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V L T 1% � ONSULTING 5032224453 E N G I N E E R 5 503.248.9263 vlmk @vlmk.com 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 www.vlmk.com STRUCTURAL CALCULATIONS for • Plaza West -Roof HVAC New Roof -top Units 9600 Oak St. Tigard, Oregon on n IFS � for E4t5r`PrrAsti �fs� Plaza West, LLC c/o NAI Norris Beggs & Simpson 121 SW Morrison, Suite 200 Portland, OR 97204 CITY OF TIGARD . :. ; : Approved CA>� F9 FRaF�c it L [ co \,c3,tNFF n ` / n Conditionally Approved [ 9 • See Letter to: Follow [ J ,. •� 4111111- Attached eel 1 Permit Nu er: - �C7 OR :GOld ' • • -ss: •.ilk . IMI• e0 )' � = d-11 �t, _ Date: / � EXPIRES: 12/31/ ZofL Approved pi,ai^ shall be on job site... Prepared By: Jim Riemenschneider, P.E. OFFICE COPY VLMK Job Number: 20110527 December 9 2011 'Structural Engineering•Civil Engineering•Industrial Engineering•Planning•Studies /Evaluations•Entitlement VLMK Consulting Engineers, Inc. • Structural Calculations DC -1 Plaza West Roof HVAC Plaza West -Roof HVAC New Roof -top Units 9600 SW Oak St. Tigard, Oregon VLM.K JOB NO. 20110527 STRUCTURAL CALCULATIONS FOR BUILDING PERMIT TABLE OF CONTENTS Design Outline and Criteria DC -1 thru DC -3 Mechanical Unit Anchorage Drawings M -1 thru M -5 Structural Calculations S -1 thru S -17 HVAC support, Existing Roof Framing Design /Analysis Reference Information -FOR REFERENCE ONLY R -1 thru R -6 HVAC cut sheets, aerial photo, existing building Mechanical Roof Plan Project Description and Scope: Two existing rooftop mechanical units are being replaced on the Plaza West building. This building is an existing 5 story office building with a plan size of about 220 feet by 75 feet. The new units are to replace existing units. The roof framing is comprised of metal decking, wide flange joists, and wide flange girders. One new unit is around 1150 lbs and the other is about 1850 lbs and each will use new adapter curbs to fit up with existing conditions. Included in the scope is the lateral anchorage of each unit and analysis of existing support framing. Each new unit is less than 20 feet in length. File: G*ACad2011120110527 \Design Criteria.docx Page 1 Printed. December 09, 2011 Structural Calculations DC -2 Plaza West Roof HVAC DESIGN CRITERIA CODES: 2010 Oregon Structural Specialty Code (Based on the 2009 International Building Code) DESIGN LOADS: Live Loads: Roof Snow Load Flat Roof Snow Load, P 25.0 psf Snow Exposure Factor, C 1.0 Snow Load Importance Factor, I 1.0 Thermal Factor, Ct 1.0 Snow Drift As Required Dead Loads: Roof (Commercial Buildings) Roofing (new and future) 4.0 psf Insulation 1.5 psf Metal Deck 2,2 psf Wide Flange Joists 2.5 psf Wide Flange Girders 1.5 psf Mechanical and Electrical 2.0 psf Suspended Ceiling 1.8 psf Miscellaneous 4.5 psf Total Roof Load 20.0 psf Additional Loads Roof Mounted Mechanical Units As Noted Wind: Basic Wind Speed (3- second gust) 95 mph Wind Importance Factor, 4, I = 1.0 Occupancy Category II Wind Exposure C Rooftop Structures and Equipment <_ 60' Seismic: Seismic Importance Factor 1.0 Occupancy Category II Mapped Spectral Response Accelerations S. = 94.7% S = 34.0% Site Class D Spectral Response Coefficients Sds = 70.7% File G'Acad20111201105271Design Criteria.dxx Page 2 Printed: December 09. 2011 Structural Calculations DC -3 Plaza West Roof HVAC Shc = 39.0% Seismic Design Category D Analysis procedure used Equivalent Static Component Anchorage Factors a RD I HVAC Equip 2.5 6.0 1.0 MATERIALS Structural Steel: • Plates, Shapes ASTM A36 F = 36 ksi • Light Gauge Steel 18 and 20 Gauge Fy = 33 ksi ASTM A1003 ST33H 16 Gauge and heavier Fy = 50 ksi ASTM A1003 ST5OH Bolts and Screws: Bolts ASTM A307 (typical U.O.N.) Lag Bolts in Wood SAE J429 Grade 1 Screws - self tapping ASTM A 510 VS Brand Self Drilling /Self Tapping ICC ER #5617 Hilti Kwik -Pro Self Drilling ICC ER #2196 Wood Framing: Joists, Beams, Plates Douglas Fir #2 and Stringers Sills, Ledgers, Plates, Pressure Treated etc. in contact with Hem Fir #2 HVAC File: G:1Acad2 01 11201 1 0 52 71Desgn Criteria docx Pape 3 Printed: December 09, 2011 1 % ' 1 1 ® W wW W 000 W F N H P N F 220' -0" W W un N f 1 1 4' = 35' -0" 30' -0" 30' -0" 30' -0" 30' -0" 30' -0" 35' -0" to NOTE: 1 I DIMENSIONS FROM ORIGINAL DRAWINGS. o i i I FIELD VERIFY AS REQUIRED. mt7 i Z o -1- - - 1 ,1-- - -\-- -- A • GI z 0 I surg Z , \ , 1 11-; m ,v -4 — I - - __ 71. KJ rn r \ it .o Z - - I - - - - - _1 2--_,,,,43, CO rn 13 '� . / // / 70 1 al p � — H r il � - ��� - - - i4d .. .."4: 4 N °Cn m I Z z r - -I -{ Y s ■ r1 / — p EXISTING WIDE FLANGE SEE ENLARGED 0 BEAMS AND GIRDERS FRAMING PLAN, SHEET M -2 REPLACE EXISTING 77 UNITS, (2) TOTAL I EXISTING ROOF NOTES: D MECHANICAL UNITS 1.) CONTRACTOR TO VERIFY EXISTING FRAMING WITH n CONDITIONS SHOWN AND NOTED PRIOR TO BEGINNING WORK. / \ A ROOF PLAN 2.) WHERE INDICATED ON ENLARGED PLAN, NEW UNITS TO REPLACE EXISTING UNITS. n�_ 1 " =3 -0" I;' M 1 3.) NEW UNITS TO UTILIZE EXISTING CURBS AND CURB SIZES. VERIFY CONDITION OF EXISTING CURBS FOR CORROSTION, DAMAGE, OR OTHER VISUALLY APPARENT STRUCTURAL g d ° DETERIORATION AND NOTIFY ENGINEER OF SUCH CONDTIONS. V 4.) NEW ADAPTER CURBS TO BE COORDINATED WITH EXISTING A g,_ r CURBS AND CONDITIONS PRIOR TO WORK. CONTACT AND P COORDINATE WITH ENGINEER IF ANY DISCREPANCIES EXIST. (E) W16x31 JOIST J Q J w Q - _.._._..__.____ _ __.I.. • a. o �- 7 TYPICAL EXISTING CURB SUPPORT VI (E) W16x31 JOIST / ///\ 1 REPLACE EXISTING HVAC UNIT 7 ,,,, lir NEW HVAC UNIT AND ADAPTOR TO (!r %��� BEAR ON EXISTING FRAMING ON . . 1 I ,t %ry ® ...„, TYPICAL ALL SIDES (WEIGHT = 1120#) r_„ >ru r�ii� REPLACE EXISTING HVAC UNIT "` �\ NEW HVAC UNIT AND ADAPTOR TO BEAR ON EXISTING FRAMING ON Alik ALL SIDES (WEIGHT = 1824 #) ` up, TYPICAL (E) W16x31 JOIST ENLARGED FRAMING PLAN 1/4" = 1' -0" CONSULTING PLAZA WEST ROOF HVAC 20110527 12/06/11 P401 WO. D.I ENGINEERS 9600 SW OAK STREET rcr, ,R M.11 oeam - 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 TIGARD, OREGON 503.222.4453 vlmk @v1mk.com M-2 503.248.9263 �www.vImk.com ENLARGED FRAMING PLAN WV NO • ... is �_ �� NEW HVAC UNIT - MI L . BY OTHERS D U I \ \►. 'Nib. NEW HVAC UNIT A \1U AD APTER i11 1,'� � I.,- IMI III M I. um i 1 d EXISTING CURB 1 1 TYPICAL - SEE PLAN A r 0 FOR MORE DETAILS -- `� —` im - -- ° - -- ' , ►Z1, 1 j . j F 1 7 EXISTING W16x31 I JO ST BEYOND, TYPICAL HVAC SUPPORT DETAIL - TYPICAL 1" =1-0" V I. NI K C U N 5 U L T I N G PLAZA WEST ROOF HVAC 2 0110527 12/05/11 nw ■n ax E N G I N E E R S 9600 SW OAK STREET e? JR 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 TIGARD, OREGON '" "« CHEMED 1 503.222.4453 vlmk @vlmk.com M -3 503.248.9263 lvvww.vImk.com HVAC SUPPORT DETAIL - TYPICAL sm ■c 1 NEW UNIT BASE AND SECURE ANCHOR TO BASE RAIL UNIT WITH (4) #10 x 1/2" TEK SCREWS - 1.1 I Q;' SECURE ANCHOR TO CURB I I WITH (4) #10 x 1/2" TEK UJ U SCREWS, TYPICAL q 16 GAUGE STEEL 'CANFAB' -via, NEW HVAC UNIT OR EQUAL ANCHOR, (4) - `..,- TOTAL, (1) EACH CORNER - nib. ADAPTER CURB ON LONG SIDES OF UNIT i ar SECURE NEW HVAC UNIT ADAPTER CURB TO - EXISTING CURB WITH MINIMUM #12 TEK SCREWS AT 12" O.C. AND (2) SCREWS AT CORNER ANCHOR PLATES TYPICAL m AT CORNER PROVIDE ANCHOR PLATES, o 16 GAUGE x 3" x REQUIRED, LAP UNDER "i 10 GAGE 'CANFAB' OR AND OVER ANCHOR PLATE, LOCATE EQUAL ANCHOR PLATE III ±4" IN FROM CORNER ini GALVANIZED SHEET METAL COUNTER .' EXISTING UNIT FLASHING i��9 MOUNTING CURB EXISTING ROOFING \ 6j6� EXISTING METAL DECK, REMOVE A/', ��i UNDER UNIT AS REQUIRED ME _l�� or SHIM AS REQUIRED AT METAL DECK I CUT METAL DECK AS REQUIRED FOR STRAP I SUPPORT FRAMING PER PLAN SEE DETAIL Ai FOR STRAP INFO 1 HVAC MOUNTING DETAIL M -4 1 1/2" = 1-0" CONSULTING PLAZA WEST ROOF HVAC 27 201105 'y°,,'" ww ,a . an ENGINEERS 9600 SW OAK STREET K,, ,R g °a"`" 041.0 3933 SW Kelly Avenue • Portland •Ore on 97239 -4393 TIGARD, OREGON 503.222.4453 ww.vimk,coom HVAC MOUNTING DETAIL M -4 503.248.9263 www.vlmk.com far NO I v-4-- -AT CORNERS: INSIDE FACE OF CURB WALL PERPENDICULAR 1 1 /2" 3 " / 3" 1 1/2" BOTTOM OF EXISTING ROOF CURB AND TOP BOTTOM PORTION OF cv ® ® ® EXISTING ROOF CURB OF METAL DECK Q ED ED ED 0 SIDE OF EXISTING z STEEL ROOF FRAMING } w AT CORNERS AND AT MID — WIDTH, (3) EACH SIDE, (12) TOTAL, PROVIDE 16 GAGE METAL PLATE x 9" x REQ'D WITH (3) #12 SCREWS INTO EXISTING CURB AND INTO EXISTING STEEL ROOF FRAMING, (6) TOTAL EACH PLATE NOTE: 1. EDGE DISTANCE FROM CENTERLINE OF SCREWS TO BOTTOM OF EXISTING ROOF CURB TO BE FIELD VERIFIED. NOTIFY ENGINEER OF RECORD. EDGE DISTANCE TO BE DETERMINED. STRAP DETAIL 1 " = 1 , -0 " CONSULTING PLAZA WEST ROOF HVAC 2011052) 12/06/11 w,0.1 w. PM ENGINEERS 9600 SW OAK STREET RN JR g NAM *MID 3933 SW Kelly Avenue • Portland • Oregon 97239 4393 TIGARD, OREGON I 503.222.4453 vlmk @vlmk.com M -5 503.248.9263 � www. vim k.com STRAP DETAIL SIM NO CALCULATIONS SEISMIC DESIGN PARAMETERS S -f Conterminous 48 States r,/� 2005 ASCE 7 Standard G 5a7 Latitude = 45.4437 - location of office bldg Longitude = - 122.7754 SW Oak St., Tigard, OR. Spectral Response Accelerations Ss and S1 Ss and S1 = Mapped Spectral Acceleration Values Site Class B - Fa = 1.0 ,Fv = 1.0 Data are based on a 0.05 deg grid spacing Period Sa (sec) (g) 0.2 0.947 (Ss, Site Class B) 1.0 0.340 (S1, Site Class B) Spectral Response Accelerations SMs and SM1 SMs =Fax Ss and SM1 =FvxS1 Site Class D - Fa = 1.121 ,Fv = 1.72 Period Sa (sec) (g) 0.2 1.061 (SMs, Site Class D) 1.0 0.585 (SM1, Site Class D) Design Spectral Response Accelerations SDs and SD1 SDs = 2/3 x SMs and SD1 = 2/3 x SM1 Site Class D - Fa = 1.121 ,Fv = 1.72 Period Sa (sec) (g) 0.2 0.707 (SDs, Site Class D) 1.0 0.390 (SD1, Site Class D) iT 1 CONSULTING `'°'' A� S? VAC K E N G I N E E R S Client 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 Job No. / / Z a,. �))M P 503.222.4453 503.248.9263 U QBta — — ��' sn�c nb.'z g %L*e WF-'W.5 : , 4437 ti =122, 7?54 E. .3 :. ► 330 S = .S4 S ps, .707 A$5(iiey) 5- 512R`r {�� (00`) �P -=(,f7: (o- 4XaaSos ap -2's Re 0.354- Wp � o a Z4-7We©z - P / - v 57: AT/ eR/TRa s / I / 5 frt,t �o Job 1 4 vrE3T FlY� C O N S U L T I N G A. VLMK E N G I N E E R S cram 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 Job No V' /10 2 ? By ` ekil P 503.222.4453 503.248.9263 © Date ! I'�[ sheet n�o. 5 - ZI 4446 5 r �, '/m c Cam/r) jt/,IU D • t7 9S7 C! FRP C (p ELD S NV?t Cr) 7 'Io (eateReCr U SeAe OF - z (1,4E64-) F (6 ct.)4 ?:(002*(Koz/ca xv2,7- ( 9 h) (Cicr, _ - - 7_-24b90,5)64) L-(4F �f xitew • ,,..,(20__PI.2..ep") 1-090 12 1� 2 A ar , >7 11 11411111111r igax ' � '¢rr (510") 41 €ft4p$F )62,Z0 2�v�ULbS UN '11 "'. (8 7 "se>r) 6 I W PWAt Eueoprico 6 (L_Alzclie ►7�) 1 •ZL-bs 1\10 ` l 7 "± ON -- (,, AtApn. VLM K CONSULTIN G E N G I N E E R S cwant, 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 -obNio• 1,00 50.? B , 'e M ( [� P 503.222.4453 503.248.9263 © Date ��( sneeoNo. 