can select single -duct, dual- The user can also export the ScheduleView to Excel to modify and put into a CAD duct, and fan - powered VAV boxes with drawing as a schedule. the program, as well as most other Specific details regarding the program, its operation, and how to obtain a copy of it Trane products, allowing you to select are available from your localTrane sales office. all yourTrane equipment with one software program. The program will also calculate sound .:.wn al Piiidlici r. is 'ldoss 1 = `' _ - ° ^" WI a: 3R. ;.1. 1'".x42. a'tw..- 'i.{^cg 'r. . +,:. power data for the selected terminal unit.The user can enter a maximum individual sound level for each octave ag v 1 band or a maximum NC value.The ,. . . . program will calculate acoustical data 1.44411 1 7 ,d1 1, ' _ ,o ', • 11 •10 ""' es 01.5.21.4:', I - t ,' subject to default or user supplied } E #� 1;1,,.1�., =,26, sound attenuation data. H. f t 'fit g § S ( Cotton thmttr, ,, vat i 44 t# fi".;a^ t - n : 1' y . i 1J., 1 v,....., I ..b.! 'i caesy4 z 0122 .+.i L'M ' II :.'6 1 42 .►arM Rao, 1iuk�A lel «.r.}pt ' +fin j dowwwla+ i t 2416.;.. 1 - rwt'f... 6 nf<E.r. _ ,. 1 i . ! r . , , } ra a a., F //•:•./ _4444 : :«,,.....«a�.,,an..«.�. # � r F .., . . , . ... ._.. . ,, _.._ _ __ .._- . �.. _..._ _ .r t .1"41:1..1 -1 v1: 2„ s 11.61 akV i .c3.� 1 ` ,, 3+z�. ' ; .,,,ga ■ sniff . ; w 341 t 61+33 , i . ::ItitJ 1 4 VCi.2 6M/ 6 .S +1 3 4� _; : I i ,' «..,�,...- 444,4.,. -., 1g3 .1.._� .....,.. _.e ._.. ..,......,.. .,.., _4444 m ke;Phc'r,, ,,`I - a u-7Tu..., — 0 rr:i',` , .:r��tfr,,A d, i - t. ,AA ws , S , *'"e' , 4 404 v' - 4 Y.; .., 4 1 ;toi',7'a b,;'. v. g , .rok : s to, ' A.!*., - . ..0 4 a. ...0.4 .0 kik 4 3 22•44 1.. ",^.4 . , 4 4 Required entry fields (in Red •..,, t A ., :. •:tea } 4 ," 44 , r.. * 4 Fa4a, a nM. • 4444 0, n s} ')v. a. *46 :,,;.,0-1:1a 4d 1' 1 :,. k onTOPSS screen). w 40 Rearrange what fields you see . ■ .4 .., and in what order with a few " "3 clicks of a button. , j - ,. ,<_R r3ra,w..4v Lark -. + °2 ,.._• VAV- PRC008 -EN SD 5 • • Single-Duct q = {s Kr y 1 r tea ' A 4.. .: t4 .r. 6 i ..2"' x i 'e ,, M i 0 Primary Airflow Control Factory Settings - I -P Control Air Valve Maximum Valve Maximum Controller Minimum Controller ConstantVolume Type Size (in.) Cfm Cfm Cfm Cfm 4 225 25-225 0,25 -225 25-225 5 350 40 -350 0,40 -350 40-350 6 500 60-500 0,60-500 60-500 Direct Digital Control/ 8 900 105 -900 0,105 -900 105 -900 UCM 10 1400 165 -1400 0,165 -1400 165 -1400 12 2000 240 -2000 0,240 -2000 240 -2000 14 3000 320 -3000 0,320 -3000 320 -3000 16 4000 420-4000 0,420-4000 420 -4000 24 x 16 8000 800-8000 0,800-8000 800 -8000 4 225 38-225 0,38 -225 38-225 5 350 63 -350 0,63 -350 63-350 6 500 73-500 0,73 -500 73-500 Pneumatic with 8 900 134 -900 0,134 -900 134 -900 Volume Regulator 10 1400 215 -1400 0,215 -1400 215 -1400 12 2000 300 -2000 0,300 -2000 300 -2000 14 2887 408 -2887 0,408 -2887 408 -2887 16 3789 536 -3789 0,536 -3789 536 -3789 24 x 16 7745 1096 -7745 0,1096 -7745 1096 -7745 4 225 52 -225 0,52 -225 52 -225 5 350 82 -350 0,82 -350 82 -350 6 500 120-500 0,120 -500. 120 -500 � Analog Electronic 8 900 210 -900 0,210 -900 210 -900 10 1400 328 -1400 0,328 -1400 328 -1400 12 2000 470 -2000 0,470 -2000 470 -2000 i 14 3000 640 -3000 0,640- 3000 640 -3000 t 16 4000 840 -4000 0;840-4000 840-4000 24 x 16 8000 . 1600 -8000 0,1600=8000 1600 -8000 Primary Airflow Control Factory Settings - SI Control Air Valve Maximum Valve Maximum Controller Minimum Controller ConstantVolume Type Size (in.) Us Us Us Us 4 106 12 -106 0,12 -106 12 -106 5 165 19-165 0,19 -165 19-165 6 236 28-236 0,28 -236 28-236 Direct Digital Control/ 8 425 50-425 0,50-425 50-425 UCM 10 661 77 -661 0,77 -661 77 -661 12 944 111 -944 0,111 -944 111 -944 14 1416 151 -1416 0,151 -1416 151 -1416 16 1888 198 -1888 0,198 -1888 198 -1888 24 x 16 3776 378 -3776 0,378-3776 378 -3776 4 106 18-106 0,18 -106 18-106 5 165 30-165 0,30 -165 30-165 6 236 35-236 0,35 -236 35-236 Pneumatic with 8 425 63-425 0,63 -425 63-425 ' Volume Regulator 10 661 102 -661 0,102 -661 102 -661 12 944 141 -944 0,141 -944 141 -944 14 1363 193 -1363 0,193 -1363 193 -1363 16 1788 253 -1788 0,253 -1788 253 -1788 24 x 16 3656 517 -3656 0,517 -3656 517 -3656 4 106 25-106 0,25 -106 25-106 5 165 39-165 0,39 -165 39-165 6 . 236 57 -236 0,57 -236 57 -236 Analog Electronic 8 425 100 -425 0,100 -425 100 -425 10 661 155-661 .. 0,155-661 155 -661 12 944 222 -944 0,222 - 944 222 -944 14 1416 303 -1416 0,303 -1416 303 -1416 16 1888 397 -1888 0,397 -1888 397 -1888 24 x 16 3776 756 -3776 0,756 -3776 756 -3776 Note: Maximum airflow must be greater than or equal to minimum airflow. SD 6 VAV- PRC008 -EN Single-Duct P, r -. k [;,$:: g) , ',W 4 1, t;.5 is �� $ 1,; „. 2 irit et:4 ft P. Air Pressure Drop - in. wg (I -P) Air Pressure Drop - Pa (SI) Inlet Airflow Cooling Hot Water Electric Inlet Airflow Cooling Hot Water Electric Size Cfm Only 1 -row coil 2 -row coil Heat Size Us Only 1 -row coil 2 -row coil Heat 04 50 0.01 0.01 0.01 0.01 04 25 3 3 3 3 100 0.01 0.02 0.02 0.01 50 3 4 4 3 150 0.01 0.03 0.03 0.01 70 3 7 7 3 225 0.01 0.06 0.06 .. 0.02 105 3 15 15 3 05 100 0.01 0.01 0.03 0.01 05 45 3 3 6 3 200 0.01 0.05 0.08 0.01 95 3 12 21 3 300 0.01 0.09 0.17 0.02 140 3 22 41 5 350 0.02 0.12 0.22 0.02 165 4 29 54 6 06 100 0.01 0.02 0.03 0.01 06 45 3 4 7 3 250 0.05 0.11 0.17 0.05 120 13 29 4.3 14 350 0.10 0.22 0.32 0.11 165 26 55 79 27 500 0.22 0.45 0.63 0.23 235 55 112 155 57 08 200 0.01 0.03 0.05 0.01 08 95 3 8 13 3 400 0.02 0.10 0.17 0.02 190 4 25 43 6 600 0.04 0.20 0.34 0.05 280 9 49 83 12 900 0.08 0.40 0.69 0.11 420 21 99 169 28 10 500 0.01 0.07 0.12 0.01 10 235 3 16 29 3 800 0.01 0.15 0.26 0.02 375 3 37 63 5 1100 0.01 0.27 0.44 0.03 520 3 67 110 9 1400 0.01 0.42 0.66. 0.05 660 3 104 165 13 12 800 0.01 0.10 0.19 0.01 12 375 3 24 47 3 1200 0.01 0.19 0.35 0.03 565 3 47 88 7 1600 0.01 0.31 0.55 0.05 755 3 76 138 13 2000 0.01 0.45 0.79 0.08 940 3 111 195 19 14 1500 0.01 0.10 0.23 0.01 14 700 3 26 55 3 2000 0.01 0.16 0.36 0.01 945 3 40 89 3 2500 0.01 0.22 0.51 0.01 1180 3 56 127 3 3000 . .0.01 0.30 0.69 .. 0.01 1415 3 74 171 3 16 2000 0.01 0.11 0.30 0.01 16 940 3 28 73 3 2500 0.01 0.16 0.46 0.02 1180 3 40 114 4 3000 0.01 0.22 0.65 0.02 1415 3 54 162 5 4000 0,01 0.35 1.14 0.03 1885 3 87 284 8 24 x 16 4000 0.01 0.40 0.66 0.15 24 x 16 1885 3 100 165 38 5500 0.01 0.70 1.12 0.30 2600 3 176 279 76 6500 0.01 0.95 1.47 0.44 3070 3 236 366 110 8000 0.01 1.37 2.06 0.69 3775 3 341 513 172 Note: Hot water pressure drops are for the entire unit, not just the coil.To calculate the hot water coil only pressure drop, subtract the cooling only pressure drop from the other pressure drop. VAV- PRC008 -EN SD 7 Single-Duct _ , i a.�e n. 'e- il. i i_ - fie ��`I§<„u Z,P s .' § . ri ': f %. , ." 1 ms s -. �',^.* xi,,,",.i �; - .e..1. U i a ,a, ..;„;: 1 ,w, .% u Integral Outlet Plenum Air Pressure Drop - in. wg (f -P) Outlet Inlet Outlet Diameter .._ Airflow (Cfm) Size Configuration (in.) 50 100 150 200 250 350 400 500 600 800 900 1100 1200 1400 1600 2000 4;5,6 A,C 5 0.02 0.07 0.15 0.26 0.41 0.80 1.04 1.63 4,5,6 6 0.01 0.03 0.07 0.13 0.20 0.37 0.48 0.74 8,10 AC 8 0.04 0.06 0.11 0.14 0.23 0.33 0.58 0.74 1.11 1.33 1.81 10 10 0.01 0.02 0.04 0.05 0.08 0.12 0.21 0.27 0.41 0.48 0.66 12 10 0.03 0.06 0.08 0.12 0.17 0.29 0.37 0.54 0.64 0.86 1.11 1.71 4,5,6 B 5 0.01 0.03 ' 0.08 0.15 0.23 0.48 0.64 1.02 4,5,6 6 0.01 0.01 0.01 0.03 0.04 0.07 0.10 0.15 8 8 0.01 0.01 0.02 0.02 0.03 0.05 0.07 0.09 10 B 8 0.02 0.04 0.07 0.09 0.14 0.20 0.35 0.44 0.65 0.76 1.03 10 10 0.01 0.01 0.01 0.01 0.02 0.02 0.04 0.06 0.08 0.10 0.13 12. 10 0.02 0.04 0.05 0.08 0.11 0.19 0.24 0.36 0.43 0.58 0.76 1.17 4,5,6 D,E 5 0.01 0.01 0.02 0.04 0.05 0.09 0.12 0.17 4,5,6 6 0.01 0.01 0.01 0.01 0.01 0.01 0.02 0.03 8 D, E 5 0.06 0.09 0.18 0.23 0.35 0.49 0.85 1.06 8 6 0.02 0.03 0.05 0.07 0.11 0.15 0.26 0.32 8 8 0.01 0.01 0.01 . 0.01 0.01 0.01 0.01 0.01 10 D, E 6 0.02 0.04 0.07 0.10 0.15 0.22 0.38 0.48 0.72 0.85 1.16 10 8 0.01 0.01 0.01 0.02 0.02 0.04 0.06 0.08 0.12 0.14 0.19 k 10 10 0.01 0.01 0.01 0.01 0.01 0.01 0.02 0.02 0.03 0.04 0.05 �.� 12 D, E 8 0.01 0.02 0.03 0.05 0.07 0.12 0.15 0.23 0.28 0.38 0.49 0.77 12 10 0.01 0.01 0.02 0.02 0.04 0.05 0.07 0.08 0.11 0.14 0.21 4,5,6 F 6 0.01 0.01 0.03 0.05 0.08 0.16 0.21 0.32 4,5,6,8 5 0.01 0.03 0.06 0.10 0.16 0.30 0.38 0.58 0.83 1.43 1.78 8,10 F 6 0.05 0.08 0.14 0.18 0.27 0.37 0.61 0.76 1.08 1.26 1.66 8,10 8 0.01 0.02 0.04 0.06 0.09 0.13 0.23 0.29 0.43 0.52 0.71 10 F 10 0.01 0.01 0.02 0.02 0.03 0.04 0.07 0.08 0.12 0.14 0.18 12 8 0.02 0.04 0.05 0.07 0.10 0.17 0.21 0.31 0.37 0.50 0.64 0.98 12 10 0.01 0.02 0.02 0.03 0.04 0.06 0.08 0.11 0.13 0.16 0.21 0.30 4,5,6 H 5 0.01 0.01 0.01 0.01 0.01 0.03 0.04 0.06 4 6 0.01 0.01 0.01 0.01 5 6 0.01 0.01 0.01 0.01 0.01 0.01 6 6 0.01 0.01 0.01 0.01 0.01 0.01 0.01 8 H 5 0.03 0.05 0.09 0.11 0.18 0.25 0.43 0.54 8 6 0.01 0.01 0.02 0.03 0.04 0.06 0.10 0.13 8 8 0.01 0.01 0.01 0.01 0.01 0.01 0.02 0.03 10 H 6 0.01 0.02 0.04 0.05 0.08 0.11 0.18 0.22 0.32 0.38 0.50 10 8 0.01 0.01 0.01 0.01 0.01 0.02 0.03 0.03 0.05 0.05 • 0.07 10 10 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 12 H 8 0.01 0.01 0.02 0.03 0.04 0.06 0.08 0.11 0.13 0.17 0.21 0.32 12 10 0.01 0.01 , 0.01 0.01 0.01 0.02 0.02 0.03 0.03 0.05 0.06 0.09 10 J 5 0.02 0.02 0.05 0.06 0.09 0.13 0.23 0.29 0.43 0.51 0.70 12 5 0.03 0.06 0.08 0.12 0.17 0.30 0.38 0.57 0.68 0.92 1.20 1.87 12 6 0.01 0.02 0.03 0.04 0.06 0.11 0.14 0.21 0.25 0.35 0.45 0.71 OUTL CONVERSION CHART OUTLET AVAILABILITY CHART - SEE OUTL CONVERSION FOR NOMINALO SYMBOL NOMINALO VALV 4 5 6 8 10 12 I 5" (127 mm) A,B.0 1, II I, II I, 11 111 III, IV IV II 6" (152 mm) OUTL D,E,F 1, II I, II I, 11 1, II, III II. III, IV III, IV III 8" (203 mm) H I. II I, II I, II I. II, III 11, III, IV 111, IV IV 10" (254 mm) J N/A N/A N/A N/A 1 _ 1, II y OUTLET PLENUM ARRANGEMENTS A D E H (TOP VIEW) 1 1 [ 1 ©1 [ ] 1 1 ri L u SD 8 VAV- PRC008 -EN • t tVi C x : .".�. l f '; " a er 'A + P°`"s � Sr'''' p = p it.. Integral Outlet Plenum Air Pressure Drop - Pa (SI) Outlet Inlet Outlet Diameter Airflow(L /s) Size Configuration (mm) 25 50 70 95 120 165 190 235 280 375 420 520 565 660 755 940 4,5,6 A,C 127 4 17 37 66 102 199 260 405 4,5,6 152 3 8 18 32 49 93 120 185 8,10 AC 203 9 14 27 36 56 81 145 185 277 330 451 10 254 3 5 10 13 21 30 53 67 101 120 164 12 254 8 15 19 29 42 73 91 134 159 214 277 427 4;5,6 B 127 3 8 20 36 58 119 158 254 4,5,6 152 3 3 4 6 10 19 24 37 8 203 3 3 5 6 8 11 19 23 10 B 203 6 9 17 22 35 49 86 109 161 190 257 10 254 3 3 3 3 4 6 11 14 20 24 33 12 254 5 10 12 19 28 48 61 90 107 145 188 292 4,5,6 D,E 127 3 3 6 9 13 23 29 42 4,5,6 152 3 3 3 3 3 3 4 6 8 D,E 127 15 23 44 57 87 123 211 264 8 152 5 7 13 17 26 37 64 81 8 203 3 3 3 3 3 3 3 3 10 D,E 152 6 9 18 24 37 54 95 120 179 213 289 10 203 3 3 3 4 6 9 16 20 30 35 48 10 254 3 3 3 3 3 3 4 5 8 9 12 Ar .4. ' 12 D,E 203 3 6 7 12 17 30 38 57 69 94 123 193 12 254 3 3 . 3 4 6 . 10 12 17 20 27 34 52 4,5,6 F 152 3 4 8 14 21 40 52 81 '; ? 4,5,6,8 127 3 7 15 25 39 74 95 145 206 355 444 8,10 F 152 13 19 35 45 66 92 153 189 269 315 414 8,10 203 3 5 10 14 22 31 56 72 108 129 177 10 F 254 3 3 4 5 7 10 17 21 29 34 45 12 203 5 9 11 18 25 43 53 78 92 124 159 244 12 254 3 4 5 7 9 16 19 27 31 41 51 75 4,5,6 H 127 3 3 3 3 3 7 9 15 4 152 3 3 3 3 5 152 3 3 3 3 3 3 6 152 3 3 3 3 3 3 3 8 H 127 8 12 22 29 44 62 108 136 8 152 3 3 6 7 11 15 26 33 8 203 3 3 3 3 3 3 5 6 10 H 152 4 5 10 13 19 27 45 56 81 95 126 10 203 3 3 3 3 3 4 6 8 12 14 18 10 254 3 3 3 3 3 3 3 3 3 3 3 12 H 203 3 3 4 6 9 15 19 27 32 42 53 80 12 254 3 3 3 3 3 4 5 7 9 11 15 22 10 J 127 4 6 11 15 23 33 58 73 108 128 173 12 127 7 14 19 29 42 75 95 142 168 229 299 467 12 152 3 5 7 11 15 28 35 53 63 86 113 178 OUTL CONVERSION CHART OUTLET AVAILABILITY CHART - SEE OUTL CONVERSION FOR NOMINALO SYMBOL NOMINALO VALV 4 5 6 8 10 12 1 5" (127 mm) A,B,C I, II I. II I, II III III, IV IV II 6" (152 mm) OUTL D.E.F 1, 11 I, 11 I, II I, II, III II, III, IV III, IV III 8" (203 mm) H 1, 11 I, II I, II I, II, III II, 111, IV 111, IV IV 10" (254 mm) J N/A N/A N/A N/A I, II i i i i it i 4' 4' OUTLET R (TOP G VIEW) TS III 1 FL11 1 D 1 1© 11 E ] 1111 u VAV- PRC008 -EN SD 9 Single-Duct Inlet Size 04, 05, 06 (I -P) Water Pressure Airflow (Cfmj Rows Gpm Drop (ft) 45 60 90 100 150 200 250 300 400 500 1-Row 0.5 0.55 4.16 4.82 5.83 6.10 7.26 8.17 8.94 9.62 10.73 11.60 Capacity 1.0 1.84. 4.42 5.20 6.41 6.75 8.22 9.42 10.47 11.40 13.00 14.36 MBH 1.5 3.74 4.52 5.34 6.63 7.00 8.60 9.93 11.11 12.17 14.02 15.62 2.0 6.22 4.57 5.41 6.75 7.13 8.80 10.21 11.46 12.59 14.60 16.34 2.5 9.24 4.61 5.46 6.82 7.22 8.93 10.39 11.68 12.86 14.97 16.81 2 -Row 0.5 1.14 5.07 6.36 8.47 9.06 11.41 13.07 14.30 - - - Capacity 1.0 3.84 5.25 6.68 9.16 9.89 12.97 15.34 17.23 18.77 21.15 22.90 MBH 1.5 7.80 5.31 6.79 9.40 10.18 13.53 16.20 18.39 20.21 23.10 25.30 2.0 12.95 5.34 6.84 9.52 10.32 13.83 16.66 19.01 20.99 24.18 26.65 2.5 19.16 5.36 6:88 9.59 10.41 14.01 16.94. 19.39 21.48 24.87 2751 Applicable Range Size 04 Size 05 Size 06 Inlet Size 08 (I -P) Water Pressure Airflow (Cfmj Rows Gpm Drop (ft) 165 • 200 300 400 500 600 700 800 900 1 -Row 0.5 0.86 8.81 9.51 11.15 12:41 13.41 14.24 14.95 - - �� Capacity 1.0 2.90 10.04 10.97 13.19 14.99 16.54 17.92 19.13 20.21 21.18 • MBH 1.5 5.96 10.52 11.56 14.06 16.14 17.95 19.56 21.01 22.35 23.58 2.0 9.97 10.78 11.88 14.54 16.79 18.76 20.53 22.14 23.61 24.97 2.5 14.89 10.95 12.08 14.85 17.20 19.29 21.17 22.88 24.46 25.93 2 -Row 2.0 0.35 15.01 16.97 21.32 24.48 26.88 28.78 30.32 31.61 32.70 Capacity 4.0 1.22 16.00 18.30 23.68 2779 31.06 33.75 36.00 3792 39.58 MBH 6.0 2.57 16.36 18.79 24.57 29.09 32.75 35.79 38.37 40.60 42.55 8.0 4.38 16.55 19.05 25.05 29.79 33.67 36.92 39.69 42.10 44.21 10.0 6.63 16.66 19.21 25.35 30.23 34.25 3763 40.54 43.06 45.29 12.5 10.05 16.76 19.34 25.59 30.60 34.74 38.24 41.25 43.87 46.20 Inlet Size 10 (I -P) Water Pressure Airflow (Cfm) Rows Gpm Drop (ft) 350 450 550 650 750 850 1000 1100 1300 1400 1 -Row 0.7 2.07 15.52 1718 18.54 19.71 20.72 - - - - - Capacity 1.0 3.87 16.89 18:79 20.51 22.01 23.34 24.54 26.12 2707 28.74 29.48 MBH 1.5 7.93 18.16 20.40 22.37 24.13 25.76 2728 29.33 30.58 32.81 33.83 2.0 13.20 18.87 21.30 23.47 25.42 2722 28.87 31.18 32.62 35.23 36.42 2.5 19.67 19.31 21.88 24.18 26.26 28.19 29.98 32.45 33.97 36.82 38.14 2 -Row 2.0 0.72 2775 31.74 34.93 3754 39.72 41.58 43.91 45.22 4742 48.35 Capacity 4.0 2.62 30.43 35.52 39.76 43.37 46.48 49.21 52.71 54.74 58.23 59.74 MBH 6.0 5.61 31.41 36.93 41.62 45.66 49.19 52.30 56.36 58.73 62.86 64.67 8.0 9.65 31.92 3768 42.61 46.89 50.65 53.99 58.37 60.94 65.44 6743 10.0 14.71 32.24 38.15 43.23 4766 51.57 55.05 59.64 62.35 6710 69.20 Notes: 1. Fouling Factor = 0.00025 2. Capacity based on 55 °F entering air temperature and 180 °F entering water temperature. Refer to correction factors for different entering conditions on page 42. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (WTD). LAT = E +(MBhi x921.71 V1/TD =EWT LWT- /2xMBH l Cfm J/ 1` Gpm SD 10 VAV- PRC008 -EN e Single-Duct N 5 ,N- 6,41;4 . ,..: . .,'ra x F �.,. Y. 0.".i , ..c Q,1 ; Inlet Size 12 (I -P) Water Pressure Airflow (Cfm) Rows Gpm Drop (ft) 400 600. 800 1000 1200 1400 1600 1800 2000 1 - Row 1.0 0.68 18.07 21.12 23.48 25.37 26.96 28.30 29.47 30.49 31.39 Capacity 2.0 2.37 20.76 24.83 28.16 31.04 33.61 35.88 37.91 39.74 41.41 MBH 3.0 4.95 21.84 26.41 30.24 33.58 36.55 39.24 41.74 44.03 46.13 4.0 8.38 22.42 27.28 31.40 35.02 38.28 41.26 43.99 46.51 48.88 5.0 12.62 22.78 27.83 32.14 35.95 39.41 42.57 45.49 48.21 50.74 2 -Row 2.0 0.25 - - - - - - - - - Capacity 5.0 1.38 35.55 45.61 53.18 59.13 63.96 67.96 71.36 74.28 76.82 MBH 8.0 3.35 36.91 47.07 56.74 63.72 69.50 74.37 78.57 82.22 85.44 11.0 6.14 37.56 49.28 58.51 66.04 72.33 77.69 82.33 86.40 90.01 14.0 9.72 37.95 50.00 59.58 6745 74.06 79.73 84.66 88.99 92.85 17.5 14.90 38.24 50.54 60.39 68.53 75.39 81.30 86.46 91.01 95.06 Notes: 1. Fouling Factor = 0.0005 °F ft h /Btu. 2. Capacity based on 55 °F entering air temperature and 180 °F entering water temperature. net Size 14 (I -P) Water. Pressure Airflow (Cfm) Rows Gpm Drop (ft) 700 900 1100 1300 1500 1700 2000 2300 2600 3000 1 - Row 2.0 1.23 31.76 35.18 38.24 40.91 43.27 45.38 48.18 50.62 52.77 55.28 Capacity 3.0 2.56 34.35 38.43 42.00 45.19 48.14 50.86 54.53 5780 60.73 64.21 MBH 4.0 4.32 35.80 40.28 44.24 47.82 51.09 54.10 58.28 62.10 65.56 69.72 5.0 6.50 36.73 41.47 45.70 49.54 53.07 56.34 60.85 64.96 68.79 73.44 6.0 9.08 37.38 42.31 46.73 50.76 54.48 57.94 62.74 67.12 71.15 76.13 7.0 12.05 3786 42.93 47.49 51.67 55.53 59.14 64.15 68.75 73.01 78.21 2 -Row 5.0 1.09 55.66 63.95 70.65 76.21 80.91 84.94 90.02 94.23 97.79 101.78 Capacity 9.0 3.32 59.72 69.65 7796 85.04 91.16 96.51 103.42 109.29 114.33 120.09 MBH 13.0 6.71 61.41 72.08 91.13 88.93 95.74 101.76 109.59 116.30 122.14 128.86 17.0 11.24 62.34 73.44 82.92 91.13 98.35 104.76 113.16 120.39 126.71 134.03 21.0 16.89 62.94 74.31 84.06 92.56 100.05 106.72 115.49 123.08 129.73 137.45 22.5 19.29 63.11 74.56 84.40 92.98 100.54 107.29 116.17 123.87 130.62 138.46 Notes: 1. Fouling Factor = 0.0005 °F ft h /Btu. 2. Capacity based on 55 °F entering air temperature and 180 °F entering water temperature. net Size 16 (I -P) Water Pressure Airflow (Cfm) Rows Gpm Drop (ft) 900 1200 1500 1800. 2000 2400 2800 3200 3600 4000 1-Row 2.0 1.37 38.24 43.01 46.92 50.22 52.17 55.58 58.48 60.99 63.19 65.12 Capacity 3.0 2.84 41.85 47.41 52.24 56.54 59.12 63.73 6776 71.32 74.49 7734 MBH 4.0 4.77 43.89 50.10 55.46 60.22 63.20 68.61 73.40 77.69 81.56 85.07 5.0 7.16 45.21 51.85 57.64 62.82 66.00 71.85 77.19 82.01 86.39 90.40 6.0 9.98 46.14 53.08 59.19 64.67 68.06 74.28 79.91 85.13 89.90 94.29 75 15.02 47.10 54.38 60.81 66.64 70.24 76.91 82.97 88.52 93.67 98.49 2 -Row 5.0 1.15 68.70 79.75 88.29 95.11 98.96 105.40 110.59 114.89 118.51 121.61 Capacity 9.0 3.50 74.51 88.21 99.24 108.35 113.62 122.64 130.12 136.45 141.90 146.64 MBH 13.0 7.05 76.95 91.85 104.07 114.31 120.28 130.63 139.34 146.78 153.23 158.90 17.0 11.78 78.30 93.89 106.80 117.70 124.11 135.27 144.71 152.85 159.94 166.20 21.0 17.67 79.16 95.20 108.56 119.91 126.60 138.31 148.26 156.86 164.39 171.06 22.5 20.18 79.40 95.58 109.07 120.55 127.32 139.19 149.30 158.04 165.70 172.49 Notes: 1. Fouling Factor = 0.0005 °F ft h /Btu. 2. Capacity based on 55 °F entering air temperature and 180 °F entering water temperature. Refer to correction factors found on page 42 for different entering conditions. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (WTD). LAT = EAT + (MBH x921.71 WTD= EWT- FD (MBH II `` Gpm 11 VAV- PRC008 -EN SD 11 .4 t � r te' , w� � ' �" : y o-'.V 1 ... Inlet Size 16 x 24 (I -P) Water Pressure ------_._ ___.--------- --- .- -- .-- -- .___ -- Airflow (Cfm) Rows Gpm Drop (ft) 1000 1700 2400 3100 3800 4500 5200 5900 6600 7300 8000 1 -Row 2.0 1.51 42.77 52.52 59.23 64.28 68.27 71.50 74.18 76.44 78.38 80.05 Capacity 3.0 3.11 47.00 58.99 68.05 75.19 81.02 85.90 90.04 93.62 ' 96.75 99.50 MBH 4.0 5.21 49.47 62.79 73.31 81.88 89.04 95.14 100.43 105.05 109.14 112.79 5.0 7.81 51.07 65.46 76.79 86.39 94.52 101.55 107.71 113.15 118.01 122.37 6.0 10.88 52.20 67.37 79.41 89.63 98.51 106.25 113.09 119.18 124.65 129.60 7.5 16.35 53.37 69.38 82.26 93.19 102.80 111.34 118.95 125.79 131.98 137.62 2 -Row 5.0 1.26 7704 99.78 113.85 123.52 130.63 136.11 140.49 144.09 147.10 149.66 Capacity 9.0 3.71 83.86 113.03 132.54 146.70 15753 166.15 173.21 179.13 184.17 188.53 MBH 13.0 7.34 86.70 118.88 141.13 15768 170.59 181.01 189.66 196.97 203.26 208.74 17.0 12.13 88.27 122.18 146.09 164.10 178.31 189.88 199.55 207.78 214.89 221.13 21.0 18.02 89.27 124.32 , 149.31 168.32 183.42 195.79 206.17 215.05 222.75 229.51 22.5 20.52 59.56 124.93 150.25 169.56 184.92 197.53 208.13 217.20 225.07 232.00 Notes: 1. Fouling Factor = 0.0005 °F ft h /Btu. 2. Capacity based on 55 °F entering air temperature and 180 °F entering water temperature. Refer to correction factors found on page 42 for different entering conditions. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (WTD). LAT = EAT + 21.7\ WTD =EWT- LWT= (2xMBH) Temperature Correction Factors for Water Pressure Drop (ft) Gpm Average WaterTemperature 200 190 180 170 160 150 140 130 120 110 Correction Factor 0.970 0.985 1.000 1.020 1.030 1.050 1.080 1.100 1.130 1.150 Temperature Correction Factors for Coil Capacity (MBH) Entering Water Minus Entering Air 40 50 60 70 80 100 125 140 150 160 180 200 Correction Factor 0.32 0.40 0.48 0.56 0.64 0.80 1.00 1.12 1.20 1.28 1.44 1.60 Coil Only - Water Weights Internal Internal Operating Inlet Coil Volume Volume Weight Size Type (in. (Gal.) (Ibs) 04 1 -Row 9.37 0.041 5.3 05 1 -Row 9.37 0.041 5.3 06 1 -Row 9.37 0.041 5.3 08 1 -Row 12.78 0.055 5.5 10 1 -Row 19.06 0.083 7.7 12 1 -Row 30.05 0.130 10.7 14 1 -Row 51.21 0.222 13.9 16 1 -Row 58.62 0.254 16.2 24 x 16 1 -Row 66.03 0.286 20.4 04 2 -Row 23.68 0.102 6.9 05 2 -Row 23.68 0.102 6.9 06 2 -Row 23.68 0.102 6.9 08 2 -Row 35.47 0.154 9.0 10 2 -Row 48.83 0.211 11.7 12 2 -Row 6734 0.292 15.5 14 2 -Row 94.27 0.408 19.8 16 2 -Row 109.09 0.472 23.3 24 x 16 2 -Row 123.91 0.536 29.8 SD 12 VAV- PRC008 -EN Single-Duct `. ` LL rfr ... y . ,°^ ,... TES, ,-,,, ,.,;.�.. , x P . * roctz f r u 4.. a?. : tU a' "' 7 1: Inlet Size 04, 05, 06 (SI) Water Pressure Airflow (I Is) Rows L/s Drop (kPa) 21 28 42 47 71 94 118 142 . 189 236 1 - Row 0.03 1.57 1.20 1.38 1.66 1.73 2.05 2.30 2.52 2.70 3.01 3.26 Capacity 0.06 5.26 1.27 1.49 1.82 1.91 2.31 2.64 2.93 3.19 3.63 4.01 kW 0.010 10.72 1.30 1.53 1.88 1.98 2.42 2.78 3.10 3.39 3.91 4.35 0.13 17.82 1.32 1.55 1.91 2.02 2.47 2.86 3.20 3.51 4.06 4.54 0.16 26.47 1.32 1.56 1.93 2.04 2.51 2.91 3.26 3.58 4.16 4.67 2 - Row 0.06 1.85 1.48 1.88 2.54 2.73 3.53 4.14 4.61 4.99 5.58 6.00 Capacity 0.13 6.39 1.52 1.94 2.68 2.90 3.84 4.60 5.22 5.73 6.56 7.19 kW 0.19 13.28 1.53 1.96 2.72 2.95 3.96 4.77 5.45 6.02 6.96 7.69 0.25 22.39 1.54 1.97 2.75 2.98 4.01 4.86 5.57 6.18 7.18 7.96 0.32 . 