7 1 Alto - - W* 6 1: (61 1 7 - ) I U 4T--I CS �l� l .o��uc7 C Ar uP LI— ICE ri or 4( +X +:0b 1 )( Z X / 3 IoM R = (4 & 1, 3 " {2 } ) 3, '.61 >i f [:iy A/D Dye eguRA /g4 , *r 5PEA coR,8 �s� ( @ p coR rs 1411.4 Q d+ 1 ..dQ 1 4142°��vl _ 9 K 'c t Z ��L� CO • 7 &OA- ((e)0. 03 +. X (z E = 3 • ( • T C ,� . ? K // 1 3,18 � fir K,PS _ A-T l (S Y/n l3 4E @ GOT oF Ce)C9Rb) f5 M ~ (+I A- Yd-tic-.4-F (,,+ 5. )3r/ Y 43'ss .r r Y 2j 0,Ags 4+ , I K X4( -1 Z.)) {Co 3.32 /,15(`Ps Y40'.//f CO E NNSULTING Job zA, c sr 4.(C" VLMK ENGINEERS Ckent Job No. . 01405 7 By 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 rr P 503.222.4453 503.248.9263 © Date I' I sheet No 5 L-404Z s T H VA L - U,Q eoivY) _ 13(Ca L_11) vT — t.oAz I,N C.-7 C'? or = , C41.4-Y t9.901X �Zx 2 ' z, 5 t,'&--• (Q4,0.6)( 4) c7 'rsz 5 / Bye op- 4.)cuP.4) f ,g;;,` ;' 0.(a)( (. 1 4. - 27 4 2 K frps 1.2 T" "5ficSR. ~ 4 °3. 5'4 - 2.0410 • /AI& 4 (ai( .44 1<- )( C2-)0 l . &-"XlA2_) CONSULTING Job Pc� Z& (sT t•(v� IC VL11�IK ENGINEERS D'ent Job No. ( Dy ∎1 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 II� I P 503.222.4453 503.248.9263 U Date 1 t'v. Sheet No 1■04.6 S - 10 A.r (,t) W ( 6 - (/htCO ; (ca U N\ - LoN C D t CIAO o J( - 1 -ma P/ r, Lair-v44 ( a kr U N �T E : Ma = (44,4{Y24"2,0,25E7IY-(2,4,652) Rv Aor (FAN = CCQ)(1.12 K ) LIN rrmc4 K., 7b Ki ps �2 APT - TRAtv -E (A rep?. Cdr .0 Neitie - Mop U. 3R)( 3: s f i 5_, c��cZ 0 = C&Xt (2+,Z 5 c 4.C�Z -- 1,s3K'' T=C - Z • 0,58 k `ps SIo/I i >(,(STt1VC A CUR, GozE Mor = ( 4 k. e kti F X .215-4- 4 ` ,5�; 5� 13a �� (5 "*p' - (21(2) , MIL (0,(0Y j 2_ - Of 2ro7 ® Q 16 B PS s6 2 CONSULTING �b ��� � �" V LMK ENGINEERS Client 3933 SW Kelly Avenue • Portland • Oregon 97239 -4393 Job No. 2-0 By P 503.222,4453 503.248.9263 © / 1 ( l Date �" ` ~` sheet No. L " ; L `D S Ta NZ tWiek -C. -1>i/1v ( 'r) (54414-f.A__ ) tv0 S U rJ t^r — S:) arxry q i �1J tT _ , g �J (' l OT -( fit .4 F 2 0.5 5 y 2 (2 k /1 �.l� R C &X (Z )(" (P -- 5 — K 4f. f<. 067 Oc, -v mop 1 - 20.5 t7 �- C�.fhr X S 0, pK,r 0414 . (G21 ( 7 * - 5 Cz�Ccz �" Ou a olr P '-)($1)4Q(4\ CUR,t EPA rivr ( 20 5 t=1` 4-6,0a‘ +- 3 ,3v1 4 4(5f ri (c D, Ce -(o� 1, �zf .k r << / �2� . r • r ., i _Y I ,. X Z • I, 1 � \ ( ) I �)) ( 6 ) 7 i 8 ( \) `) (;) 3 ) k 4 . 5 t I � + 1 I — — m – ," i . A ....57,:t Mk - - -- -- - -- - -- -- - - - C ; - - - - --,` ---,- -- – -- - -- -- . #`; •••._ ) Lt;,40i r FA poror: \ ,____ , lam\ . – — 'qa) —. — — S 0 1 i ,---.. II . '••-.../. k -•-• .. 1‘'. \' Loads: LC 4, (e) MECH VLMK Jim R Roof Plan - Plaza West Nov 10, 2011 at 1:39 PM 20110527 ROOF PLAN W/ MECH. UNIT LOADS roof framing.r3d . X .Y1.Z .5 — co �.... -. - F % SorsIr I lorsfZ • JoIsri -A . _ 0 1 Z€1 ..., i i j siM 3 -- -- _ 3 :i N .41 , 141 t N \ W12X26 W12X16 ! ' I l i ?-"STAigtgrah_ r Loads: B�IC 4, new ® east locs I _ 4 VLMK Jim R Roof Plan - Plaza West Nov 10, 2011 at 3:07 PM 20110527 PARTIAL ROOF PLAN roof framIng.r3d 1110• • 1 410 -,.. ...... ,_, -.72k ''' 0 ' N. •..., ..%. ( :... k _..../ .., - .,,.. -.72k ..„,„ Sqr • . 36k •-•..., ..„ „ -.36k . 6'6 .„.., --... .:- ...,„ .„.. . - ,. ,,4 iss. 1' :,,,,l/ 4-:. --, !..„,„.. ' : ''s---. • (.. 141 h difi -,72k ..., , -..., `---.72k •-... .,„ • 0 -... , -.36k 1 • .....• .. -s, '-•,. ,.. ,. . ..„ e, ( ) ,.. ..... „„ ...• ....,.„ „ ,.. ......... & 9 )) '1/4 4 elMviS MO* Atk 12.4- E4e�- LIN fr MsupE19 = Z/619f froWr tf-re.,E COOS601 VS- 4- okeir Pr 1a4 _wa HEAZ . Loads: LC 7, DL+SL + (e) MECH x 120% VLMK 1 - Jim R Roof Plan - Plaza West Nov 14, 2011 at 8:49 AM 1 20110527 Partial Plan 20psf DL + 25 psf SL + MECH roof framing.r3d Beam: joist 1 _. __.__� __________ __._ _ - Shape: W16X31 -.189 at 0 ft Material: A36 Gr.36 Dy -- in - Length: 35 ft S (a- I Joint: 78 Dz in 1 + ---- J Joint: 89 LC 7: DL +SL + (e) MECH x 120% .../ Code Check: 0.708 (bending) �►�j _2.378 at 19.323 ft Report Based On 97 Sections �- 7.562 at 0 ft A k Vy h* --ti k Vz k �titi! -7.727 at 35 ft Mz k -ft -.01 at 0 ft I H,.:. T k -ft My k -ft -68.69 at 18.229 ft 17.453 at 18.229 ft - ft ksi fa --- - - - - -- - - -- ksi fc ksi - 17.453 at 18.229 ft AISC 13th(360 -05): ASD Code Check Direct Analysis Method Max Bending Check 0.708 Max Shear Check 0.131 (y) Location 18.229 ft Location 35 ft Equation H1 -lb Max Def I Ratio L/243 Bending Flange Compact Compression Flange Non - Slender Os =1 Bending Web Compact Compression Web Slender Qa=.953 Fy 36 ksi y -y z -z Pnc /om 151.126 k Lb 0 ft 35 ft Pnt/om 196.599 k KUr 0 65.498 Mny /om 12.629 k -ft Sway No No Mnzlom 97.006 k -ft L Comp Flange 0 ft Vny /om 62.885 k Torque Length NC VnzJom 62.886 k Tau_b 1 Cb 1 Bea orst 2 Shape: W16X31 Material: A36 Gr.36 Dy -- in Length: 35 ft I Joint: 79 Dz in —t J Joint: 90 LC 7: DL +SL + (e) MECH x 120% Code Check: 0.828 (bending) Report Based On 97 Sections -2.72 at 19.688 ft 8.889 at 0 ft A -- — k V i:. I:. ,., k Vz k -8.56 at 35 ft Mz . r,r; ,., 0 at 0 ft 'i' 7 k -ft j�d ICI I My k -ft - 80.331 at 17.865 ft 20.41 at 17.865 ft ft ksi fa - — — — ksi fc ksi -20.41 at 17.865 ft AISC 13th(360 -05): ASD Code Check Direct Analysis Method Max Bending Check 0.828 Max Shear Check 0.142 (y) Location 17.865 ft Location 0 ft Equation H1 -lb Max Defi Ratio U207 Bending Flange Compact Compression Flange Non - Slender Qs =1 Bending Web Compact Compression Web Slender Oa =.953 Fy 36 ksi y -y z -z Pnc /om 151.126 k Lb 0 ft 35 ft Pnt/om 196.599 k KUr 0 65.498 Mny /om 12.629 k -ft Sway No No Mnztom 97.006 k -ft L Comp Flange 0 ft Vny /om 62.885 k Torque Length NC Vnz/om 62.886 k Tau_b 1 Cb 1 B jo ist Shape: W16X31 Material: A36 Gr.36 Dy _-- - --- -- In Length: 35 ft I Joint: Dz in 91 fr� J Joint: 91 1, LC 7: DL +SL + (e) MECH x 120% • Code Check: 0.693 (bending) Ov _2,167 at 19.323 ft Report Based On 97 Sections �� 7.809 at 0 ft A k VY �� ;;: k Vz k -7.48 at 35 It .006 at 0 ft it k -ft My k -ft • - 67.202 at 17.135 ft 17.075 at 17.135 ft ft ksi Allik fa — — — ksi fc ksi - 17.075 at 17.135 ft AISC 131h(360 -05): ASD Code Check Direct Analysis Method Max Bending Check 0.693 Max Shear Check 0.129 (y) Location 17.135 ft Location 0 ft Equation H1 -lb Max Defl Ratio L/246 Bending Flange Compact Compression Flange Non - Slender Qs =1 Bending Web Compact Compression Web Slender Qa =.953 Fy 36 ksi y -y Z -Z Pnc /om 151.126 k Lb 0 ft 35 ft Pnt/om 196.599 k KL/r 0 65.498 Mny /om 12.629 k -ft Sway No No Mnz/om 97.006 k-ft L Comp Flange 0 ft • Vny /om 62.885 k Torque Length NC Vnzlom 62.886 k Taub 1 Cb 1 VT CONSULTING Job I4.�TUVA MK ENGINEERS Job No. 201(O5Z7 B \I/WS 3933 SW Kelly Avenue - Portland • Oregon 97239 -4393 P 503.222.4453 503.248.9263 © °ems 'H 6heecNo. S COMVEMC ) S o . 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Performance Summary For TC 14 Project: Plaza West 08/18/2011 ,Prepared By: 09:26AM Part Number :48TCED14A3G5 -0F0A0 ARI EER:_______ _ _ 10.80 I EE R' 11.0 .fi Base Unit Weight' _..._.__...._..._.-._.._.... ..... .........._...........,._....__ 1118 lb Base Unit Dimensions Unit Length:......_..- ..__._._ _. _ 88.1 In Unit Width' 59.5 in Unit Height' 49.4 in Unit Voltage-Phase-Hertz .•_ _,.. -3-60 Air Discharge _....._... _.... Vertical Fan Drive Type:....__.____._._ ._ _ _......__.._ ......_....... Belt Actual Airflow:.._.--- ...... _ ..............._....... _.- ............ ... ..... __..._ 4800 CFM Site Altitude* 0 ft Cooling Performance Condenser Entering Air DB• _.._. F Evaporator Entering Air DB:..._..�____.._ .,.... ...._._ _ 80.0 F Evaporator Entering Air WB:..._ _.__•_._ 64.0 F Entering Air Enthalpy' 29.12 BTU /lb Evaporator Leaving Air DB• _.._ _... 57.3 F Evaporator Leaving Air WB:.- .._...._._ _ 54.0 F Evaporator Leaving Air Enthalpy:... ..._ .. ...... ..........._......__ -_.__ 22.57 BTU /lb Gross Cooling Capacity ,..,.. 141.64 MBH Gross Sensible Capacity 117.54 MBH Compressor Power Input. 10.20 kW Coil Bypass Factor' 0.234 Heating Performance Heating Airflow ___ 4800 CFM Entering Air Temp' _.•._ _55.0 F Leaving Air Temp. _....._ 90.4 F Gas Input Capacity _ 180.0 / 224.0 MBH Gas Heating Capacity' 183.68 MBH Temperature Rise' _.._ 35.4 F NOTE _ Second Stage Supply Fan External Static Pressure .............. In wg Options / Accessories Static Pressure Economizer 0.30 In wg Power Exhaust' (Fan Data Includes Drop) Total External Static' 1.30 in wg Fan RPM* 1162 Fan Power _,. 4.39 BHP Power Exhaust Return Duct Static:...._...... _ 0.20 in wg Max. Air To Exhaust' 3850 CFM Electrical Data Minimum Voltage' 187 Maximum Voltage �...___._.__ . _.... _ 253 Compressor #1 RIA:....._ _...__.._ .....____.._ 19 Compressor #1 LRA:....�_..__...._ _ 123 Compressor #2 RLA• 22.4 Compressor #2 LRA ...._.._.._.... _...._ 149 • Outdoor Fan Motor Qty: 1 Packaged Rooftop Builder 1.29h Page 4 of 12 I ! Certified Drawing for TC 14 Project Plaza West 08118/2011 Prepared By: 09:26AM IOTES: – 8411E1 P.C. NI .III (x11 MINN II fM MOW V OWN (M/MAiIN of ( I I {A4N K M41 H+IIw1 01 Mo....11,, ....11,, 1 L. DIWEIHOO Alt 03 13[1[5 421110411045 ..11 N J S M441106115 6115 fnlnrt. 11 YI 11 1D.IMlU W1 IN ow1 0(011111 1 ■ (1 V (1 110 htt 1(Ir 111[ 1 01111111 141 NN, 1/ MIOlM11 1 111111111 NI 11 EN C I }!C IY MILLIYUCES. 11 3/4 11 3/1 35 5/1 [At11(0 to C nm C x1110- Au(l11100 Y1w111L(. 4fC -DTI 12011 111311 11051 2 9 (041(0 Of (10111 - COONECTION SIZES 3 010, 011[(110 1•— nail y 1 00 611 1101 I (10211 1 A 1 311' 1151 DIA FIELD /0121 AWIL! DOLE 1 2 I/2 1111 014 40100 SDPPEI [40(0400 C 1 311' 1511 DIA DOGE *0(013 4(111 [[OAONQCI 1000 10 - 314 0 1/4• (221 /IA 11E11 011010. 111110 IRE IOIT]OUAU 5 314' -14 440 0401E41411 4(0811 f 13/1' -11 IIP/ 6AS (010E(710 –1 G 2' 1317 OIA P01F1 SlWllr 31CC[ -417 i 11L1E0 10(553 PANEL . _ IDI(POSNIE 11(1(03) _ _ 31-3/1 12 -5 /1 • NUNS All U211 1411E (00(3 1014411 OIAIT f0 335E • (001(0SE4 ! - 133111 0001I?Y41DZA01,OIg41 • COIL I �I 611 - 11E01 SOU 1 '�� • • I I CO11U11 ISE 1 1(ZES 1011.1 INDOOR NIL Access PANEL y – - 1 1/2' 410. I Iry 112.11 14.11 111271 1 112 211 111• (01.11 M -311 Il -5 /e i 1 1l4 1102,0441 P01111 f 3 /4' 1(4.41 _ I Y (2 111 1 00 — - } – 54 1111 11511 y 21 [501 344' CDT GAS 1 S!1' 1 11 OO_ Q i f Alf 11 <N 1t I E SEE 818 SUPiIT 117111 S./410141-11451141. 101 OILY 5. 1. 6 4(1 11/04140/ 1 1U121 (5511 (2711 j TN/1.1M•1ASE BACK j , [ - EMI. 10021 440111E5 314' 141 01100 C011 11016E 4 0141101. L i [-1 /I L J 6-1/I 2 1 -sae (I") L 1 I - 1171 (7511 f Alt. –��_ 1 (001150 If 2 25 -112 1 11! 04811 DPENi1G Ill. )] 11•1/1 �– 11131 IN (A5EPAN 11141 i 1 13021 1[[x1[81 _ _ ...i DIEC OA1(01 r -- -- - - . - 4 D(AfiO A ' [011110. ill 0 ' ACCESS PANEL _ • CONO[NS(A I 1NDW2 4LO E S1D. , Oli 1 4411 (OCOEISATE 1 COIL J /AC IOI ACCESS IIUC – 4110111 4 (1[10 I i 1 (3 1011( 0000 \ Al2 OPTIONAL 1f 1J1 115[0141[1 1 { (1S1ALLE3 1 f 411310[ COOTENI{NCI C 10101E 13 -1 /[ 21-7/1 014 100' { \ � i --•1 1[19 11 1 01,11 ����lllll V 0101 OUTLET – r 3W4L1 A , t llm Eiim Ff 0118) •00 : : 00 1 1 ' -) -1 I 3371 57 -112 I 21 1 - 6.1/6 L 1 1 n l 1, [1331 1 0-t/0 8 21 x1 (1411 LEFT 1110111 ori [121 31 -711 11551 151 115101 11P II 4•S /0 70 FROST F R OY T 4?-3r1 lnar (01x8 Roo RIGHT G Nil 1111.11(1 48TC -14 SINGLE ZONE ELECTRICAL ^' l oll 10706/0E - 07 -22-08 COOLING WITH GAS HEAT 48111501441 1 4.0, Packaged Rooftop Builder 1.29h Page 2 of 12 Performance Summary For TC 17 Project: Plaza West 08/18/2011 Prepared By: 09:26AM Part Number:48TCED17A2G5 -OH0A0 ARI EER• 10.80 PEER 11.6 Base Unit Weight' _ _ _.._ _. _ __......C1824 lb Base Unit Dimensions Unit Length . - _.•_. - »•_ _•_ 127.9 in Unit Width: ..... _ .._ _ _ ............ »..... .___ .. -86.6 in Unit Height __.._..__ 49.4 in Unit Voltage- Phase - Hertz:. _ _ _• _.••• _208-3-6 X08 -3 -60 Air Discharge _.__.........._.._.... _._ Vertical Fan Drive Type _�. Belt Actual Airflow _ 4800 CFM Site Altitude- 0 ft Cooling Performance Condenser Entering Air DB:..___.- .___ -._ _._..- _...._.95.0 F Evaporator Entering Air DB 80.0 F Evaporator Entering Air WB• _ . _ 64.0 F Entering Air Enthalpy :_ - - - -_ „ ._..,•, •,•,•_ „„ 29.12 BTU /Ib Evaporator Leaving Air DB __..•._ _55.0 F Evaporator Leaving Air WB• _. ._.- ..51.4 F Evaporator Leaving Air Enthalpy:..._ •21.06 BTU/lb Gross Cooling Capacity 174.29 MBH Gross Sensible Capacity:. „•._ _ MBH Compressor Power Input: _ ... .._.»._ _ - _ _. .15.26 kW Coil Bypass Factor _ _ 0.056 Heating Performance Heating Airflow _.. .4800 CFM Entering Air Temp: _....._...._ __.__ 55.0 F Leaving Air Temp :_.._ 103.4 F Gas Input Capacity' 248.0 1 310.0 MBH Gas Heating Capacity _ ___ ». „». . 251.00 MBH Temperature Rise' _ 48.4 F NOTE ..- ...._ - -_- �._ Second Stage Supply Fan External Static Pressure: 1.00 in wg Options / Accessories Static Pressure Economizer ___. . __.. -- -- ......_..._._.._.._.__._... in wg Power Exhaust' __.�_... (Fan Data Includes Drop) Total External Static' 1.05 in wg Fan RPM _ -. -_ 817 Fan Power - ••,2.48 BHP Power Exhaust Return Duct Static __ -- ....... in wg Max. Air to Exhaust _ _...._ _.- •.___• • _...__ CFM • Electrical Data Minimum Voltage _ 167 Maximum Voltage _____. _.._...___ __... -.253 Compressor #1 RLA 29.5 Compressor #1 LRA• 195 Compressor #2 RLA • » 30.1 Compressor #2 LRA _•_•__ _•••�_ 225 Outdoor Fan Motor Qty• _• .._..._.__._ 3 Packaged Rooftop Builder 1.29h Page 10 of 12 Certified Drawirtp for TC 17 Project: Plaza West 08/18/2011 _Prepared By: 09:26AM UNITED F I- [n ru nu Morn is n[ nnnu n will. rwr.,II ,aw a , t [Mira r Jew.,a t f t[twrolal[s nan>r_ n +n n Moor[ rr IN ia[nf mu,[,r rur n r�s w [am w[ lul nua.cr r Onrnl tilt . It r nIM+ 1 M all .11NAr CwrJ [7JraunM� um rrrn- I —I— I I 7 II i CAUSES 1111, Y4 V,.YJ Ir Ir P110114 All 551117 All ll li -tr1 0 14071 100 CONYECTIIM illEi 2 II - 3e r f 3 ! /l 113051 A 1 31$ DIA [351 [ICLO 10101 SIP7l! IOIICLOOT INODT� Haul xDIt301fAL 10NIiC{ 5 5/ 4 J (+Ella ` 11 -117 0 I3. DIA [III [IEEO PO 11 SO p PPLI OISOCIT S ➢7Dl! 01111 (1371 11451 7 C 13 3!0• DIA till FIELD POLO SIMPLY CeGUI I-1/4 f -1// _ _ I I 11541 1 I I 11571 I 1/1• AlA 1721 11(11 C01TSet 110106 WEE — - 0 1 ' -14 DT CDN)fOSATC 170114 S -541 '5 -ul I 3 � I 1 ' xi* /i— T E 31 : 3 /a 4' -1l 0P GAS tomcat.' mar 5110M1 F�—� 15131 Hal ■ 11111 [I 737 10131 21-3/4 17511 ' . . 0 4= 50-314 . BACK r17{fl it -5/{ Al Id®IrR LLSQMII� 14/0 117711 CC7U [0.1 // 1,5641 14010E 1 DIT[DIAL I noel 1 *� 17 1 . TI NILlIITid1S 1NOls10e5 0 2 I s C[110 OF non, 1 1. I� 013[[X[1 Or All TOO .ter _ . - 14-, /e ., i�l —����I 13111 .</•Iet , lid::1' 0 4• 1.611 110a1/04110a1/0411110a1/0411A1 7E7DDN 5 -54{ A.8.0 i e 2(10 EC010N1IE: • [1411 7 -1/1 12011 I 11 i -112 F` =• 11141 11 {11 3-1 fl 3-110 I 11.311 12111 Ian (1111 41-5411 —.-II { Od [7771 14 -171 1 III' DIA (RI 115141 13111 1001101 LEFT 13.1.181-- 91-1/2 TOP BACK 1710+ I D•C1�7fAL OSDUnGE N/ Ma 1— 1r;71e y 2• DIA 1511 IfJ01 I X71CS ' � . 41-7/6 D 11oll I 1061391 If IX 1500)1 I 1 (l 11711 101 uD 1101!{ A[CC55 IDOC1 ACCESS ElFCT1KAl /S - /4 7aC( COIL P0101 COxDI NSR [01DEe5C1 - - D1fC000FCT AcCEii 41'318 c011 COIL l _ '17711 PAIEI 00101/0/ [, 1s11 • 00ISIDr All I r lS -3!{ Jam 33 �� 111 �: ! 1115,, .� � 10110 'i y [1X00/1 [101 Gil k. - r , i 1-7/11 7.311 :536:115 ` 10 - 111 ROE 1001 �_ 2 -510 11241 11311 At 12111 ♦ (071 Di•Sq LEI- DDOA II / 1(16 ill 16761C UI [Z1!!I �¢�i DANDLE :E1tlFA Ali 501117 III [010 �D �j 50-1!1 OIDIX „111, FADKT RIGHT 27 - /{ — 112411 111(1 NI[ 1 IIIUIIr1 [OTC 17 -20 SINGLE ZONE ELECTRICAL I 1 k, $0HE501150 11[2 09/12/08 1 COOLING WITH GAS HEAT if Packaged Rooftop Builder 1.29h Page 8 of 12 ., .. 48D DA C arrie r Gas Heating: 123,000 to 26,000 Btuh • • Electric Cooling: 123,000 to 187,000 Btuh Com Heating/ - Units ¶ � ' = S C I � �` = 9 2011 .r � ►; p:C IT`S I F D��15ON „. g,lLD y am .: , . _ Energy- , . :,,,,: efficient �: '! ►�� gi:;4■4 �MIL _,pilp g as heatin I !`, heating ��•� and elec — ` IT ►•�.i veil ��.�. cooling or.. • . _..._.., • . „gat :i. 3: x a ' commercial t ' f . and i ' ; industrial • } k �. applications in . • :.: the 10- to 15 -ton range. A! . Carrier For 4BDP 1 P Carrier Corporation 1981 —war The 48DP rooftop units Offe a perfect combination: gas heating and electric cooling in a single package Carrier's 48DP,DR combination heating/cooling units pro- With EER's up to 8 3, the 48DP,DR units are very effi- - vide year -round indoor comfort for commercial and cient. They deliver a significant cooling output per unit of industrial buildings. Units are available in 3 nominal cooling electrical energy consumed Efficiency doesn't stop at cool - capacities (123,000, 154,000 and 187,000 Btuh). For each ing. All heating components are precision engineered to - cooling capacity, select high (48DR) or low (48DP) heating provide energy - conserving, cost - saving operation. Inter - capacity to match your specific requirements Units are mittent pilot ignition, Turbo - Tubular" heat exchanger, quality engineered to provide air conditioning excellence induced draft combustion and redundant gas valve work year after year. together to produce uncommon efficiency. The 48DP,DR units are designed to minimize installation If your building requirements specify a combination gas/ { time and costs. Units are compact, self- contained and electric, heating/cooling unit that's efficient, reliable and require only one electrical power connection and one gas built to last, select the perfect combination — Carrier's connection — so installation is fast and easy. 48DP /DR. Top qual components assure unit durability, easy maintenance and safe operation Turbo - Tubular" heat exchanger — The tubular cell design of Indoor fan relay — During heating mode, the indoor fan relay the 48DP,DR heat exchanger results in an ultra - efficient "U" automatically starts indoor fan after heat exchanger warms up configuration Very little heat escapes to the outside atmosphere sufficiently Prevents cold air from blowing into conditioned because the burner flame and resulting hot gases make 2 passes space across the supply air path Additional heating efficiency results Redundant gas valve — Safety is built -in Both the pilot valve and • from turbulators located in each heat exchanger cell The turbula- main gas valve are designed in series within one valve body. When tors act as baffles, forcing the hot gases into contact with the cell there's no call for heat, the main gas valve and pilot valve block walls and improving heat transfer from the flue gases passage of gas to pilot light and main burners r �'" ?. On 2 -stage units, the first and second stage have independent t i ve t t he other stage c n part al heating cap city nopera .gas valves fi T t \ k %1 , { k . ' Jrr 'S Ay I � ALUMAGARD" COATED TURBO.-TUBULAR" HEAT EXCHANGER � �;t A - I Alumagard" heat exchanger coating — Assures corrosion > K �` • resistance and long life. Alumagard is a thick aluminum alloy that \ � x *. provides an armor -like coating on the heat exchanger MODULAR CO STioN Intermittent pilot ignition — The pilot flame is ignited only on a call for heating No precious fuel is wasted between cycles Saves Modular combustion section — Efficient in -shot burners and all energy over conventional standing pilot systems ignition components are contained in a compact assembly which Remote sensing of pilot flame — Runaway gas conditions are can be easily removed for service and inspection eliminated and safe operation is guaranteed. The pilot flame is Induced draft combustion — Eliminates expense and unsightly proven (sensed) at burner farthest from ignition source, rather appearance of flue stacks, and diminishes effects of winds on than at the ignition source itself. If pilot flame malfunctions and heating operation The heat exchanger operates under negative does not reach sensor, the main gas valve will not open. pressure and if any leakage should occur, the flue gases are sucked - Rather than a bi- metallic sensor, which must warm -up and outside and will not enter the supply air cool -down, the system utilizes a flame rectification sensor which Combustion section view port — Designed with the service - quickly senses pilot flame and ignites burners almost man in mind Full visibility of ignition component operation is pro - instantaneously. vided. Located in the units' condenser section, view port allows Also, since the sensor is quick to react to any flame outage or viewing of heating components while remaining a safe distance system failure, fast shutdown is a certainty from flue gases. VL 2 , Heating safety controls Part -load operation - The 10 - ton and 12 - 1/2 ton units feature 2 Limit switches shut off gas valve if excessive temperatures should hermetic compressors and 50% and 100% capacity steps The develop. 