33.61 1.54 1.98 2.76 3.00 4.05 4.92 5.65 6.28 7.32 8.14 Notes: 1. Fouling Factor = 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. Inlet Size 08 (SI) Water Pressure Airflow (L/s) Rows L/s Drop (kPa) 78 94 142 189 236 283 330 378 425 1 - Row 0.03 2.12 2.47 2.66 3.12 3.47 3.75 3.99 4.18 4.35 4.50 Capacity 0.06 705 2.81 3.06 3.68 4.18 4.61 4.99 5.33 5.63 5.90 , kW 0.09 1435 2.94 3.22 3.92 4.49 4.99 5.44 5.84 6.22 6.56 f" : Sa, 0.13 23.82 3.01 3.31 4.05 4.67 5.22 5.71 6.15 6.56 6.93 0.16 3535 3.06 3.37 4.13 4.78 5.36 5.88 6.35 6.79 720 2 - Row 0.13 0.98 - - - - - - - - - Capacity 0.25 3.48 4.54 5.18 6.67 779 8.69 9.42 10.03 10.55 11.01 kW 0.38 737 4.65 5,33 6.92 8.16 9.16 9.99 10.70 11.30 11.83 0.50 12.56 4.70 5.40 706 8.36 9.42 10.31 11.07 11.72 12.29 0.63 19.04 4.74 5.45 7.15 8.49 9.59 10.51 11.30 11.99 12.59 0.79 28.90 4.77 5.49 722 8.60 9.73 10.68 11.50 12.22 12.84 Notes: 1. Fouling Factor = 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. Inlet Size 10 (SI) Water Pressure _ Airflow (L /s) Rows L/s Drop (kPa) 165 212 260 307 354 401 472 519 613 661 1 -Row 0.04 5.29 4.36 4.83 5.21 5.54 5.83 6.08 6.41 6.61 6.94 709 Capacity 0.06 9.81 4.74 5.27 5.75 6.17 6.54 6.88 7.33 760 8.07 8.28 kW 0.09 19.90 5.09 5.71 6.26 6.75 7.21 7.63 8.21 8.55 9.18 9.47 0.13 33.00 5.28 5.96 6.56 710 7.60 8.07 8.71 9.11 9.84 10.17 0.16 48.93 5.40 6.11 6.75 733 7.87 8.37 9.06 9.48 10.28 10.64 2 - Row 0.13 2.07 787 8.98 9.87 10.59. 11.20 11.72 12.36 12.73 13.34 13.60 Capa 0.25 753 8.64 10.06 11.23 12.23 13.10 13.85 14.81 15.37 16.34 16.75 kW 0.38 16.15 8.93 10.46 11.76 12.88 13.86 14.72 15.83 16.49 17.62 18.12 0.50 27.83 9.07 10.68 12.05 13.23 14.27 15.19 16.40 1710 18.34 18,88 0.63 42.50 9.17 10.81 12.22 13.45 14.53 15.49 16.75 1750 18.80 19.38 Notes: 1. Fouling Factor = 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. Refer to correction factors for different entering conditions on page 45. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (WTD). LAT = EAT + ( kW� 0.83 \ VVTD = EWT - LWT = ( (4.19) Us/ VAV- PRC008 -EN SD 13 7 � 3 �# g t gg E 5 Inlet Size 12 (S1) Water Pressure --- ..__..._. - Airflow_(L/st- Rows Us Drop (kPa) 189 283 378 472 566 661 755 849 944 1 -Row 0.06 2.04 5.30 6.19 6.88 744 7.90 8.29 8.64 8.93 9.20 Capacity 0.13 708 6.08 7.28 8.25 9.10 9.85 10.51 11.11 11.65 12.14 kW 0.19 14.79 6.40 7.74 8.86 9.84 10.71 11.50 12.23 12.90 13.52 0.25 25.04 6.57 8.00 9.20 10.26 11.22 12.09 12.89 13.63 14.33 0.32 37.73 6.68 8.16 9.42 10.54 11.55 12.48 13.33 14.13 14.87 2 - Row 0.13 0.74 - - - - - - - - - Capacity 0.32 4.12 10.42 13.37 15.59 17.33 18.74 19.92 20.91 21.77 22.51 kW 0.50 10.01 10.82 14.09 16.63 18.68 20.37 21.80 23.03 24.10 25.04 0.69 18.35 11.01 14.44 17.15 19.35 21.20 22.77 24.13 25.32 26.38 0.88 29.06 11.12 14.65 1746 19.77 21.71 23.37 24.81 26.08 2721 1.10 44.53 11.21 14.81 1770 20.08 22.10 23.83 25.34 26.67 27.86 Notes: 1. Fouling Factor= 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. Inlet Size 14 (SI) Water Pressure Airflow _Psi_ -� - Rows Us Drop (kPa) 330 425 519 613 708 802 944 1085 1227 1416 1 - Row 0.13 3.69 9.31 10.31 11.21 11.99 12.68 13.30 14.12 14.84 15.47 16.20 7 Capacity 0.19 767 10.07 11.26 12.31 13.24 14.11 14.91 15.98 16.94 17.80 18.82 kW 0.25 12.93 10.49 11.80 12.97 14:01 14.97 15.86 1708 18.20 19.21 20.43 0.32 19.43 10.76 12.15 13.39 14.52 15.55 16.51 17.83 19.04 20.16 21.52 0.38 27.13 10.95 12.40 13.69 14.88 15.97 16.98 18.39 19.67 20.85 22.31 0.44 36.01 11.09 12.58 13.92 15.14 16.28 1733 18.80 20.15 21.40 22.92 2 - Row 0.32 3.24 16.31 18.74 20.71 22.34 23.71 24.89 26.38 2762 28.66 29.83 Capacity 0.57 9.93 1750 20.41 22.85 24.92 26.72 28.28 30.31 32.03 33.51 35.20 kW 0.82 20.07 18.00 21.13 23.78 26.06 28.06 29.82 32.12 34.08 35.80 37.76 1.07 33.61 18.27 21:52 24.30 26.71 28.82 30.70 33.16 35.28 3714 39.28 1.32 50.49 18.45 21.78 24.64 27.13 29.32 31.28 33.85 36.07 38.02 40.28 1.42 5767 18.50 21.85 24.73 2725 29.47 31.4.4 34.05 36.30 38.28 40.58 Notes: 1. Fouling Factor = 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. net Size 16 (SI) Water Pressure Airflow (LIsi - __ Rows Us Drop (kPa) 425 566 708 849 944 1133 1321 1510 1699 1888 1 - Row 0.13 4.10 11.21 12.61 13.75 14.72 15.29 16.29 1714 1787 18.52 19.09 Capacity 0.19 8.48 12.26 13.90 15.31 16.57 1733 18.68 19.86 20.90 21.83 22.67 kW 0.25 14.26 12.86 14.68 16.25 1765 18.52 20.11 21.51 22.77 23.90 24.93 0.32 21.39 13.25 15.20 16.89 18.41 19.34 21.06 22.62 24.03 25.32 26.49 0.38 29.83 13.52 15.56 1735 18.95 19.95 21.77 23.42 24.95 26.35 2763 0.47 44.89 13.80 15.94 1782 19.53 20.59 22.54 24.32 25.94 2745 28.87 2 - Row 0.32 3.44 20.13 23.37 25.88 2788 29.00 30.89 32.41 33.67 34.73 35.64 Capacity 0.57 10.45 21.84 25.85 29.08 31.76 33.30 35.94 38.14 39.99 41.59 42.98 kW 0.82 21.07 22.55 26.92 30.50 33.50 35.25 38.28 40.84 43.02 44.91 46.57 1.07 35.21 22.95 2752 31.30 34.50 36.37 39.64 42.41 44.79 46.87 48.71 1.32 52.82 23.20 2790 31.82 35.14 3710 40.53 43.45 45.97 48.18 50.13 '1.42 60.31 23.27 28.01 31.97 35.33 3731 40.79 43.75 46.32 48.56 50.55 Notes: 1. Fouling Factor = 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. Refer to correction factors for different entering conditions on page 45. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (WTD). LAT = EAT +r kWx 0 . 83 \ WTD= EWT- LWT= ( (4:9)Us) SD 14 VAV- PRC008 -EN U �'`4` . C'' '`' ""' 3 g g 1 4M. Inlet Size 16x24 (Si) Water Pressure Airflow (L /s) Rows L/s Drop (kPa) 472 802 1133 1463 1793 2124 2454 2784 3115 3445 1-Row 0.13 4.50 12.54 15.39 17.36 18.84 20.01 20.95 21.74 22.40 22.97 23.46. Capacity 0.19 9.28 13.77 17.29 19.94 22.04 23.74 25.17 26.39 27.44 28.35 29.16 kW 0.25 15.59 14.50 18.40 21.48 24.00 26.09 27.88 29.43 30.79 31.99 33.05 0.32 23.35 14.97 19.19 22.50 25.32 27.70 29.76 31.57 33.16 34.58 35.86 0.38 32.53 15.30 19.74 23.27 26.27 28.87 31.14 33.14 34.93 36.53 37.98 0.47 48.88 15.64 20.33 24.11 27.31 30.13 32.63 34.86 36.87 38.68 40.33 2 -Row 0.32 3.75 22.58 29.24 33.37 36.20 38.28 39.89 41.17 42.23 43.11 43.86 Capacity 0.57 11.08 24.58 33.13 38.84 42.99 46.17 48.70 50.76 52.50 53.97 55.25 kW 0.82 21.95 25.41 34.84 41.36 46.21 49.99 53.05 55.58 5773 59.57 61.18 1.07 36.25 25.87 35.81 42.81 48.09 52.26 55.65 58.48 60.89 62.98 64.81 1.32 53.88 26.16 36.43 43.76 49.33 53.76 57.38 60.42 63.02 65.28 67.26 1.42 61.34 26.25 36.61 44.03 49.69 54.20 57.89 61.00 63,65 65.96 67.99 Notes: 1. Fouling Factor = 0.0005. 2. Capacity based on 12 °C entering air temperature and 82 °C entering water temperature. Refer to correction factors for different entering conditions on page 45. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (VVTD). LAT = EAT + (kwx0183\ WTD =EV T -LWT =( kW / Us / (4.19) Us Temperature Correction Factors forWater Pressure Drop (kPa) Average WaterTemperature 93 88 82 77 71 66 60 54 49 43 Correction Factor 0.970 0.985 1.000 1.020 1.030 1.050 1.080 1.100 1.130 1.150 Temperature Correction Factors for Coil Capacity (kW) Entering Water Minus Entering Air 22 28 33 39 44 56 69 78 83 89 100 111 Correction Factor 0.32 0.40 0.48 0.56 0.64 0.80 1.00 1.12 1.20 1.29 1.45 1.61 Coil Only - Water Weights Internal Internal Operating Inlet Coil Volume Volume Weight Size Type (cm') (liters) (kg) 04 1 -Row 153.6 0.154 2.421 05 1 -Row 153.6 0.154 2.421 06 1 -Row 153.6 0.154 2.421 08 1 -Row 209.4 0.209 2.477 10 1 -Row 312.4 0.312 3.487 12 1 -Row 492.5 0.493 4.853 14 1 -Row 839.1 0.839 6.309 16 1 -Row 960.6 0.961 7.337 24x16 1 -Row 1082.0 1.082 9.273 04 2 -Row 388.0 0.388 - 3.12 05 2 -Row 388.0 0.388 3.12 06 2 -Row 388.0 0.388 3.12 08 2 -Row 581.3 0.580 4.099 10 2 -Row 800.1 0.799 5.294 12 2 -Row 1103.0 1.101 7.026 14 2 -Row 1545.0 1.542 8.965 16 2 -Row 1788.0 1.784 10.57 24x16 2 -Row 2030.0 2.027 13.53 VAV- PRC008 -EN SD 15 Single-Duct t -* Cam` . _ s¢t , hh. F s , ,. f ... 01, !r., VCEF Electric Coil kW Guidelines - Minimum to Maximum Inlet Single -Phase Voltage Three -Phase Voltage Size Stages 120V 208V/240V 277V 347V 480V 208V 480V 575V 380V/50 Hz 04 1 1.0 1.0 1.0 1.0 1.0 1.0 1.0 - 1.0 2 1.0 1.0 1.0 1.0 - - - - - 3 1.0 1.0 1.0 1.0 - - - - - 05 1 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.5 -2.5 1.0 -2.5 2 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.5 -2.5 1.0 -2.5 - - - 3 1.0 -2.5 1.0 -2.5 1.0 -2.5 1.5 -2.5 - - - - - 06 1 1.0 -4.0 1.0 -4.0 1.0 -4.0 1.0 -4.0 1.0-4.0 1.0-4.0 1.0 -4.0 1.5 -4.0 1.0 -4.0 2 1.0-4.0 1.0 -4.0 1.0 -4.0 1.0-4.0 1.5 -4.0 1.0 -4.0 - - - 3 1.0 -4.0 1.0-4.0 1.0-4.0 1.5-4.0 - - - - - 08 1 1.0-5.0 1.0 -7.0 1.0 -7.0 1.0 -70 1.0 -70 1.0 -70 1.0 -7.0 1.5 -70 1.0 -7.0 2 1.0-5.0 1.0 -70 1.0 -70 1.0 -7.0 1.5 -70 2.0 -7.0 4.0 - 3.0 -7.0 3 1.0 -5.0 1.0 -7.0 1.0 -7.0 1.5 -7.0 2.0-70 - 6.0 - 4.0 -70 10 1 1.0-5.0 1.0 -9.0 1.0 -11.0 1.0 -11.0 1.0 -11.0 1.0 -11.0 1.0 -11.0 1.5 -11.0 1.0 -11.0 2 1.0 -5.0 1.0 -9.0 1.0 =11.0 1.0 -11.0 1.0 -11.0 1.0 -11.0 3.0 -11.0 9.0 -10.0 2.0 -11.0 3 1.0-5.0 1.0 -9.0 1.0 -11.0 1.5 -11.0 1.5 -11.0 2.0 -11.0 5.0 -11.0 - 3.0 -11.0 12 1 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -16.0 1.0 -16.0 1.0 -16.0 1.5 -16.0 1.0 -16.0 2 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0-16.0. 1.0 -16.0 3.0 -16.0 3.5 -16.0 1.5 -16.0 3 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.5 -16.0 1.5 -16.0 2.0 -16.0 4.0 -15.0 5.5 -16.0 2.5 -16.0 14 1 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -22.0 1.0 -16.0 1.0 -22.0 1.5 -22.0 1.0 -22.0 2 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -22.0 1.0 -16.0 2.0 -22.0 3.0 -22.0 1.5 -22.0 i ..,B- 3 1.0 -5.0 1.0 -9.0 .1.0 -13.0 1.5 -16.0 1.5 -22.0 2.0 -16.0 3.0 -20.0 4.5 -18.0 2.5 -22.0 Hw y 16 1 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -22.0 1.0 -16.0 1.0 -30.0 1.5 -30.0 1.0 -30.0 2 1.0-5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -22.0 1.0 -16.0 2.0 -30.0 2.5 -30.0 1.5 -30.0 3 1.0 -5.0 1.0 -9.0 1.0-13.0 . 1.5 -16.0 1.5 -22.0 2.0 -16.0 3.0 -30.0 4.0 -26.0 2.5 -30.0 24 x 16 1 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -22.0 1.0 -16.0 1.0 -38.0 1.5-46.0 1.0 -30.0 2 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.0 -16.0 1.0 -22.0 1.0 -16.0 2.0 -38.0 2.5-46.0 1.5 -30.0 3 1.0 -5.0 1.0 -9.0 1.0 -13.0 1.5 -16.0 1.5 -22.0 1.5 -16.0 3.0 -38.0 3.5-40.0* 2.5 -30.0 • 36.0 not available Notes: 1. Coils available with 24 -volt magnetic or mercury contactors, load carrying PE switches, and P.E. switch with magnetic or mercury contactors. 2. Available kW increments are by 0.5 kW from 1.0 to 8.0 kW, by 1.0 kW from 9.0 to 18.0 kW, and by 2.0 kW from 18.0 to 46.0 kW. 3. Each stage will be equal in kW output. 4. All heaters contain an auto - thermal cutout and a manual -reset cutout. 5. The current amp draw for the heater elements is calculated by the formula below. 6. The maximum allowable kW is based on the largest kW possible per a voltage and the minimum airflow per an inlet size and kW. Minimum Circuit Ampacity (MCA) Equation - MCA = heater amps x 1.25 Maximum Overcurrent Protection (MOP) Equation - MOP = heater amps - However since MOP <_ MCA, then choose next fuse greater than MCA. - Units without electric reheat would use smallest fuse sizing. - Standard Fuse Sizes: 15, 20, 25, 30, 35, 40, 45, 50, and 60. Example -For MOP of Single -Duct Unit A model VCEF, electric reheat unit size 14 has 480/3 phase 15 kW electric reheat with 2 stages. 15 kW - 480/3 heater 15 x 1000 = 18.06 480 x 1.73 MCA = 18.06 x 1.25 = 22.58 amps. Since MOP <- MCA, then MOP = 25. Useful formulas: kW = Cfm 4 ATD 3145 kW = 1214 x Lis x ATD kWx1000 _ kWx1000 3pamps = Primary Voltage x \� 14amps PrimaryVoltage ATD = kWx3145 ATD= kW Cfm 1214 x Vs SD 16 VAV- PRC008 -EN Single-Duct �; .t. 0 K Minimum and Maximum Airflow per Inlet Size and kW I -P SI t -P SI Inlet Min Max Min Max Inlet Min Max Min Max Size kW Cfm Cfm Us Us Size kW Cfm Cfm Us US 4 1.0 130 225 61 106 14 1.0 -9.0 640 3000 302 1415 5 1.0 125 350 59 165 10.0 720 3000 340 1415 5 165 350 78 165 11.0 800 3000 378 1415 2.0 185 350 87 165 12.0 880 3000 415 1415 2.5 205 350 97 165 13.0 960 3000 453 1415 6 1.0 120 500 57 236 14.0 1040 3000 491 1415 1.5 150 500 71 236 15.0 1120 3000 529 1415 16.0 1200 3000 566 1415 2.0 180 500 85 236 17.0 1280 3000 604 1415 2.5 210 500 99 236 18.0 1345 3000 635 1415 3.0 240 500 113 236 20.0 1475 3000 696 1415 3.5 270 500 127 236 22.0 1600 3000 755 1415 4.0 300 500 142 236 16 1.0- 12.0 840 4000 396 1886 8 1.0 -3.0 210 900 99 425 13.0 910 4000 430 1886 3.5 265 900 125 425 14.0 980 4000 463 1886 4.0 315 900 149 425 15.0 1050 4000 496 1886 4.5 345 900 163 425 16.0 1120 4000 529 1886 5.0 380 900 179 425 17.0 1190 4000 562 1886 5.5 420 900 198 425 18.0 1260 4000 595 1886 6.0 450 900 212 425 20.0 1400 4000 661 1886 6.5 490 900 231 425 22.0 1540 4000 727 1886 7.0 525 900 248 425 24.0 1680 4000 793 1886 r� 10 1.0 -4.5 330 1400 156 660 26.0 1820 4000 859 1886 5.0 370 1400 175 660 28.0 1960 4000 925 1886 5.5 410 1400 194 660 30.0 2100 4000 991 1886 6.0 450 1400 212 660 24 x 16 1.0 -22.0 1600 8000 755 3772 6.5 495 1400 234 660 24.0 1800 8000 850 3772 70 550 1400 260 660 26.0 2000 8000 944 3772 7.5 605 1400 286 660 28.0 2200 8000 1038 3772 8.0 660 1400 312 660 30.0 2400 8000 1133 3772 9.0 710 1400 335 660 32.0 2600 8000 1227 3772 10.0 765 1400 361 660 34.0 2800 8000 1322 3772 11.0 820 1400 387 660 36.0 3000 8000 1416 3772 12 1.0-6.5 470 2000 222 943 38.0 3200 8000 1510 3772 70 520 2000 245 943 40.0 3400 8000 1605 3772 75 565 2000 267 943 42.0 3600 8000 1699 3772 8.0 615 2000 290 943 44.0 3800 8000 1794 3772 9.0 705 2000 333 943 46.0 4000 8000 1888 3772 10.0 785 2000 371 943 11.0 860 2000 406 943 12.0 940 . 2000 444 943 13.0 1000 2000 472 943 14.0 1055 2000 498 943 15.0 1115 2000 526 943 16.0 .1175 .. 2000 555 943 Note: Minimum and maximum airflow is based on UL listing and certification. VAV- PRC008 -EN SD 17 Si ngle-Duct .. .ry * £.. . ,ro`+ VI , ° Leff" "Ti,_ }, i ll, :1'' qi k,5 45 a," `f c q ? 4c c 6. Discharge Sound Power (dB) Discharge Sound Power (dB) Inlet Fan 0.5" APs 1.0" APs 2.0" APs 3.0" APs Size Cfm L/s 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 4 80 38 57 57 45 44 40 37 58 61 52 51 47 46 60 66 60 60 60 56 61 69 66 66 64 61 120 57 60 60 48 48 43 41 64 65 54 53 49 47 64 69 63 60 57 55 65 72 70 68 63 60 150 71 60 60 48 49 45 42 65 66 55 54 51 49 67 72 64 61 58 56 68 72 71 68 64 61 225 106 65 .64 53 54 . 50 49 70 71 60 59 55 54 73 77 67 64 61 59 72 78 72 69 . 65 63. 5 130 61 52 52 44 43 41 38 55 58 51 50 48 47 57 64 60 59 58 55 59 68 68 66 63 60 200 94 55 55 47 47 43 40 59 61 55 53 50 49 62 67 63 61 58 56 61 69 69 67 63 61 250 118 57 57 48 49 44 42 62 63 56 55 52 50 65 69 63 60 58 57 65 71 71 69 63 61 350 165 59 59 53 53 48 47 66 65 58 57 53 53 70 72 66 62 59 58 70 74 72 69 64 63 6 200 94 52 53 45 44 41 38 56 59 54 52 49 47 58 66 63 60 58 55 60 70 71 67 63 60 300 142 56 56 47 48 44 41 59 61 55 53 50 48 63 67 64 61 58 56 64 71 71 69 64 62 400 189 57 56 50 49 44 42 63 63 57 55 51 50 66 69 65 61 58 57 68 72 72 68 63 62 500 236 61 60 54 53 49 47 65 65 60 58 53 53 69 71 68 63 60 59 71 74 72 69 64 63 8 350 165 54 54 47 45 44 40 57 61 53 51 50 53 61 68 61 58 58 60 64 73 70 66 63 61 520 245 56 56 50 48 45 42 59 63 56 53 52 56 64 71 64 61 60 66 66 73 71 66 65 66 700 330 58 57 53 51 48 44 62 64 59 56 53 57 66 71 66 62 61 64 68 74 73 68 66 69 900 425 61 60 56 56 52 49 65 65 61 59 56 57 70 72 68 64 62 65 72 75 73 68 67 68 10 550 260 53 52 52 51 45 40 58 60 57 57 53 48 64 66 64 66 62 58 66 69 69 71 66 62 820 387 56 55 54 51 46 42 61 62 60 60 55 52 66 68 65 66 62 60 69 72 69 70 66 63 1100 519 60 58 57 54 49 46 65 65 63 61 56 53 70 70 67 68 63 60 72 73 72 71 67 64 1400 661 64 61 61 58 53 51 69 66 64 62 57 54 73 72. 69 66 63 60 74 75 72 70 67 .64 12 800 378 54 52 52 49 47 41 59 59 57 55 55 52 66 67 65 63 63 61 67 69 68 67 67 64 1200 566 56 54 54 50 49 43 62 62 60 57 57 55 68 69 67 63 64 62 72 73 71 68 68 66 1600 755 59 57 58 53 52 46 64 64 62 58 57 56 70 71 69 64 65 63 73 75 73 69 69 66 2000 944 63 60 61 56 56 51 68 67 65 61 60 59 73 73 70 65 65 64 76 75 74 69 69 67 14 1100 519 54 52 51 46 44 39 60 60 57 54 53 51 65 71 66 62 61 59 68 72 71 67 66 63 1600 755 57 55 55 49 46 41 63 61 60 56 54 51 67 70 67 63 62 61 70 75 72 67 67 64 2100 991 60 59 •59 52 49 44 65 65 63 57 54 52 69 71 69 64 62 61 72 73 73 68 67 64 3000 1416 66 65 67 57 55 52 71 70 68 61 58 58 76 76 72 66 64 61 77 77 75 70 69 66 16 1400 661 54 52 51 47 46 40 60 60 58 55 55 51 66 71 67 63 63 62 69 75 73 69 67 66 2100 991 57 55 55 51 49 43 63 62 60 57 55 52 68 70 68 64 64 61 70 75 73 70 68 66 2800 1321 61 60 61 54 51 48 66 65 64 58 57 54 69 71 70 65 64 63 72 73 73 70 69 65 4000 1888 68 67 68 63 57 54 71 70 70 63 61 59 75 75 73 68 65 64 77 76 76 72 70 67 24 2700 1274 68 67 61 58 54 50 72 71 67 65 62 58 74 75 73 71 68 65 75 77 76 75 72 69 tt 4000 1888 70 70 65 62 58 54 74 75 71 68 65 61 78 79 77 75 72 68 79 81 80 78 76 72 16 5300 2501 69 70 67 64 61 58 75 76 75 71 67 63 78 82 81 78 74 70 81 84 84 81 78 74 6000 2832 68 70 68 65 62 60 75 76 76 72 68 65 79 82 83 79 75 71 81 85 86 82 79 75 7500 3540 67 70 70 67 63 63 76 76 77 73 70 68 80 83 88 81 76 73 82 86 90 84 80 76 8000 3776 67 70 71 68 64. 64 .76 76 78 74 71 69 80 83.. 89 82 77 74 82 86 91 85 81 77 Notes: 1. All data are measured in accordance with current Industry Standard ARI 880, version 1998. 2. All sound power levels, dB re: 10 -12 watts. 3. Where 4Ps is inlet static pressure minus discharge static pressure. SD 18 VAV- PRC008 -EN • Single-Duct r a , ,. cm+- , auk -- : `te a 4, b „ *.M.2. Radiated Sound Power (dB) Radiated Sound Power (dB) Inlet _...---- - — 0 - 5 . , {GPs._... _ 1.0 "ApS ._._.._ 2.0" Q P S �. _3.Q" t.Ps.__.._._._...._..._._... Size Cfm L/s 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 4 80 38 48 45 40 33 31 23 48 47 43 37 34 25 48 51 53 47 43 35 46 52 60 54 48 42 120 57 47 45 40 33 30 23 49 48 45 38 34 27 50 51 54 46 42 36 51 54 60 52 47 42 150 71 47 45 41 35 30 24 51 49 46 39 35 28 52 53 55 47 43 37 51 56 61 53 48 42 225 106 52 49 . 44 40 35 30 57 54 49 43 39 33 60 59 57 48 45 39 59 61 63 54 49 44 5 130 61 47 44 35 29 24 21 48 45 41 35 30 25 48 48 50 45 39 33 48 51 58 51 45 40 200 94 48 45 38 32 25 22 49 47 43 37 32 26 50 52 52 45 39 35 50 55 58 51 45 40 250 118 48 44 40 34 27 23 50 48 45 38 33 27 52 53 53 44 40 35 53 56 60 52 44 40 350 165 51 47 44 38 31 26 55 51 47 41 35 31 59 56 55 47 41 37 56 58 60 51 44 40 6 200 94 52 46 38 31 25 22 50 47 43 36 31 26 52 51 52 43 38 33 51 55 59 50 44 40 300 142 52 48 41 33 25 22 55 50 46 38 32 27 56 53 53 44 38 35 57 57 60 50 44 39 400 189 55 49 44 36 28 24 56 53 48 40 33 28 59 56 55 46 40 35 59 58 60 50 43 40 500 236 55 49 47 40 32 27 59 54 51 43 36 31 62 59 57 47 41 36 63 60 61 52 44 40 8 350 165 46 42 38 31 27 22 48 45 43 36 35 27 54 52 53 42 41 36 56 58 64 52 46 42 520 245 49 43 41 35 31 24 51 48 47 39 37 29 55 54 54 45 43 38 56 57 63 51 47 44 700 330 50 46 44 38 34 26 54 51 50 42 38 34 58 57 57 48 45 39 60 59 62 52 48 44 900 425 56 49 50 44 37 29 59 53 53 46 41 35 62 59 57 49 46 39 63 61 62 53 49 44 10 550 260 48 44 42 32 25 24 52 49 48 40 31 26 55 55 53 47 39 32 58 58 59 50 44 38 820 387 53 47 43 36 28 25 57 52 49 41 33 27 60 58 55 48 40 33 62 61 60 52 44 38 1100 519 58 50 46 39 30 27 61 55 51 43 35 29 64 61 57 50 42 35 67 63 61 53 45 39 1400 661 62 53 49 42 34 30 66 . 58 54 46 38 33 69 63 58 51 43 37 71 65 63 55 46 41., 12 800 378 49 46 40 33 27 27 54 51 46 39 34 29 58 58 53 46 42 35 59 62 59 51 47 40 .. 1200 566 54 48 43 35 29 27 59 54 48 41 35 30 64 61 55 48 43 37 66 64 60 52 47 42 � " 1600 755 60 53 47 38 32 30 63 58 50 42 37 32 68 64 57 49 43 39 71 66 61 53 48 43 i 2000 944 63 58 52 42 37 34 67 62 54 45 40 38 72 68 58 50 45 42 75 68 61 54 50 45 14 1100 519 47 46 36 30 24 23 53 53 42 36 32 27 57 61 52 43 40 35 60 64 60 48 43 38 1600 755 52 49 39 32 24 23 56 54 45 38 32 26 60 63 52 44 39 35 63 67 60 49 43 40 2100 991 55 52 43 35 27 25 59 57 48 40 33 28 63 64 55 46 40 36 65 67 61 50 44 40 3000 1416 63 59 51 42 34 31 65 64 54 44 36 34 68 68 57 48 41 37 69 69 60 52 45 41 16 1400 661 50 47 38 32 26 23 54 54 45 40 35 29 60 62 53 47 43 38 63 66 61 52 47 43 2100 991 51 49 41 35 28 24 56 54 47 41 36 30 61 61 55 49 44 39 64 66 60 53 48 43 2800 1321 56 54 45 38 31 27 59 56 49 43 37 32 62 62 56 49 44 39 65 65 61 54 49 44 4000 1888 61 60 55 45 38 32 63 63 56 47 41 36 67 66 59 51 46 41 69 66 62 55 50 45 24 2700 1274 65 63 53 45 38 30 70 65 60 52 45 37 71 69 66 59 51 45 72 71 69 62 54 50 x 4000 1888 67 67 57 48 40 32 71 71 64 55 48 41 74 75 69 61 54 48 76 77 72 65 58 52 16 5300 2501 67 66 58 49 42 35 74 75 69 57 49 42 76 77 74 64 56 50 78 79 76 67 60 53 6000 2832 68 66 59 51 44 37 74 75 69 58 50 43 77 78 75 65 57 51 79 80 77 68 61 54 7500 3540 69 67 61 54 48 42 75 74 70 59 51 45 78 80 78 66 58 52 80 81 79 69 62 55 8000 3776 69 67 62 55 49 44 75 74 . 70 59 52 46 79 81 79 67 59 52 80 82 80 70 63 56 Notes: 1. All data are measured in accordance with current Industry Standard ARI 880, version 1998. 2. All sound power levels, dB re: 10- "watts. 3. Where 4Ps is inlet static pressure minus discharge static pressure. VAV- PRC008 -EN SD 19 Single-Duct a :L ,T rte. 1 :41, Sound Noise Criteria (NC) . Discharge Radiated Inlet Pressure (aPs)______ _ -- Inlet Pressure (aPs) Inlet 0.5" 1.0" 2.0" 3.0" 0.5" 1.0" 2.0" 3.0" Size Cfm L/s (127 Pa) (254 Pa) (508 Pa) (762 Pa) (127 Pa) (254 Pa) (508 Pa) (762 Pa) 4 80 38 15 20 26 30 - 16 27 35 120 57 19 25 30 34 - 19 29 35 150 71 19 26 34 34 - 20 30 36 225 106 24 32 39 40 17 23 32 38 5 130 61 - 16 24 29 - 15 24 33 200 94 - 20 27 30 - 16 26 33 250 118 15 22 30 32 - 19 27 35 350 165 17 25 34 36 17 21 30 35 6 200 94 - 17 26 31 - 16 26 34 300 142 - 20 27 32 15 20 27 35 400 189 - 22 30 34 17 22 30 35 500 236 19 25 32 36 21 25 32 36 8 350 165 - 17 27 34 - 16 27 39 520 245 - 21 31 34 - 21 29 38 700 330 - 22 31 35 17 24 32 37 900 425 17 24 32 36 24 27 32 37 10 550 260 - 16 24 27 15 22 27 34 820 387 - 19 26 31 16 23 30 35 1100 519 - 22 29 32 20 25 32 36 1400 661 17 24 31 35 25 30 . 34 38 12 800 378 - 16 25 27 - 20 27 34 1200 566 - 19 27 32 16 22 31 35 1600 755 - 21 30 35 22 27 ' 35 37 2000 944 16 25 32 35 27 32 39 41 14 1100 519 - 16 30 31 - 21 31 35 1600 755 - 17 29 35 16 22 34 38 2100 991 15 22 30 32 20 26 35 38 3000 1416 22 29 36 37. 29 35 39 40 16 1400 661 - 16 30 35 - 22 32 37 2100 991 - 19 29 35 16 22 31 37 2800 1321 16 22 30 32 22 25 32 36 4000 1888 25 29 35 36 30 34 37 37 24 2700 1274 25 30 35 37 34 36 41 45 x 4000 1888 29 35 39 41 38 42 47 50 16 5500 2501 29 36 42 45 37 47 50 52 6000 2832 29 36 42 46 37 47 51 54 7500 3540 29 36 44 47 38 46 55 56 8000 3776 29 36 44 47 38 46 56 . 57 Notes: 1. -" represents NC levels below NC 15. 2. NC Values are calculated using current Industry Standard ARI 885, 2002 addendum to revision 1998. RadiatedTransfer Function obtained from Appendix E, Type 2 Mineral Fiber Insulation. 3. Where APs is inlet static pressure minus discharge static pressure. ARI 885 -98 DISCHARGETRANSFER FUNCTION ASSUMPTIONS: Octave Band 2 3 4 5 6 7 Small Box ( <300 cfm) -24 -28 -39 -53 -59 -40 Medium Box (300 -700 cfm) -27 -29 -40 -51 -53 -39 Large Box (> 700 cfm) -29 -30 -41 -51 -52 -39 , Note: Add to terminal unit sound power to determine discharge sound pressure in the space. ARI 885 -98 RADIATED TRANSFER FUNCTION ASSUMPTIONS: Octave Band 2 3 4 5 6 7 Type 1 - Glass Fiber -19 -19 -21 -25 -29 - 35 Type 2- Mineral Fiber lnsulation -18 -19 -20 -26 -31 -36 Type 3 - Solid Gypsum Board -23 -26 -25 -27 -27 -28 Note: Select the ceiling type which most closely represents the application. Next, add to terminal unit sound power to determine radiated sound pressure in the space. SD 20 VAV- PRC008 -EN Single-Duct tre'reelP,711: } Discharge Sound Power (dB) ARI Conditions Inlet 1.5" Inlet Pressure (381 Pa) Size Cfm Us 2 3 4 5 6 7 4 150 71 67 70 60 58 55 53 5 250 '118 63 66 60 57 55 54 6 400 189 65 67 62 59 56 55 8 700 330. 64 68 62 59 58 60 10 1100 519 69 68 66 66 61 57 12 1600 755 68 69 66 61 62 60 14 2100 991 68 68 66 61 59 58 16 2800 1321 69 68 67 62 61 60 24x16 5300 2501 77 79 78 75 71 68 Radiated Sound Power (dB) ARI Conditions Inlet _ 1.5" Inlet Pressure j381 Pat_____ Size Cfm L/s 2 3 4 .5 6 7 4 150 71 52 52 50 43 39 33 5 250 118 52 50 49 42 37 31 y " 6 400 189 58 54 51 43 37 32 .,' 8 700 330 57 54 53 45 42 36 10 1100 519 63 59 54 47 39 32 12 1600 755 66 62 54 46 40 36 14 2100 .991. 61 61 51 43 37 32 16 2800 1321 60 60 53 46 41 36 24x16 5300 2501 75 76 72 61 53 46 Notes: 1. All sound data rated in accordance with current Industry Standard ARI 880, version 1998. 2. All sound power levels, dB re: 10 "watts. VAV- PRC008 -EN SD 21 Single-Duct s SINGLE -DUCT COOLING ONLY WITH OPTIONAL OUTLET PLENUM (VCCF) r(NOM INAL INLET SIZE 'DISCHARGE DIM W/0 OUTLET PLENUM' WT VALV CFM I Lis 0) 1 L H W I D Z E LB A (h) B (w) I( S) Oa 225 106 4" (104 mm) 11.50' (292 mm) 1 9.50" [241 mm] 11.50° (292 mm) 1 5.00 mm) 2.75" (70 mm) 8.00" (203 mm) 9.85" (250 mm) 111.50" (292 mm) 121 (9.5) 1 05 350 165 5" (127 mm) 1 1 F I 1 I 1 1 1 1 I i ! I 1 I i I -_ HI 06 500 1_236 1 6" (152 mm) - 1 I I I 1 t 1 I I 1 I I 1 I I 1 1 I t 1 I 1 1 I -_ I08 1 900 1 425 8" (203 mm) 111.00' (279 mm) J11.50" (292 mm] 1 12.50' (318 mm) 1 5.50" (140 mm) 1 2.25" (57 mm) 10.00' (254 mm) 1 11.00" (279 mm) 1 I - I 122 (10) 1 10 11400 1 661 10" (254 mm) _f 1 (305 mm) 113.50 mm) 1 15.50" (394 mm) 1 5.00" (127 mm) 1 2.75" (70 mm) 1 12.00" (305 mm) 1 14.00" (356 mm) 114,00' (356 mm) 30 (14) I 12 1 2000 I 994 1 12^ (305 mm) 113.00" (330 mm) 115.50' [394 mm] 1 18.50" (470 mm) 1 4.50° (114 mm) 1 3.25" (83 mm) 14.00' (356 mm) 1 17.00" (432 mm) 114.00' (356 mm) 135 (17) 14 13000 11416 1 14' (356 mm) 114.00' (356 mm) 119.50" [495 mm] 120.50' (521 mm) I j ; I j 1 18.00' (457 mm) 1 19.00" (483 mm) I NA 146 (21) I L, 6 14000 1888 (406 mm) 15.00' (381 mm)J I I 24.50" (622 mm) 1 3.50° (89 mm) 4.25^ (108 mm) 1,' 23.00" (584 mm) j NA ' 51 (23) ' ' 24RT 8000 ■ (610 mm x 466 mm 3776 115.30" (457 mm) ' I I 28.50" (724 mm) 5.55" (141 mm) 1 2.25" (57 mm) . I 1 . 27.00 (686 mm) 1 NA , 70 (32) ' ] 1- )! I I I - 1 I ' - - - -1 - Z -- l OUTL CONVERSION CHART CONTROL BOX ' SYMBOL i NOMINALO ANALOG OR DDC /UCM C _._ SIZE 04 & 05 , 1 5' (127 mm) -1 (PNEU. CONTROLS AREA) - 5.7; (146 mm) ( I 11 1 6' (152 mm) AIRFLOW 1- FLOW RING I. III 8" (203 mm) TUBING �\ 1 _____ 1 I IV I 10" (254 mm) Ars -1, V 7 AIR a 1 -===- 4.00' . j OUTLET AVAILABILITY CHART SEE OUTL CONV_RSIO - -1 L VALV a 1 5 j 6 L 8 10 1 12 r (165 &50" mm) I A,B.C] I, II 1 1,11 1 I, 8 1 111 III, IV IV , D,EF I, II I, II 1,11 1 I, 11,01 11,111, IV III, IV r OUTL I - - - -° I H 1,11 II,II 1 1,11 I 1.11,111 11, 111, IV III, IV ACTUATOR --- -.....,_ . 1 J ) N/A I N/A 1 N/A I N/A I 1 I, 0 1 I - D 1 1.00" - -- (25.4 mm) SLIP & DRIVE CONNECTION J 1 �� ,i�� ,� " 1 AIRFLO DISCHARGE • ��� � DIMENSIONS (BxA) : I .. 1I E L- - ARRANGEMENT "H" -I I r 11 P VIEW 1.50' 38 mm FLANGE �' IE I 0 ( ) `I L ---J __ 5.50' W (140 mm) __ -_ NOTES: r ( 1. Air inlet centered in unit front panel. 8.25" I I \ 2. Outlet combinations to remote diffusers have (210 i m) , op integral balancing dampers. (See 1 specification sheet.) 3. Outlet connections are centered in plenum panel. 4. Plenum not available with size 14 & 16 units. BACK VIEW 5. Minimum of 1.5 duct diamenters of straight duct required at inlet for proper flow reading. 1 1 1 i i 1 6. Allow 12" (305 mm) on control side for servicing. -- r i r - ! - 1 r ■ , A 0 1 C D E F ' H 11 7. Weights are an estimation and will vary based on J i r ' I - r - J il l , ill 751- 1 1 1T selected options, insulation Type. etc. - .. 8. Unit is field convertible from a left-hand connection OUTLET PLENUM (shown) to right -hand by rotating unit. ARRANGEMENTS (TOP VIEW) SD 22 VAV- PRC008 -EN Single-Duct A R r i'haac I Ir t� y .45 • SINGLE -DUCT HOT WATER WITH OPTIONAL OUTLET PLENUM (VCWF) INLET SIZE DISCHARGE DIM W/O OUTLET PLENUM WT VALV CFM Us (NOMINAL 0) L H W D Z A (h) B (w) E LBS C (KGS) 04 225 106 4" (104 mm) 11.50" (292 mm) 9.50' (241 mm) 11.50" (292 mm) 5.00" (127 mm) 2.75" (70 mm) 8.00" (203 mm) 10.00" (254 mm) 11.50° (292 mm) 27 (12) 05 350 165 5 "(127 mm) I 1t I I 1 1 1 11 I I I 11 I 1 1 + + j 0 236 6" (152 mm) r l ( 1 1 1 i + 08 900 425 8" (203 mm) 11.00" (279 mm) 11.50" (292 mm) 12.50" (318 mm) 5.50" (140 mm) 2.25" (57 mm) 10.00" (254 mm) 11.00" (279 mm) 30 (14) 10 1400 661 10" (254mm) 12.00" (305 mm) 13.50" (343 mm) 15.50" (394 mm) 5.00° (127 mm) 2.75" (70 mm) 12.00" (305 mm) 14.00" (356 mm) 14.00" (356 mm) 40 (18) 12 2000 994 12" (305 mm) 13.00" (330 mm) 15.50" (394 mm) 18.50" (470 mm) 4.50" (114 mm) 3.25" (83 mm) 14.00" (356 mm) 17.00" (432 mm) 14.00" (356 mm) 51 (23) 14 3000 1416 14" (356 mm) 14.00" (356 mm) 19.50" (495 mm) 20.50" (521 mm) 1 I I 3 18.00" (457 mm) 19.00" (483 mm) NA 62 (28) 16 4000 1888 16" (406 mm) 15.00" (381 mm) 24.50" (622 mm) 3.50" (89 mm) 4.25" (108 mm) r4I 23.00" (584 mm) NA 71 (32) 24RT 8000 3776 24 x 16" 18.00" (457 mm) 28.50" (724 mm) 5.55" (141 mm) 2.25" (57 mm) I 27.00" (686 mm) NA 95 (43) (610 mm x 406 mm) 1 CONTROL BOX ANALOG OR DDC /UCM OUTL CONVERSION CHART (PNEU. CONTROLS AREA) - C - SIZE 04 & 05 SYMBOL NOMINALO Z AIRFLOW 5.75" (146 mm) I 5" (127 mm) LOW RING i 11 6" (152 mm) TUBING AIR I III 8" (203 mm) ■ VALVE 4.00' IV 10" (254 mm) (102 mm) 6.50" MI 1 (165 mm) OUTLET AVAILABILITY CHART - SEE OUTL CONVERSION FOR NOMINALO VALV 4 5 6 8 10 12 A,B,C I, 11 I, 11 I, II III III, IV IV ACTUATOR OUTL D,E,F I, II 1.11 I, II I. II, III II, III, IV 111, IV L H I, II I, II I, II I, II, III II. III, IV III, IV � fa ° � J N/A N/A NIA N/A 1, II ,,,," .. - - D ■ SLIP & DRIVE WATER 04, 05, - 7.70" mm) �\ - CONNECTION COIL all Others rs - 7.40" " (188 188 mm) \ \ \l � / DISCHARGE --- (1, I � DIMENSIONS (BxA) m I R." / O I AIR FLOW q L I I E ARRANGEMENT'H" 1.50' (38 mm) FNGE TOP VIEW COIL ACCESS __ 76 mm 178 mm (3.00" x 7.00 ") . 10 5.50" W NOTES: P 140 mm) 1. Air inlet is centered in unit front panel. 2. Outlet combinations to remote diffusers have - optional integral balancing dampers (See 1 E ( e specification sheet.) .- H (21 O m) - l ! _ 3. Outlet connections are centerd in plenum panel. \ / v 4. Plenum not available with sizes 14 & 16 units. 5. Minimum of 1.5 duct diameters of straight duct BACK VIEW required for proper flow reading. 1 i i 1 1 i 6. Allow 12" (305 mm) on control side for servicing. II LII ll D © © 7. Weights are an estimation and will vary based 1 on selected options, insulation type, etc. 8. Coif furnished with stub sweat connections. ■ Handedness of coil connections is determined OUTLET PLENUM by facing air stream. ARRANGEMENTS (TOP VIEW) 9. Coils are provided without internal insulation. If the unit is to be installed in a location with high humidity, external insulation around the heating coil should be installed as required. • 10. Unit is field convertible from a left -hand connection (shown) to right -hand by rotating unit. VAV- PRC008 -EN SD 23 Single -Duct Y, COIL INFORMATION FOR 1 - ROW COIL LITERS i COIL VALV CFM per CONNECTION SECONDS I A 8 C D E 04 - 225 106 1 3 / 8 " ( 1 0 mm) O.D. SEE i 7" (178 mm) 21 / 32 ( 1 7 mm) 1 / 2" (13 mm) _ _ 8" (203 mm) 10" (254 mm) 05 , 350 165 1 (10 mm) O.D. (FIG 1) I 7" (178 mm) 21 /32 ° (17 mm) 1 / 2" (13 mm) 8" (203 mm) 10' (254 mm) 06 1 500 236 3 /8" (10 mm) 0.D. 7" (178 mm) 2.1 /32" (17 mm) 1 1 / 2° (13 mm) 8" (203 mm) 10" (254 mm) 08 i 900 425 3 /8 (10 mm) 0.D 9' (229 mm) 7! 8 ' (22 mm) 7/ is" (1 mm) 10" (254 mm) 11" (279 mm) 10 1 1400 661 3 /8 (10 mm) 0.D. 11' (279 mm) 7 /8" (22 mm) / 18 (11 mm) 12 (305 mm) 14" (356 mm) 1 2 2000 994 L 7 /8" mm) 0.D SEE 9 3 /4' (248 mm) 2 1 / 2 (64 mm) i 2 1/16 (53 mm) 14" mm) 17" mm) _) 14 1 3000 1416 1 7 /8" (22 mm) 0.D. (FIG 2) 15 3 /4" (400 mm) r 1 1 / 2 " (38 mm) I 1 I/16" mm) 18" (457 mm) 19" (482 mm) 16 : 4000 1888 7 / 8 " (22 mm) 0.0. 15 3 /4" (400 mm) i 1 I/ 2 (38 mm) 1 1/16 (27 mm) 18" (457 mm) 23" (584 mm) 24 x 16 ; 8000 3776 7 /8 " (22 mm) 0.D. 15 3 /4" (400 mm) 1 1 / 2 (38 mm) I 1 1/16 (27 mm) 18" (457 mm) • 27" (686 mm) � . E i E � \ I CUSTOMER NOTES: 1. Location of coil connections is determined by Lacing air stream. L.H. and R.H. coil connections are available (L. H. shown). / 9 ',--.:11 1 �, • Coils can be field rotated 180' for opposite connections. ,\ I ; r: l:; $ I X �I 2. Coil furnished with stub sweat connections. i ,Z i,t I 1111 �l • 1 1 _ 1 3. Use port at bottom for inlet and port at top for outlet. i - '. \� �: 4. Coil height and width is dependent upon unit height ' : \• fl and width. o�` I b 5. Access Panel is standard and found on connection side. ''",..- AIR FLOW 6. Water coil discharge dimensions located on VCWF AIR FLOW dimension page. (FIG 2) (FIG 1) 13 0 1 9/6: 3 /32 C _ 313/32 — (29 mm) (86 mm) (86 mm) I T .. -- . ' -'- -- 1 -- . OUTLET - � OUTLET I! 1 I I,, . 1 13 • 7 /16" A � AIR FLOW D (198 mm) � — �► 13 1 7 /16 AIR FLOW D A • (798 mm) .. • j j INLET I —i-- 8 I . -. -- 'I INLET . (:i_......_... 1 1 8 1 ,/4 �, (44 mm) 1 _ —_— y,. _ - 8 1 :. - — 2 . (210 mm) I I 2 1 /4 " _ 8 '/a „ (57 mm) (210 mm) _ (FIG 1) (FIG 2) SD 24 VAV- PRC008 -EN Single-Duct uata COIL INFORMATION FOR 2-ROW COIL LITERS 1 COIL VALV CFM Per I SECOND CONNECTION , . A , , 8 C 04 225 106 3 /8 ° (10 mm) O.D. i SEE i 7 ' ix" ( 191 mm) 1 8'43 " (2 mm) 10° (254 ram) i 05 350 165 3 /8" (10 mm) 0.D. i (FIG 1) L 7 (191 rnm) I 8'18 (206 mm) 4- 10" (254 mm) 06 500 236 3 /8" (10 mm) O.D. 1 , 7 (191 mm) : 819 ° (206 ram) 10" (254 mm) 08 1 900 425 7 /4" (22 mm) 0.0. l SEE l 8f ° (210 mm) : 10 " (257 mm) 11° (279 mm) 10 1400 661 7 /e " (22 mm) 0.D. 1 (FIG 2) l 10 (260 mm) : 12 '/8 " (308 mm) le (356 mm) 12 ,.., 2000 994 7 /4 . (22 mm) O.D. ! ! 12 (311 ram) : 14 ' (359 mm) 17" (432 mm) 14 1 3000 1416 7 /8" (22 mm) 0.0. ! , 16 • (413 mm) : 18'18 " (460 mm) 1- 19 (482 mm) , 16 1 4000 1888 7 /8" (22 mm) 0.D. : ; 16 (413 mm) , 18'/9 " (460 mm) 23" (584 mm) 24 x 16 1 8000 3776 7 /4 " (22 mm) 0.0. , 16 (413 mm) , 18 " (460 ram) , 27 (686 ram) CUSTOMER NOTES: 1. Location of coil connections is determined by facing air stream. L.H. and R.H. coil connections are available (L.H. shown). Coils can be field rotated 180' for opposite connections. 2. Coil furnished with stub sweat connections. 3. Use port at bottom for inlet and port at top for outlet. 4. Coil height and width is dependent upon unit height .- and width. . . •_,, 5. Access Panel is standard and found on connection side. -, . ... 0 , . . .,„--'' 6. Water coil discharge dimensions located on VCWF ,.. dimension page. . ,--- 0 . • • I .,-• -,!,-' 1 1 .- I : „„..„ . .. ..,..,•-•:..7j, 1 1 it ( r(:-.1i' • ,,-: - l'i,• . • 1 ! . .1 , =';:'••] L •-' • • •-•:- ; ' - , _--' -" 1 •I 1 1-J l .... ,. ', ---- !-- ,. .-----:- : „-- ---.,..„.. :,,,----',..- o , - 0 ,-,-::..- AIR FLOW i - .-- ' (FIG 1) (FIG 2) AIR FLOW 1 ,... 3 13/ ..H !... 23/ ,_. (29 mm) (85 ram) ! (9 mm) 313 62" ---, i 1 , . ..-__ • —._ . (86 mm) • .., , .'" t.. '_,•: :' i (11 mm) 17 1/16" OUTLET ),,--)-■! (27 mm) OUMET .)...). ...)...)........ . - - 77 -1 5 — "" — '5, )...-1 --ea- AIR FLOW B (198 mm) , A AIR FLOW B 1198 mm) , A ) . . . . , . , INLET „ /3 , „ ,. .. 1 1 (O mm) , ! I 1 ' INLET 1 ' 64 mm) :,..___ 1 1__ ' — — . (25 mm) 3 (210 mm) • 1 ' • . . ' (79 aim) ' 1 81 / " (210 mm) (FIG 1) (FIG 2) VAV-PRC008-EN SD 25 Single -Duct -_ ; `-, ` ;�_ SINGLE -DUCT ELECTRIC HEAT (VCEF) I` LITERS INLET DISCHARGE DIMENSIONS WT VALV I CFM per (NOMINAL 6) L H W D A 6 LBS /KGS • • SECOND ...._... C ._.... _. ...... - -- -- . - ... -.... .._.- .... ._.. ... .. ..... ...... -- - -... ( . ,. �.._._ ... .. .. m . - - _ .. ..... , .... (2) 05 500 236 6" (152 m ) 1 . ... ..... -- - -- I _ .... 00" (254 mm) 63 9 . - ...... _.._.., 04 225 106 4• (104 mm) 45 50 (1756 mm) 9.50 (241 mm) 16 00 (406 mm) 5 50' (140 mm) 8.00" (20a m m) t 0 05 350 165 5" (127 mm) I I I i 08 900 425 8 "(203 mm) 43_50 "(1105 mm) . 11.50'(292 mm) 17.00' 10 . 1400 661_ I 10° (254 mm) _I - _ — 13.50" (343 mm) 20.00 (508 mm) _ 5 00" (127 m) 12.00" (305 mm) 14.0W (356 mm) 81 (37 . _ . I 12 - 2000 994 12" (305 mm) r . . 15.50 (394 mm) 23.00° (584 mm) 4.50" ( 1 1 4 mm) 14 00 - (356 mm) 17 00" (432 mm) I 93 (42) 14 1 1 3000 1416 14" (356 mm) (( II ; 19.50 (495 mm) - 25.00" (635 mm) I i 18.00" (457 mm) 19.00" (483 mm) . 108 (49) 1 1 16 4000 1888 16"(406 mm) ! 29.00 "(737 mm) 3.50 "(89 mm) 23.00"(584 mm) 121 (55) i. 33.00 838 mm 5.55' 141 mm . r 2700' 686 mm ) 135 (61) 24RT 8000 3776 24" x 16" ( ) ( ) ( (610 mmx406 mm) _ J CONTROL BOX ELECTRIC HEATER ELECTRIC OR DDC /UCM CONTROL AREA (PNEU. CONTROLS AREA) ----- c -- SIZE 04 & 05 I AIRFLOW i 5.75" (146 mm) \ j /�� FLOW RING _ TUBING \ 1 / V �� AIR �.' % � ,�r�„� 4 .00" \ ? 1 ... __ . _. _.. (102 mm) . . - 6.50" (165 mm') 1 h� ; - ACTUATOR-- � i i TOP VIEW \ \, 1 f._._ ... _. .... .. • SLIP & DRIVE AIRFLOW CONNECTION • DISCHARGE OUTLET - ..__. - - w r _ ... - -. _... 8 _ ............... - ..... (140 mm) CUSTOMER NOTES: 8.25' 1. _ H Air inlet is centered in unit front panel. (210 mm) '- 1 A 1 2. Slip and Drive discharge outlet standard. "I 1 1 3. 1.5 times duct diameter of straight duct at irlet for ,._ __... r proper flow reading. BACK VIEW I -- - - -- - - - - - - - t .. 4. For electric heater access, side hinged door must have minimum distance per NEC or local code. 5. Allow 48' (1219 mm) of straight duct downstream of unit before first runout & inside of the duct should be equal discharge size (A & B). 6. Lett -hand unit shown. Opposite hand available. (Moves all components to the other side of the unit.) SD 26 VAV- PRC008 -EN Single-Duct • RIM fA SINGLE -DUCT ELECTRIC HEAT (VCEF) RIGHT -HAND I LITERS INLET SIZE - DISCHARGE DIMENSIONS WT / VALV CFM per (NOMINAL O) L H W D A B LBS /KGS I_ SECOND L_ - -- C` _....._ .__ - -- i ... _-- - -__.. ..- __..__.. .......... ....- - - - - -- • 1 04 225 106 - 1 4" (104 mm) 1 45.50' (1156 mm) 9.50' (241 mm) : 16.00' (406 mm) 5.50" (140 mm) 8.00' (203 mm) 10.00" (254 mm) 63 (29) OS 350 165 5 (127 mm) ' 1 06 500 236 6" (152 mm) ' 08 900 425 8" (203 mm) 43.50' (1105 mm); 11.50' (292 mm) 17.00" (432 mm) i 10.00" (254 mm) 11.00" (279 mm) 67 (30) ' 10 1 1400 661 10" (254 mm) 13.50" (343 mm) 20.0(r (508 rnrn) ' 5.00" (127 mm) 1 12.00` (305 mm) 14.00" (356 mm) 1 81 (37) 12 2000 994 12" (305 mm) ' 15.50" (394 mm) 23 00` (584 mm) 4.50" (114 mm 14.00' (356 mm) 17.00" (432 mm) 93 (42) 14 1 3000 1416 14" (356 mm) I 19.50" (495 mm) 25.0T (635 mm) I 1 1 18.00' (457 mm) 19.00" (483 mm) 108 (49) 16 4000 1888 16" 406 mm 29.00` (737 mm) 3.50" (89 mm) 1 23.00' (584 mm) 121 (55) 24' x 16" ( ) ( ) 135 (61) 24RT 8000 3776 33.00" (838 mm) 5.55" (141 mm 27 00" 686 mm (610 mmx406 mm) CONTROL BOX ELECTRIC HEATER ELECTRIC OR DDCfUCM 7 CONTROL AREA C 1 / (PNEU. CONTROLS AREA) SIZE 04 8 05 AIRFLOW / / 5.75" (146 mm) I / , : 1 �, \ I FLO RING / / i " " _ A, TUBING j ' \ AIR ,/ - i �. %- , ,... 4.00' i VAI \T.. ' ' (102 mm) _ ,� � ' _ ; I. 6.50" �.A�V ,.. e (165 mm ") ft i • - -- ACTUATOR i �i • \ i I TOP VIEW Li C -- 1 AIRFLOW DISCHARGE OUTLET _ SLIP & DRIVE CONNECTION L_......__.....___.. -___. Vy B 5.50` CUSTOMER NOTES: (140 mm) 1. Air inlet is centered in unit front panel. 2. Slip & Drive discharge outlet standard. I 3. 1.5 times duct diameter of straight duct at inlet. � ..............__ ____..............._...___. 11 � 8.25° H A 4. For electric heater access. side hinged door must have (210 mm) minimum distance per NEC or local code for proper : { I I m flow reading. _ ` _ I 5. Allow 48" (1219 m) of straight duct downstream of t - - -.- IJ BACK VIEW unit before first runout 8 inside of the duct should be • .-,--..-.---•- equal discharge size (A & R) VAV- PRC008 -EN SD 27 app //// t` �®B iive 1i £ "LI Va is MODELS VCCF, VCWF exposed edges of insulation (complete to prevent over - stroking. At 3.0 in. wg and VCEF metal encapsulation). air valve leakage does not exceed 1 " (25.4 mm) Double -wall 6% of maximum airflow. Single -duct temiinal units. Insulation —The interior surface of the Air Valve Combinations Available: VCCF - Cooling Only unit casing is acoustically and AirValve Size Maximum Cataloged Airflow VCWF -With HotWater Coil thermally lined with a 1 -inch, 1.0 Ib./ft3 in. (mm) cfm (L/s) (25.4 mm, 16.0 kg /m composite 04 (102) 225 (106) VCEF -With Electric Coil density glass fiber with high - density 05 (127) 350 (165) CASING facing.The insulation R -value is 3.8.The 06 (152) 500 (236) insulation is UL listed and meets 08 (254) 900 ( 22 -gage galvanized steel. 10 (254) 14 )660 oo (sso) AGENCY LISTING NFPA -90A and UL 181 standards.The 12 (305) 2000 (943) The unit is UL and Canadian UL Listed insulation is covered by an interior 14 (356) 3000 (1415) liner made of 26 -gage galvanized steel. 16 (406) 4000 (1886) as a room air terminal unit. Control # All wire penetrations are covered by 24 RT -24x16 (610x406) 8000 (3773) 9N65. grommets.There are no exposed OUTLET CONNECTION ARI 880 Certified. edges of insulation (complete metal Blip & Drive Connection— Terminal INSULATION encapsulation). units come standard with slip & drive 1/2" (12.7 mm) Matte -faced 3/8" (9.5 mm) Closed -cell connection. Insulation —The interior surface of Insulation —The interior surface of the the unit casing is acoustically and unit casing is acoustically and Outlet Plenum —A sheet metal, 3 thermally lined with 3/8 inch, 4.4 Ib/ft3 insulated box with circular opening(s) thermally lined with /s inch, 1.5 lb/ft 3 is attached to the discharge of the (12.7 mm, 24.0 kg /m composite (9.5 mm, 70.0 kg /m) closed -cell insulation. The insulation is UL listed main unit at the factory. The circular F ,_. density glass fiber with a high density opening(s) are centered on the unit facing.The insulation R -Value is 1.9.The and meets NFPA -90A and UL 181 plenum to accept round ductwork insulation is UL listed and meets NFPA- standards.The insulation has an R-Value connections. Value of 1 .4. Th are no exposed 90A and UL 181 standards.There are p no exposed edges of insulation edges of insulation (complete metal Outlet Plenum with Balancing (complete metal encapsulation). encapsulation). Dampers —A sheet metal, insulated PRIMARY AIR VALVE box with circular opening(s) is factory- connected to the main unit. The 1 " (25.4. mm) Matte -faced Air Valve Round —The primary air circular opening(s) with balancing Insulation —The interior surface of inlet connection is an 18 -gage damper(s) are centered on the unit the unit casing is acoustically and galvanized steel cylinder sized to fit plenum to accept round ductwork thermally lined with 1 -inch, 1.0 Ib/ft standard round duct. A multiple - point, connections. (25.4 mm, 16.0 kg /m composite averaging flow sensing ring is HOT WATER COILS density glass fiber with a high - density provided with balancing taps for facing.The insulation R -Value is 3.85. measuring +/ -5% of unit cataloged 1 -Row Hot Water Coils —The 1 -row The insulation is UL listed and meets airflow. An airflow- versus - pressure hot water reheat coil is factory- installed NFPA -90A and UL 181 standards.There differential calibration chart is provided. on the discharge outlet.The coil has are no exposed edges of insulation The damper blade is constructed of a 144 aluminum - plated fins per foot. Full (complete metal encapsulation). closed -cell foam seal that is fin collars provided for accurate fin mechanically locked between two spacing and maximum fin -tube 1/2" (12.7 mm) Foil -faced 22-gage galvanized steel disks.The contact. The 3/8" (9.5 mm) OD Insulation —The interior surface of damper blade assembly is connected seamless copper tubes are the unit casing is acoustically and to a cast zinc shaft supported by self- mechanically expanded into the fin thermally lined with 1/2-inch, 1.5 Ib/ft3 lubricating bearings.The shaft is cast collars. Coils are proof tested at (12,7 mm, 24.0 kg /m density glass with a damper position indicator.The 450 psig (3102 kPa) and leak tested at fiber with foil facing.The insulation valve assembly includes a mechanical 300 psig (2068 kPa) air pressure under R -Value is 2.1.The insulation is UL stop to prevent over - stroking. At 4.0 in. water. Coil connections are left-hand. listed and meets NFPA -90A and UL 181 wg, air valve leakage does not exceed Right -hand connections are optional. standards as well as bacteriological 1% of cataloged airflow. 2 -Row Hot Water Coils —The 2 -row standard ASTM C 665.There are no Air Valve Rectangular —Inlet collar is hot water reheat coil is factory- installed exposed edges of insulation (complete constructed of 22 -gage galvanized steel on the discharge outlet.The coil has metal encapsulation). sized to fit standard rectangular duct. 144 aluminum - plated fins per foot. Full 1 " (25.4 mm) Foil -faced An integral multiple - point, averaging fin collars provided for accurate fin Insulation —The interior surface of the flow- sensing ring provides primary spacing and maximum fin -tube unit casing is acoustically and airflow measurement within +/ -5% of contact.The 3/8" (9.5 mm) OD seamless thermally lined with 1 -inch, 1.5 Ib /ft3 unit cataloged airflow. Damper is copper tubes are mechanically (25.4 mm, 24.0 kg /m density glass 22 -gage galvanized steel.The damper expanded into the fin collars. Coils are fiber with foil facing. The insulation blade assembly is connected to a cast proof tested at 450 psig (3102 kPa) and R -Value is 4.1.The insulation is UL zinc shaft supported by self - lubricating leak tested at 300 psig (2068 kPa) air listed and meets NFPA -90A and UL 181 bearings.The shaft is cast with a pressure under water. Coils are standards as well as bacteriological damper position indicator.The valve assembled with headers that provide standard ASTM C 665.There are no assembly includes a mechanical stop SD 28 VAV- PRC008 -EN Single-Duct `., ,. „, 7/8” (22.2 mm) OD braze connections. minimum and maximum position wiring from the zone sensor to the UCM Right -hand connections are optional. setpoints. Upon a further call for heat is unnecessary. ELECTRIC HEAT COIL after the air valve is at minimum, any Digital Display Zone Sensor with The electric heater is a factory- provided hot water or electric heat associated Liquid Crystal Display (LCD) — and - installed, UL recognized with the unit is enabled. The digital display zone sensor contains resistance open -type heater with DIRECT DIGITAL CONTROLS a sensing element, which sends a signal airflow switch. It also contains a disc- DDC Actuator —Trane 3 -wire, to the UCM. A Liquid Crystal Display type automatic pilot duty thermal 24 -VAC, floating -point control actuator (LCD) displays setpoint or space primary cutout, and manual reset load with linkage release button.Torque is temperature. Sensor buttons allow the carrying thermal secondary device. 