15 -ton unit uses the rugged Carrier 06D compressor with capacity steps of 67% and 100% Part -load operation assures you high Centrifugal switch shuts down main gas valve in case of insufficient energy efficiency and lower utility bills combustion air Tough units for rooftop operation -- Weathertight Weather • Roll out switch de- energizes gas valve on flame roll out Armor cabinet stands up to extreme outdoor conditions Carrier Reliable, high performance cooling power -- Carrier- design meets both UL and Carrier's own stringent rain test specified hermetic compressors (012 and 014) and semi- hermetic requirements Strong, watertight interface between unit and roof (016) are equipped with crankcase heaters, internal linebreak for is provided by the specially designed roof curb, approved by the protection against overcurrent and overtemperature conditions National Roofing Contractors Association and Cycle -LOC" compressor protection. Solid -state Cycle -LOC Trouble - free rigging — All units are built as an integrated unit — prevents compressor short cycling by shutting off compressor if rigid and strong, making rigging simple and convenient Predrilled any safety device trips Compressor is restarted by manual reset lifting holes in the base rails make the rigging job still easier. at the room thermostat (except for 016 unit which, if compressor shuts off on overcurrent, requires circuit breaker reset at the unit) Convenient duct connections — Openings in the basepan Q uiet, high volume fan operation — In door fans are belt permit side -by -side or concentric ductwork connections without i requiring unit internal modifications. Side connections for hori- driven with adjustable drive for quiet and efficient operation Out- zontal duct applications can be made using side - supply curb door fans are direct driven, factory lubricated, and positioned for accessory. Gasketing is provided with roof curb for a weathertight quiet efficient vertical discharge In addition, indoor fans are installation capable of moving ample air quantities and achieving high external Ventilation air — Standard equipment includes manual damper static pressures suitable for the most demanding application which can be preset to admit up to 25% outdoor air for year -round Refrigerant coils — Built with energy - efficiency in mind, the ventilation. Units equipped with economizer have a thermo- cooling coils feature staggered copper tubes and mechanically statically controlled fully modulating damper which admits up to bonded aluminum fins to give you the most for your cooling dollar 100% outdoor air and provides low-cost cooling on mild days. The Terminal board — Located in base unit control box for easy changeover to economizer cooling is done by an enthalpy control connection to room thermostat and economizer to take full advantage of low -cost operation in mild weather . INDOOR AIR FANS • INDOOR FAN MOTOR . • 40.• • . � ECONOM€ZER HOOD : l ! // • t � t s '��, s r . . x. • , .... ." . " " " " .. ... " >£; } : ;' x IIII ' 4 4 4 . ,.. . j ,,,... ..:::........:•...... ........ . :.. ...., -z A> • ECONOMIC DAMPER sa f I COIF �t -. MAEN CONTROL BOX • • ' � � r s ? � r .,+ w K < `< ti rr fr : ,Y ms`s .;. - ▪ •3t 1 GAS VALVES f �K ,<. �,�'.� �� ; 3 `; :o ' < ?; "`::f..f X MO y � N S CT1aN rid <} ?:: v `.: r r , s � r .. . . - X .: :... .-_m:..� c::: :::: .v w- .. . . . . - r .n, .l..; . .•..>•iw:n .n-. :::: .... .:iriv .::: r.�o. .+w: : :., t. # el “.4 4: .ww•.LC r'f.VM' wdM.r:Ori:•..d••.w..... .. .- . -. . 3 r Options and accessories Motormaster® Head Pressure Con- Two - position damper — Single -blade trot — Units are designed to operate at damper, operated by a spring return outdoor temperatures down to 35 F. Time Guard® circuit prevents short motor, closes off the 25% air inlet when Below 35F, accessory 32LT Motor- cycling of compressor if thermostat is unit is shut down Field- installed - master control modulates outdoor fan rapidly changed, automatically pre- accessory motor to maintain correct condensing vents compressor from restarting for at temperature at outdoor temperatures least 5 minutes after shutdown. Field- _ down to -20 F. Field- installed accessory. installed accessory. ? a2; L.P. conversion kit permits unit ...a '`. .' ••, ,, w s operation with propane in areas where . ,. t ' `: f" . `: - >= - - - - natural gas is not available or in short f {fv }::: ::* supply } ' ti r . YT , r. - •' �X f _ {. V Economizer assembly — Provides ' t 1 « , 4 % fR low-cost cooling on in-between days . Automatically controlled dampers open "' - to admit cool, filtered outdoor air Out - Remote control panel consists of a 4 ,„ door air damper is fully gasketed for low separate heating and cooling thermo o,.F • leakage. Low leakage dampers save stat assembly plus a decorative wall �' , } f `W y energy because outside air leakage into mounted panel. In addition to switches . . ' - ` - -- --- "" .. the unit is minimized when the out - for heating, cooling and fan operation, Thermostat assembly — Precise tem- door air damper is closed. Compres- the panel contains indicator lights and, perature control for heating and sors and outdoor air fan remain off to for economizer - equipped units, a venti- cooling system is provided by this save energy if the outdoor enthalpy is lation control knob. Field - installed attractive wall- mounted 24 -volt acces- low enough to satisfy cooling require - accessory. sory. One- or 2 -stage heating available, ments without compressor operation 3 depending on base unit and application Economizer is factory option or field - ;1 requirements- installed accessory Easily installed - 't" 3> r i. _ . y a A thermostat subbase is available because of complete factory assembly 0 ✓� that goes hand -in -hand with Cycle- and comes complete with wiring plug < for quick connection to base unit. { V <r .• . ': LOC'" circuitry. If a safety device q trips, compressor shuts off and light >' s ""' rt - -- .'' :> on thermostat comes on. Reset is �° i accomplished by following standard • $ . Cycle -LOC procedures. Field - installed Power exhaust (48DP,DR016 only) — ;..;, :.. . '� accessory- Coupled with the economizer, up to .. .4 "' ? 75% of the return air at 0.1 in wg static { a ^ p ressure may be exhausted. Also elim- L F f d } < ^a ~ ,r k kk } °s mates overpressurization of the build- W 44:?:,-. { � r c > c: :: � f �k •?:. -. - . g' g f } Desi ned for use with the bottom L,; i`Aks . ', � ��'�� +• d UCt connection arrangements. Field t installed accessory. Relief damper operates automatically x.}�, to help exhaust stale indoor air during . economizer operation. Accessory ,I ;r p: M �<c }'?::., ! comes fully assembled for easy x ` °° ::' fir. 1 installation. W:: ' sue x * < t , k Roof curb, with insulated basepans, _,- y .. ' -.•- - � _ - - : , y . :• -, .;A :::::;:-.-.5: ' a; : supports unit and frames roof opening for interior ductwork. When curb is in Alternate fan motor and drive — "�.;' place and ductwork connected, unit Provides increased ., �' p performance for } ;, 4 :; can be installed anytime, to meet your application requirements beyond stand • tightest schedule- Curb design meets all and unit operation range. An alternate , ,, ,•,..•...:....,;... 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I " 5b' Ed y i) . eo' r OFF O 1 3f. ❑ r I 41 • FAN CI I l 50 60 70 80 ^ g 3 ROOM TEMPERATURE a - oN AUTO • L. ,l lip • i i -1- 1 L A ,J. . ,...:.*:'!:::: � ACCESSORY ZONE THERMOSTAT T I -. {{ � " { t � - ACCESSORY RES TE CONTROL AANEL 1 ACCESSORY REMOTE CONTROL PACKAGE Selection procedure (with example) I Determine cooling and heating requirements at standard motor and drive are suitable. If rpm or bhp design conditions. values required are shaded, an alternate field - supplied Given fan motor or drive is required. Required Cooling Capacity (TC) 148,000 Btuh V Select unit that corresponds to power source Sensible Heat Capacity (SHC) 110,000 Btuh electrical characteristics. Required Heating Capacity 180,000 Btuh From the Electrical Data table, select unit 48DR014 with Condenser Entering Air Temperature 95 F electrical characteristics of 230 -v, 3 -ph, 60 -Hz. Evaporator Entering Air VI Calculation of Energy Efficiency Ratio (EER) for Temperature 80 F edb, 67 F ewb unit full load operating condition. Evaporator Air Quantity 5000 cfm Re -enter cooling capacity table at 80 db, 67 wb entering External Static Pressure (ESP) 0 35 in. wg air conditions on the indoor coil and 95 db ambient on Electrical Characteristics (V Ph Hz) 230-3-60 the outdoor coil. Compressor kw input is 15.6 or II Select unit based on required cooling capacity. 15,600 watts. Enter Cooling Capacities table at condenser entering air Referring to the Physical Data table, outdoor fan motor temperature of 95 F, 5000 cfm and 67 F ewb. The (OFM) watts is 1400. a 48DP,DR014 unit will provide a total cooling capacity of To obtain indoor fan motor (IFM) watts, use bhp 154,000 Btuh and a sensible heat capacity of 117,000 previously determined from the fan table at 5000 cfm Btuh. For evaporator air temperature other than 80 and 0.35 in. wg. ESP. Calculate watts input, using the edb, calculate sensible heat capacity correction, as formula and motor efficiencies from the fan table. • required, using formula in notes following Cooling Ca- pacities table. Gross cooling capacities in table were 1.76 x 746 determined at .35 in. wg ESP (ARI conditions) at cfm IFM Watts (input) = .83 = 1582 indicated. For additional ESP, adjust TC, SHC and Subtract indoor fan motor watts from the gross power input to job requirements. capacity to obtain net cooling. Divide net cooling by Y Ill Compare heating capacity of unit selected with unit total watts input to arrive at unit EER. required heating capacity. Gross cap. - (Indoor fan watts • • Unit 48DR014 provides an input of 231,000 Btuh with a EER = x 3.413 /watt) • . bonnet capacity of 183,000 Btuh. This unit meets design Compressor watts + OFM watts + IFM watts requirements. _ 154,000 - (1582 x 3.413) IV Determine fan -speed and brake horsepower (bhp) 15,600 + 1400 + 1582 requirements at design conditions. 148,601 Enter Fan Performance table at 5000 cfm for 48DR014 = 18,582 at .35 in. wg. The fan speed is 987 rpm, bhp is 1.76. The EER = 8.0 Btu /watt 7 1281 Physical data .,,. *:::§=: O PERATING WEIGHT (Ib) DP DR OP DR DP DR Unit 1410 1430 1470 1490 1670 1 1680 With Economizer 1560 1580 1620 I 1640 1820 1 1830 ) Roof Curb 200 200 200 COMPRESSOR Hermetic — 2 Cylinders Semi- Hermetic — 6 Cylinders No. ...Type 2..P64 2..P77 1 06DA537 Oil (oz) 76 ea 76 ea 160 REFRIGERANT (Capillary Control) R -22 — R-22 � - TTy R -22 Charge (Ib) Sys 1*, Sys 2 7 9, 6 6 8 3, 8 3 1 23 2 OUTDOOR COIL Copper Tube, Aluminum Plate Fins Rows 2 3 Fins /in. 14 14 14 Total Face Area (sq ft) 18 9 18 9 ' 18.9 OUTDOOR AIR FAN i Propeller Type, Direct Drive Nominal Cfm I 9000 8000 ' 12,000 No. ...Diameter (in.) 1 2. 22 2. 22 1 2 26 Motor Hp (1075 Rpm) 1/2 1/2 1 Watts Input 1385 1400 1 — 2672 __ - p ... INDOOR COIL Copper Tube, Aluminum Plate Fins Rows 2 3 I 3 Fins /in. 14 15 14 Total Face Area (sqft) 14 7 _ 13.8 16.5 INDOOR BLOWER Centrifugal, Adjustable Belt Drive Qty...Size (in.) 2 10x10 2 10x10 I 2 10x10 Nominal Cfm 4000 5000 6000 Rpm Range Std 753 -1066 805 -1093 916 -1186 Opt 878 -1191 978 -1265 1158 -1428 Max Allowable Rpm 1550 1550 1550 Motor Pulley Pitch Diameter (in.) Std 2 4 -3 4 2 8 -3 8 3 4 -4 4 Opt 2 6 -3 B 3 4 -4 4 4 3 -5 3 Fan Pulley Pitch Diameter (in.) Std 5 5 6 0 6 4 Opt 5 5 6 0 i 6.4 Belt, Qty.. Type...Length (in.) 1 V.. 41 1 V. 43 j 1 V . 