35 in-lb minimum and is non - spring user to adjust setpoints, and allow space Heater element material is nickel- return with a 90- second drive time. temperature readings to be turned on or chromium.The heater terminal box is Travel is terminated by end stops at off.The digital display zone sensor also provided with 7/8" (22 mm) knockouts fully- opened and - closed positions. An includes a communication jack for use for customer power supply. Termina integral magnetic clutch eliminates with a portable edit device, and an connections are plated steel with motor stall. override button to change the UCM from ceramic insulators. Heater control unoccupied to occupied.The override access is on the left-hand side. Direct Digital Controller —The button has a cancel feature, which microprocessor based terminal unit returns the system to unoccupied mode. ELECTRIC HEAT OPTIONS controller provides accurate, pressure - Electric HeatTransformer —An independent control through the use System Communications —The optional transformer is an integral of a proportional integral control Controller is designed to send and component of the heater control panel algorithm and direct digital control receive data from aTracer Summit" (dependent on unit load requirements) technology.The controller, named the or otherTrane controllers. Current unit status conditions and setpoints may be to provide 24VAC for controls.There is Unit Control Module (UCM), monitors monitored and /or edited via this data 19 VA available for controls. zone temperature setpoints, zone temperature and its rate of change, communication feature.The network Magnetic Contactor —An optional and valve airflow using a differential type is a twisted wire pair shielded electric heater 24 -volt contactor for use pressure signal from the pressure serial communication. with direct digital control (DDC) or transducer. Additionally, the controller ANALOG ELECTRONIC CONTROLS analog electronic controls. can monitor either supply duct air Analog Actuator ATrane 3- wire, Mercury Contactor —An optional temperature or CO concentration via z 24 -VAC, floating -point control actuator electric heater 24 -volt contactor for use appropriate sensors.The controller is with linkage release button.Torque is with direct digital control (DDC) or provided in an enclosure with 7/8" 35 in-lb minimum and is non - spring analog electronic controls. (22 mm) knockouts for remote control return with a 90- second drive time. P.E. Switch with Magnetic wiring. ATrane DDC zone sen Travel is terminated by end stops at Contactor —This optional switch and is required. fully- opened and - closed positions. An magnetic contactor is for use with DDC Zone Sensor —The UCM integral magnetic clutch eliminates pneumatic controls. controller senses zone temperature motor stall. P.E. Switch with Mercury through a sensing element located in Analog Electronic Controller —The Contactor —This optional switch and the zone sensor. In addition to the controller consists of a circuit board that sensing element, zone sensor options offers basic VAV unit operation and mercury contactor is for use with may include an externally- adjustable p pneumatic controls. additional override functions and setpoint, communications jack for use operates using 24VAC power.The Airflow Switch— An air pressure with a portable edit device, and an controller uses a capacitive type device designed to disable the heater override button to change the pressure transducer to maintain when the system fan is off.This is individual controller from unoccupied consistent air delivery regardless of standard on single -duct units. to occupied mode.The override button system pressure changes.The enclosure Line Fuse —An optional safety fuse has a cancel feature that will return the has 7/8" (22 mm) knockouts for remote located in the line of power of the system to unoccupied. Wired zone control wiring. ATrane electronic zone electric heater to prevent power surge sensors utilize a thermistor to vary the sensor is required. damage to the electric heater. voltage output in response to changes Analog Electronic Thermostat — This in the zone temperature. Wiring to the Disconnect Switch —A optional UCM controller must be 18- to 22 -awg. single- temperature, wall- mounted factory- provided door interlocking twisted pair wiring.The setpoint electronic device utilizes a thermistor to disconnect switch on the heater control adjustment range is 50 -88 °F (10-31°C). vary the voltage output in response to panel disengages primary voltage to Depending upon the features available changes in the zone temperature. the terminal. in the model of sensor selected, the Connections to the VAV unit circuit UNIT CONTROLS SEQUENCE OF zone sensor may require from a 2 -wire board are made using standard three OPERATION to a 5 -wire connection. Wireless zone conductor thermostat wire.The setpoint The unit controller continuously sensors report the same zone adjustment range is 63 -85 °F (17- 29 °C). monitors the zone temperature against information as wired zone sensors, but The sensor is available in two models. its setpoint and varies the primary do so using radio transmitter One model has a concealed, internally airflow as required to meet zone technology. Therefore with wireless, adjustable setpoint. The other model setpoints. Airflow is limited by has an externally- adjustable setpoint. VAV- PRC008 -EN SD 29 Single-Duct a te g""a g d W 0 4 ,41s;. , t j�Ye y YT PNEUMATIC CONTROLS HOT WATER VALVES Proportional Water Valve —The Normally Open Actuator— Two-Position Valve —The valve is a valve is a field- adaptable, 2 -way or Pneumatic 3 to 8 psig (20 to 55 kPa) field - adaptable, 2 -way or 3 -way 3 -way configuration and ships with a spring -range pneumatic actuator. configuration and ships with a cap to cap over the bottom port.This Normally-Closed Actuator— be field - installed when configured as a configures the valve for 2 -way Pneumatic 8 to 13 psig (55 to 90 kPa) 2-way valve. All connections are operation. For 3 -way operation, spring -range pneumatic actuator. National PipeThread (NPT).The valve remove the cap.The valve is designed body is forged brass with a stainless with an equal percentage plug.The 3011 Pneumatic Volume Regulator steel stem and spring. Upon demand, intended fluid is water or water and (PVR) — The regulator is a thermostat the motor strokes the valve. When the glycol (50% maximum glycol).The reset velocity controller, which actuator drive stops, a spring returns actuator is a synchronous motor drive. provides consistent air delivery within the valve to its fail -safe position. The valve is driven to a predetermined 5% of cataloged flow down to 18% or position by the UCM controller using a ed cfm, independent Flow Capacity- 1.17 Cv less of unit cataloged p Overall Diameter - 1 /2 " NPT proportional plus integral control of changes in system static pressure. algorithm. If power is removed, the Factory- calibrated, field - adjustable Close offPres - 30 psi (207 kPa) valve stays in its last position.The setpoints for minimum and maximum Flow Capacity- 3.0 Cv actuator is rated for plenum flows. Average total unit bleed rate, Overall Diameter- 3/4" NPT applications under UL 94 -5V and UL excluding thermostat, is 28.8 scim at Close -off Pressure- 14.5 psi (100 kPa) 873 standards. 20 psig (7.87 ml /min at 138 kPa) supply. Flow Capacity- 6.4 Cv Pressure andTemperature Ratings t . f OPTIONS Over Diameter -1 1" NPT s The valve is designed and tested in full Transformer (VCCF, VCWF) — The Close -off Pressure- 9 psi (62 kPa) compliance with ANSI B16.15 Class -VA transformer is factory-installed Maximum Operating Fluid 250 pressure/temperature ratings, in an enclosure with 7/8" (22 mm) Temperature- 203 °F (95 °C) ANSI B16.104 Class IV control shutoff knockouts to provide 24 VAC for Maximum system pressure - 300 psi leakage, and ISA S75.11 flow controls. (2067 kPa) characteristic standards. Disconnect Switch (VCCF, VCWF)— Maximum static pressure- 300 psi Flow Capacity- 3.80 Cv , 6.60 Cv, 0.70 Cv, 2.2 Cv A toggle disconnect disengages (2067 kPa) primary power to the terminal. Overall Diameter - NPT, 3 /4" NPT Fuse (VCCF, VCWF)— Optional fuse is Electrical Rating - 7VAat 24 VAC, (7.30 Cv) installed in the primary voltage 6.5 Watts, 50/60 Hz factory-installed P rY 9 Maximum Allowable Pressure - 300 hot leg. 8 feet (2.44 m) of plenum rated wire psi (2068 kPa) lead is provided with each valve. Maximum Operating Fluid Temperature - 200 °F (93 °C) Maximum Close -off Pressure- 55 psi (379 kPa) Electrical Rating- 6VA at 24 VAC. 10 feet (3.05 m) of plenum rated 22 -gage wire for connection. Terminations are #6 stabs. SD 30 VAV- PRC008 -EN Fan-Power c1 , . Service Model Number Description FPP 2 Se le ct o n Procedure FPP 3 5 General Data - Valve/Controller Airflow Guidelines FPP 6 Performance Data - Air Pressure Requirements FPP 7 - 8 Performance Data - Fan Curves FPP 12 Performance Data - Hot Water Coil FPP 13- 16 Performance Data -- Electrical Data FPP 17 - 19 Performance Data - Acoustics FRP 20- 25 Dimensional Data FPP 26- 34 • Mechanical Specifications FPP 35-37 ft1 . 0 .0 34 1.1 ci - t#7 2 VAV-PRC008-EN FPP 1 r Digit 1, 2— UnitType FM01 FMTrane actuator w/ customer - VP VariTrane fan - powered parallel supplied controller Digit 22— Electrical Connections Digit 3— Reheat HNY2 FM Honeywell W7751 H L Left C Cooling Only INV3 FM lnvensys MNL-V2R R Right E Electric Heat VMA2 FM Johnson VMA -1420 W Hot Water Heat PWR1 FM Siemens 540 -100 w/ Electrical Connections Note: Airflow GDE131.1 actuator hitting you in the face. Digit 4— Development Sequence PWR2 FM Siemens 540 -103 w/ F Sixth GDE131.1 actuator Digit 23— Transformer Digit 5, 6— Primary AirValve PW12 FM Siemens 550 -065 0 N/A (provided as standard) 05 5" inlet (350 max cfm) PW13 FM Siemens 550 -067 Digit 24— Disconnect Switch 06 6" inlet (500 max cfm) E105 Analog - fan - powered parallel 0 None 08 8" inlet (900 max cfm) with optional on /off reheat W With 10 10" inlet (1400 max cfm) PNOO PN - N.O.Trane pneumatic 12 12" inlet (2000 max cfm) actuator, R.A. stat Note: VPCF, VPWF- Toggle Disconnect 14 14" inlet (3000 max cfm) PNO5 PN - N.O. PVR, R.A. stat VPEF - Door Interlocking Power 16 16" inlet (4000 max cfm) Disconnect Notes: Digit 7, 8— Secondary Air Valve N.C. = Normally-closed Digit 25 —Power Fuse 00 N/A N.O= Normally - opened 0 None Digit 9 —Fan DA Stat = Direct - acting pneumatic t -stat W With P 02SQ fan (500 nominal cfm) (by others) Digit 26— Electric Heat Voltage Q 03SQ fan (1100 nominal cfm) RA Stat= Reverse - acting pneumatic R 04SQ fan (1350 nominal cfm) t -stat (by others) 0 None S 05SQfan (1550 nominal cfm) PN= Pneumatic A 208/60/1 B T 06SQ fan (1850 nominal cfm) FM = Factory installation of customer C 208/60/3 U 07SQ fan (2000 nominal cfm) supplied controller C 240/60/1 PVR = Pneumatic Volume Regulator D 277/60/1 Digit 10, 11— Design Sequence E 480/60/1 t , : 70 AO Design Sequence (Factory Digit 16— Insulation F 480/60/3 assigned) A 1/2" Matte -faced G 347/60/1 1 � Digit 12, 13, 14, 15—Controls B 1" Matte-faced H 575/60/3 ' ENON No controls, field - installed C 1/2" Foil -faced J 380/50/3 DDC or analog D 1" Foil -faced K 120/60/1 ENCL ENON with controls enclosure F 1" Double -wall Digit 27, 28, 29— Electric Heat kW PNON No controls, field - installed G 3/8" Closed -cell 000 None pneumatic Digit 17— MotorType 050 0.5 kW DDOO Trane elec actuator only D PSC Motor 010 1.0 kW DD01 DDC - cooling only E High - efficiency motor (ECM) 015 1.5 kW DD02 DDC - N.C. on /off water control DD03 DDC - prop hot water control Digit 18— MotorVoltage • • DD04 DDC - on /off electric heat 1 115/60/1 control 2 277/60/1 260 26.0 kW DD05 DDC - pulse -width modulation 3 347/60/1 Electric Heat Voltage Notes: electric heat control 4 208/60/1 D 5 230/50/1 D07 DDC- N.O. on /off hot water 0.5 to 8.0 kW -/z kW increments 8.0 to 18.0 kW -1 kW increments control Digit 19— Outlet Connection 18.0 to 46.0 kW-2 kW increments DD11 LonTalk DDC. Controller— 1 Flanged Cooling only 2 Slip & Drive Digit 30— Electric Heat Stages DD12 LonTalk DDC Controller w/ N.C. Digit 20— Attenuator 0 None on /off hot water control 0 None 1 1 Stage DD13 LonTalk DDC Controller w/ W With 2 2 Stages Equal proportional hot water control 3 3 Stages Equal DD14 LonTalk DDC Control -on /off Digit 21 —Water Coil electric heat control 0 None Digit 31— Contactors DD15 LonTalk DDC Controller w/ 1 1- Row - Plenum inlet installed RH 0 None pulse -width modulation 2 2- Row - Plenum inlet installed RH 1 24 volt magnetic electric heat control 3 1- Row- Discharge installed, LH 2 24 volt mercury DD17 LonTalk DDC Controller w/ N.O. 4 1- Row - Discharge installed, RH 3 PE with magnetic on /off hot water control 5 2- Row- Discharge installed, LH 4 PE with mercury ATO8 FM Automated Logic ZN341v+ 6 2- Row - Discharge installed, RH Digit 32— Airflow Switch AT10 FM Automated Logic ZN141v+ 0 None FM00 FM customer actuator & W With control FPP 2 VAV- PRC00 8-EN r r it Y This section describes the elements Coil Leaving Air Temperature the unit design heating airflow and and process required to properly select Once the terminal unit LAT is minimum primary airflow. parallel fan - powered VAV terminals, determined, the heating requirements Fan External Static Pressure and includes a specific example.The for the coil can be calculated.The Fan external static pressure is the total selection procedure is iterative in leaving air temperature for the coil of a resistance experienced by the fan, nature which makes computer parallel fan - powered terminal unit selection desirable. varies based on the type of unit which may include downstream installed heat being selected. ductwork and diffusers, heating coils, Selection of fan - powered VAV g and sound attenuators. As total airflow terminals involves four elements: Electric coil LAT equals terminal unit varies so will static pressure, making •Air valve selection LAT because the coil is located on the calculation of external static pressure • Heating coil selection unit discharge. Hot water coils can be dependent on unit type. l • Fan size and selection located on either the discharge or, for In many applications of parallel • Acoustics maximum system efficiency, the terminals, a minimum primary airflow plenum inlet when located on the must be maintained to meet Note: Use the same procedures for entering air side of the fan. Coil LAT is ventilation requirements. This primary selecting Low - Height Parallel Fan- calculated using a mixing equation. airflow contributes to the total Powered Units as used for selecting Given the unit heating airflow and LAT,, resistance experienced by the fan and Parallel Fan - Powered Units. minimum primary airflow at its supply should be accounted for in all air temperature, and the volume of components downstream of the fan heated plenum air, the leaving air itself, including electric coils. Hot water Air Valve Selection temperature for the hot water coil can coils positioned on the fan inlet are not Provided in the Performance Data —Air be determined (see the unit selection affected by the additional primary Pressure Requirements section of the example that follows for more details). airflow.The static pressure resistance catalog is the unit air pressure drop at Coil Entering AirTemperature experienced by the fan due to the hot varying airflows.To select an air valve, The entering air temperature (EAT) to water coil is based on fan airflow only, determine the airflow required at the coil also varies based on the coil not the total heating airflow. design cooling. Next, select an air position on the unit. Selection valve diameter that will allow proper Electric coils are mounted on the unit Once fan airflow and external static ty discharge. Hot water coils can be pressure are determined, reference the airflow modulation, (a velocity of 1600 . , � - 2000 FPM is recommended). Keep in mounted on the discharge Qr on the fan curves in the performance data ?al mind that modulation below 300 plenum inlet. Plenum inlet mounting section. Cross plot both airflow an d -1, FPM is not recommended. Proper creates a more efficient VAV system. external static pressure on each selection requires defining the This is because the parallel fan is applicable graph. A selection between minimum valve airflow (in either energized only when in heating mode, the minimum and maximum airflow heating or cooling) and maintaining at and thus, when in cooling mode, the ranges for the fan is required. least 300 FPM through the air valve. water coil is not in the airstream. It is common to identify more than The minimum is typically set based on ventilation requirements. If zone The EAT for discharge mounted coils one fan that can meet the design ventilation does not come through the equals the temperature of blended requirements.Typically, selection VAV unit, a minumum valve position primary air and plenum air. For begins with the smallest fan available can also be zero. plenum inlet mounted water coils, the to meet capacity. If this selection EAT equals the plenum air does not meet acoustical Heating Coil Selection temperature. requirements, upsizing the fan and Capacity Requirement operating it at a slower speed can be SupplyAirTemperature Once both coil EAT and LAT are done for quieter operation. The first step required when selecting a determined, the heat transfer (Q) for heating coil is to determine the heating the coil must be calculated using the Acoustics supply air temperature to the space, heat transfer equation. For electric heat Air Valve Generated Noise calculated using the heat transfer units, the Q value must be converted equation. A recommended value is To determine the noise generated by from Btu to kW for heater selection. the air valve, two p ieces of information 90 °F, although values between 85 °F The required kW should be compared are required; design airflow and design and 95 °F are common. Discharge air to availability charts in the performance air pressure drop.The design air g temperatures that exceed 20 degrees data section for the unit selected. For pressure drop is determined by rn g above space temperature are not hot water heat units, reference the the difference between design inlet recommended for proper diffuser 9 capacity charts in the performance data and static pressure (the valve's most operation. Air temperature difference is section for the required heat transfer Q over -pressurized condition) and defined as the heating supply air p temperature to the space minus the and airflow to pick the appropriate coil. external static pressure at design winter room design temperature.The cooling flow.This represents a worst zone design heat loss rate is denoted Fan Size and Selection case operating condition for the valve. by the letter Q. Supply air temperature Fan Airflow Fan Generated Noise to the space equals the leaving air Fan airflow is determined by To determine fan noise levels, fan temperature (LAT) for the terminal unit. calculating the difference between airflow, external static pressure and speed information is required. VAV- PRC008 -EN FPP 3 Fan-•ovvered as. Evaluation Elements Because the designer chose to maximize Using Fan LawTwo: For parallel fan - powered terminal units, system efficiency by having the hot Heating Downstream Static Pressure = the air valve and fan operation must be water coil on the plenum inlet, the unit (600/1000) x 0.25 = .09 in. wg evaluated separately because these supply air temperature is equal to the A size 02SQ fan has the capability to operations are not simultaneous. mix of the heated plenum air from the deliver approximately 650 cfm at 0.09 Access the appropriate acoustics table(s) fan and the minimum primary airflow. downstream static pressure. of the catalog and determine the sound 600 cfm x 95.6 °F = If an attenuator is required, use the power and NC prediction for both the 200 cfm x 55 °F + attenuator air pressure drop tables to discharge and radiated paths. It is (600 cfm - 200 cfm) x Coil LAT define additional fan static pressure. important to understand that discharge air Coil LAT= 116 °F noise is generally not a concern with fan- Acoustics powered terminals. Radiated noise from For the heating coil, the temperature Required Information: the unit casing typically dictates the noise difference is the calculated coil LAT Design inlet static press.: 1.0 in. wg level of minus the coil EAT (Plenum Air NC criteria: NC -35 the space. Temperature). Coil Q= 1.085 x 400 x (116 -70) = The selection is a VPWF Parallel Fan - If the entire unit or any element of it is 19,964 Btu = 19.96 Mbh poweredTerminal Unit, 10" primary, generating noise in excess of the Noise parallel fan size 02SQ, with a 1 -row hot Criteria requirements, the size of the Coil PerforrnanceTable water coil. appropriate portion of the terminal Selection: should be increased. Because the Size 02SQ fan, 1 -row coil with 2 gpm = Determine the casing radiated noise selection procedure is iterative, care 20.53 Mbh (at 400 cfm) level because it typically dictates the should be taken by the designer to 1 -row coil with 2 gpm = 2.57 ft WPD ound level unit (t of the space. With a p confirm that the change in selection parallel unit, two operating conditions does not affect other elements of the Fan Selection must be considered, design cooling unit or system design. Required Information: and design heating. Design airflow: 400 cfm Design Cooling (1000 cfm). Radiated Selection Example— Downstream static pressure valve typically sets the NC for parallel at design airflow: 0.25 in. wg units in cooling mode.The closest ; µ Parallel With Hot Water Heat tabulated condition (1100 cfm at ':t, AirValve Selection Fan external static pressure equals 1.0 in. wg ISP) has an NC =31. (A more s . rya Design Cooling Airflow 1000 cfm downstream static pressure (ductwork accurate selection can be done via Minimum Ventilation Airflow 200 cfm and diffusers) plus coil static pressure. TOPSS electronic selection program.): Maximum UnitAPD 0.25 in. wg The coil static pressure that the fan cieiection Program Output (Radiated Valve): Choose 10" air valve experiences is at the fan airflow Check — Is minimum airflow above (400 cfm).The downstream static Octave 2 3 4 5 6 7 NC 300 FPM? pressure the fan experiences is at fan Band Answer —Yes. Minimum cfm allowable = airflow plus minimum primary airflow. Sound 65 60 53 48 41 32 30 165 cfm (see General Data — Valve/ The sum of fan airflow and minimum Power Controller Guidelines, FPP 8) primary airflow (600 cfm) is less than Design Heating (200 cfm valve, A 10" air valve is selectd with unit design airflow (1000 cfm) and therefore 400 cfm fan, 0.25 in. wg DSP). Radiated pressure drop = 0.01 in. wg the 0.25 in. wg downstream static fan typically sets the NC for parallel pressure at design airflow must be units in heating mode. The closest Heating Coil Selection adjusted for the lower heating airflow. cataloged condition (430 fan cfm , 0.25 Required Information: in. wg DSP) has an NC =32. (A more Zone design heat loss: 20000 Btu Parallel Fan- Powered Unit with accurate selection can be done via Unit heating airflow: 600 cfm Water Coil (2 Options) TOPSS electronic selection program.) Winter room design temp.: 68°F Selection Program Output (Radiated Fan): Coil entering water temp.: 180°F '" a s "` Octave 2 3 4 5 6 7 NC Minimum primary airflow: 200 cfm Band Fan Airflow: 400 cfm ; Sound 66 58 56 52 48 41 31 Plenum temperature: 70 °F ' - , s� ',' "� ,' Power Coil flow rate: 2 gpm q, ` ' The predicted NC level for design • Primary air temperature: 55 °F cooling is NC -30 and for design HeatTransfer Equation (Btu) Plenum Inlet Mounted heating is NC -31. If the catalog path Q = 1.085 x Cfm x DTemperature attenuation assumptions are For the heating zone, the temperature six;.,, acceptable, this unit meets all of the difference is the zone su I air r ' design requirements and the selection temperature (SAT) minus the winter pp y . : process is complete. room design temperature. s ,'i• 18000 Btu = 1.085 x 600 x (SAT - 68 °F) �' " ,:z.',-ii,,,,,:- , SAT = 95.6 °F '' ` Discharge Mounted FPP 4 VAV- PRC008 -EN Fan-Powered Computer Selection Schedule View The advent of personal computers The program has many time - saving features such as: has served to automate many • Copy /Paste from spreadsheets like Microsoft Excel processes that were previously • Easily arranged fields to match your schedule repetitive and time - consuming. One • Time - saving templates to store default settings of those tasks is the proper scheduling, The user can also export the Schedule View to Excel to modify and put into a CAD sizing, and selection of VAV terminal drawing as a schedule. units.Trane has developed a computer program to perform these tasks.The Specific details regarding the program, its operation, and how to obtain a copy of it software is called theTrane Official are available from your localTrane sales office. Product Selection System (TOPSS). . l Iwo Officiall4adbc! Satiation 5 *ma i Was.[ .oa : Jeb01 1 Scditch*, Vim - MCI TheTOPSS program will take the input St of Loo t ', t,�•,,,.,.,r V,k1:,a, 24 Atip specifications and output the properly sized VariTrane VAV terminal unit along with the specific performance for that t,,, r size unit rq ..., fr .r Rb, The program has several required — fields, denoted by red shading in the I :r 1..,,;.I r =4 `- .1 4 ((..1 « »�.) TOPSS screen, and many other _ . Y w..— �.....�_. ._......_.__ i optional fields to meet the criteria you ; I Required values include ' o«."a, �•' 1 have. Re q � RUM Iha r,.s «> r ' mil") coati-0 t� maximum and minimum airflows, 1n Jat5 1a,r+ tts,ut titp *offal rak+ Kra r 10414,1, wotam : , control type, and model. If selecting .... � , ., - .`w rt+ "' i f••1 YPMtY 111011 4U) :'!l : :urn models with reheat, you will be ... required to enter information to make « , f^4.7 s5; t p rr. .'i�:� 1�tw ,u� m that selection also.The user is given , ter ,, ' "" the option to look at all the information rx• a ti.,,,r, Th.111 I 00 rr !....71 for one selection on one screen or as a ;,,:.,, ', ; ,,,.': 7. :'If, .,,, -'.•,, 1;,,1 .,,...f schedule with the other VAV units on - , , 1' + '41h .z ua :> ,z, :•/ r '.' G " the job. �: ',171A', .. ..,:Y.� ',_, J. The user can select single-duct dual f 4 s v1" 1 W' S/"'' ' " !'"" r : duct, and fan powered VAV boxes with f t, t. ,;>. katai the program, as well as most other •rr Trane products, allowing you to select :: . irec,L.F.a :I i hi.;r all yourTrane equipment with one software program. An tar... .VAV ewe rrrw•,.r - - - - •: The ro ram will also calculate sound P 9 r: :a f, . -° we.,x .,gr tzxax«: u+• Po . .e.1 rt 1 r a. .c ! 4v �x • • �:h power data for the selected terminal Required entry fields (in Red ...4 a : 1.., -. 1,.. " •1<1,.• .,,,.. ., ,•..... R. .f,.z".if..,... . �..° ' ,.., .4,. fa. y, R.., 44,444,,.41 ...:;g4 r7».v.e«4; unit.The user can enter a maximum onTOPSS screen). ...;;.,;..;;.......4.61k a. 4.. .: A' .14•.. ...,,tm.a ..r. individual sound level for each octave .... ` "* 1,1, ' 0111 .0,- ,`..u "' ^"`' band or a maximum NC value.The program will calculate acoustical dataw�� b 4° subject to default or user supplied `.; . °'''"" sound attenuation data. .:I -j w -i#r f a,& C +:.:5~444: l.+i Rearrange what fields you see I .< .. ,.., II . ,..f. , s.a >., and in what order with a few x h,., j '• ° , ,.." ' clicks of a button. * -, «,.. . ..- „1 I . .,_ I 3,• :.a. .1 } .)!4' 1..4...1[1.....11',._,,. VAV- PRC008 -EN FPP 5 Fan- ,t . ..� '',- Paralle0 ,, _. ,w ,, u as. . fL Prirnary Airflow Control Factory Settings -1 -P Control Air Valve Maximum Valve Maximum Controller Minimum Controller Constant Volume Type Size (in.) Cfm Cfm Cfm Cfm 5 350 40 -350 0,40 -350 40-350 6 500 60 -500 0,60 -500 60-500 8 900 105 -900 0,105 -900 105 -900 Direct Digital Control/ 10 1400 165 -1400 0, 165 -1400 165 -1400 UCM 12 2000 240 -2000 0,240 -2000 240 -2000 14 3000 320 -3000 0,320 -3000 320 -3000 16 4000 420 -4000 0,420 -4000 420 -4000 5 350 63 -350 0,63 -350 63-350 6 500 73-500 0,73-500 73-500 Pneumatic with 8 900 134 -900 0, 134 -900 134 -900 Volume Regulator 10 1400 215 -1400 0,215 -1400 215 -1400 12 2000 300 -2000 0,300 -2000 300 -2000 14 2885 408 -2887 0,408 -2887 408 -2887 16 3785 536 -3789 0,536 -3789 536 -3789 5 350 82 -350 0,82-350 82 -350 6 500 120 -500 0,120 -500 120 -500 8 900 210 -900 0,210 -900 210 -900 Analog Electronic 10 1400 328 -1400 0,328-1400 328 -1400 12 2000 470 -2000 0,470 -2000 470 -2000 14 3000 640 -3000 0,640- 3000 640 -3000 16 4000 840 -4000 0,840 -4000 840 -4000 Primary Airflow Control Factory Sings - Si Control Air Valve Maximum Valve Maximum Controller Minimum Controller Constant Volume Type Size (in.) L/s L/s L/s L/s 5 165 19-165 0,19 -350 19-350 6 236 28-236 0,28 -236 28-236 8 425 50-425 0,50-425 50-425 Direct Digital Control/ 10 661 77 -661 0,77-661 77-661 UCM 12 944 111 -944 0,111 -944 111 -944 `k41 14 1416 151 -1416 0,151-1416 151 -1416 16 1888 198 -1888 0,198 -1888 198 -1888 5 165 30-165 0,30-165 30-165 6 236 35-236 0,35 -236 35-236 Pneumatic with 8 425 63-425 0,63-425 63-425 Volume Regulator 10 661 102 -661 0, 102 -661 102 -661 12 944 141 -944 0,141 -944 141 -944 14 1362 193 -1363 0,193 -1363 193 -1363 16 1787 253 -1788 0,253 -1788 253 -1788 5 165 39-165 0,39 -165 39-165 6 236 57 -236 0,57 -236 57 -236 8 425 100 -425 0, 100-425 100 -425 Analog Electronic 10 661 155-661 0,155-661 155 -661 12 944 222 -944 0,222 -944 222 -944 14 1416 303 -1416 0,303 -1416 303 -1416 16 1888 397 -1888 0,397 -1888 397 -1888 Note: Maximum airflow must be greater than or equal to minimum airflow. FPP 6 VAV- PRC008 -EN Fan- w,. y ,y Parallel . : , . ;!.,0d.: __ { r3� k„ri . A Unit Air Pressure Drop - in, wg (VP) Coil Air Pressure Drop -- in. wg (VP) Fan /Inlet Airflow Cooling Fan /Inlet Airflow Cooling Fan Airflow 1 -Row HW 2 -Row HW Size Cfm Only Size Cfm Only Size Cfm (in. wg) (in. wg) 02S0-05 40 0.01 05SQ -10 165 0.01 0250 100 0.00 0.00 150 0.03 550 0.01 200 0.01 0.01 250 0.08 950 0.02 300 0.01 0.02 350 0.17 1400 0.05 400 0.02 0.03 02SQ-06 60 0.01 0550 -12 240 0.01 500 0.02 0.05 200 0.05 750 0.01 0350 250 0.01 0.02 350 0.17 1350 0.01 0450 500 0.02 0.04 500 0.35 2000 0.01 05SQ 750 0.04 0.08 02SQ-08 105 0.01 05S0-14 320 0.01 1000 0.07 0.13 350 0.03 1200 0.01 1250 0.10 0.19 600 0.09 2100 0.01 1400 0.12 0.23 900 0.21 3000 0.01 06S0 600 0.02 0.04 02SQ -10 165 0.01 06S0 -10 165 0.01 07SQ 900 0.04 0.07 550 0.01 550 0.01 1200 0.06 0.11 950 0.01 950 0.01 1500 0.09 0.16 1400 0.01 1400 0.01 1800 0.12 0.22 03S0 -06 60 0.01 06S0 -12 240 0.01 2000 0.15 .0.27 200 0.06 750 0.01 Note: HW Coil Only pressure drops do not include unit 350 0.19 1350 0.01 pressure drop. 500 0.40 2000 0.01 0350-08 105 0.01 06S0 -14 320 0.01 350 0.03 1200 0.01 Attenuator Air 600 0.08 2100 0.01 900 0.20 3000 0.01 Pressure Drop ti" 03SQ -10 165 0.01 06SQ -16 420 0.01 Fan Plenum 550 0.01 1600 0.01 Size Cfm Attenuator 950 0.02 2800 0.01 02SQ 50 0.00 1400 0.05 4000 0.01 200 0.00 0350 -12 240 0.01 07S0 -10 165 0.01 350 0.01 750 0.01 550 0.01 500 0.02 1350 0.01 950 0.01 650 0.04 2000 0.01 1400 0.01 750 0.06 w 0450 -08 105 0.01 0750-12 240 0.01 0350 50 0.00 kill 350 0.03 750 0.01 250 0.00 Lai 600 0.08 1350 0.01 500 0.00 900 0.20 2000 0.01 750 0.00 0450-10 165 0.01 07SQ -14 320 0.01 1000 0.01 1200 0.06 550 0.01 1200 0.01 950 0.02 2100 0.01 0450 50 0.00 1400 0.05 3000 0.01 300 0.01 04S0-12 240 0.01 0750 -16 420 0.01 600 0.02 0 0.03 750 0.01 1600 0.01 1350 0.01 2800 0.01 122 00 0.05 1450 0.06 2000 0.01 4000 0.01 04S0 -14 320 0.01 0550 50 0.00 300 0.00 1200 0.01 600 0.02 2100 0.01 900 0. 3000 0.01 1200 0.13 13 Note: Unit pressure drops do not include hot water coil or attenuator 1550 0.24 pressure drops. 0650 50 0.00 500 0.01 900 0.03 1300 0.06 1650 0.10 1900 0.14 07SQ 50 0.00 500 0.01 1000 0.04 1500 0.08 2000 0.15 2500 0.25 Note: Plenum cfm = (Fan cfm) VAV- PRC008 -EN FPP 7 .y 'awe d r ,. 2 %, {. ., Parallel a ,, z zau v - • f f a ( i Unit Air Pressure Drop - Pa (S) Coil Air Pressure Drop - Pa (SO Fan /Inlet Airflow Cooling Fan /Inlet Airflow Cooling Fan Airflow 1 -Row HW 2 -Row HW Size L/s Only Size L/s Only Size L/s (Pa) (Pa) 02S0 -05 19 2 05SQ -10 78 2 02S0 200 0 1 71 7 260 2 300 1 3 118 20 448 6 400 2 5 165 41 661 13 500 4 8 02SQ-06 28 2 05S0 -12 - 113 2 600 6 12 94 13 354 2 03SQ 118 2 4 165 41 637 2 04S0 236 5 11 236 86 944 2 05S0 354 10 21 02SQ-08 50 2 05SQ -14 151 2 472 17 33 165 8 566 2 590 25 47 283 23 991 2 661 31 57 425 51 1416 2 06SQ 900 5 10 02SQ -10 78 2 06SQ -10 78 2 07S0 1200 9 18 260 2 260 2 1500 15 28 448 2 448 2 1800 22 41 661 3 661 2 2150 30 56 O3SQ -06 28 2 06SQ -12 113 2 2500 36 67 94 15 354 2 Note: HW Coil Only pressure drops do not include unit 165 48 637 2 pressure drop. 236 99 944 2 03SQ-08 50 2 06SQ -14 151 2 Attenuator r 165 6 566 2 283 21 991 2 Pressure Dro p (Si) 425 49 1416 2 03SQ -10 78 2 O6SQ -16 198 2 Fan Plenum 260 2 755 2 Size L/s Attenuator 448 6 1321 2 02SQ 24 0 661 13 .1888 2 94 0 03S0 -12 113 2 07SQ -10 78 2 165 2 354 2 260 2 236 5 f %a'% 637 2 448 2 307 10 944 2 661 2 ‘,,,,w, 354 14 ,-- 03SQ 24 0 0450 -08 50 2 07SQ -12 113 2 165 6 354 2 118 0 283 21 637 2 236 0 425 49 944 2 354 0 04SQ -10 78 2 07S0-14 151 2 472 2 260 2 566 2 566 14 448 6 991 2 04SQ 24 0 661 13 1416 2 142 3 283 04SQ -12 113 2 07SQ -16 198 2 25 5 4 354 2 755 2 566 8 566 11 637 2 1321 2 684 14 944 2 1888 2 04SQ -14 151 2 055Q 24 0 142 1 566 2 283 5 991 2 425 15 1416 2 566 32 Note: Unit pressure drops do not include hot water coil or attenuator 731 61 pressure drops. 06SQ 24 0 236 2 425 7 613 15 779 26 897 35 07SQ 24 0 236 2 472 9 708 21 944 38 1180 62 Note: Plenum cfm = (Fan cfm) FPP 8 VAV- PRC008 -EN Fan-Powered Parallel Notes: Pa in. wg Parallel 02SQ —PSC 150 0.60 1. When attenuator is required, add inlet attenuator pressure to discharge static pressure for final � ___ _ _.____._._ _...,.___..__.._....__ . l .___.._..._..- ......._...____ 125 0.50 - -- - - - - -- fan performance. N d 100 0.40 \` _ —__ -- i _ _.. 5 :::' 0 25 0.10 ,, 100 200 300 400 500 600 700 Cfm 47 94 142 189 236 283 330 Us Airflow Pa In. wg Parallel Fan Size 03SQ —PSC 199 0.80 174 0.70 150 0.60 ` \ ... .. 8 • \ VPCF and VPEF maximum d 125 0.50 E 7 ,;` • E� \ — Minimum U U f2 ,\ ` 100 0.40 .__. N Z. \ — — — 1 -row coil maximum 1n ` \ • — - — - 2 -row coil maximum 75 0.30 \` ` \ o 3 50 0.20 \ \ . \ \ 25 0.10 200 300 400 500 600 700 800 900 1000 1100 1200 1300 Cfm 94 142 189 236 283 330 378 425 472 519 566 614 Us Airflow Pa In. wg Parallel 04SQ —PSC 199 0.80] • 174 0.70 ..... _ ._ _. .. ......_. .,\ _ E 150 0.60 \ 0 2 125 0.50 E y • \ a` E� ,\ \ m .00 0.40 $ =- \ \ 1n ,, .\ \ 8 \ 01 \ \ m 75 0.30 \ .0 \ \ i5 50 0.20 \..�.. 25 0.10 \ \ 200 400 600 800 1000 1200 1400 1600 Cfm 94 189 283 378 472 566 661 755 Us Airflow VAV- PRC008 -EN FPP 9 Fan-Powered i ,..,-,. : .... Parallel Pa In. wg Parallel 05SC:1—PSC Notes: 190 0.80 - - "..„2 .. .... • 1. When attenuator is required, . . add inlet attenuator pressure to 174 0.70 • " discharge static pressure for final \ , fan performance. 2.. 150 0.60 .., • • O . . . O c 0 125 0.50 T'n c., '6 tr, •-, " , . = , 5 100 0.40 p. r, , . • . . . . u) r, • , . 0 ... . E' . ..c \ \ LI , \ , . 3 • 50 0.20 • \ \ \ ‘ 25 0.10 300 500 700 900 1100 1300 1500 1700 Cfm 142 236 330 425 519 614 708 802 Lis Airflow Pa In. wg Parallel 06SQ—PSC 199 0.80 .. . •, • , \ • , \ • 174 0.70 , \ N. • c • \ . \ a, 150 0.60 E '., • 7.; 7'1 2 . oi \ • \ \ 125 0.50 VPCF and VPEF maximum , . . , 11111•1■1■1111111. mi •,. . , . 100 040 — — — 1-row coil maximum .. in' 75 0.30 \ — - — - 2-row coil maximum 50 0.20 - \ • , \ 25 0 10 , 400 600 800 1000 1200 1400 1600 1800 2000 2200 Cfm 189 283 378 472 566 661 755 850 944 1038 Lis Airflow Pa In. wg Parallel 07SQ—PSC 199 0.80 '‘...'... ..• . ‘, • , c . .. • . .. . 3 "5 r.. s• , . . . -... • , . a• 125 0.50 tn . • • 3 , • w . , w 1 oo 0 40 . • 0, ',6 --........„.........,.....„..,,,,.......NN . . ., • , . 3 . , . • • ‘ . 50 0.20 \ , • \ \ N \ 25 0.10 500 700 900 1100 1300 1500 1700 1900 2100 2300 Cfm 236 330 425 519 614 708 802 897 991 1086 Us Airflow FPP 10 VAV-PRC008-EN Fan-Powered Para! le/ .-„,-,„,,,.,, ---2,,.,.....:...,,,,„ „,.... Notes: Pa In. wg VPxF 03SQ—ECM 125 0.50 . 1. ECMs (Electrically Commutated : . . . • . : 1 x • Motors) are ideal for systems seeking : . . 1 v • . , : maximum motor efficiency. . • \ . \ : • . : . .• . . • 2. When attenuator is required, add inlet 100 0.40 • • . I I attenuator pressure to discharge , : E 7, • . . • • • ' i 1 , static pressure for final fan 41 • E : . • I I P. 7., to : \ I performance. . . . , I ,.., . ... . ▪ 75 0.30 • I I IS . i co • • . a) . . . . . . : I I E" : . • .c • : 1 O : • .• , . . ■ \ • g 50 0.20 . • . • 1, • , I . . • . . I . I 25 0.10 100 200 300 400 500 600 700 800 900 1000 1100 Cfm 47 94 142 189 236 283 330 378 425 472 519 Us Airflow Pa In. wg VPxF 04SQ—ECM 125 0.50 - . . . • . : . . . . . . . . . • : • . A • . . • ! I ' . . . • ' : . . . . ' : • . : • i t : . • . . .• . • 1 : 100 0.40 ; . . ..: . • • . 0 . • . : t 1 1 , :;;!:f. - B VPCF and VPEF maximum i? o. E "ti g . . . • • • , Dil . % ■ r, 41•1111011111111•1111111M minimum 7; 75 0.30 = .. , . . . . . , . t • ' . t LL1 t — — — 1-row coil maximum efT ' • . : , • . • . : , t . = . • ,.) • . : . • — - — - 2-row coil maximum 0 . . . : • , 3 50 020 • . • .• : , ' • : . , . . . t . . . : • . t . . • : . . • • t t • N.\ . N.%.... \....... s. • • . . : 25 0.10 , 200 400 600 80C 1000 1200 1400 1600 Cfm 94 189 283 378 472 566 661 755 Us Airflow Pa In. wg VPxF 05SQ—ECM 125 0.50 1 % • ', ' • . ' : • . : ‘, ' A . • . : . . . . • • : : • ' • X ' i \ • - 1 00 040 • • . ; . • ., i . : 1 = • . : . . . \ 1 ta • . EL.'. i o. E : . . : : . . % t • • : 7 75 0. 30 t 14 . , . • . . • \ x ■ ic ■ u . . ■ -g- 50 0.20 ■ • : . 1 • 25 0.10 . : i t t 1 200 400 600 800 1000 1200 1400 1600 1800 2000 Cfm 94 189 283 378 472 566 661 755 850 944 u Airflow VAV-PRCO 08-E N FPP 11 Van-Pcr, Jared Pa In. wg VPxF 06SQ—ECM Notes: 125 0.50 1. ECMs (Electrically Commutated - E s \ % E \ \ Motors) are ideal for systems seeking maximum motor efficiency. . \ ■ 100 0.40 , \ 2. When attenuator is required, add inlet = 4, \ attenuator pressure to discharge 2 1 , \ , static pressure for final fan .2 % ' performance. cu \ 'ci 1 1 o \ ‘ 1 , 1 \ 5 , . \ , 1 25 0.10 \ 1 400 600 800 1000 1200 1400 1600 1800 2000 2200 Cfm 189 283 378 472 566 661 755 850 944 1038 L/s Airflow 1 .1 VPCF and VPEF maximum i4 ............ Minimum I i u ......,..... — — — 1-row coil maximum — - — - 2-row coil maximum FPP 12 VAV-PRC008-EN w Fan Size O2Q ( -P) Water Pressure ..._..._..... Airflow ( Cf. r!) ....._ ............._.._._....._.._._.._._...__.._._................._._....__... ..__._......................... Rows Gpm Drop (ft) 100 150 200 250 300 350 400 450 500 550 600 1 0.5 0.28 8.23 9.12 11.05 11.96 12.74 13.36 13.89 14.33 14.73 15.08 15.39 Capacity 1.0 0.74 9.29 11.64 13.35 14.69 15.82 16.80 17.67 18.46 19.24 19.95 20.61 MBH 2.0 2.57 9.91 12.72 14.83 16.55 18.03 19.34 20.53 21.62 22.65 23.60 24.51 3.0 5.39 10.14 13.12 15.40 17.27 18.90 20.35 21.68 22.92 24.07 25.17 26.20 4.0 9.13 10.26 13.34 15.70 17.66 19.36 20.90 22.31 23.62 24.86 26.03 27.14 5.0 13.77 10.33 13.47 15.88 17.90 19.66 21.24 22.71 24.07 25.35 26.57 27.74 2 - Row 1.0 1.16 10.07 13.96 17.22 19.97 22.30 24.30 26.03 27.53 28.93 30.18 31.27 Capacity 2.0 3.89 10.46 14.84 18.74 22.21 25.32 28.12 30.65 32.95 35.04 36.96 38.72 MBH 3.0 7.93 10.59 15.14 19,26 22.99 26.40 29.52 32.38 35.02 37.46 39.72 41.83 4.0 13.19 10.65 15.29 19.52 23.39 26.96 30.24 33.28 36.11 38.74 41.20 43.50 5.0 19.58 10.69 15.37 19.67 23.63 27.29 30.68 33.84 36.78 39.53 42.11 44.54 Fan Sizes O3.-O ( -) Water Pressure .......... .aitet..iCfn1l........ Rows Gpm Drop (ft) 150 300 450 600 750 900 1050 1200 1350 1500 1650 1 - Row 1.0 0.23 11.92 16.09 18.59 20.59 22.14 23.41 24.48 25.41 26.23 26.95 27.59 Capacity 2.0 0.82 13.27 18.93 22.65 25.57 28.04 30.20 32.20 34.00 35.64 3713 38.50 MBH 3.0 1.74 13.76 20.02 24.28 27.71 30.67 33.30 35.68 37.87 39.89 41.82 43.62 4.0 3.00 14.02 20.62 25.19 28.92 32.17 35.09 3777 40.24 42.54 44.70 46.74 5.0 4.58 14.18 21.00 25.77 29.70 33.15 36.27 39.14 41.81 44.31 46.67 48.90 6.0 6.47 14.29 21.26 26.17 30.25 33.84 3710. 40.11 42.93 45.58 48.08 50.46 7.0 8.68 14.37 21.46 26.47 30.65 34.35 3772 40.84 43.77 46.53 49.15 51.64 8.0 11.19 14.43 21.60 26.70 30.96 34.75 38.20 41.41 44.43 47.28 49.99 52.57 9.0 14.02 14.48 21.72 26.89 31.21 35.06 38.59 41.87 44.95 47.88 50.66 53.32 10.0 1715 14.52 21.82 27.04 31.42 35.32 38.90 42.24 45.38 48.37 51.21 53.93 2 - Row 1.0 0.31 13.99 22.26 2734 30.91 33.37 35.16 36.52 37.59 38.45 39.16 39.76 Capacity 2.0 1.09 15.02 25.81 33.71 39.70 44.39 48.15 51.38 54.06 56.33 58.26 59.93 MBH 3.0 2.29 15.35 2703 36.10 43.32 49.20 54.10 58.24 61.79 64.87 67.65 70.13 "` 4.0 3.90 15.51 27.66 3737 45.29 51.89 57.48 62.29 66.48 70.16 73.43 76.354 5.0 5.90 15.61 28.05 38.15 46.52 53.60 59.66 64.93 69.57 73.67 77.35 80.66 ;# 6.0 8.28 15.67 28.31 38.68 4737 54.78 61.18 66.79 71.75 76.17 80.15 83.75 "17 70 11.05 15.72 28.49 39.07 47.99 55.64 62.30 68.16 73.37 78.04 82.25 86.08 8.0 14.19 15.76 28.63 39.36 48.46 56.31 63.16 69.22 74.63 79.48 83.88 8789 9.0 1771 15.78 28.74 39.59 48.83 56.83 63.85 70.06 75.63 80.64 85.19 89.35 10.0 21.59 15.81 28.83 39.77 49.13 57.26 64.40 70.75 76.44 81.59 86.26 90.54 Fan Sizes 06SCI& 07 » . (I -F) Water Pressure _ __-- . - - - -_ - - -- irflovv_(cfi11i- Rows Gpm Drop (ft) 900 • 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 1 - Row 0.5 0.15 17.67 1797 18.24 18.48 18.70 18.89 19.07 19.23 19.38 19.52 19.65 Capacity 1.0 0.36 26.41 27.24 2799 28.68 29.30 29.88 30.41 30.91 31.38 31.81 32.22 MBH 2.0 1.21 33.25 34.73 36.11 37.40 38.60 39.73 40.80 41.81 42.77 43.69 44.55 3.0 2.50 36.48 38.20 39.82 41.35 42.81 44.21 45.58 46.89 48.15 49.35 50.51 4.0 4.20 38.32 40.24 42.05 43.78 45.42 46.99 48.50 49.95 51.35 52.70 54.02 5.0 6.29 39.52 41.57 43.51 45.37 4714 48.84 50.48 52.06 53.59 55.06 56.49 6.0 8.76 40.36 42.51 44.54 46.49 48.36 50.16 51.89 53.56 55.18 56.75 58.28 7.0 11.61 40.99 43.20 45.31 47.33 49.27 51.14 52.95 54.70 56.39 58.03 59.63 2 - Row 1.0 0.67 38.40 39.48 40.38 41.15 41.82 42.40 42.91 43.35 43.76 44.12 44.44 Capacity 2.0 2.23 51.70 54.23 56.47 58.46 60.23 61.82 63.25 64.55 65.74 66.82 67.82 MBH 3.0 4.59 57.84 61.04 63.92 66.54 68.93 71.14 73.24 75.17 76.95 78.60 80.14 4.0 7.63 61.27 64.96 68.33 71.41 74.25 76.87 79.30 81.56 83.67 85.65 87.54 5.0 11.33 63.45 6747 71.16 74.57 77.72 80.65 83.38 85.94 88.33 90.57 92.69 6.0 15.67 64.96 69.22 73.14 76.78 80.17 83.32 86.28 89.04 91.65 94.10 96.41 70 20.66 66.06 70.50 74.60 78.42 81.98 85.31. 88.43 91.36 94.13 96.74 99.21 VAV- PRC008 -EN FPP 13 Fa -Powered rallei Water Coil Notes (1 -P) 1. Fouling Factor 0.00025 2. The off-coil temperature of the hot water coil on parallel fan - powered units must not exceed 140 °F when mounted on plenum inlet. 3. The following equations may be used in calculating Leaving AirTemperature (LAT) and WaterTemperature Difference (WTD). LAT = EAT +( MBHx 921.7 WTD= EWT- LWT= ( 2xMBH Cfm ) Gpm 4. Capacity based on 70 °F entering air temperature and 180 °F entering water temperature. Refer to correction factors for different entering conditions. Temperature Correction Factors forWater Pressure Drop fit) Average WaterTemperature 200 190 180 170 160 150 140 130 120 110 Correction Factor 0.970 0.985 1.000 1.020 1.030 1.050 1.080 1.100 1.130 1.150 Temperature Correction Factors for Coil Capacity (MBH) Entering Water Minus Entering Air 40 50 60 70 80 90 100 110 120 • 130 Correction Factor 0.355 0.446 0.537 0.629 0.722 0.814 0.907 1.000 1.093 1.187 1 FPP 14 VAV- PRC008 -EN Fa -Po' ered ,a ., ,x s � � �,�.. t T iLe gg�g3� .E _ 13 „ t„.,, . E & ! R Fan Size 02SQ (S1) Water Pressure_ _ _..._ ................. ..._......................._ Airflow ._(Lis) ................_ ......_.. ...._.................._....... _ .... _._....- ....- _..........