45 Speed Change per Full Turn Std 62 58 I 54 of Movable Pulley Flange (Rpm) Opt 63 57 55 Movable Pulley Max. Full Turns 5 5 5 from Closed Position Factory Setting — Full Turns Open 5 5 5 - Factory Speed Setting (Rpm) Std 753 805 916 1110) Opt 878 978 1158 Motor Hp (Service Factor) Std 1 (1 25) 3 (1 15) -1 / 3 ( _ Opt 1 2 (1.20) 3 (1.15) �. - FURNACE SECTION DP DR DP DR DP , - DR Temperature Rise (F)t 15 -45 25 -55 15 -45 25 -55 25 -55 25 -55 Max. External Static Pressure (in. wg) 7 7 7 7 7 7 Gas Input (1000 Btuh) 154 231 154 231 231 270 Bonnet Capacity (1000 Btuh)t 123 183 123 183 183 216 Burner Orifice Diameter (in....drill size) Natural Gas 113 33 Propane Gas .073 .49 Butane Gas 073 49 Pilot Orifice Diameter (in. ...drill size) Natural Gas 064 52 Propane and Butane Gas 036 64 Thermostat Heat Anticipator Setting 208/230; Stage 1, Stage 2 98, — I 98, 44 I 98, — ! 98, 44 ( 98, 44 1 98, 44 460; Stage 1, Stage 2 1 4, — I 1 4, 44 1 4, — 1 4, 44 1 4, 44 I 1 4, 44 Gas Valve Qty 1 Z 1 2 I 2 2 HIGH - PRESSURE SWITCH Cutout (psig) 428 Reset (psig) 320 LOW-PRESSURE SWITCH (Liquid Line) Cutout (psig) 27 Reset (psig) 60 AIR INLET SCREENS 2 20x25x1 Economizer, Qty...Size (in.) 1...20x20x1 INDOOR AIR FILTERS (Type) 10% Efficient — 2 -in Disposable Fiberglass Qty...Size (in.) 2 16x20x2 I 2 16x20x2 4 20x20x2 4 16x25x2 4...16x23x2 4 16x20x2 'System 1 consists of upper portion of outdoor coil and lower portion of indoor coil. tTemperature rise must be adjusted within range specified on furnace rating plate tBonnet capacity is determined in accordance with ANSI 221 47 -1973 8 . Performance data ARI CAPACITY RATINGS GROSS COOLING CAPACITIES TOTA7, STANDARD 48DP,DR014 ;. ° 13T 'HR ' :: Tem (F) Evap Air - Cfm /BF -_ 1 480 14 120,000 4000 J •3 Air Ent 3750/ 058 T 50.00/,090 1 6250/.125 - 48DP,DR014 r 18 6 149,000 5000 B O Cond Evap Air - Ewb (F) _48DP_,DRO16 21 7 180,000 _ 6000 -: L 8 3 - (Ed 72 DA 62 (72 67 162 72 67 r ' 62 NOTE Capacities for 48DP,DR014,016 are not within scope limits- TC X169 156 140 1174 163 149 180 169 163 tions of ARI Certification Program 85 SHC • 85 106 ,125 : 92 121 145 105 143 163 -t Kw 115.0 143 13_5 115.4 14.1 , 156 15 1 148 ETC 162 147 128 ' .368 154 140 ( 175 162 156 HEATING CAPACITIES 95 SHC 1 82 103 120 112, 117 140 106 142 156 *w 1160'151 144 16:4,15,6 14.9.167 157 iTC 153 135 115 1159. .144 330 167 152 .148 STING *UI BONNET CAPACITY 105 SHC 79 98 113 88:: 114 • 130 ' 140 1 148 {8tuh) OWN Kw ,1 8 16 0 16 113 16:4 15.9 .17 7 16 8 116 6 48DP012 154,000 123,000 123,000 - TC 1143 121 -1 103 t 149 129 119' 156 140 138 - 48DR012 231,000 � , 183,000 115 SHC ! 76 98 103 85 109 119 • 102 ' 135 138 48DP014 154,000 _C 123,00_0 _ _ Kw 117 6 16 9 16 4 18 -1 173 16.9 ;18 5 ,17 . 6 17 5 48DR014 231,000 j 183,000 -- -- 1 - - - - - - 48DP,DR016 48DP016 231,000 l 183,000 48DR016 270,000 216,000 Evap Air - Cfm /BF - - -- . - - -- Temp (F) - --- - - - NOTES: Air Ent ' _450_0/ 0 8 _6_ 1, ;6000/_112 j 7500/.136 1 Ratings are approved for altitudes up to 2.000 feet At altitudes Cond r Evap Air - Ewb (F) over 2,000 ft, ratings are 4% less for each 1,000 ft above (Edb) r" 9 72 7 _ 67 7 62 •': z: f :07. ;..oz 72 167 62 sea level E TC 1 203 188 169 212 :106 1801 224 1208 196 2 At altitudes up to 2,000 ft, the following formula may be used 85 I SHC 98 122 145 106 138 167 120 158 186 to calculate air temperature rise ,o wr ' Kw _116 3 15 5 14 6 1a 1. 16.0 14.5 17 0 16 3 I15 6 t - bonnet capacity 6 TC ;196 178 154 2Ar 8 7 '1 168 216 - 199 - 188 10 161 1 117 155 178 ` � I Kw 174 164 1581172 :16.3 35.5h82 17 C ITN Y 3 At altitudes above 2,000 ft, the following formula may be used {TC 186 164 138 194: 17.5 156 205 1 o f bonnet capacity 105 Kw 118 5 17 6_ 16 9 1 3 11 16.8 19 3 18 3 17 8 (24 x specificweight of air x 60) (air quantity) - -- - - --- -- 4 Maximum allowable gas pressure is 14 0 in wg Minimum TC 175:149 126 .3. :T 144 1 194 172 166 • allowable gas pressure for full rated input is 5 0 in wg ;1 115 SHC i 87 i 107 120 ^.97 ; 144 136 112 157 • Kw 9511881182 19:4 :18.5:38. 6 204 :193 191 5 Unit may be converted for 100% LP gas, using Carrier factory 1 parts Unit will maintain AGA certification if conversion is per- BF - Bypass Factor formed, as directed, and conversion nameplate is attached to Edb - Entering y -Bu W Ewb - Entering Wet -Bulb unit adjacent to existing unit nameplate Kw - Compressor Motor Power Input 6 Minimum allowable temperature of mixed air entering the heat SHC - Sensible Heat Capacity (1000 Btuh) Gross 1 exchanger during half -rate (first - stage) operation is 35F There TC - Total Capacity (1000 Btuh) Gross is no minimum mixture temperature limitation during full - rate NOTES operation 1 Direct interpolation is permissible Do not extrapolate 7 Bonnet capacity rated in accordance with ANSIZ 21 47-1973 2 The following formulas may be used sensible capacity(Btuh) tldb - tedb - 1 09 x cfm GROSS COOLING CAPACITIES t IWb = Wet -bulb temperature corresponding to enthalpy of air 48DP,DR012 leaving evaporator coil (hlwb) Evap Air - Cfm /BF total capacity(Btuh) Eva hlwb = hewb Temp (F) -- - ` 4 5 x cfm Air Ent 3000/.153 :.:K.00!0r. 887::;:1 ' 5000/.216 Where Cond Evap Air - Ewb (F) h Enthalpy of air entering evaporator coil (Edb) , , : � _ - . 72 67 62 `Z .. Z::+57:: 2> 72 67 62 3 SHC is based on 80F edb temperature of air entering evaporator TC 132 123 _ 110 '; e$ : ;:: 138 131 124 coil 85 SHC 65 81 95 <� :: > $ :' ;.:IP 75 99 120 Below 60 F edb, subtract (corr factor x cfm) from SHC Kw 12 2 I 1 7 11 t4 Vii,$ :f;:; 12.5 12.1_ 11.7_ gp>F e�ldCOr(rtorx Chat) to 51 TC 128 116 100 ?1'33`. ::1 11. 1 126 117 95 SHC 63 79 91 : 90- 75 99 117 - 1 _ ENTERING AIR DRY -BULB TEMP under (F) _ 76 �- i Kw 13 0 12 3 11 9 1 4'i,' . B YPASS 79 T 7- 77 f 76 1 75 i 4 12.9 , 12 3 FACTOR 8i -i 11r: ; E3 ?1 . .. . :1. ::6 7:? TC - 122 107 90 32?: is :'100 130 119: 109 e _ Correction Factor 105 SHC 61 75 85 : ;:8& .. 9,07.; .r ?` 73 97 1 109 OS ; - : - i 1 104 1 2 07 3 1 1 4 14 5 18 Kw 13 6 13 1 12 6 ? {$ 3'{•. 1;2 : 1 4 1 13.5 13 1 .10 ' 98 1 96 2 94 3 92 490 Use formula .20 I 87 1 74 2 62 3 49 4 36 shown below TC 113 96 81 .' :1:26 ' t z 3 05 1 3 82 _ 115. SHC 58 71 80 ;ti:•` , : ::: .. f .1 . 1.;' . 5 72 93 101 Interpolation is permissible . • 1 Kw 14 4 13 8 13 3 � : : � , ' :! 14 8 14 2 1 13 9 Correction Factor = 1 09 x ( 1 - BFI x (edb - 80) 9 ---7 00 Fan performance UNIT _ 0.80 _ -1--015---1 _ _ _ 1.20 I _ 140 - 1 -60 " T' 1.80 _.... - _- +~_ EXTERNAL STATIC PRESSURE (in w • MODEL 1 CNM j - -� _. _ ..__._ _ �. -_ 2 -_ , • 0 0 40 - - 646 _ 48DP,DR 'Rpm 1 Bhp Rpm B ,Rp 1 Shp ;Rpm' Bhp Rpm 1 Bhp Rpm I Bhp ;Rpm Bhp 1 Rpm Bhp :Rpm Bhp Rpm Bhp 3000 ` 634 :0.39 737 :0.51 1 830_10.64 1 914 ? 992 0.92 1066;168 1139 1 .26 \ - . - 1 - � 1 - 0 1 3200 664:0.45 ' 760 0.581 851 934 0.86 1009 1081 :1.17 X1150 i 1 .34 1218 1.531 - - 3400 . 695 - -1 053 6 1 87 080 1 954 0.95 ;1028 11 11 1109 .27 1 106411.44 ; ;1228 1.83 ;1293 ;1.83 - 1 - i _ . .... - - _ . --.. 3800 726 6 811 0 75 897 974 1 05 11048 1 22 ;1115 :1.38 11801.56 1242 1.74 > 1303 1.94 1364; 2.16 3800: 750 839 0 85 j 921 00: 997 1 16 1069 33 1135 150 1198 1.68 ' 12S0 1.87 1318 2.07 :1376 2,23 012 1 4000_ 792 0.80 867 0.96 945 12 .`1020 1.28 11089 1.46: 1156 1.64 ' 1 , 1273 2.01 1334 2.21 31389 ? 2 - 42� - , .._..- +- --- - - t-- - - 4200 ; 825 0.91 896 1 07 970 1 24 `1043 1.41 1111 1.59E 1176 1.78 i12371.97,12942.16 1351 :2.3611 1305 i 2.57 ._ + - 1 ...._ 4400 -. 859 103 03 . 927 1 20 i 89711.37 11067 1 56 31135 1.74 1197 1.93 :1258l2.13 131512.33 1369 .12.53 1423'2.74 i r - - - _ } _ _ 1 4600: 893 .1.16 957 1.39 1024 ; 1.52 11091 1.71 1157 1.90 ;127912.3011335 : 1219 2.09 2.51 1380:2.71 1440:2.92 ■ 1 4800 1 928 . 1.30 989 1.48 1052 1.67 ;1117 1 8711181 2.07 01244 227 :130012.47 1356 2.69 1410E 2.91 11460;3.12 ` i 5000 i 982 1.45 1020 1.64 1081 1.84 :1143 204 11205 <. 2.25 :126512.46 11322:2.67 1376 2.89 130 14 1 3.12 114801 3.34 .. 3750 740.0.78 85 0 95 957 ,1 .11 1049 1.27 11321.44 11202 ;1.62 ;125511,81 . 1282 2 00 i - - --- 1 -1-- 773 :0.92 885 1 .44 1155 1.61 11230 1 1.79 11293 3 1.991 1340 2 19 1366 2 39 : - 4250 807 1 07 914 126 1.441099 1.61 1180 1.80 11 254 1 1.98 P322 2.171 1379 2.38 ;1423 259 1450 i2.80 ' 4500 842 :1.23 i 945_41.43 _;1039 1.63 112 1.80 1204;1.99 11278 2.18 ;1346 2.59 il462 2.81 11504 3 3.03 ; 1 878 1 40 1 978 1 6211069 ,1 83 1152 2.01 1230 's 2 21 ,13031 2.41 11371 :2.6111435; 2.82 ;1493 3.04 1544E 3.28 014 15000 500 ' 915 1 6011011 1 82 1099 :2 05 1181 2.25 1256 12.44 1 1329 12.65 ;139612.86 1459 3.07 .07 :1519 3.29 1 -2 5250 f 952 1 1.83 11045 2 06 1129 :2.30 + 11210 + 2.52 1283 31355 , 2.93 ;142213.1511485 3.36 ;1544 3.58:. - --' ' f 5600 99012 06 1079 2 30 1161 2.55 i1240; 2.78 'I 313 3 3.00 ;1381 1 3.20 ;14481,3.43 3 1510 66 1 - -- 5 750 (1028 l 2 31 1114 , 2.56 :1194 2 -82 ;1270:306 1342 3,30 { 140813.51 :1473; 3.73 :1536 3 97 x - - - ;' - 4 [Imo :106712.59 11149 ;2.85 :1228 3.11 1300:3,37 313721 3.62 1437 3.85 14991 4.07 1 - + 1 8250 :1105 : 2.88 ' 184 ;3.15 :1261 3.42 133213.69113�96 1466 14,201152914.43' - - ? - 4500 '807 :1.05 ; 890 :1,25 971_1 461105 0 � 1 67 1125 ( 1 88 .1200 : 2.1211275 2.39 1349 2.7011421 :3.03 149013.39 4800 ` 843:1.25 1 928 31.47 1006 168 1081 1 90 1153 : 2 13 '1223 :1293 2.62 1364: 2.92 ;143313.24 3.24 15011 3.59 6100 885 988 1.70 1043 1.93 :1114 2.16 , 2.40 :1250'25 4 :131612,90 1382: 3.18E 1448 i3.491151413.86. 15400_,.....927 ;1.71 .1008 1.95 ,1080 2.20_11148 _244 : 1214 ; 2.6_9 t 279 2.94 11342 € 3.20 140313.47 1146613 7'7 1 1529 14 16 1 5700 971 11.98 ; 1049 2.24 1118 2.50 11134 2 75 1247 13.01 1309 >, 3 .28 1370 3,54 1429; 3.:81.1 1487 411 15471443"' : , • _ _ -- 016 1 6000 1016 '2 28 !1091 255j1158 2 83 .1222 3.10 1282 326 134213.64i1401' 1458; 4.20 " 4.50 `156914.80 16300 1059 2.60 1133 2 89 31 19 1259 .3.46 1318 .3.74 1375 402: 432 4;31 1487461 i 1542; •4:91 - i L 1 1174 3.26 112391356 . '129713.86 35-5--}}4.T5 1:410 4.45 .1464 4:78 151$:35;06; --- - i 690011150 13.35 1121813.67 1281 1339 4.29 ,3941 491 .3600 5.22 1550 54# -- -- -T 174 )( 2 _119_ 413.77 i1260:410 13n14.75 ' 1431 5.07 1 1482 1 5 40 ' ` - - - 1 7500 1238 1303;4.5 1362 4.81 f1418 .&;25: 1470 5.59 • -- 4 f - 2 I 'Standard motor and drive NOTES 1 Fan performance is based on wet coils, clean filters and 1 'Optional motor and drive (016 unit offered with optional drive only) casing losses ; 1 IField- supplied motor and /or drive 2 Motors have service factors as shown in Physical Data table on page 8 Rpm - Revolutions per minute 3 Condenser fan watts input. Bhp - Brake horsepower input to fan 48DP,DR012 1385 watts -- Bhp to watts % 48DP,DR014 1400 watts Conversion 48DP,DR016 2672 watts Bhp x 746 Motor efficiencies Watts input = Motor efficiency 1 hp - 0 81 1 -1 /2hp - 078 2hp - 0 83 3hp - 0.84 411/ 10 T Electrical data VOLTAGE a Q moo . OR ` OR CON18USTi01+1 POWER Sl3FFiY UNIT MOD€ RANGE COM :FAN MOTOR > FAN #ROTOR I FAN MOTOR VOLTS-PH-HZ { ._. A Rit s .1:: RLA i LRA Qty 3 FLA LHp i FLA FLA Min C1ct Amps MOCP 4AR►ps2 48DP,DR012 '' ) 24 0 136 1 0 3 45 70 80 90 208/230 -3 -60 1 157 253 i 2 4 • ! 90 (ea) (ea) i ` 5 50 , 70 80 48DP,DR012 Tr 414 _ 10 5 49 2 2 1 1 0 1 60 57 30 35 460 -3 -60 — lea) (ea) I 1 $ 1 2 60 _ 30 _ 35 . 48DP,DR012 . r • 518 532 8 3 T 41 2 1 8 1 0 1 1 35 r . 