__..... Rows L/s Drop (kPa) 47 71 94 118 142 165 189 212 236 260 283 1-Row 0.03 0.84 2.41 2.67 3.24 3.51 3.73 3.92 4.07 4.20 4.32 4.42 4.51 Capacity 0.06 2.21 2.72 3.41 3.91 4.31 4.64 4.92 5.18 5.41 5.64 5.85 6.04 MBH 0.13 7.67 2.91 3.73 4.35 4.85 5.28 5.67 6.02 6.34 6.64 6.92 7.18 0.19 16.08 2.97 3.85 4.51 5.06 5.54 5.96 6.35 6.72 7.05 738 7.68 0.25 27.24 3.01 3.91 4.60 5.18 5.67 6.13 6.54 6.92 7.29 7.63 7.95 0.32 41.08 3.03 3.95 4.65 5.25 5.76 6.23 6.66 7.05 7.43 7.79 8.13 2 -Row 0.06 3.46 2.95 4.09 5.05 5.85 6.54 7.12 763 8.07 8.48 8.85 9.17 Capacity 0.13 11.60 3.07 4.35 5.49 6.51 7.42 8.24 8.98 9.66 10.27 10.83 11.35 MBH 0.19 23.66 3.10 4.44 5.65 6.74 7.74 8.65 9.49 10.26 10.98 11.64 12.26 0.25 39.35 3.12 4.48 5.72 6.86 7.90 8.86 9.75 10.58 11.35 12.08 12.75 0.32 58.41 3.13 4.50 5.77 6.93 8.00 8.99 9.92 10.78 11.59 12.34 13.05 Fan Sizes 3S -O5 Q (Si) Water Pressure ..........._ ._. Airflow (Us) . Rows Us Drop (kPa) 71 142 212 283 354 425. 495 566 637 708 779 1 -Row 0.06 0.67 3.49 4.72 5.45 6.03 649 6.86 7.18 745 7.69 7.90 8.09 Capacity 0.13 2.43 3.89 5.55 6.64 749 8.22 8.85 9.44 9.97 10.45 10.88 11.28 kW 0.19 5.20 4.03 5.87 712 8.12 8.99 9.76 10.46 11.10 11.69 12.26 12.79 0.25 8.95 4.11 6.04 738 8.48 9.43 10.28 11.07 11.79 12.47 13.10 13.70 0.32 13.65 4.16 6.16 755 8.71 9.72 10.63 11.47 12.25 12.99 13.68 14.33 0.38 19.30 4.19 6.23 7.67 8.87 9.92 10.87 11.76 12.58 13.36 14.09 14.79 0.44 25.88 4.21 6.29 7.76 8.98 10.07 11.06 11.97 12.83 13.64 14.41 15.14 0.50 33.39 4.23 6.33 7.83 9.07 10.19 11.20 12.14 13.02 13.86 14.65 15.41 0.57 41.81 4.24 6.37 7.88 9.15 10.28 11.31 12.27 13.17 14.03 14.85 15.63 0.63 51.15 4.26 6.40 7.93 9.21 10.35 11.40 12.38 13.30 14.18 15.01 15.81 2 - Row 0.06 0.93 4.10 6.52 8.01 9.06 9.78 10.31 10.70 11.02 11.27 11.48 11.65 Capacity 0.13 3.25 4.40 756 9.88 11.64 13.01 14.11 15.06 15.84 16.51 17.08 17.57 s „- b.,,,..„ kW 0.19 6.83 4.50 7.92 10.58 12.70 14.42 15.86 17.07 18.11 19.01 19.83 20.568 0.25 11.62 4.55 8.11 10.95 13.27 15.21 16.85 18.26 19.49 20.56 21.52 22.38 4 0.32 17.59 4.58 8.22 11.18 13.64 15.71 1749 19.03 20.39 21.59 22.67 23.64 ;i37,1 0.38 24.71 4.59 8.30 11.34 13.88 16.06 1793 19.58 21.03 22.33 23.49 24.55 'e { , 0.44 32.97 4.61 8.35 11.45 14.07 16.31 18.26 19.98 21.50 22.87 24.11 • 25.23 0.50 42.34 4.62 8.39 11.54 14.20 16.50 18.51 20.29 21.87 23.30 24.59 25.76 0.57 52.83 4.63 8.42 11.60 14.31 16.66 18.71 20.53 22.17 23.64 24.97 26.19 0.63 64.41 4.63 8.45 11.66 14.40 16.78 18.88 20.74 22.40 23.91 25.28 26.54 Fan Sizes OSSQ & 07SQ (S1) Water Pressure _ A.irfiow (L /s) Rows L/s Drop (kPa) 425 472 519 566 613 661. 708 755 802 849 897 1 -Row 0.03 0.45. 5.18 5.27 5.35 5.42 5.48 5.54 5.59 5.64 5.68 5.72 5.76 Capacity 0.06 1.07 7.74 7.98 8.20 8.41 8.59 8.76 8.91 9.06 9.20 9.32 9.44 MBH 0.13 3.61 9.75 10.18 10.58 10.96 11.31 11.64 11.96 12.25 12.54 12.81 13.06 0.19 746 10.69 11.20 11.67 12.12 12.55 12.96 13.36 13.74 14.11 14.46 14.80 0.25 12.53 11.23 11.79 12.32 12.83 13.31 13.77 14.22 14.64 15.05 15.45 15.83 0.32 18.76 11.58 12.18 12.75 13.30 13.82 14.32 14.80 15.26 15.71 16.14 16.56 0.38 26.13 11.83 12.46 13.05 13.63 14.17 14.70 15.21 15.70 16.17 16.63 17.08 0.44 34.63 12.01 12.66 13.28 13.87. 14.44 14.99.. 15.52 16.03 16.53 .1701 1748 2 - 0.06 2.00 11.26 11.57 11.84 12.06 12.26 12.43 12.58 12.71 12.83 12.93 13.03 Capacity 0.13 6.65 15.15 15.89 16.55 1713 17.65 18.12 18.54 18.92 19.27 19.58 19.88 MBH 0.19 13.69 16.95 1789 18.73 19.50 20.20 20.85 21.47 22.03 22.55 23.04 23.49 0.25 22.76 17.96 19.04 20.03 20.93 21.76 22.53 23.24 23.91 24.52 25.10 25.66 0.32 33.80 18.60 19.78 20.86 21.86 22.78 23.64 24.44 25.19 25.89 26.55 2717 0.38 46.75 19.04 20.29 21.44 22.50 23.50 24.42 25.29 26.10 26.86 27.58 28.26 0.44 61.63 19.36 20.66 21.87 22.98 24.03 25.00 25.92 26.78 2759 28.35 29.08 • VAV- PRC008 -EN FPP 15 Fan- fir.: ✓, e .Y,' t. ., t+. t. Y�"..M.,a 4Y. >.' .1a p Water Coil Notes ( ) 1. Fouling Factor = 0.00025 2. The off-coil temperature of the hot water coil on parallel fan - powered units must not exceed 60 °C when mounted on plenum inlet. 3. The following equations may be used in calculating Leaving AirTemperature (LAT.) andWaterTemperature Difference (WTD). LAT= EAT+ k Us 083) WTD= EWT -LWT= 4.19)US) 4. Capacity based on 21 °C entering air temperature and 88 82 °C entering water temperature. Refer to correction factors for different entering conditions. Temperature Correction Factors forWater Pressure Drop (kPa) AverageWaterTemperature 93 88 82 77 71 66 60 54 49 43 Correction Factor 0.970 0.985 1.000 1.020 1.030 1.050 1.080 1.100 1.130 1.15D Temperature Correction Factors for Coil Capacity (kW) Entering Water Minus Entering Air 22 27 33 38 44 50 55 61 67 72 Correction Factor 0.355 0.446 .0.537 0.629 0.722 0.814 0.907 1.000 1.093 1.187 Notes: • 1. Coils available with 24 -VAC magnetic or mercury contactors, or load carrying P.E. switches with magnetic or mercury contactors. 2. Available kW increments are by 0.5 from 0.5 kW to 8.0 kW, by 1.0 kW from 9.0 to 18.0 kW, and by 2.0 kW from 18.0 to 20.0 kW. 3. Each stage is equal in kW output. 4. All heaters contain an auto reset thermal cutout and a manual reset cutout . 5. The current amp draw for the heater elements is calculated by the formula on the next page. 6. Recommended coil temperature rise = 20° to 30 °F ( -7° to -1 °C). Maximum temperature rise = 55 °F (12 °C). 7. Heaters should not operate at cfms below the nameplate minimum. h FPP 16 VAV- PRC008 -EN iX .,3e. "' k j , f',,, i W.. PSC Motor nits -- Electric Coil kW Guidelines - Minimum to Maximum (VPEF) Fan Single_PhaseVottag_e Three -Phase Voltage Size Stages 120V 208V 240V 277V 347V 480V 208V 480V 600V 02SQ 1 0.5 -5.0 0.5 -6.0 0.5-6.0 0.5-6.0 0.5-6.0 0.5-6.0 0.5-6.0 1.0-6.0 1.5 -6.0 2 0.5 -5.0 0.5 -6.0 0.5 -6.0 1.0 -6.0 1.0-6.0 1.0-6.0 1.0-6.0 2.0 -6.0 3.0 -6.0 3* 1.0 -5.0 1.0-6.0 1.0-6.0 1.0-6.0 1.5-6.0 1.5 -6.0 1.5-6.0 3.0-6.0 4.5 -6.0 03SQ 1 0.5 -5.0 0.5 -9.0 0.5 -10.0 0.5 -11.0 0.5 -11.0 0.5 -11.0 0.5 -11.0 1.0 -11.0 1.5 -11.0 2 0.5-5.0 0.5 -9.0 0.5 -10.0 1.0 -11.0 1.0 -11.0 1.0 -11.0 1.0 -11.0 2.0 -11.0 3.0 -11.0 3* 1.0-5,0 1.0 -9.0 1.0 -10.0 1.0 -11.0 1.5 -11.0 1.5 -11.0 1.5 -11.0 3.0-11.0 4.5 -11.0 04SQ 1 0.5 -4.5 0.5 -8.0 0.5 -10.0 0.5 -12.0 0.5 -14.0 0.5 -14.0 0.5 -14.0 1.0 -14.0 1.5 -14.0 2 0.5.5 0.5 -8.0 0.5 -10.0 1.0 -12.0 1.0 -14.0 1.0 -14.0 1.0 -14.0 2.0 -14.0 3.0 -14.0 3* 1.0 -4.5 1.0 -8.0 1.0 -10.0 1.0 -12.0 1.5 -14.0 1.5 -14.0 1.5 -14.0 3.0 -14.0 4.5 -14.0 05SQ 1 0.5 -4.5 0.5 -8.0 0.5 -9.0 0.5 -12.0 0.5 -15.0 0.5 -18.0 0.5 -14.0 1.0 -18.0 1.5 -18.0 2 0.5-4.5 0.5 -8.0 0.5 -9.0 1.0 -12.0 1.0 -15.0 1.0 -18.0 1.0 -14.0 2.0 -18.0 3.0 -18.0 3* 1.0-4.5 1.0 -8.0 1.0 -9.0 1.0 -12.0 1.5 -15.0 1.5 -18.0 1.5 -14.0 3.0 -18.0 4.5 -18.0 06S0 1 - 0.5 -9.0 - 0.5 -12.0 0.5 -15.0 0.5 -16.0 0.5 -15.0 1.0 -16.0 1.5 -16.0 2 - 0.5 -9.0 - 1.0 -12.0 1.0 -15.0 1.0 -16.0 1.0 -15.0 2.0 -16.0 3.0 -16.0 3* - 1.0 -9.0 - 1.0 -12.0 1.5 -15.0 1.5 -16.0 1.5 -15.0 3.0 -16.0 4.5 -16.0 07SQ 1 - 0.5 -8.0 - 0.5 -11.0 0.5 -15.0 0.5 -20.0 0.5 -14.0 1.0 -20.0 1.5 -20.0 2 - 0.5 -8.0 - 1.0 -11.0 1.0 -15.0 1.0 -20.0 1.0 -14.0 2.0 -20.0 3.0 -20.0 3* - 1.0-8.0 - 1.0 -11.0 1.5 -15.0 1.5 -20.0 1.5 -14.0 3.0 -20.0 4.5 -18.0 *Three stages of electric heat available only with pneumatic controls. ECM Units- Electric Coil kW Guidelines --• Minimum to M xim rn (VPEF) Fan SnglePh seVoltagr ..._.._..._...... Three -Pha e Vottage Size. Stages 120V 208V 240V 277V 347V 480V 208V 480V 600V 03SQ 1 0.5-4.5 0.5 -8.0 0.5 -10.0 0.5 -11.0 - 0.5 -11.0 0.5 -11.0 1.0 -11.0 - 2 0.5 -4.5 0.5-8.0 0.5 -10.0 1.0 -11.0 - 1.0 -11.0 1.0 -11.0' 2.0 -11.0 - 3 1.0 -4.5 1.0 -8.0 1.0 -10.0 1.0 -11.0 - 1.5 -11.0 1.5 -11.0 3.0 -11.0 - 04SQ 1 0.5 -4.5 0.5 -8.0 0.5 -9.0 0.5 -12.0 - 0.5 -14.0 0.5 -14.0 1.0 -14.0 - 2 0.5 -4.5 0.5-8.0 0.5 -9.0 1.0 -12.0 - 1.0 -14.0 1.0 -14.0 2.0 -14.0 - 3 1.0-4.5 1.0 -8.0 1.0 -9.0 1.0 -12.0 - 1.5 -14.0 1.5 -14.0 3.0 -14.0 - 05SQ 1 0.5 -4.0 0.5 -7.0 0.5 -8.0 0.5 -11.0 - 0.5 -18.0 0.5 -12.0 1.0 -18.0 - 2 0.5 -4.0 0.5 -7.0 0.5 -8.0 1.0 -11.0 - 1.0 -18.0 1.0 -12.0 2.0 -18.0 - 3 1.0 -4.0 1.0 -7.0 1.0 -8.0 1.0 -11,0 - 1.5 -18.0 1.5 -12.0 3.0 -18.0 - 06S0 1 0.5 -4.0 0.5 -7.0 0.5-6.0 0.5 -11.0 - 0.5 -16.0 0.5 -12.0 1.0 -16.0 - r ' 2 0.5-4.0 0.5 -7.0 0.5 -8.0 1.0 -11.0 - 1.0 -16.0 1.0 -12.0 2.0 -16.0 - 3 1.0-4.0 1.0 -7.0 1.0 -8.0 1.0 -11.0 - 1.5 -16.0 1.5 -12.0 3.0 -16.0 - Notes: 1. Coils available with 24.-VAC magnetic or mercury contactors, load carrying P.E. switches, and P.E. switch with magnetic or mercury contactors. 2. Available kW increments are by 0.5 from 0.5 kW to 8.0 kW, by 1.0 kW from 9.0 to 18.0 kW, and by 2.0 kW from 18.0 to 20.0 kW. 3. Each stage will be equal in kW output. 4. All heaters contain an auto reset thermal cutout and a manual reset cutout . 5. The current amp draw for the heater elements is calculated by the formula on the next page. 6. Recommended coil temperature rise =20° to 30 °F ( -7° to -1 °C)• Maximum temperature rise = 55 °F (12 °C). 7. Heaters should not operate at cfms below the nameplate minimum. 8. Only two stages of electric reheat available withTrane controls (ECM only). Fan Electrical Performance (PSC) Fan Electrical Performance (ECM) Maximum Fan Motor Amperage (FLA) Maximum Fan Motor Amperage )FLA) Fan Size HP 115VAC 208 VAC 277VAC Fan Size HP 115VAC 277VAC 02SQ 1/8 1.6 - 0.7 03SQ 1/3 4.5 2.4 03S0 1/3 4.3 - 1.6 04SQ 1/2 6.5 3.5 04SQ 1/3 5.5 - 2.0 05SQ 1 10.1 5.4 05SQ 1/2 6.7 - 2.4 06SQ 1 9.5 5.1 06SQ 1/2 - 4.6 3.8 Notes: 07SQ 1 - 6.6 4.7 1. Electric heat units -units with primary voltages of Notes 208/60/1, 208/60/3, or 240/60/1 have 115 -VAC fan motors. 1. Electric Heat Units - Units with fan sizes 02SQ to 05S0 2. Electric heat units -units with primary voltages of and a primary voltage of 208/60/1, 208/60/3, or 240/60/1 277/60/1, 480/60/1, or 480/60 3 have 277 -VAC fan motors. have 115/60/1 VAC fan motors. Fan sizes 06SQ and 3. 347/60/1 and 230/50/1 voltage motors not available with 07SQ with the same voltages, have 208/60/1 VAC motors. ECMs. 2. Electric Heat Units - Units with primary voltage of 277/60/1, 480/60/1 or 480/60/3 use 277 VAC fan motors. 3. Electric Heat Units - Units with primary voltage of 347/60/1 or 575/60/3 use 347 VAC fan motors. 4. With 380/50/3 and 230/50/1, use 230/50 motors. VAV- PRC008 -EN FPP 17 $ Y Formulas Minimum Circuit Ampacity (MCA) Equation Example: • MCA = 1.25 x (E motor amps + heater amps) A model VPEF, electric reheat unit size 10 -05SQ has 480/3 phase, 12 kW Motor amps is the sum of all motor current draws if more electric reheat with 2 stages and 277 -Volt motor. than one is used in the unit. Maximum Overcurrent Protection (MOP) Equation For MOP of fan powered unit: • MOP = (2.25 x motorl amps) + motor2 amps + heater amps 12 kW - 480/3 heater 12 x 1000 = 14.45 amps motorl amps = current draw of largest motor 480 x 1.73 motor2 amps = sum of current of all other motors used in MCA = (2.4 + 14.45) x 1.25 = 21.06, MOP = (2.25 x 2.4) + 14.45 = 19.9. unit Since MOP < MCA, then MOP = 25. General Sizing Rules: • If MOP = 15, then fuse size = 15 For total current draw of unit: • If MOP = 19, then fuse size = 15 with one exception. If heater 12 kW -480/3 heater 12 x 1000 = 14.45 amps x 1.25 > 15, then fuse size = 20. 480 x 1.73 Two heat outputs (2 stages) @0.5 amps max each = 1.00 • If MOP 5 MCA, then choose next fuse size greater than MCA. Motor amps: 277 V (Fan size 0517) 2.4 • Control fusing not applicable. 18.35 amps max • Standard Fuse Sizes: 15, 20, 25, 30, 35, 40, 45, 50, and 60. Useful formulas: kW_ CfmxATD kW = 1214 x Us x ATD 3145 kWx1000 1 m s- kWx1000 34amps= PrimaryVoltagex: T 4a p = PrimaryVoltage ATD = kW x 3145 ATD = kW Cfm 1214 x Us i al Minimum Unit Electric Minimum Unit Electric l : <A Heat Cfm Guidelines (PSC) Heat Lis Guidelines (PSC) Unit C #n1 Unit L/s kW 02SQ 03SQ 04SQ 05SQ 06SQ 07SQ kW 02SQ 03SQ 04SQ 05SQ 06SQ 07SQ 0.5 118 200 315 350 533 585 0.5 56 94 149 165 252 276 1 118 200 315 350 533 585 1 56 94 149 165 252 276 1.5 118 200 315 350 533 585 1.5 56 94 149 165 252 276 2 118 200 315 350 533 585 2 56 94 149 165 252 276 2.5 146 200 315 350 533 585 2.5 69 94 149 165 252 276 3 174 200 315 350 533 585 3 82 94 149 165 252 276 3.5 201 200 315 350 533 585 3.5 95 94 149 165 252 276 4 229 230 315 350 533 585 4 108 109 149 165 252 276 4.5 257 260 315 350 533 585 4.5 121 123 149 165 252 276 5 285 290 315 350 533 585 5 134 137 149 165 252 276 5.5 312 315 315 350 533 585 5.5 147 149 149 165 252 276 6 340 - 350 350 350 533 585 6 160 165 165 165 252 276 6.5 - 375 375 375 533 585 6.5 - 177 177 177 252 276 7 - 400 400 400 533 585 7 - 189 189 189 252 276 7.5 430 .. 430 430 533. 585 7.5 - . 203 203 203 .252 276 8 - 460 460 460 533 585 8 - 217 217 217 252 276 9 - 515 515 515 589 633 9 - 243 243 243 278 299 10 - 575 575 575 645 682 10 - 271 271 271 305 322 11 - 630 630 630 701 730 11 - 297 297 297 331 345 12 - - 690 690 758 779 12 - - 326 326 358 367 13 - - 745 745 814 . 827 13 - - 352 352 384 390 14 - - 810 810 870 876 14 - - 382 382 410 413 15 - - - 860 926 924 15 - - - 406 437 436 16 - - - 920 982 972 16 - - - 434 463 459 17 - - - 973 - 1021 17 - - - 459 - 482 18 - - - 1030 - 1069 18 - - - 486 - 505 20 - - - - - 1166 20 - - - - - 550 FPP 18 VAV- PRC008 -EN Fan -P were. ? . a Minimum Unit Electric Minimum Unit Electric Heat Cfm Guidelines (ECM) Heat Us Guidelines (ECM) Unit Cftsi Unit Lts _ kW O3S0 O4SQ O5SQ O6SQ kW O3SQO4SQ O5SQ O6SQ 0.5 200 315 350 560 0.5 94 149 165 264 1 200 315 350 560 1 94 149 165 264 1.5 200 315 350 560 1.5 94 149 165 264 2 200 315 350 560 2 94 149 165 264 2.5 200 315 350 560 2.5 94 149 165 264 3 200 315 350 560 3 94 149 165 264 3.5 200 315. 350 560 3.5 94 149 165 264 4 230 315 350 560 4 109 149 165 264 4.5 260 315 350 560 4.5 123 149 165 264 5 290 315 350 560 5 137 149 165 264 5.5 315 315 350 560 5.5 149 149 165 264 6 350 350 350 560 6 165 165 165 264 6.5 375 375 375 560 6.5 177 177 177 264 7 400 400 400 560 7 189 189 189 264 7.5 430 430 430 560 7.5 203 203 203 264 8 460 460 460 560 8 217 217 217 264 9 515 515 515 604 9 243 243 243 285 10 575 575 575 649 10 271 271 271 306 11 630 630 630 693 11 297 297 297 327 12 — 690 690 738 12 — 326 326 348 13 — 745 745 782 13 — 352 352 369 14 — 810 810 826 14 — 382 382 390 15 — — 860 871 15 — — 406 411 16 — — 920 915 16 — — 434 432 17 - - 973 - 17 - - 459 - 18 - - 1030 - 18 - - 486 - LAN g w±y?r Lam': VAV- PPC008 -EN FPP 19 Fa; z-Potared k.,;::„,,,,,:„,,,,,,,;,:,,,,,„:.,:,, Discharge Sound Power (dB) Valve Only Discharge Sound Power (dB) Fan Inlet 0.5" APs 1.0" APs 2.0 taps 3,0" 2Ws Size Size Um L/s 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 02SQ 6 200 94 51 50 44 43 38 30 53 51 48 47 43 39 56 53 54 53 51 50 59 55 57 57 56 56 300 142 56 52 49 48 44 35 58 55 54 53 50 43 60 57 57 56 54 50 62 59 61 59 57 55 400 189 58 53 49 47 42 36 63 59 58 57 54 46 64 61 60 61 58 52 65 63 63 63 60 56 500 236 60 56 53 51 47 41 66 62 60 59 55 47 67 64 64 65 62 55 69 67 66 68 65 58 02SQ 8 350 165 52 48 46 45 40 33 56 53 51 48 46 45 59 57 56 53 52 51 61 59 59 56 55 55 520 245 57 53 50 49 44 37 60 57 55 52 50 47 62 61 60 57 55 52 64 63 63 60 58 56 700 330 62 59 55 53 49 42 64 62 60 57 54 49 66 66 65 62 59 54 68 68 67 65 62 57 900 425 66 63 59 57 52 45 69 66 64 61 57 52 70 69 69 66 62 57 72 71 71 68 65 60 02SQ 10 550 260 59 54 52 52 49 39 63 59 57 57 55 47 67 64 62 62 59 54 69 66 65 65 62 58 820 387 62 57 56 56 54 44 67 63 61 61 59 51 72 69 67 67 65 58 74 71 70 70 67 61 1100 519 65 60 59 59 58 48 69 66 64 65 63 55 75 71 70 70 68 60 78 74 73 74 71 64 1400 661 67 64 62 62 60 .51 72. 69 67 67 65 57 78 74 72 73 71 63 81 77 76 76 74 67 03S0 6 100 47 44 44 41 37 33 30 45 45 44 39 37 39 46 47 47 43 45 47 47 47 47 45 49 53 200 94 48 47 43 40 35 29 51 50 47 44 41 40 53 52 52 48 47 48 54 54 54 50 51 54 300 142 53 50 46 43 36 32 56 55 51 47 44 40 58 58 56 52 50 49 59 59 59 55 54 54 400 189 55 52 48 44 38 34 60 58 54 50 46 42 62 62 59 55 52 49 64 63 62 58 56 54 600 283 59 58 56 50 46 44 61 60 57 53 48 46 69 67 64 61 56 52 71 69 68 64 60 56 03S0 8 175 83 44 44 42 39 34 30 46 46 44 41 41 42 49 • 48 47 45 47 49 51 49 49 48 51 53 04S0 350 165 48 47 44 41 35 31 52 51 49 46 43 41 56 56 55 52 51 51 58 57 58 54 54 55 525 248 53 52 49 47 42 34 57 56 54 51 47 42 61 60 59 56 53 51 62 62 62 58 56 56 700 330 58 56 53 51 47 40 60 59 57 55 51 45 64 64 63 60 56 52 66 66 66 62 59 57 1050 496 64 63 60 59 51 46 68 67 65 63 59 53 69 69 68 67 63 57 71 71 71 69 65 60 03SQ 10 275 130 48 47 46 44 38 32 50 50 49 47 46 47 52 53 53 51 50 49 54 55 56 54 54 53 04S0 550 260 53 51 50 47 42 35 56 56 54 51 48 43 59 61 60 57 55 54 61 63 63 60 58 56 05S0 825 389 57 55 53 50 46 39 60 60 58 56 52 46 63 65 64 60 58 53 66 68 68 64 62 59 1100 519 60 59 57 54 50 43 . 63 63 62 59 55 49 68 68 67 64 61 56 70 70 70 67 64 60 1640 774 65 65 63 59 54 48 69 69 68 64 61 55 72 73 72 69 66 60 75 76 75 73 70 64 03S0 12 385 182 48 47 47 41 38 34 52 51 51 46 43 41 55 56 57 52 50 48 55 58 60 55 54 53 .r . 04SQ 775 366 54 52 52 49 43 37 59 58 57 54 50 47 63 64 63 59 55 52 65 66 66 61 58 55 0560 1160 547 58 56 55 51 47 41 63 61 60 57 54 49 69 67 67 64 61 55 72 70 70 67 64 59 A.V4 e 1550 732 61 59 58 54 50 44 66 64 63 60 57 51 71 70 69 65 61 55 73 70 69 67 64 58 76 74 73 71 68 62 2350 1105 66 65 65 60 56 50 77 74 73 71 68 62 80 78 77 75 72 66 a, '..- 0560 14 525 248 51 49 48 45 41 35 55 53 53 50 48 44 59 58 59 55 53 52 60 61 62 58 56 55 1050 496 57 55 54 51 51 40 63 61 60 57 54 49 66 67 66 62 59 56 68 69 69 65 62 58 1575 743 60 58 57 54 52 44 67 64 63 60 57 52 71 71 70 67 63 59 73 74 73 70 67 62 2100 991 63 61 60 57 53 47 68 67 66 62 59 56 75 73 72 70 66 61 78 77 76 73 70 65 3200 1510 68 67 67 63 59 55 73 71 71 67 64 59 79 77 76 73 70 65 83 81 79 77 74 69 06SQ 10 550 260 50 48 46 43 38 31 53 53 51 49 45 41 57 59 58 54 52 54 59 62 62 58 56 54 07SQ 800 378 54 52 50 46 41 34 57 57 55 52 48 42 61 62 61 57 54 53 63 65 65 61 59 56 1000 472 57 55 53 49 44 36 60 60 58 54 50 43 64 64 63 60 56 52 66 67 67 64 61 57 1200 566 59 58 56 52 46 39 63 63 61 57 52 46 67 67 66 62 58 53 69 69 69 66 62 58 1350 _ 637 61 60 58 54 48 42 65 65 63 59 54 48 69 69 68 64 60 54 71 71 71 67 63 59 06S0 12 800 378 60 55 55 54 51 42 65 61 61 61 59 51 68 66 65 66 64 57 70 69 68 69 67 60 07SQ 1100 519 62 56 56 54 52 43 69 64 63 63 60 53 72 70 69 70 67 60 74 73 72 73 71 64 1400 661 63 58 58 54 52 44 71 66 64 64 62 54 76 72 71 72 70 62 78 76 74 76 74 66 1700 802 64 60 60 55 52 44 72 68 66 65 62 55 79 74 72 73 71 63 81 78 76 77 76 68 2000 944 66 62 61 55 52 46 73 69 67 65 63 55 81 76 74 74 71 64 83 80 78 78 77 69 06S0 14 1100 519 57 53 53 51 48 41 62 59 58 57 54 48 66 65 64 61 60 55 70 70 69 64 62 59 07SQ 1600 755 61 57 56 55 52 45 66 63 62 61 58 52 71 69 68 66 64 59 74 72 71 69. 67 62 2100 991 64 • 60 60 57 55 47 69 66 66 64 61 55 74 71 71 69 67 61 77 75 74 72 70 65 2500 1180 67 63 63 60 57 50 71 68 67 66 63 56 77 73 72 71 69 63 80 76 76 74 72 66 3000 1416 70 66.. 66 63 60 53 74 70 69 68 65 58 80 75 74 73 71 65 84 78 78 76 74 68 06SQ 16 1400 661 59 56 54 54 51 43 64 62 61 60 57 52 69 69 67 65 62 57 72 74 72 67 65 61 07SQ 2100 991 61 59 58 56 54 46 68 65 63 62 60 55 73 72 71 69 67 62 75 75 74 72 70 65 2700 1274 64 62 61 59 56 49 70 67 66 65 62 57 76 73 72 71 69 64 79 77 76 75 73 68 3400 1605 67 64 64 62 58 52 72 69 68 66 64 58 79 74 74 72 70 65 83 78 77 76 74 69 4000 1888 70 67 67 64 61 55 74 71 70 68 65 60 81 76 75 74 71 66 86 79 78 77 75 70 1. All data are measured in accordance with Industry Standard ARI 880-98. 2. All sound power levels, dB re: 10 - "Watts. 3. Where \Ps is inlet static pressure minus discharge static pressure. FPP 20 VAV-PRC008-EN ' , Radiated Sound Power (dB) Valve Only ..Batdfated..S.o.und..P. wier...( d6) _ ._ ............................_ ............................_........._................_.._..._... ............................... Fan Inlet 05" as 1.0" APs 2.0" as 3.0" .iFs Size Size Cfm L/s 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 2 3 4 5 6 7 02SQ 6 200 94 48 40 38 35 31 25 48 44 42 37 33 26 53 48 47 43 38 33 54 50 47 44 41 37 300 142 51 45 42 35 29 24 54 49 46 39 33 26 57 51 50 44 38 32 60 55 53 48 42 37 400 189 54 48 46 38 32 25 58 53 49 42 35 26 61 55 52 47 40 33 63 57 55 49 43 37 500 236 52 50 48 40 33 27 62 56 52 45 37 29 65 59 56 50 42 34 65 60 57 52 45 38 02SQ 8 350 165 53 45 40 37 31 23 55 49 44 39 35 30 60 53 50 45 41 36 62 55 52 48 45 40 520 245 57 49 44 40 34 26 59 53 48 42 37 31 64 57 53 47 43 38 66 59 56 51 46 41 700 330 61 53 48 43 37 29 63 57 52 46 40 33 68 61 57 50 45 40 70 63 60 54 48 42 900 425 66 58 53 47 41 33 68 62 56 50 44 37 72 65 61 53 48 42 73 67 63 56 50 44 02SQ 10 550 260 57 50 44 39 32 25 61 54 48 42 36 28 65 58 52 46 40 34 67 60 56 50 43 38 820 387 59 52 46 41 34 25 64 58 52 46 40 31 69 63 56 51 44 37 71 66 60 54 47 40 1100 519 62 56 50 44 41 26 66 61 54 49 42 33 72 66 60 54 48 39 75 68 63 57 51 42 1400 661 65 60 53 47 44 30 . 68 64 57 52 45 36 74 69 63 57 50 41 77 71 66 60 53 44 03SQ 6 100 47 49 44 38 37 31 24 50 46 41 41 35 29 52 47 44 46 41 36 53 48 45 48 45 40 200 94 50 44 39 37 31 24 53 48 43 41 36 29 56 51 47 46 42 36 59 53 49 49 45 40 300 142 52 45 40 38 31 25 54 50 45 42 36 30 59 53 50 47 42 37 60 55 53 49 45 40 400 189 54 47 42 39 33 26 57 53 48 44 38 31 61 55 52 48 43 38 62 57 55 50 46 41 600 283 58 53 50 45 40 34 58 56 54 48 42 35 64 61 58 51 45 39 67 62 60 53 48 42 03S0 8 175 83 52 45 39 36 33 26 54 47 42 41 36 30 57 50 45 46 42 36 59 52 46 49 45 39 04SQ 350 165 57 50 43 38 33 26 59 52 46 42 37 30 61 54 50 47 43 37 63 55 52 50 46 40 525 248 58 51 45 39 34 27 61 55 48 43 38 31 64 57 53 48 44 37 66 58 56 51 47 41 700 330 60 53 47 42 36 30 63 56 51 45 39 33 66 60 55 49 44 37 68 62 58 52 48 41 1050 496 63 59 55 49 42 35 68 62 57 51 45 38 72 65 60 54 48 41 74 67 63 56 50 43 03S0 10 275 130 55 49 43 38 34 27 57 51 45 42 37 30 58 53 48 47 43 36 59 54 50 50 46 40 04SQ 550 260 59 54 47 40 34 28 61 56 50 45 39 34 63 58 53 51 45 41 64 60 56 54 51 44 05SQ 825 389 61 55 49 42 36 29 63 58 53 46 40 35 66 61 57 51 46 41 69 64 60 54 50 44 1100 519 62 56 50 44 38 32 66 60 54 49 43 37 70 64 59 53 48 43 72 66 62 56 51 46 1640 774 65 61 55 50 43 37 70 65 58 53 46 40 76 69 64 58 51 45 79 72 67 61 55 49 03SQ 12 385 182 52 47 42 40 36 30 55 50 45 43 40 35 59 53 48 47 44 39 61 55 50 50 47 42 04SQ 775 366 59 51 45 40 35 28 63 55 48 43 38 33 66 59 52 48 44 39 69 62 56 52 48 42 iitrkp 05S0 1160 547 63 54 47 41 35 30 67 58 51 46 39 35 72 63 56 51 45 40 75 67 60 54 49 43 1550 732 66 58 50 43 37 31 71 62 54 48 42 36 75 66 59 53 46 41 78 70 63 56 50 44 r 2350 1105 69 64 55 49 42 36 74 68 59 52 45 40 79 72 64 57 50 44 0 0 82 75 67 60 54 47 05SQ 14 525 248 58 51 45 40 34 27 61 53 48 44 38 31 64 56 51 49 44 37 66 59 54 51 47 40 1050 496 62 56 49 42 37 30 66 59 52 46 42 34 71 63 57 51 46 39 74 66 60 54 49 42 1575 743 65 59 52 44 37 31 70 62 55 48 42 35 75 67 61 54 48 40 78 70 64 57 51 43 2100 991 67 60 54 45 38 33 72 64 58 50 43 36 78 69 63 56 49 43 83 74 68 61 54 46 3200 1510 72 66 59 51 44 38 77 70 63 55 48 42 83 75 68 60 53 47 86 78 71 63 56 50 06SQ 10 550 550 51 44 42 40 37 32 54 49 45 44 42 38 58 55 49 49 48 45 61 58 52 52 52 49 07SQ 800 378 53 48 43 41 37 32 57 52 47 45 42 38 62 58 52 50 48 45 65 61 55 53 52 49 1000 472 55 51 44 42 38 33 • 59 55 48 46 42 38 65 61 54 51 48 45 68 63 57 54 52 49 1200 566 58 53 47 43 38 33 62 58 51 47 42 38 67 63 56 52 48 45 70 65 59 56 52 49 1350 637 60• 55 49 44 39 34 64 60 53 48 43 39 69 65 58 53 49 45 72 67 61 57 53 49 06S0 12 800 378 58 50 44 40 33 26 62 55 49 45 38 31 66 60 54 50 43 36 68 63 56 52 46 39 07SQ 1100 519 60 52 46 40 33 27 65 58 51 47 40 33 70 64 58 53 46 39 72 66 60 56 50 42 1400 661 62 54 46 40 34 27 67 60 53 48 41 34 73 66 60 55 48 41 75 69 64 58 52 44 1700 802 64 56 48 42 34 28 68 62 54 48 41 35 76 68 61 56 49 42 78 72 66 60 54 46 2000 944 65 58 49 47 36 31 70 63 55 50 42 35 77 70 62 57 50 43 79 73 67 61 55 48 06S0 14 1100 519 56 49 44 40 32 25 61 55 48 44 38 30 66 61 54 49 43 36 69 66 57 51 45 40. 