25 25 575-3-60 75 -3 60 (ea) I (ea) r 1 5 1 70 _ 25 25 48DP,DRO14 1i7 263 27 0 I 137 2 4 6 r. 2 0 7 40 90 78 90 208/_230 -3 -60 I (ea) (ea) ,. 1 0 10 40 78 90 48DP,DR014 r 414 M 6Q g 11 6 69 2 2 3 2.0 3 30 57 35 40 460 -3 -60 (ea) (ea) 3 0 4 70 35 40 48DP,DR014 610 632 �. 9 3 65 2 1 8 2 0 2 30 �" 30 — 30 90 575 -3 -60 I (ea) _ (ea) _ 3 0 _ 3 80 � I 30 30 48DP,DR016 187 253 t-- 61 6 266 2, 7 7 3 0 1 10 40 90 105 _ 125 208/230 -3 -60 I _, -, 414 I 508 48DP,DR016 ! 32 0 120 2 3 3 � 3 0 460.3 -60 I i 48DP,DR016 } 518 632 25 6 1 96 2 2 6 3 0 ...1 4 70 57 55 60 3 80 — 90 1 50 45 575-3-60 _ ! -1 ... — -. 1 _._ L _._ FLA — Full Load Amps MOCP — Maximum Overcurrent Protection '48DP,DR012 and 014 units contain 2 compressors Values apply LRA — Locked Rotor Amps RLA — Rated Load Amps to each Typical piping and w ..,.. wrissmaatiopprunionassatar i sar iw� . ima 25kAMOR y. s11a =mwartr�{ ECONOMIZER HOOD s'r • rr rviawr 11111111111114111111 ��sswwwsassww�ww - �rf��a/A r rrw....., .. - gr a ' . =reatsra�o • . .„..• -finigranirildWit.....== ,,,, , , ...., . 04.......e..iix , \ <3 . 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'.wYJf: .fir ;::::4:.i•r r:.a:�::.$i�i�o�:�;G rdo2 !� ra:•ire. • .. 11 Typical wiring diagram (2 -stage unit shown) . �R� TR3 24V - - � - - - - - -- • - ■ GRN • • . RH • _00 •• • 0 • • iZc°--C°61°--°'eS RS I C OFF • HEAT S • TO I O • IDR • • THI AHA 0 COOL X TH2 A � � ®� • WI - -� - - - --- -- - _ - _ O .v. II �� II �J • I',} -- - I J C. ® - - - -- - - -1_1 I a C7►' •S" _ / 1 - ® L3` 2 • • • OFF O - I FACTORY INSTALLED JUMPERI ICP20 ........ ICPI l • o HEAT ,0, I USED WITHOUT ECONOMIZER " �.I MI& • TCI !�M 6) PGVI ,, • • AUTO . • I. • - MV • _., ^ ■ . �• MVO O ',Zvi 1 • COOL I MV O • • I � I GNO • ONE () 1 . • ° 4i - - - - -- - - - -1 1- - - - -- I C - -- El 1 [ I • L SW • AUTO 1 � /! - --- -- -- •ON 0 -- - - - - - - - -- 0 I y _ _ -- -- -- • OAT -- -- �_ © «0 • 9 °0--C1----• HPS LPS .m• • • - - -- - -�H LOGIC • O0--D•� • - - -- • III 0111 • • FACTORY INSTALLED JUMPER • ®• • USED WITHOUT ECONOMIZER I 1 I I ECONOMIZER OPTION I 1 I = :R • I DR2 VENT AOJ SHAFT 1 I S i CLOSE 1 1 1 1 . . -________0_ ... _ � 1 ii MAT DM - I CO EC _._ - - - - - DR3 - _ -- - - - - - -' M• -- - - _______d_ li 1 U LEGEND AHA - Adjustable Heat Anticipator IFR - Indoor Fan Relay TH — Thermostat, Heating C — Contactor, Compressor IP - Internal Protector Tran - - Transformer Cap. - Capacitor L — Light U — Unloader CB — Circuit Breaker LPS — Low - Pressure Switch UR — Unloader Relay CC — Cooling Compensator LS — Limit Switch CH — Crankcase Heater MAT -- Mixed Air Thermostat O Terminal (Marked) CLO — Compressor Lockout MGV — Main Gas Valve 0 Terminal (Unmarked) COMP — Compressor Motor OAT. — Outdoor Air Thermostat CR — Control Relay OFC — Outdoor Fan Contactor ❑ Terminal Block CS — Centrifugal Switch PGV — Pilot Gas Valve • Splice DM — Damper Motor PL — Plug Assembly DR — Damper Relay QT — Quadruple Terminal a Splice (Marked) DU -- Dummy Terminal R Relay - - Factory Wiring EC — Enthalpy Control RS — Roll Out Switch — Field Control Wiring HPS -- High- Pressure Switch SN — Sensor I — Ignitor SW — Switch - -- Field Power Wiring ICP — Ignitor Control Pack TB — Terminal Block -- -- Accessory or Optional Wiring IFC — Indoor Fan Contactor TC — Thermostat, Cooling To indicate common potential only, ( IFM — Indoor Fan Motor TDR - - Time -Delay Relay not to represent wiring Controls Base unit operating sequence and main gas valve no. 1 opens. Gas flows to main burners Cooling — Power on and thermostat assembly set at and first -stage burners ignite. Spark ignitor turns off. COOL and desired temperature. Fan switch set at AUTO. When time delay sequence is complete, time -delay relay position. closes and indoor fan motor starts. Upon a rise in room temperature, cooling contact no. 1 On 2 -stage units (48DR012,014 and 48DP,DR016), with in the thermostat closes, energizing the first -stage cooling an additional heating load, the second -stage thermostat contactor and the indoor fan contactor. The first -stage closes. (The control relay closes during first -stage opera - compressor, outdoor fan motor and indoor fan motor start tion.) Pilot valve no. 2 opens. Spark ignitor operates and and run. ignites pilot. Sensor detects flame, energizes main gas valve Upon a further rise in room temperature, cooling contact coil no. 2 and main gas valve no. 2 opens. Gas flows to main no. 2 in the thermostat closes, energizing the second -stage burners and second -stage burners ignite Spark ignitor cooling contactor. The second -stage compressor starts and turns off. runs. On 2 -stage units (48DR012,014 and 48DP,DR016), when If unit operation is interrupted by the low- pressure switch, second -stage thermostat is satisfied, second -stage gas high - pressure switch or compressor line -break device valve closes. (motor overload or overtemperature), and there is a call for When first -stage thermostat is satisfied, first -stage gas cooling, the Cycle -LOC" circuit prevents the compressor valve closes. Induced draft motor goes off. Time -delay relay from restarting until manual reset is accomplished at the opens and timer sequence begins. When sequence is corn- thermostat by turning the unit off and then on. plete, indoor fan motor goes off. All units have condenser fan cycling thermostats which, Air circulation — Unit power on. Control set at OFF, fan at 55 F, shut off one outdoor fan motor. This permits unit switch set at ON. Indoor fan contactor is energized thru the to operate down to 35 F outdoor air temperature. switch on the thermostat, and the indoor fans run contin- uously. When controls are set at HEAT or COOL, opera- tion is as above, except indoor fan runs continuously. Heating Economizer operating sequence (if supplied) — Unit NOTE: The 48DP012,014 units have one stage of heat. The power on, thermostat set at COOL or AUTO., outside air enthalpy below setting of enthalpy changeover control. 48DR012,014 and 48DP,DR016 units have 2 stages of heat. Upon a rise in room temperature, cooling contact no. 1 in Unit power on. Manual gas valve open supplying gas to the thermostat closes. Indoor fan motor starts and outside base unit. Thermostat system switch set at HEAT or air damper modulates to maintain mixture of outside air and AUTO., fan switch set at AUTO. return air at preset temperature. Cooling is provided with First -stage thermostat calls for heat. Time -delay relay, outside air. Mechanical cooling is locked out. controlling indoor fan, begins timer sequence. Induced -draft At outside air enthalpy above enthalpy changeover con- relay closes and induced -draft motor starts. trol setting, outdoor air damper moves to vent position Centrifugal switch closes. Pilot valve no. 1 opens, allowing whenever fan is running. Cooling operation is as described gas to flow to first -stage pilot. Spark ignitor ignites pilot for base unit. When heat is energized, outdoor air damper flame. Sensor detects flame, energizes main gas valve coil moves to vent position. It closes when fan is not operating. 13 Application notes Ductwork — Ductwork should be attached to the curb on peratures below 35 F, accessory Motormastero will permit all units Interior installation may proceed before unit is set operation at outdoor temperatures as low as -20 F in place on roof. If ductwork will be attached to unit, do not Roof curb — All curb installations must be counterflashed drill in condensate drain pan area — leaks may result. to prevent water leakage. Condensate traps — Evaporator coil is draw -thru configu- ration Tra Power supply — Electric power may be brought to unit p (minimum 4 in. deep) must be field provided within curb perimeter thru fittings provided in basepan prior to start -up on cooling cycle Install plug in condensate drain on opposite side of unit from trap. Provide power supply in accordance with local codes - Branch circuit protection to unit must be provided by fuses Operating limits — Cfm and other values indicated illus- no larger than Maximum Overcurrent Protection Amps trate the operating range of the equipment. Operation shown in Electrical Data. outside these limits is not recommended. Control wiring — 24 -volt wiring to thermostat is NEC Low ambient cooling operation — Units are designed to Class II. operate at outdoor temperatures down to 35 F At tern - Guide specifications Base unit Each of these devices shall be wired thru the Cycle -LOC' Unit shall be a one -piece air - cooled electric cooling, gas circuit to prevent compressor restart until reset at the heating unit and shall be mounted on a full perimeter roof thermostat (or unit circuit breaker). curb. Standard unit shall include a manual outdoor air inlet. Heat exchanger shall be tubular in design and constructed Total cooling capacity of unit shall be Btuh or of corrosion- resistant aluminized steel. Heat exchanger greater, and sensible capacity shall be Btuh or shall carry a 5 -year warranty and an extended 10 -year • - warranty at additional cost. Burners shall be constructed of greater at conditions of cfm evaporator air entering unit at F wet -bulb, F dry -bulb and condenser aluminum painted cold rolled steel and be of the in -shot type. entering air temperature of . F dry -bulb. Heating controls shall consist of a redundant gas valve, - intermittent pilot ignition, remote pilot flame sensor, indoor Heating capacity of units shall be Btuh. fan relay, limit switches and centrifugal switch. j Unit compressor(s) shall be serviceable semi - hermetic or Unit electrical connections — Cabinet shall contain welded fully hermetic with crankcase heater(s) and suitable suitable openings for routing of all utility connections The vibration isolators. Compressors shall be of the same base unit shall contain a terminal strip in the control corn- manufacture as unit and shall have a 5 -year warranty. partment to allow for terminal -to- terminal connection of Coils — Indoor and outdoor coils shall be of nonferrous room thermostat and field - installed accessories. construction with aluminum plate fins mechanically bonded Maximum dimensions — Width in., depth to seamless copper tubes with all joints brazed. in., height inches. I Fans and motors — Indoor blowers shall be forward - curved, centrifugal, belt- driven type capable of delivering cfm at in. wg external static pressure. Motor pulley shall be adjustable pitch. Indoor blower motor shall Accessories and options be hp with permanently lubricated bearings. Outdoor fans shall be of the propeller type, with direct- driven per- The following factory - installed options (FLOP) or field - manently lubricated motor of hp or less. Outdoor installed accessories (accessory) shall be provided. fans shall discharge upward. Roof curb shall be of the same manufacture as unit and Unit cabinet shall be constructed of galvanized steel, shall include an insulated panel under compressor section bonderized and coated with a baked enamel finish. Cabinet to prevent condensation forming on the bottom. Dimen- interior shall be insulated with 1 -in. thick neoprene - coated sions shall be provided to allow for easy duct location and fiberglass. Cabinet panels shall be easily removable for connection to roof curb prior to unit placement. Curb service to all operating components. A condensate drain for design shall comply with National Roofing Contractors the indoor coil shall be provided. Association requirements. (Accessory) Controls — The cooling system shall be protected with Economizer shall include return air (R.A.) and outside air high pressurestat, low pressurestats, loss -of- charge protec- (O.A.) dampers, outdoor air filter and hood, and fully modu- tion, indoor coil freezestats, and current and temperature lating electric control system with enthalpy changeover con - sensitive overload devices. trol and adjustable mixed air thermostat. Economizer 14 Guide specifications (cont) control shall be capable of introducing up to 100% outdoor Barometric relief damper — An automatic damper to air. The control changeover from mechanical cooling to relieve positive building pressure shall be provided. economizer operation shall be fully automatic thru an (Accessory) adjustable enthalpy control device. (Accessory or FIOP) Time Guard® circuit to prevent compressor short cycling Alternate motor and drive assembly to provide added as a result of a rapid change in thermostat setting. Also, cfm and static pressure capability. (FLOP) automatically prevents compressor restart for at least Remote control panel — The panel shall provide central 5 minutes after shutdown. (Accessory) control of heating, cooling, indoor fan and outdoor air Power exhaust (016 only) to be used only in conjunction damper. Indicator lights for unit functions shall be provided. with economizer, exhausts up to 75% of return air at 0.1 S.P. (Accessory) Eliminates overpressurization of the building (Accessory) Thermostat assembly shall provide staged heating and Two - position damper — Allowing remote closure of 25% cooling, automatic changeover and fan control. (Accessory) outside air opening when unit shuts down shall be pro - Head pressure control — A solid -state outdoor air fan vided. (Accessory) speed control to permit unit to operate down to -20 F shall L.P. Kit — Shall convert unit for use of L P. gas. be provided. (Accessory) (Accessory) I 15 • . Number One Jr A Gxditoning ker Carrier Carrier Ca Wraria, Comer Parkway • Syracuse N V 17221 Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations. Book 1 4 Form 48DP -1 P New Printed in U S A 1281 8 -81 PC 111 Catalog No. 524 -816 Tab 1a 6a 48TC *D • Single Package Rooftop, Gas Heating Electric Cooling Unit with Puron`® (R -410A) Refrigerant: Currier Sizes 08, 12, and 14 with NOVATION - ' Coil turn to the experts Sizes 08 — 14 with Round Tube /'Plate Fin Coil E EC 1 Installation Instructions DEC 9 2.011 CITY OF TIGABD B UILDING DIVISION NOTE: Read the entire instruction manual before starting SAFETY CONSID ERATIONS the installation TABLE OF CONTENTS Improper installation, adjustment, alteration, service, maintenance, or use can cause explosion, fire, electrical SAFETY CONSIDERATIONS 1 shock or other conditions which may cause personal injury or property damage. Consult a qualified installer, INSTALLATION 6 service agency, or your distributor or branch for information or assistance. The qualified installer or Step 1 - Plan for Unit Location 6 agency must use factory- authorized kits or accessories Step 2 - Plan for Sequence of Unit Installation 7 when modifying this product. Refer to the individual Step 3 - Inspect Unit 7 instructions packaged with the kits or accessories when Step 4 - Provide Unit Support 7 installing. Step 5 - Field Fabricate Ductwork 10 Follow all safety codes. Wear safety glasses and work gloves. Use quenching cloths for brazing operations and Step 6 - Rig and Place Unit 10 have a fire extinguisher available. Read these instructions Step 7 - Convert to Horizontal & Connect Ductwork 11 thoroughly and follow all warnings or cautions attached to Step 8 - Install Outside Air Hood 11 the unit. Consult local building codes and appropriate Step 9 - Install Flue Hood 13 national electrical codes (in USA, ANSI/NFPA70, National Electrical Code (NEC); in Canada, CSA C22.1) Step 10 - Install Gas Piping 13 for special requirements. Step 11 - Install External Condensate Trap and Line 16 It is important to recognize safety information. This is the Step 12 - Make Electrical Connections 17 safety -alert symbol AS . When you see this symbol on the Step 13 - Humidi- MiZer — unit and in instructions or manuals, be alert to the Space RH Controller 41 potential for personal injury. Step 14 - Adjust Factory- Installed Options 46 Understand the signal words DANGER, WARNING, Step 15 - Install Accessories 46 CAUTION, and NOTE. These words are used with the safety -alert symbol. DANGER identifies the most serious hazards which will result in severe personal injury or death. WARNING signifies hazards which could result in personal injury or death. CAUTION is used to identify unsafe practices, which may result in minor personal injury or product and property damage. NOTE is used to highlight suggestions which will result in enhanced installation, reliability, or operation. 4 A WARNING A WARNING FIRE, EXPLOSION HAZARD PERSONAL INJURY AND ENVIRONMENTAL HAZ Failure to follow this warning could result in personal ARD injury or death. Failure to follow this warning could cause personal injury or death. Disconnect gas piping from unit when leak testing at pressure greater than 0.5 psig (3450 Pa). Pressures Relieve pressure and recover all refrigerant before greater than 0.5 psig (3450 Pa) will cause gas valve system repair or final unit disposal. damage resulting in hazardous condition. If gas valve Ware safety glasses and gloves when handling is subjected to pressure greater than 0.5 psig (3450 refrigerants. Keep torches and other ignition sources Pa), it must be replaced before use. When pressure away from refrigerants and oils. testing field- supplied gas piping at pressures of 0.5 psig (3450 Pa) or less, a unit connected to such piping must be isolated by closing the manual gas valve. a CAUTION CUT HAZARD A WARNING Failure to follow this caution may result in personal injury. co v ELECTRICAL SHOCK HAZARD Sheet metal parts may have sharp edges or burrs. Use Failure to follow this warning could cause personal care and wear appropriate protective clothing, safety injury or death. glasses and gloves when handling parts and servicing Before performing service or maintenance operations furnaces. on unit, always turn off main power switch to unit and install lockout tag. Unit may have more than one power switch. A WARNING UNIT OPERATION AND SAFETY HAZARD Failure to follow this warning could cause personal injury, death and/or equipment damage. Puron® (R -410A) refrigerant systems operate at higher pressures than standard R -22 systems. Do not use R -22 service equipment or components on Puron refrigerant equipment. 2 40-3/8 110261 NOTES: 1 DIMENSIONS ARE IN INCHES, DIMENSIONS ECON ' 1000 20.3!1 IN I I ARE IN MILLIMETERS. ♦ (OPTIONAL] • 75211 2 (9 CENTER OF GRAVITY 3 DIRECTION OF AIR FLOW --____I . J `��� ]6 -310 12 1 i t , 1 71251 OM RETURN , 1 / RETURN AIR AIR � `I . -"T— EAIi I / ' \ CONDENSATE A \ \DRAIN NASEPAN 1 1JN ■ 11 /lll /((( / /I../ IN OASEIAN �!',: Intl 31-5/8 40-3/8 10211 W SUPPLY 71551 [10211 10 �P /9,1/SIT: A sum, \\ \ E,i -L\ _ / / / / / //i.1 SEE TARE AIR AIR THE OUSE 10 -���` � /� /, 2 CHART UN1 j/ 14 I1 ` A II !75151 12791 I I -- 1 1 1 1 •0 ' "/' - : 0 _ ". — 29-5!8 ---.1 F 3 -1/4 L 11511 L , �, a �_ 1 831 ��sfi 0 DM 7 1001 LUE 13561 14 HOOD -- 25 -1/2 U N TOP 16471 / -5 /8 CO 11181 . IS CONTROL 007 • D ISCONNECT ACCESS PANEL A . Ii LOCATION CONDENSER 0, COIL G OPTIONAL I INDOOR DLONIV , y OPTIONAL ' I FACTORY ACCESS INSTALLED FACTORY 27 -7/8 DISCONNECT INSTALLED NIENCE Ili 1101j - N ANOIE • CONVENIENCE F c4/ - OUTLET C I HANDLE - -. 6-5/0 y • 1.!::n. - .. ` _ BR — -- 11 71681 :0O �] : : 00 2-5/a --► - 4-318 33/4 51-712 1151 115101 TIP 11 121/1 C f9 /01 CURB LEFT NISTH 12210° FRONT 122381 13714 FILTER ACCESS PANEL 1721 E STD (TOOL-LESS] • CONDENSATE DRAIN • • - • CONDENSER CO i I WFSIDE INDOOR COIL ■ _ 26 AfR ACCESS iANEI 11591 , 3 . I ( F ) t SUPPLY RETURN OARWETRIC AIR RIGHT AIR RELIEF FION BACK Vertical Connections / Economizer 11 -1/8 13021 21 -Il4 . 11U] r [ S I CONDENSATE TD • DRAIN N CONDENSER COIL • • RETURR 10 Z7.3/4 . AIR -110 110111 13.1/8 11061 13341 SU PPLY AIR - {il8 + ^ P _ I � _ I1 511 '- R001691.16■_R ■∎111MM O_I011$I I 6 11611 6.1/8 42 -3/0 11551 110151 Horizontal Connections / Economizer CONNECTION SIZES THRU -THE -RASE CHART UNIT 1 M N THESE ROLES REQUIRED FON USE CROT$PRR002A01. 0O 4A01 lard Doe 41 1/4 33 IS 1/8 A 1 3/4' DIA 1351 FIELD POWER SUPPLY MOLE THREADED CONDUIT SIZE NINE USE REO•D HOLE SIZES 1NAN.7 710481 7 6581 14031 1 2 1/2' L]/1 DIA POWER SUPPLY KNOCNOUT W 1 /2' ACC. 111' 122.21 1NTC-D01 41 3/0 31 1/1 15 1/e 112531 11461 14031 C 1 3/4' DIA 1S1l GAUGE ACCESS PLUG 1 112' 24V 1/8' (22.21 41 318 37 111 15 118 D 118 DIA 0221 FIELD CONTROL WINING NOIC 1 1 I /4' 1002.0041 POWER 1 3 /1' (14.1) 401C-D12 (12531 11111 14031 2 .., 10041 3/4' FAT 6AS 1 5/8' ( 41.11 • 48%1,08 AT I14 33 23 E 311'11 NP1 CONDENSATE DRAIN FOR ' TNRU FACTORY OPTION. 110441 (4381 1504.21 F 1/2' MPT GAS CONNECTION FITTINGS FOR 011.1 1. 9, 6 I ARE PROVIDED • 18TC-D12 41 3/0 31 111 11 3/4'-14 OPT GAS CONNECTION . FOR NEAT SIZES '0' I. '0' • A FIELD SUPPLIED 112' ADAPTER 112511 I14{1 1211.11 IS REQUIRED OETOEEN RASE PAN FITTING AND iAS VALVE. 6 2 • DIA 1511 POWER SUPPLY RNOCI -OUT • TOO STAGE COOLING NOVELS ■ITN . 10021 PROVIDES 3/1' FAT Tau CUM FLANGE 4 FITTING. NOVATION CONDENSER COILS C08563 Fig. 1 - Unit Dimensional Drawing — 08, 09 and 12 Size Units 3 STD. UNIT CORNER CORNER CORNER CORNER C.G. UNIT WEIGHT • WEIGHT (A) WEIGHT (B) WEIGHT (C1 WEIGHT (D) LBS. KG. LBS. KG. LBS. KG. LBS. KG. LBS. KG. 0 Y 1 48TC-D08 825 374.5 162 13.5 168 76.3 252 114.4 243 110.3 44 7/8 [1140] 35 5/8 [9051 19 3/8 [492] 481C-D09 930 _ 422 228 103.5 187 85 232 105.3 283 128.5 39 3/4 (10101 32 7/8 [835] 18 5/8 [413] 48TC -D12 940 427 207 94 190 86.3 260 118 283 128.5 39 3/4 (10101 32 7/8 [8351 18 5/8 [473] • STANDARD UNIT WEIGHT IS WITH LOW GAS HEAT AND WITHOUT PACKAGING. FOR OTHER OPTIONS AND ACCESSORIES, REFER TO THE PRODUCT DATA CATALOG. CORNER A CORNER B l ' 111!:; I�': X111 a \• CORNER D CORNER C op TOP ... • • I o �. o boo - : " : oop, FRONT C08566 Fig. 1 - Unit Dimensional Drawing — 08, 09 and 12 Size Unit (cont.) 4 40-116 171267 NOTES: 1. DIMENSIONS ARE IN INCHES. DIMENSIONS VERTICAL 20 3/I IN I I ARE IN MILLIMETERS. ECONOMIZER N00D 15261 2. S CENTER Of GRAVITY I • (OPTIONAL! 