07SQ 1600 755 59 53 47 42 35 27 65 59 52 48 41 33 70 64 58 53 46 39 74 68 61 55 49 42 2100 991 64 57 51 46 38 29 68 61 55 50 43 35 74 67 61 55 49 41 77 70 64 59 52 45 2500 1180 67 59 53 48 40 31 71 63 57 52 44 36 76 68 62 56 50 42 79 72 66 60 54 46 3000. .1416 71 62 56 50. 42 33 .. 74 66 59 54 46 38 78 70 64 .58 51 44 82 74 68 62 56 48 06SQ 16 1400 661 63 54 48 41 36 29 67 59 53 46 42 35 70 66 58 52 48 40 72 70 61 54 50 43 07SQ 2100 991 66 57 51 44 39 32 71 63 56 49 45 38 75 69 63 56 52 44 77 72 66 59 55 47 2700 1274 68 60 54 46 41 34 73 65 59 51 47 40 78 72 66 59 54 47 80 75 69 62 58 50 3400 1605 70 63 57 51 46 42 76 68 61 54 48 42 81 74 68 60 56 48 83 76 70 64 59 52 4000 1888 73 66 60 56 52 50 78 70 63 56 50 45 83 75 70 62 57 50 85 78 72 65 60 53 1. All data are measured in accordance with Industry Standard ARI 880 -98. 2. All sound power levels, dB re: 10 "Watts. 3. Where APs is inlet static pressure minus discharge static pressure. VAV- PRC008 -EN FPP 21 Fa -Powered , x. 4 s+, Sound Noise Criteria { C) Fan Only Sound Power Fan Only Discharge Sound Power (dB) Radiated Sound Power (dB) Radiated Fan Outlet Fan Octave Bands Octave Bands Fan Fan Outlet Discharge NC /NC with Size Static Cfm L/s 2 3 4 5 6 7 2 3 4 5 6 7 Size Cfm Us Static NC Level Attenuator 02SQ 200 94 55 50 50 46 42 35 63 55 53 50 44 37 02SQ 200 94 • — 27/ • 0.25 280 132 57 52 51 48 44 38 65 57 54 52 46 40 280 132 0.25 — 29/* (63 Pa) 350 165 58 53 52 50 46 40 66 58 55 52 48 42 350 165 (63 Pa) — 30/* 430 203 61 55 54 52 49 43 68 60. 57 54 50 45 430 203 — 32/* ' 500 236 62 56 55 53 50 46 69 61 58 .56 52 48 500 236 — 34/* 03SQ 250 118 53 49 51 45 40 39 61 55 53 49 42 35 03SQ 250 118 — 27/24 0.25 400 189 56 51 53 46 42 41 64 56 55 51 45 40 400 189 0.25 — 30/27 (63 Pa) 610 288 63 58 57 53 48 47 70 62 60 56 51 48 610 288 (63 Pa) — 35/* 850 401 65 59 60 56 52 51 72 63 62 59 55 53 850 401 15 37/* 04SQ 300 142 55 51 52 47 41 38 61 56 54 49 43 34 04SQ 300 142 — 29/24 0.25 530 250 56 53 55 50 45 42 63 57 56 51 47 41 530 250 0.25 — 31/26. (63 Pa) 790 373 62 58 59 55 50 48 69 62 60 56 52 49 790 373 (63 Pa) — 35/34 1100 519 65 62 64 60 56 55 72 66 64 60 57 55 1100 519 19 39/37 1350 637 68 65 66 65 60 59 75 69 67 64 61 60 05SQ 350 165 — 29/26 05SQ 350 165 56 52 54 46 40 37 63 57 54 48 42 35 650 307 0.25 — 32/29 0.25 650 307 58 55 57 50 45 42 65 60 57 51 47 43 970 458 (63 Pa) 16 37/32 (63 Pa) 970 458 61 60 62 57 51 50 68 63 62 57 53 51 1300 614 21 40/37 1300 614 64 63 66 63 58 57 71 67 65 62 59 57 06SQ 920 434 16 37/ • 06SO 920 434 63 60 60 56 51 48 71 64 62 56 51 47 1200 566 0.25 20 39/* 0.25 1200 566 66 63 61 59 54 51 73 65 63 59 53 51 1400 661 (63 Pa) 21 411* (63 Pa) 1400 661 68 64 63 61 56 54 75 67 64 60 55 53 1700 802 25 44/* 1700 802 70 67. 65 63 58 57 77 69 66 63 58 56 07SQ 1050 496 16 37/32 07SQ 1050 496 59 60 61 55 49 46 67 61 62 56 50 46 1300 614 0.25 21 41/35 0.25 1300 614 62 64 62 58 53 50 69 64 66 58 54 50 1500 708 (63 Pa) 24 44/36 (63 Pa) 1500 708 64 66 64 61 56 53 70 65 68 60 56 52 1800 850 25 44/40 1800 850 66 67 68 65 60 57 73 68 68 63 59 56 *Attenuator not recommended 1. .AII data are measured in accordance with Industry Standard ARI 880 -98. Notes: 2. All sound power levels, dB re: 10 Watts. 1. -" represents NC levels below NC 15. re r 2. NC Values are calculated using current Industry Standard ARI 885, 2002 addendum to revision 1998. z RadiatedTransfer Function obtained from Appendix po E,Type 2 Mineral Fiber Insulation. ARI 885 - 98 DISCHARGE TRANSFER FUNCTION ASSUMPTIONS: Octave Band ................._.........__. 2 3 4 5 6 7 Small Box ( <300 Cfm) -24 -28 -39 -53 -59 -40 Medium Box (300 -700 Cfm) -27 -29 -40 -51 -53 -39 Large Box ( >700 Cfm) -29 -30 -41 -51 -52 -39 Subtract from terminal unit sound power to determine discharge sound pressure in the space. ARI .'5 -98 RADIATED TRANSFER FUNCTION ASSUMPTIONS: Octave Band 2 3 4 ... .......... _.. 5 ....... ..._.._._. Type 2- Mineral Fiber Insulation -18 -19 . -20 -26 -31 -36 Total dB reduction -18 -19 -20 -26 -31 -36 Subtract from terminal unit sound power o determine radiated sound pressure in the space. FPP 22 VAV- PRC008 -EN FanPo Parallel ,, Sound Noise Ciiteria (NC) Valve Only Discharge Radiated NC Level APs NC Level t\Ps Fan Inlet 0.5" 1.0" 2.0" 3.0" 0.5" 1.0" 2.0" 3.0" Size Size Cfm Us (127 Pa) (254 Pa) (508 Pa) (762 Pa) (127 Pa) (254 Pa) (508 Pa) (762 Pa) 02S0 6 200 94 — — — 20 — 15 21 21 300 142 — — — 19 15 20 24 27 400 189 — 16 19 21 20 23 26 30 500 236 — 20 22 26 22 26 31 32 02SQ 8 350 165 — — 15 19 — 17 24 26 520 245 — — 19 21 19 22 27 31 700 330 16 20 25 27 24 26 32 35 900 425 21 25 29 31 30 32 37 39 02SQ 10 550 260 — 16 22 25 19 24 29 31 820 387 — 21 29 31 21 27 34 37 1100 519 17 25 31 35 25 31 37 41 1400 661 22 29 35 38 30 35 40 03SQ 6 100 47 — — — 16 — — 18 20 200 94 — — — 17 — 16 21 23 300 142 — — 16 17 — 19 24 27 400 189 — 16 21 22 15 22 26 30 600 283 16 19 27 30 24 29 33 35 03SQ 8 175 83 — — — 17 — 15 19 21 04SQ 350 165 — — 15 19 19 21 24 26 525 248 — — 17 20 20 24 27 31 700 330 — 16 22 25 22 26 30 33 1050 496 21 26 29 31 30 32 37 40 03SQ 10 275 128 — — — 17 16 19 22 24 04SQ 550 260 — — 18 20 22 25 27 31 05SQ 825 389 — 16 22 26 24 27 32 35 1100 519 15 20 26 29 25 30 35 37 1640 774 22 27 32 36 31 36 42 03SQ 12 385 182 — — — 17 15 19 22 24 Kikv4 04SQ 775 366 — — 21 24 21 26 30 34 05SQ 1160 547 — 17 25 29 26 31 37 41 P4iti 1550 732 15 21 29 34 30 36 41 45 2350 1105 22 29 34 38 35 40 05SQ 14 525 248 — — 16 19 20 24 27 30 1050 496 — 17 25 27 25 30 36 40 1575 743 — 21 30 34 29 35 41 45 2100 991 17 25 32 37 31 37 45 52 3200 1510 25 30 37 41 37 44 52 56 06SQ 10 550 260 — — 18 19 15 19 24 27 0750 800 378 — — 19 22 16 21 27 31 1000 472 — 16 21 25 19 24 31 34 1200 566 — 20 25 27 21 27 34 36 1350 637 16 22 27 30 24 30 36 38 06SO 12 800 260 — 17 24 27 20 25 30 34 07SQ 1100 519 — 21 29 32 22 29 35 37 1400 661 — 24 31 36 25 31 39 41 1700 802 16 26 34 38 27 32 42 * 2000 944 19 27 36 40 29 35 06SQ 14 1100 519 — 15 22 29 17 24 31 37 0750 1600 755 — 20 27 31 21 29 35 40 2100 991 16 24 30 35 27 32 40 44 2500 1180 20 26 32 36 31 36 42 46 3000 1416 24 29 35 39 36 40 45 50 06SQ 16 1400 661 — 19 27 34 26 31 37 41 07SQ 2100 991 15 22 31 35 30 36 41 44 2700 1274 19 25 32 37 32 39 45 3400 1605 21 27 34 38 35 42 * 4000 1888 25 30 36 41 39 45 52 55 *Not a recommended selection VAV-PRC008-EN FPP 23 Fan- '° ovver d ' radOei ,.._.. Discharge Sound Power (dB) Radiated Sound Power (dB) Valve Only Valve Only AR Conditions ARi Conditions Fan Inlet 1.5" inlet Pressure (381 Pa) Fan Inlet 1.5 "., inlet ._Pressure...(331 _ Size Size Cfm Us 2 3 4 5 6 7 Size Size Cfm L/s 2 3 4 5 6 7 02SQ 5 250 118 61 56 54 53.. 50 47 02SQ 5 250 118 50 48 46 .42 38 30 02SQ 6 400 189 63 60 59 60 57 49 02SQ 6 400 189 60 54 51 44 37 29 02SQ . 8 700 330 65 64 63 60 57 . 52 02S0 8 700 330 66 59 55 48 43 39 02SQ 10 1100 519 73 69 68 68 66 58 02SQ 10 1100 519 70 64 58 52 45 36 03SQ 6 400 189 61 60 57 53 50 46 03SQ 6 400 189 59 55 51 46 41 35 03SQ 8 700 330 62 62 60 57 54 49 03SQ 8 700 330 64 58 53 47 42 35 0460 04SQ 03SQ 10 1100 519 66 66 65 62 59 53 03SQ 10 1100 519 68 62 57 51 46 40 04SQ 04SQ 05SQ 0550 03SQ 12 1600 755 70 67 66 64 61 55 0350 12 1600 755 73 64 57 51 44 39 04SQ 0450 05SQ 05SQ 04SQ 14 2100 991 72 71 69 66 63 59 04SQ 14 2100 991 75 66 60 53 46 40 05SQ 05SQ 06SQ 10 1100 519 63 64 62 58 54 49 06SQ 10 1100 519 63 59 53 49 46 42 07SQ 07SQ 06SQ 12 1600 755 75 71 69 69 67 60 06SQ 12 1600 755 73 65 58 53 46 40 07SQ 07SQ 06SQ 14 2100 991 72 69 68 67 64 58 06SQ 14 2100 991 72 64 58 53 46 38 07SQ 07SQ 06SQ 16 2800 1321 74 70 69 68 66 61 06SQ 16 2800 1321 76 69 62 55 51 44 07SQ 07SQ Note: Oversizing primary valves to achieve lower sound levels will increase the minimum operable cfm. (See "Valve /Controller Airflow Guidelines ".)This will increase energy consumption at minimum airflows when local reheat is energized. Discharge Sound Power (dB) Radiated Sound Power (dB' Fan Only Fan Only ARl Conditions AR! Conditions Fan Inlet Fan Inlet Size Size Cfm L/s 2 3 4 5 6 7 Size Size Cfm L/s 2 3 4 5 6 7 0260 6, 8, 10 500 236 62 56 55 53 50 46 02SQ 6, 8, 10 500 236 69 61 58 56 52 48 03SQ 6, 8, 10, 12 1090 514 70 64 65 63 58 58 03SQ 6, 8, 10, 12 1090 514 77 68 66 64 60 59 04SQ 8, 10, 12, 14 1300 614 67 64 66 64 59 58 04SQ 8, 10, 12, 14 1300 614. 74 68 66 63 60 59 05SQ 10, 12, 14 1550 732 66 65 67 66 61 60 05SQ 10, 12, 14 1550 732 74 69 68 65 62 61 06SQ 10, 12, 14,16 1960 925 72 69 68 66 62 60 06SQ 10,12, 14,16 1960 925 79 71 67 64 61 59 07SQ 10, 12, 14,16 2020 953 67 68 69 66 62 59 07SQ 10,12, 14, 16 2020 953 74 . 69 69 65 61 58 Notes: 1. All data are measured in accordance with current Industry Standard ARI 880, version 98. 2. All sound power levels, dB re: 10 � isZ•;�;. r. p FPP 24 VAV- PRC008 -EN Fa -Po red TI x _ n Parallel net Attenuator Appurtenance Effects (Fan Noise Only) t isciaarrge_Sot nd Effect* dr3) Radiated Sound Effect *..(dF) Fan 2 3 4 5 6 7 2 3 4 5 6 7 Matte -faced and foil -faced insulation, solid double - wall ** O2SQ 2 1 1 2 1 2 1 -2 -8 -13 -15 -16 O3SQ, O4SQ, O5SQ 2 1 1 2 1 2 0 -1 -8 -12 -16 -17 O6SQ, O7SQ 2 1 1 2 1 2 1 0 -8 -12 -15 -18 Closed -cell insulation O2SQ 1 1 1 1 1 1 1 -1 -3 -2 -4 -4 O3SQ, O4SQ, O5S0 1 1 1 1 1 1 0 -1 -3 -2 -4 -4 O6SQ, O7SQ 1 1 1 1 1 1 1 -1 -3 -2 -4 -4 • Add to sound power, a negative effect represents a sound reduction, a positive effect represents a sound increase. ** Note- Attenuators on double -wall units contain foil -faced insulation. Parallel Cabinet Lining Appurtenance Effects • (Fan Noise and Valve Noise) OiscftargeSound Effect* fd€3) Radiated Sound Effect- (dB) Fan 2 3 4 5 6 7 2 3 4 5 6 7 Solid double -wall O2SQ 3 1 1 -1 1 3 1 0 0 1 4 7 O3SQ, O4SQ, O5SQ 1 -1 1 3 4 5 1 0 2 5 8 8 O6SQ, O7SQ 3 1 1 1 3 5 -1 -1 -1 2 4 5 Closed -cell insulation O2SQ 1 1 1 0 1 4 0 0 2 2 5 7 O3SQ, O4SQ, O5SQ 1 1 2 2 2 3 1 2 4 4 4 5 O6SQ, O7SQ 1 1 2 1 2 4 1 0 3 4 5 6 * Add to sound power, a negative effect represents a sound reduction, a positive effect represents a sound increase Parallel Heating Coil Appurtenance Effects nw r a e.xa a.�.a n�ac3,o- w.. a a, y°`jzt£ 7ischarse: Sound Effect (dB) Radiated. Sound ffect (dB) Fan 2 3 4 5 6 7 2 3 4 5 6 7 Hot Water Coil ** O2SQ -1 0 -1 -1 0 -1 -1 -1 0 -1 -1 -3 O3SQ, O4SQ, OSSQ 2 2 2 2 2 1 1 1 1 1 0 0 O6SQ, O7SQ 2 1 0 -1 0 0 0 0 0 -1 0 -1 Electric Heat * ** O2SQ 0 0 0 -1 -2 -1 0 0 0 0 0 0 O3SQ, O4SQ, OSSQ 0 0 0 0 0 1 0 0 0 0 0 0 O6SQ, O7SQ 3 4 3 2 4 4 1 0 0 0 0 0 * Add to sound power, a negative effect represents a sound reduction, a positive effect represents a sound increase. ** Add to fan sound only, not valve sound. ***Add to'both fan sound and valve sound. Apply fan only data, not valve sound. VAV- PRC008 -EN • FPP 25 Fan-Powered I :•,,, Parallel PARALLEL COOLING ONLY (VPCF) — - -- -- FAN INLET SIZE INLET SIZE DISCHARGE DIMENSIONS UNIT WT' SIZE AVAILABILITY AVAILABILITY H W L A B- WT g) (NOMINAL O) (NOMINAL 0mm) t 0250. 5 6", 8 °, 10' 127 mm 152 mm, 203 mm, 254 mm 15.50" (394 mm) • 40.00 (1016 mm) 30.00 (762 mm) 19.25" (489 mm) • 14.00" (356 mm) 78 (35) 03S0 6 8 10 , 12 152 mm 203 mm 254 mm, 305 mm 17.50" (445 mm) I 32_50 (826 mm) L 16.00" (40 mm) 96 (431_ 045 8 10", 12", 14" _ 203 mm 254 mm, 305 mm 356 mm L ___ 97 ( 44 ) ..... 05S0' 10 ", 12 ", 14" 254 mm, 305 mm, 356 mm L _ I _ I 111 (50) 0650 101_12",_14". 16" 254 mm. 305 mm, 356 mm, 406 mm 21.50" (546 mm) (1016 mm)] 20.00 (508 mm) 117 (53) 07SQ10 ", 12', 14" 16 254 mm. 305 mm 356 mm a06 mm I _ f I (57) a. , ' � �\� -� Opironel Ananuator � ' \ r f` \ V �\ Field Installed \ \ e , t V �\y !L'1 \ ''yam, \ \ \:... -\ .....,, —4- -=-, , ,-.A„: L.-,.., .?"''',. , - . - - , , ,--- 1,:',,,,<„,;(,,,,p,,,, _,,,,.„( „.... ,,,,,:z..,... _,,.„...s,,..,....,....... .„,,,,,„\.....)4,...._,.. ..,„:„),,,,-f- . --,,,,,,<,,,,_.., ...;.„, 5,,,Z(., „ ... Actuator, Controller and '>_>' Actuator, Controller and Fan Controls located in this area Fan Controls located in Ins area 40 00' (tots mm) m t " .2 C Airflow Plenum Inlet '' a.oc' 20.00' T Naives 5'-145 102 mm ) _ - s0e mml (Valve 16 _ 30,00 (51 z.00 mm) Valve 5' -_ - ... - _ _ _ (762 rem) • 6.50' Optional Anenuatnr Primary (165 mm) Field Installed Airflow. wrong A ; Attn. Weight Fan Size Filter Size Wt Lbs An 4.00" r 1 _ (kg) 0 1 _ v at e noz mm) a �. — 14 " "x 1" v 46 0250 (356 mm x 508 mm x 25 mm) (21) 1e.e75 Mae. - -- 03SO ° - -= _ _ — 04SQ 16 "x20" x 1" 48 22 1479 care — .... - - - I ) • _ _ _ _ _ _ I 05S0 (406 mm x 508 mm z 25 mm) i n' I 06S0 20" x 20" x 1 " 54 (25) I 07S0 (508 mm x 508 mm x 25 mm) 9_... :.._ . L r • NOTES: 1. Allow a minimum 6" (152 mm) plenum inlet p I TO8vlEw clearance for unducted installations. ............. T _/ .. " I 2, Filter location with optional Attenuator. Ai Panel P slides 3. Attenuator- factory assembled, field installed. Discharge Outlet tar Motor access ', 4 _i See Installation Documents for exact hanger bracket location. '' 5H For Motor access, remove bottom screw on hanger brackets 5.50' Max. _�_ �,� w -� 20.00' to slide panel as shown in drawing. (l. 0 (500 mini 6. When Attenuator option selected. water coil ships mounted to attenuator. I 7. Air valve centered between top and bottom panel. -F us6• Max I ; y 8. All high & low voltage controls have same -side NEC 8 - jumpback clearance. (Lett -hand shown, right- hand /mirror (287 mm1 Image optional.) J__'.. ._._ .� 97 Maximum dimensions for controls area shown. Configurations /' and types of control boxes vary according to control type / I . - . __1 selected. See "Enclosure Details" for specific layout. fir ._.. _._...._. A .._.__..._�.. DISCHARGE VIEW • FPP 26 VAV- PRC008 -EN Fan-Powered Parallel ._.- PARALLEL HOT WATER (VPWF) FAN • INLET SIZE INLET SIZE DISCHARGE DIMENSIONS UNIT WT SIZE -- W AVAILABILITY AVAILABILITY I H i W L ---- ---------- - - -- T LBS (NOMINAL 0 ") (NOMINAL Omm) I A B (kg) • 0250 5" 6" _8",_10" 127 mm, 152 mm, 203 mm 254 mm 15.50 (394 mm) 40.00" (1016 m r q - ' 30.00" (762 mm)_ 25" (489 mm) 1 14.00 (356 mrn�78_(35)_ '0350 6 ", 8 ", 10 ", 12" 152 mm, 203 mm, 254 mm, 305 mm 17.50" (445 mm) - 32.50" (826 mm) i 16.00" (406 mrn) I 96 (43) 04S0 8',10" 12 ",14 " 203mm, 254 mm, 305 mm, 356 mm 97 (44)_ • OSSO' 10 , 12 , 14" 254 mm 305 mm ,356 mm 06S0 10 °, 12 °, 14', 16" 254 mm, 305 mm, 356 mm, 406 mm 21.50 ( 546 mm ) _ 40.00" ( 1016 mm ) 20.00 (508 mm) 117 (53) • • 07S0 • 10',12" 1' 16'254 mm, 305 mm, 356 mm, 406 mm f - r T _T - __ 1 125 (57) \ 4 -\ 9 \ J Optional Attenuator \ �I l - \ • � � r / Field Installed \� \ / ..,,,,,,..„,,,,, i/ 1 ]( ICJ , " -f' »'y 'l� \' i / �, \` /.-- Actuator, Controller and - " _. ";,t% Actuator, Controller and Fan Controls located in this area Fan Controls loealnd in this area 40.00" 0016 mm) 20.00- Coll � (508 rem) / Connection C Water 6.30' Coil (160 elm) Airflow cr Plenum Inlet 20.00" (508 mm) (Valves 6 " -14') 4.00 r _ _ (102 mm) .00' Valve 5' Valve 5' C: _ - - 30.00" (Valve 16') - - -- - (762 mm) (51 mm) 6.50" 6.50" Pnma (165 mm) (165 mm) Optional Attenuator . ry Field Installed Attn. Weight Flow Rang AiAlow lubing 1 s, Fan Size Filter Size WI Lbs I s (kg) 1 An : 4,00' i , 14" x 20" x 1" ', t valve : (102 ;m1 Ea. , J 0250 (356 mm x 508 mm x 25 mm) 46 (21) I -_._ 1 0350 I \ �__ -_ 16" x 20' x 1" 8.871• Max. - - — — — _ 5 -J 055Q � (406 mm x 508 mm x 25 mm) 48 (22) • ia79 mml 1I - 1 I - - — — --F I 1 06SQ 20 "x20 "x1" I 1 07S0 (508 mm x 508 mm x 25 mm) 54 (25) I � I L i s. - - -.; 1 I NOTES: I 1. Allow a minimum 6" (152 mm) plenum inlet clearance • TOP VIEW for unducted installations. 5 I p - T_ <: .Filter location with optional Attenuator. Y ; - - - - 5 . 3. Aftenuator- factory assembled, geld installed. Airflow Panel slides / See Installation Documents for exact hanger bracket location. Discharge Outlet for Motor access 5. For Motor access, remove bottom screw on hanger brackets to slide panel as shown in drawing. 5 50' Max. 20.50' 6. When Attenuate, option selected, water coil ships (14n rim) -r -- - W -- - - -- - - isoe mm) mounted to attenuator. ■ • 1 _ 7. Air valve centered between top and bottom panel. 8. All high & Iow voltage controls have same -side NEC I - )umpback clearance. (Left -hand shown, right- hand /mirror I� I s 11.30 Max. f Image optional.) 6 (387 mm) - - H - R. l Maximum dimensions for controls area shown. 1 -- Configurations and types of control boxes vary according to 1_ - L _ - I control type selected. See "Enclosure Details" for specific layout. ,__9 ._. DISCHARGE VIEW VAV- PRC008-EN FPP 27 ... . Fan-Powered ,.., .„ ,.....,.. z..,.•....,••...., Parallel PARALLEL WITH HOT WATER ON DISCHARGE (VPWF) FAN INLET SIZE INLET SIZE 1 DISCHARGE DIMENSIONS ' UNIT WT j SIZE AVAILABILITY AVAILABILITY H W I L : WT LBS (NOMINAL 0") (NOMINAL Omm) A J B (kg) I_ I 02SQ 5', 6', 8', 10" 127 mm, 152 mm, 203 mm, 254 mm 15.50" (394 mm) 40.00" (1016 mm) 30.00" (762 mm) i 20.00" (508 mm) 1 (356 mm) 78 (35) I03S0 6 8 10", 12 152 mm, 203 mm 254 mm, 305 mm 17.50 (445 mm) I 1 32.50" (826 mm) 1 16 00 (406 mm) 96 (43) 104SQ 8", 10°, 12", 14 . _203 mm,,,2 mm, 305 mm, 35m 6 m 1 : . 97 (44) 05S0 10", 12", 14" 254 mm, 305 mm, 356 mm 1 I . r 111 (50) 06SQ 10" 12" 14". 16' 254 mm, 305 mm. 356 mm, 406 mm 21.50" (546 mm) 140.00" (1016 mm) , 20.00" (508 mm) • 117 (53) ' 07SQ1 10". 12". 14", 16" 254 mm, 305 mm. 356 mm, 406 mm 1 ! ; 1 1 - I - 1 . 125 (67), • --. 7 ,e,---------..- -----, 1 ' - "-- , „_,...., , II- ------..--.--11 ''' , Opttonal Aitenuetor e !•1 --- e •I : -„,..„...,. Field Installed !„ As ,00000000,. I ! I r 'nr * 1 ' ''''-„ • 4'7 ..$ : 1 - -, • / "---,,,, ',-- . ' !V 2- ! ! 's• - -- -- . 1 -' '1 ,s • .! '.7`•>' t' •'., `{...: ,... • , , --, !-•-•,• . I , 1 ',.,' ,_ ! !'' .- ' 1 .v-- --,-: • :.4. ,-., \ i,..,; i _-•-,--,- • ...--..„-- - 1 -„,,, 1 ...-- -,:.,,,.-•• ------___,,,-„,, , -----, - .. •:... - --,----, -. 1, ._ ---'------ ,,,,„/---- ---•• ...---- --- , < . 2. Actuator. Controller and Actuator. Controller and Fan Contros located in this area Fan Controls located m this area 40 00' .....! . . . ..... .... (1016,905) Airflow Plenum tole' y pi .) E t!I 4.00 20.00' (Valves 5*-14') (102 0505) -... -- - - (508 rn„,) • . ' -.- Naive 16 2,00' -"..- 30.00' (51 mm) Valve 5' (762 mre) 6.50' p )165r5( Optional Atienuator Aidlow Fte10 Installed ! Flow Ring , tubing . 1 I 1 , , I . , I ' Attn. Weight S Ave ir 4 .00' , 1 Fan Size Filter Size 1 Wt. Lbs. . r .. — .. si (102 mrn) 6 ig I : (kg) . I , ca • 14" x 20" x 1" ! 02SQ 46 (21) . • (356 mm 0508 mm 025 mm) .... 109 m ni : r - - 1 03SQ 1 04SQ 48 (22) 05SQ (406 mm x 508 mm x 25 mm) • 1 1 . . 06SQ 20" x 20" x 1" 54 (25) . 07SQ (508 mm x 508 mm x 25 mm) . . , ' ..... Airflow 0 Discharge Outlet TOP VIEW NOTES: , . 1. Allow a minimum 6" (152 mm) plenum inlet 6.30' : ; Water 1 clearance for unducted installations. (160 mat) 1 Panel sltdes Cotl = 1 1. ) for Motor access .1 2: i Filter location with optional Attenuator. 20.00' 3. Attenuator-factory assemb(ed, field installed. --. (500 ,,,,,) 4. ISee Installation Documents for exact hanger bracket location. 5 517 Max 20 00' ■ .-,-. • .---. - i50e „121) . ..-- -- ' 5.1 For Motor access, remove bottom screw on hanger brackets MO tern) I ! to slide panel as shown in drawing. .i - I' I 6. Air valve centered between top and bottorn panel. i - lir') I ‘; .., 01 1 , 7. All high & low voltage controls have same-side NEC 14 (umpback clearance. (Lett-hand shown, right-hand/mirror , 11.30' Max. , - , ; H 287 "'1 8 T i image optional.) ( 871Maximum dimensions for controls area shown. Configurations I 1 L i t • '1 • . , and types of control boxes vary according to type selected. See I D .• 1 "Enclosure Details" for specific layout. , _.... . • l A ."-1 DISCHARGE VIEW tra• FPP 28 VAV-PRC008-EN P. all ;, COIL INFORMATION FOR PARALLEL PLENUM INLET 1 -ROW COIL FAN COIL I SIZE CONNECTION A B C D L H W • 02S0 .875" (22 mm) O.D. 9.75" (248 mm) 1.30" (33 mm) 2.00' (51 mm) i 2.50" (64 mm) i 20.20" (513 mm) 14.20" (359 mm) 6.75 (171 mm) 1.._ I _...__ . .... _ . _ .. .__ -_ .... (160 mm) 0380 13.75' (349 mm) 1.00' (25 mm) 1.00" (25 mm 1.50 (38 mm) 20A0 "(608 mm) 1 16.00" (� 6 6.30 (; ~ 04S0 I - r - - - - -- 05S0 06S0 1 15.75" (400 mm) 1.25" (32 mm) 2.00" (51 mm) - 2.50 (64 mm) 20.20" (513 mm) 20.20" (513 mm) 6.75 (171 mm) 0750 t ! . ....... f _._ 1 I I ! ... I L W _.—H .75" i I I 09 mm) C t . OUTLET* • ( 1 • -ni H I _ • • s rall • I l G r r „ A AIR FLOW } f i — �� INTERNAL OPERATING INLE 1 FAN SIZEi VOLUME WEIGHT A l GAL (L) � LBS (KG) D I 02SQ 0.14 (.53) 12.3 (5.6) ....._ ............. • _— .. _ • B 1,-- - . 03S0 '.. 04SO 0.21 (.80) 21.9 (9.9) 1 0550 1.125' -- (29 mm) 06S0 0.22 (.84) 14.5 (6.6 ) i 07SQ NOTES: 1. Location of coil connections is determined by facing air stream. R.H. coil connection shown. L.H. not available. 2. Coil furnished with stub sweat connections. VAV- PRC008 -EN FPP 29 Fan-;:'4 ;:,,.,.z i::';, .=. :::,',•,,:,,, ,, :.:0 t, f; ."-'.: INFORMATION FOR PARALLEL PLENUM INLET 2-ROW COIL FAN COIL A B C L H W SIZE CONNECTION 02S0 .875' (22 mm) O.D. : 10.25" (260 mm) 1.25" (32 mm) 6.80" (173 mm) 20.20 (513 mm) 14.20 (359 mm) 6.75" (171 mm) 0350 13.75" (349 mm) 1.00° (25 mm) 6.70" (170 mm) 20.00" (508 mm) 16.00" (406 mm) 6.30" (160 mm) 04SQ , 1 05SQ 1 1 1 I 1 1 06SO E 15.75" (400 mm) 1.12° (28 mm) 6.80" (173 mm) 20.20" (513 mm) 20.20" (513 mm) 1 6.75" (171 mm) — 07S0 t 1 1 ,...1 ,------- L . .-- ---- I --4A(001 ____ 1 _ (19 — mm) OUTLET. 111 H , • -. s o 1 I 1 1 . 00 1 0 i !I I I 1 1 I . . . . fl ! ! _ A AIR FLOW -nag— INTERNAL OPERATING FAN SIZ: VOLUME WEIGHT GAL (L) LBS (KG) INLET 02SQ 0.25 (.95) 16.8 (7.6) ah A it 03SQ 04SQ 0.36 (1 38) 24.8 (11.2) . - 1 05SQ - C 06SQ - 7 B r' - " (50 mm) ,- --,..-1 ' 07S0 0.38 (1.46) 20 1.94 20.1 (9.1) NOTES: 1. Location of coil connections is determined by facing air stream. R.H. coil connections shown, L.H. not available. 2. Coil furnished with stub sweat connections. FPP 30 VAV-PRC008-EN 5 ., „f' COIL INFORMATION FOR PARALLEL DISCHARGE 1 -ROW COIL FAN COIL A B L I H W !. SIZE CONNECTION 02SQ ,875” (22 mm) O.D. 9.75" (248 mm) 1.60" (41 mm) 20.20" (513 mm) 14.20" (359 mm) 6,75" (171 mm) . 0350 -- - 13.75" (349 mm)._.. - _f ... — - 20:00_(50 16 8 mm) 16 .0000 " 406 mm) • 6.30" 160 mm) 04S0 u .__ m 20.20' 513 mm) 6.75' 171 mm ...... I' 05S0 • 1 . t 1 06S0 15.75 (400 mm) 20.20 (513 m ) ( ( ) 07SQ I 1 1 1 1 1 1 I L • W - -,. / \ ate 2.00" � li (51 mm) f i � OUTLET H v AIR FLOW j .1 -.r- (198 mm) �, I :. INTERNAL , OPERATING INLE FAN SIZE VOLUME WEIGHT ACCESS PANEL - -- A ii' 2.50" GAL (L) LBS (KG) ___.._.._ (64 mm) ! 02SQ 0.14 (.53) 12.3 (5.6) • 1 .. I B I 0350 - 04SQ 0.21 (.79) • 21.9 (9.9) 3.40, • 0550 — (86 mm) '— 06SQ 07S0 0.22 (.83) 14.5 (6.6) • 1.125" (29 mm) NOTES: 1. Location of coil connections is determined by facing air stream. L.H. coil connections shown, R.H. opposite. 2. Coil furnished with stub sweat connections. 3. Coils can be field- rotated for opposite connections. Note: Water inlet is always the bottom connection. 4. Flanged water coil shown. Slip and Drive available. 5. Access panel is standard. • VAV- PRC008 -EN FPP 31 Fanc4ftvered 1 - ' ,, : , ! ,„,,, f'odrallei COIL INFORMATION FOR PARALLEL DISCHARGE 2-ROW COIL r _ ' FAN COIL A 8 C D . L H W SIZE CONNECTION 0260 .875 (22 mm) 0.0. 9.78*(248 rnm) 1.60" (41 mm) 1 6.80' (173 mm) 2.00" (51 mm) , 20.20" (513 mm) 14.20" (359 mm) 1 6.75" (171 mm) 0350 13.75" (349 mm) 1 _ 1.00" (25 mm) 0" _ 6.7 ( mrn) 1.00' (25 mm) i 20.00" (508 mm) 16.00" (406 mm) 6.30" (160 mm) 04S0 , III I I I I 1 0560 I 1 I I 1 0660 15.75' (400 mm) 1.25" (32 mm) 6.80" (173 mm) 2.00" (51 mm) , 20.20" (513 mm) 20.20'(513 mm) 6.75" (171 mm) , 07SQ I I I I 1 I I I I . ..1 L (..-- ...------------- , ( 1 I • ( 1 ! I I .1 11 ! 1 I ll I 1 W I 1 1 • 1 ( ( _. 1 1 1 (.... W --•"- e: 1 • 1 1 I ' I 1 I IC---Z, i I 1 I I ' I 1 OUTLET :-.) fer li i 110 1-- _ tal t., 1 J- ..6 - 7.82" (198 mm) A 7 INTERNAL OPERATING AIR FLOW FAN SIZE VOLUME WEIGHT GAL (L) LOS (KG) — PA- 02SQ 0.25 (.95) 16.8 (7.6) 03SQ 04S0 0.36 (1.36) 24.8 (11.2) 05SQ 06SQ 0.38 (1.44) 20.1 (9.1) 07SQ I 0 A.CCESS PA.NEL - INLET — I 7 A . NOTES: I ...t. ' C 1. Location of coil connections is determined by facing air stream. L.H. coil — g connections shcwn. R.H. opposite. ;--- .....2 340" 2. Coil furnished with stub sweat connections. (86 mm) 3. Coils can be field-rotated for opposite connections. Note: Water inlet is — 1.94" always the bottom connection. (50 mm) 4. Flanged water coil shown. Slip and Drive available. 5. Access panel is standard. FPP 32 VAV-PRC008-EN • F .- red Para/lei „ er PARALLEL ELECTRIC HEAT (VPEF) FAN I INLET SIZE INLET SIZE I DISCHARGE DIMENSIONS UNIT WT SIZE AVAILABILITY AVAILABILITY H L - WT LBS (NOMINAL 0 ") l (NOMINAL 0mm)— —. • A B ) 102S0 1 5 6 8", 10” 127 mm, 152 mm 203 mm, 254 mm 15.50" (394 mm) 1 40.00 (1016 ma)) 30.00 (762 mm) 20.00" (508 mm) 0 ('S6 rnm) 12� (54) 103SQ 6" 8 10". 12" 152 mm 203 mm 254 mm, 305 mm 17.50" (445 mm) 32.50" 826 mm)_ 16 00 (406 rnm) 96(43) 04SQ 8 ". 10 12.14 203 mm 254 mm 305 mm, 356 mm 4 138 (63), 05SQ_ 10 , 12 , 14" 254 mm, 305 mm, 356 mm �_ ! 1 141 (64) 106SO i 10; 12",14", 16 254 mm, 305 mm, 356 mm, 406 mm 21.50' (546 mm) I 40.00" (1016 mm) J_ __. 20.00" (508 rnm) ' 178 (80) 07SQ10" 12 "_ 14 ", 16" 254 mm, 305 mm_ 356 mm. 406 mm ..__I_— 1 1 .._.__1.. _._. -._ _._... _1 I 186 (84) i/ / ' \\ yam\ \ \ \ \\ >- \ � / may' «< Optional Attenuator \ // l ,� ; \ \�� field Installed � '' \ if `` /'/ 4 �� ' ✓.,� 1 1 -� � " / fir :_A , ` \ - -��/ , ` �/ �_ ice' �� 2 '.., \ ``\ F an Controls Actuator, m this area Actuator, Controller and Fan Controls located in this area 60.00' _ (1016 mm) 1 • 1 u Avll �`a Plenum Inlet _ `''21 y . _ 20.00' E . (508 mm) __ — 4.00' C . _ � 30.00' � ''si +— Valve 5" (762 mm) (102 mm) 6.50' 001,0 al Atlenuator Primary (165 mm) Field Installed Airflow Flow Ring . 10505 \ 1 Attn. Weight f .._.___.l Fan Size Filter Size Wt. Lbs. 6.,,S,,,,-,. o (kg) �. 1 - , van - 4 ( mm) ''� -___�- 14 "x20 "x1" I I 02SQ 46 (21) 1 , L (356mmx508mmx25mm) i 03SQ 18,975' Max. I c _ I., _ _ 04SQ 16" X 20 x 1' 48 (22) (479 mm) :ii 1 r 05SQ (406 mm x 508 mm x 25 mm) • l 06S0 20" x 20" x 1" 54 (25) �..y -� - • I L 07SQ (508 mm x 508 mm x 25 mm) 22.00' m (559 mm) `,1 NOTES: ____1.. 1. Allow a minimum 6" (152 mm) plenum inlet clearance for I 6 Heater `•',.' (152 mm) unducted installations. \ 1._.__...__.__.` __..._.__._____ -- .- -.� 1 4, I � 2. ;Filter location with optional Attenuator. I Panel slides for Motor access 3. Attenuatory factory assembled, field installed. Airflow .- __4_ - I For motor access, remove bottom screws on hanger brackets Discharge Outlet TOP VIEW to slide panel as shown in drawing. - 5 1 See Installation Documents for exact hanger bracket location. 5 5 0 1 4 0 5 _ w 20 00' (140 mm) ''� �'" (516 mm) - .--I 6. Air valve centered between top and bottom panel. 7. Heating coil uninsulated. External insulation may be field I supplied and installed as required. j 8. AM high & low voltage controls have same side NEC jurnpback clearance. (Left -hand shown. right - hand /mirror image optional.) i I rk 4 : - t.- 11.30' Max. L (t T y I H . - 9Maximumdimensionsforcontrolsareasho wn.Configurations 0 (287 mm) " 13 .� -. d, ..t . - '� � � "- "--- and types of control boxes vary according to control type I. ) 1; .iy. selected. See "Enclosure Details" for specific layout. 1 1.. ..__.._ 7* A DISCHARGE VIEW VAV- PRC008 -EN FPP 33 • Fant ;war rd arailei ENCLOSURE DETAILS (Parallel Units) AIRFLOW AIRFLOW 1 I Y AIR IR 1C1, VALVE P VALVE I / I • I I , / r ACTUATOR 7 11 , . / 6.50" , , 065 mm) (165 nun) , t V / / .., / • / . / / Detail A 5.50' _ / / Detail B (140n) --'---- —." (14O) AIRFLOW AIRFLOW V AIR AIR .i ,. VALVE 1 "I I PI VALVE .,/ I I i I ACTUATOR -44 , . 1 ,/ 1 ---4 1, - -= 16.50 = _ 1- , . ' " (419 rnm) — -- — - .."1." — — -.._-_, L ■ //'' A0.11 ai , . , 6.50" . it (165 mrn) • 1 / . . . ._ //- / • / , • / • • , _/ I Detail C _/ 5.50" I ' _._,/ Detail D (140r) II 7... -..1 (127rrn11 "'" • AIRFLOW Y i AIR P VALVE 6.50" I / NOTES: (165 rnm) 1 . All high & low voltage controls have same-side jumpback . I ._ 1 / / clearance. (Left-hand shown, right-hand available. ACTUATOR --,,,_ I / C._ _ -_.• :- - —_4 ,5 / - - -- - / / - / (165 or) , i / „-. Detail E 5.50" Enclosure Detail Summary 0001 DD11 Control Type i ENON I PNON D000 PNOO 1 PNO5 E105 thru thru ENCL FM00 . - - - i 1 I D007 DD17 i 1 02SQ ID ; D D D D D ID ID D D . . • 03SQ . I • Fan Size 04SQ : D : D D ID D • D D D D 05SQ E 06SQ .: A 4 C E 1 1 B C E D D D 07SQ : FPP 34 VAV-PRC008-EN Fan-P , t v " z a3 �. MODELS VPCF, VPWF Fan—Inlet Combinations: and VPEF VPXF Inlet 02SQ 03SQ 04SQ 05SQ 06SQ 07SQ Parallel fan-powered 5" x tenninal units. 6" X X VPCF — Cooling Only 8" X X X 10" X X X X X x VPWF — WithHotWaterCoil 12" X X X X x VPEF —With Electric Coil 14" X X X X 16" X X CASING 22 -gage galvanized steel. Hanger brackets, side access, and plenum filter standard ASTM C 665.There are no ATTENUATORS are provided as standard. exposed edges of insulation (complete The attenuator is 22 -gage galvanized AGENCY LISTING metal encapsulation). steel with an internal acoustical liner. The unit is UL and Canadian UL 1" (25.4 mm) Double -wall Attenuators have been tested in Listed as a room air terminal unit. Insulation —The interior surface of accordance with ARI 880 standards. Control # 9N65. the unit casing is acoustically and FAN MOTOR thermally lined with a 1 -inch, 1.0 Ib. /ft PSC— Single- speed, direct- drive, ARI 880 Certified. (25.4 mm, 16.0 kg /m composite permanent split capacitor type. INSULATION density glass fiber with high - density Thermal overload protection provided. 1/2" (12.7 mm) Matte -faced facing.The insulation R -value is 3.8.The Motors will be designed specifically for Insulation —The interior surface of the insulation is UL listed and meets NFPA- use with an open SCR. Motors will unit casing is acoustically and 90A and UL 181 standards.The accommodate anti - backward rotation thermally lined with 1/2-inch, 1.5 Ib /ft3 insulation is covered by an interior at start up. Motor and fan assembly (12.7 mm, 24.0 kg /m composite liner made of 26 -gage galvanized steel. are isolated from terminal unit. density glass fiber with a high - density All wire penetrations are covered by ECM — Electrically Commutated Motor facing.The insulation R -Value is 1.9.The grommets.There are no exposed is designed for high - efficient operation l l i laton (complete meta insulation is UL listed and meets NFPA- edges of insu with over 70% efficiency throughout encapsulation). tz a �a���' 90A and UL 181 standards.There are the operating range. no exposed edges of insulation 3/8" (9.5 mm) Closed -cell FAN SPEED CONTROL e (complete metal encapsulation). Insulation —The interior surface of Variable Speed Control Switdi 1 6 1" (25.4 mm) Matte -faced the unit casing is acoustically and Insulation —The interior surface of the thermally Tined with 3/8 -inch, 4.4 Ib/ft3 (SCR) —The SCR speed control device 3 is provided as standard and allows the unit casin is acoustical) and (9.5 mm, 70.0 kg/m closed -cell 9 Y operator infinite fan speed adjustment. thermally lined with 1 inch, 1.0 Ib/ft3 insulation.The insulation is UL listed (25.4 mm, 16.0 kg /m composite and meets NFPA -90A and UL 181 TRANSFORMER density glass fiber with a high density standards.The insulation has an The 50 -VA transformer is factory - facing.The insulation R-Value is 3.85. R -Value of 1.4.There are no exposed installed in the fan control box to The insulation is UL listed and meets edges of insulation (complete metal provide 24VAC for controls. NFPA -90A and UL 181 standards.There encapsulation). DISCONNECT SWITCH are no exposed edges of insulation PRIMARY AIR VALVE A toggle disconnect is provided as (complete metal encapsulation). Air Valve Round —The primary air standard and allows the operator to 1/2" (12.7 mm) Foil -faced inlet connection is an 18 -gage turn the unit on or off by toggling to Insulation —The interior surface of the galvanized steel cylinder sized to fit the appropriate setting. This switch unit casing is acoustically and standard round duct. A multiple - point, breaks both legs of power to the fan thermally lined with ' /cinch, 1.5 Ibfft averaging flow sensing ring is and the electronic controls (if (12.7 mm, 24.0 kg /m density glass provided with balancing taps for applicable) fiber with foil facing.The insulation measuring +/ -5% of unit cataloged OUTLET CONNECTION R -Value is 2.1.The insulation is UL airflow. An airflow- versus - pressure Flanged Connection —A rectangular listed and meets NFPA -90A and UL 181 differential calibration chart is provided. opening on the unit discharge to standards as well as bacteriological The damper blade is constructed of a accept a 90° flanged ductwork standard ASTM C 665.There are no closed -cell foam seal that is connection. exposed edges of insulation (complete mechanically locked between two 22- FILTER metal encapsulation). gage galvanized steel disks.The A 1" (25 mm) filter is provided on the 1" (25.4 mm) Foil -faced damper blade assembly is connected plenum inlet and attaches to the unit insulation — The interior surface of to a cast zinc shaft supported by self- with a filter frame. the unit casing is acoustically and lubricating bearings.The shaft is cast thermally lined with 1 -inch, 1.5 Ib /ft3 with a damper position indicator.The (25.4 mm, 24.0 kg /m density glass valve assembly includes a mechanical fiber with foil facing.The insulation R- stop to prevent over-stroking. At 4 in. Value is 4.1.The insulation is UL listed wg, air valve leakage does not exceed and meets NFPA -90A and UL 181 1% of cataloged airflow. standards as well as bacteriological VAV- PRC008 -EN FPP 35 Fan-Povvered .,, 4 aYA t. , S %. Parallel :; HOTWATER COIL Disconnect Switch —An optional may include an externally- adjustable Parallel Water Coils—factory- factory- provided door interlocking setpoint, communications jack for use installed on the plenum inlet. disconnect switch on the heater control with a portable edit device, and an panel disengages primary voltage to override button to change the The coil has 1 -row with 144 aluminum- the terminal. individual controller from unoccupied plated fins per foot (.305 m), and if to occupied mode.The override button needed 2 -row with 144 aluminum UNIT CONTROLS SEQUENCE OF has a cancel feature that will return the OPERATION plated fins per foot (.305 m). Full fin system to unoccupied. Wired zone The unit controller continuously collars provided for accurate fin monitors the zone temperature against sensors utilize a thermistor to vary the spacing and maximum fin -tube voltage output in response to changes its setpoint and varies the primary contact.The 3/8" (9.5 mm) OD airflow as required to meet zone in the zone temperature. Wiring to the seamless copper tubes are UCM controller must be 18- to 22 -awg. expanded into the fin setpoints. Airflow is limited by mechanically p twisted pair wiring.The setpoint roof tested at 450 minimum and maximum position set collars. Coils are p adjustment range is 50 -88 °F (10- 31 °C). psig (3102 kPa) and leak tested at 300 points. For a parallel unit, the controller Depending upon the features available psig (2068 kPa) air pressure under will intermittently start the fan upon a in the model of sensor selected, the water. Coil connections are brazed. call for heat. Upon a further call for zone sensor may require from a 2 -wire heat, reheat is enabled. ELECTRIC HEAT COIL 1. Primary Airflow —The fan energizes to a 5 -wire connection. Wireless zone The electric heater is a factory- provided when primary airflow drops below sensors report the same zone and installed, UL recognized resistance the fan setpoint airflow.The fan information as wired zone sensors, open -type heater. It also contains a automatically starts when the zone but do so using radio transmitter disc -type automatic pilot duty thermal temperature drops to the heating technology.Therefore with wireless, primary cutout, and manual reset load temperature setpoint. wiring from the zone sensor to the carrying thermal secondary device. 2. ZoneTemperature —The fan UCM is unnecessary. Heater element material is nickel- energizes when the zone temperature Digital Display Zone Sensor with chromium.The heater terminal box is drops to a selectable number of Liquid Crystal Display (LCD) — provided with 7/8" (22 mm) knockouts degrees above the heating The digital display zone sensor contains for customer power supply. Terminal temperature setpoint. a sensing element, which sends a signal connections are plated steel with to the UCM. A Liquid Crystal Display DIRECT DIGITAL CONTROLS q n' p y ,` ^°+ ceramic insulators. All fan - powered (LCD) displays setpoint or space =m id irzei4 units with electric reheat are single- DDC Actuator—Trane 3 -wire, 24- temperature. Sensor buttons allow the "gi point power connections. VAC, floating-point control actuator user to adjust setpoints, and allow space ,ifkij a release button.Torque is ELECTRIC HEAT OPTIONS with linkage q temperature readings to be turned on or 35 in -lb minimum and is non - spring off.The digital display zone sensor also Magnetic Contactor —An optional return with a 90- second drive time. includes a communication jack for use electric heater 24 -volt contactor for use Travel is terminated by end stops at with a portable edit device, and an with direct digital control (DDC) or fully- opened and - closed positions. An override button to change the UCM analog electronic controls. integral magnetic clutch eliminates from unoccupied to occupied.The Mercury Contactor —An optional motor stall. override button has a cancel feature, electric heater 24 -volt contactor for use Direct Digital Controller —The which returns the system to unoccupied with direct digital control (DDC) or microprocessor -based terminal unit mode. analog electronic controls. controller provides accurate, pressure- Trane LonTalk —The Controller is P.E. Switch with Magnetic independent control through the use designed to send and receive data using Contactor —This optional switch and of a proportional integral control SCC LonTalk profile. Current unit status magnetic contactor is for use with algorithm and direct digital control conditions and setpoints may be pneumatic controls. technology.The controller, named the monitored and /or edited from any of Unit Control Module (UCM), monitors several LonTalk- compatible system- RE. Switch with optional Mercury cury y witch and zone temperature setpoints, zone level controllers. mercury contactor is for use with temperature and its rate of change, ANALOG ELECTRONIC CONTROLS and valve airflow using a differential pneumatic controls. pressure signal from the pressure Analog Actuator— ATrane 3 -wire, Airflow Switch—An optional air transducer. Additionally, the controller 24 -VAC, floating -point control actuator pressure device designed to disable can monitor either supply duct air with linkage release button.Torque is the heater when the system fan is off. temperature or CO concentration via 35 in-lb minimum and is non - spring Power Fuse— If a power fuse is appropriate sensors.The controller is return with a 90- second drive time. chosen with a unit containing electric provided in an enclosure with 7/8" Travel is terminated by end stops at heat, then a safety fuse is located in the (22 mm) knockouts for remote control fully- opened and - closed positions. An electric heater's line of power to wiring. ATrane UCM zone sensor integral magnetic clutch eliminates prevent power surge damage to the is required. motor stall. electric heater. DDC Zone Sensor —The UCM Analog Electronic Controller — Any electric heat unit with a calculated controller senses zone temperature The controller consists of a circuit MCA greater than or equal to 30 will through a sensing element located in board that offers basicVAV unit have a fuse provided. the zone sensor. In addition to the operation and additional override sensing element, zone sensor options functions and operates using 24 VAC FPP 36 VAV- PRC008 -EN 1 Fa n °..w' power.The controller uses a capacitive HOTWATERVALVES operation. For 3 -way operation, type pressure transducer to maintain remove the cap.The valve is linear consistent air delivery regardless of Two-Position Valve —The valve is a equal percentage design.The intended field- adaptable, 2 -way or 3 -way I ° system pressure changes.The enclosure configuration and ships with a cap to fluid is water or water and glycol col (50 /° has 7/8" (22 mm) knockouts for remote maximum glycol).The actuator is a be field installed when configured as a control wiring. ATrane electronic zone 2 way valve. All connections are synchronous motor drive.The valve is sensor is required. National PipeThread (NPT).The valve driven to a predetermined position by Analog Electronic Thermostat— body is forged brass with a stainless the UCM controller using a This single- temperature, wall- mounted steel stem and spring. Upon demand, proportional plus integral control electronic device utilizes a thermistor the motor strokes the valve. When the algorithm. If power is removed, the to vary the voltage output in response actuator drive stops, a spring returns valve stays in its last position.The to changes in the zone temperature. the valve to its fail -safe position. actuator is rated for plenum applications under UL 94 -5V and UL Connections to the VAV unit circuit Flow Capacity - 1.17 Cv 873 standards. board are made using standard three- Overall Diameter - NPT conductor thermostat wire.The set Close off Pressure- 30 psi (207 kPa) Pressure andTemperature Ratings - adjustment range is 63 -85 ° F (17- 29 °C). The valve is designed and tested in full The sensor is available in two models. FlowCapacity - 3.0 Cv compliance with ANSI B16.15 Class One model has a concealed, internally- Overall Diameter - 3/4" NPT 250 pressure/temperature ratings, adjustable setpoint.The other model Close -off Pressure - 14.5 psi (100 kPa) ANSI B16.104 Class IV control shutoff has an externally- adjustable setpoint. Flow Capacity- 6.4 Cv leakage, and ISA S75.11 flow PNEUMATIC CONTROLS Overall Diameter- 1 " NPT characteristic standards. Normally Open Actuator — Pneumatic Close -off Pressure- 9 psi (62 kPa) Flow Capacity- 0.7 Cv, 2.2 Cv, 3.8 Cv, Operating 3 to 8 psig (20 to 55 kPa) spring -range M aximum O P 9 Fluid 6.6 Cv pneumatic actuator. Temperature- 203 °F (95 °C) Overall Diameter-1/2" NPT, 3 /4" NPT 3011 Pneumatic Volume Regulator Maximum system pressure- 300 psi (6.6 Cv) (PVR) —The regulator is a thermostat (2067 kPa) Maximum Allowable Pressure - reset velocity controller, which provides Maximum static pressure- 300 psi 300 psi (2068 kPa) consistent air delivery within 5% of (2067 kPa) Maximum Operating Fluid F cataloged flow down to 18% of unit Temp Electrical Ratin - 7 VA at 24VAC, erature- 200 °F (93 °C) cataloged cfm, independent of changes .i �� in system static pressure. Factory- 6.5 Watts, 50/60 Hz Maximum Close -off Pressure- 55 psi "Y calibrated, field- adjustable setpoints for 8 feet (2.44 m) of plenum rated wire (379 kPa) minimum and maximum flows. Average lead is provided with each valve. Electrical Rating- 6VA at 24VAC. total unit bleed rate, excluding Proportional Water Valve —The 10 feet (3.05 m) of plenum rated thermostat, is 28.8 scim at valve is a field-adaptable, 2 -wa 20 psig (7.87 ml/min at 138 kPa) supply. p Y or 22-gage wire for connection. 3 -way configuration and ships with a Terminations ations are #6 #6 stabs. UNIT OPTIONS cap over the bottom port.This Power Fuse (VPCF, VPWF)— Optional configures the valve for 2-way fuse is factory- installed in the primary voltage hot leg. VAV- PRC008 -EN FPP 37 f FPP 38 VAV- PRCD08 -EN