3 I. DIRECTION OF AIR FLOW ' ' ' ' ' • /% \ f_ [125] 8 5 /I %� RETURN AIR 13211 • / �l %, ,,,$‘, 1(1050 h (l 1 17 11111,1)li ' -- AIR I I I ' ,,' 11/'1;!' —T----. \ \ \ \ � vim] INON J � i vim] = - 21.3/1 1 R 17311 37.5/1 E SUPPLY 16551 I AIR II F 2 SUPPLY • [16611 1121 a 11 SEE AIR ; 155) 12131 1XAV THE-BASE I - 1 U 25.5/6 C ALT. — II — 1 -1 /1 1159! 17511 CONDENSATE 13561 (131 GRAIN OPENING IN BASEPAN 25 -1/2 —.+ 16111 N TOP 0 1-516 # (1711 (, _ L(CTNICAL T — �I 6 I- �I DISCONNECT c AOX I. ACCE PANE( .�l 1 I' CONDENSER , OPTIOM INDOOR ES LO ER COIL , FACTOR, INSTALLED R DISCONNECT DFA TORS 16131 - - FACTORS HANDLE ANDY INSTALLED ///- -- ///� CONYCNICIKE NIO 1 II 6 5/6 Iiir EN ( 1 floc [� s = : : 00�{ 2.5/6 --- L-- -lll 3.1 /A 31-1/2 1671 1751 115111 CU RB - $6 1/1 LEFT WIDTH 122581 FRONT -{-- a^ 2 . [Al 11 — -I FILTER ACCESS PANEL (DISPOSABLE FILIENSI • I ITS • [ONDE NSA FE I I CONDENSER DRAIN COIL I INDOOR COIL f I I 2N 0011j ACCESS PANEL 00 . C=n . '' 003 SUPPLY 41 , f RETUAR . NANOM[711C AIN RIGHT AIR REL/EPilw BACK Vertical Connections / Economizer It-2/6 13021 21.1/1 (7131 do ■r.P I E STD 11P I COIDENSATE I CONDENSER DRAIN COIL 11-1 17-:11 L_______: 27n /N.3 /1 I ltOt Ill 153 I SUPPLY AIR 0 �a 0 - ' 0 i . : ?=:i' -c � - oil " 6.1/1 ■ 6.5/1 11571 11661 N -1/1 42-316 (1551 (11711 Horizontal Connections / Economizer CONNECTION SIZES THOU-THE-BASE CHART A 1 3/6' 13S) DIA FIELD POWER SUPPLY HOLE THESE ROLES REOUIRED FOR USE CRBTMPWR002A01.004A01 B 2 112' [611 DIA POWER SUPPLY RNOCROUT THREADED CONDUIT SIZE WIRE USE REO'D HOLE SIZES (MAXI UNIT N 1 K V Sir ACC. 116' (22.27 E22 77 3/6 3/6 35S/8 C 1 3/1' 16(1 DIA 6UAGE ACCESS PLUG _ S 112' 240 7/6' 467C-D11 If 12651 403 /6 (5051 D 7/6' 1221 DIA FIELD CONTROL WINING MOLE Y 1 114' 1002,0047 POWER 1 3 /4' (44.41 E 314' -14 NPT CONDENSATE DRAIN ZN (0041 311' FPT GAS 1 5/6' (41.31 F 3/1' -11 NPT 6AS CONNECTION FOR ' THRU FACTORY OPTION, FITTINGS FOR ONLY X, T. 1 1 ARE PROVIDED 6 2 1611 DIA POWER SUPPLY KNOCK-OUT 1 10021 PROVIDES 314' FPT THOU CURB FLANGE I FITTING 000507 Fig. 2 - Unit Dimensional Drawing - 14 Size Unit 5 STD. UNIT CORNER CORNER CORNER CORNER UNIT WEIGHT WEIGHT (A) WEIGHT (B) WEIGHT (C) WEIGHT (D) C.G. -- LBS. KG. LBS. KG. LBS. KG. LBS. KG. LBS. KG. II T 2 48TC-D14 1116 506 297 135 157 71 229 104 434 197 29 1/2 (749) 34 1/4 (870) _ 20 1/4 (514) CORNER A CORNER N a • CORNER D L I CORNER C 0 TOP U I- w L � o � a 400 : : 0 0 •. FRONT COMB Fig. 2 - Unit Dimensional Drawing — Size Unit (cont.) INSTALLATION Jobsite Survey 1 r c 457 1 ' Complete the following checks before installation. \ O O 42' (1087) 1. Consult local building codes and the NEC (National Electrical Code) ANSI/NFPA 70 for special installa- ' tion requirements. 2. Determine unit location (from project plans) or select 18"(457) unit location. a2• (1067) 3. Check for possible overhead obstructions which may interfere with unit lifting or rigging. Step 1— Plan for Unit Location ' Required bottom condensate drain connection. Otherwise, 36" (914mm) for condensate connection. Select a location for the unit and its support system (curb C08619 or other) that provides for the minimum clearances Fig. 3 - Service Clearance Dimensional Drawing required for safety. This includes the clearance to combustible surfaces, unit performance and service access Do not install unit in an indoor location. Do not locate air below, around and above unit as specified in unit inlets near exhaust vents or other sources of contaminated drawings. See Fig. 3. air. For proper unit operation, adequate combustion and NOTE: Consider also the effect of adjacent units. ventilation air must be provided in accordance with Be sure that the unit is installed such that snow will not Section 5.3 (Air for Combustion and Ventilation) of the block the combustion intake or flute outlet. National Fuel Gas Code, ANSI Z223.1 (American National Standards Institute) and NFPA (National Fire Unit may be installed directly on wood flooring or on Protection Association) 54 TIA-- 54-- 84 - -1. In Canada, Class A, B, or C roof - covering material when roof curb is installation must be in accordance with the CAN1 - -B149 used. installation codes for gas burning appliances. 6 Although unit is weatherproof, avoid locations that permit Make electrical connections water from higher level runoff and overhangs to fall onto Install other accessories the unit. Pad - mounted installation — Locate mechanical draft system flue assembly at least 4 ft Prepare pad and unit supports (1.2 m) from any opening through which combustion products could enter the building, and at least 4 ft (1.2 m) Check and tighten the bottom condensate drain from any adjacent building (or per local code). Locate the connection plug flue assembly at least 10 ft (3.05 m) from an adjacent Rig and place unit unit's fresh air intake hood if within 3 ft (0.91 m) of same Convert unit to side duct connection arrangement elevation (or per local code). When unit is located Install field- fabricated ductwork at unit duct openings adjacent to public walkways, flue assembly must be at Install outdoor air hood least 7 ft (2.1 m) above grade. Install flue hood Select a unit mounting system that provides adequate Install gas piping height to allow installation of condensate trap per Install condensate line trap and piping requirements. Refer to Step 11 — Install External Condensate Trap and Line — for required trap dimensions. Make electrical connections Install other accessories o Roof mount — Frame- mounted installation — Check building codes for weight distribution Frame - mounted applications generally follow the requirements. Unit operating weight is shown in Table 1. sequence for a curb installation. Adapt as required to suit specific installation plan. Step 2 — Plan for Sequence of Unit Installation Step 3 — Inspect unit The support method used for this unit will dictate different Inspect unit for transportation damage. File any claim sequences for the steps of unit installation. For example, with transportation agency. on curb - mounted units, some accessories must be installed on the unit before the unit is placed on the curb. Confirm before installation of unit that voltage, amperage Review the following for recommended sequences for and circuit protection requirements listed on unit data installation steps. plate agree with power supply provided. Curb- mounted installation — Step 4 — Provide Unit Support Install curb Roof Curb Mount — Install field- fabricated ductwork inside curb Accessory roof curb details and dimensions are shown in Install accessory thru -base service connection package Fig. 4. Assemble and install accessory roof curb in (affects curb and unit) (refer to accessory installation accordance with instructions shipped with the curb. instructions for details) NOTE: The gasketing of the unit to the roof curb is Prepare bottom condensate drain connection to suit critical for a watertight seal. Install gasket supplied with planned condensate line routing (refer to Step 11 for the roof curb as shown in Fig. 4. Improperly applied details) gasket can also result in air leaks and poor unit Rig and place unit performance. Install outdoor air hood Curb should be level. This is necessary for unit drain to Install flue hood function properly. Unit leveling tolerances are show in Install gas piping Fig. 5. Refer to Accessory Roof Curb Installation Install condensate line trap and piping Instructions for additional information as required. Table 1— Operating Weights 48TC *D UNITS LB (KG) Component D08 D09 D12 D14 Base Unit 825 (374.5) 930 (422) 940 (427) 1116 (506) Economizer Vertical 80 (36) 80 (36) 80 (36) 80 (36) Horizontal 105 (48) 105 (48) 105 (48) 105 (48) Powered Outlet 32 (15) 32 (15) 32 (15) 32 (15) Humidi— MiZer'" System 70 (32) 70 (32) 75 (34) — Curb 14 —in /356 mm 133 (65) 133 (65) 133 (65) 133 (65) 24 —in /610 mm 174 (79) 174 (79) 174 (79) 174 (79)) 7 Install insulation, cant strips, roofing felt, and counter Slab Mount (Horizontal Units Only) — flashing as shown. Ductwork must be attached to curb and not to the unit. The accessory thru - the -base power and Provide a level concrete slab that extends a minimum of 6 gas connection package must be installed before the unit in. (150 mm) beyond unit cabinet. Install a gravel apron in is set on the roof curb. If field- installed thru- the -roof front of condenser coil air inlet to prevent grass and curb gas connections are desired, use factory - supplied foliage from obstructing airflow. pipe coupling and gas plate assembly to mount the NOTE: Horizontal units may be installed on a roof curb - thru- the -roof curb connection to the roof curb. Gas if required. connections and power connections to the unit must be Alternate Unit Support (In Lieu of Curb or Slab field installed after the unit is installed on the roof curb. Mount) — If electric and control wiring is to be routed through the A non- combustible sleeper rail can be used in the unit basepan, attach the accessory thru- the -base service connections to the basepan in accordance with the curb support area. If sleeper rails cannot be used, support accessory installation instructions. the long sides of the unit with a minimum of 3 equally spaced 4 -in. x 4 -in. (102 mm x 102 mm) pads on each side. U F- CO 8 NOTES. ROOFCURB A UNIT SIZE 1. ROOFCURB ACCESSORY 15 SHIPPED DISASSEMBLED. ACCESSORY 2 . DISUL ATED S PANELS. N . 1 T IN . M OOLLIUURETHANE FOAM. 1 -3/4 • DENSITY. CRRFCURB003A01 1 2 4. ROOFCURB• 16 GAGE STEEL. (356) 48TC'D08 - 14 5. ATTACH DUCTWORK TO CURB. (FLANGES OF DUCT REST ON CURB) 6. SE VICE CLEARANCE 4' ON EACH SIDE. 2' 0" CRRFCURBOO4A01 (610) 7. Mr DIRECTION OF AIR FLOW. 8. CONNECTOR PACKAGES CRBTMPWROO1A01 AND 2A01 ARE FOR THRU- THE -CURB GAS TYPE. PACKAGES CRBTMPWR003A01 AND 4A01 ARE FOR THE THRU- THE -BOTTOM TYPE GAS CONNECTIONS. CONNECTOR PKG. ACC. B C D ALT DRAIN MOLE GAS POWER CONTROL ACCESSORY PWR CRBTMPWROO1A01 2' -8 7/16' 1' -10 15/16' 1 3/4'(44.S] 3/4'(197NPT 3/4'[19]NPT 1/2'(12.71NPT 1/2 %12.73RK CRBTMPWROO2AO1 (827] (583] 1 1/4 (31.7] CRBTMPWR003A01 1/2'(12.7]NPT 3/4'(19]NPT CRBTMPWROO4A01 3 /4'(19]NPT i v 1 1/4'(31.7] 1 I UII T �^f � C 7 � - ♦ - NAIL 0' -3 6/16' [6 ,.01 r t.4 - -� Doti) TYPICAL (4) SIDES I .)• ,''. _ (9UPPU �. (FIELD SUPPLIED) o' -718' 111 • COUNTER FLASHING • _ 1 i (FIELD \ , \ \ PELT ( /.►� � - - . • 186 WI ELD SUPPLIED) V ♦ • • / (*MELD l SECTION 'C CO I-- • a _ ■ ROOF INC MATERIAL SCALE 1.4 .1' \ (FIELD SUPPLIED) ' (76S._-_1_ I ` '_ RIGID I T100 [78) (FIELD SUPPLIED) G 3 (10061 SUPPLY AIR 1' -3 1/4' � OPENING / [3671 I / COMM SAMPAN / ENTRY SERVICE (SEE NOTE •8) I F J ....... ROOFING MATERIAL 0'-0 7/16' II (FIELD SUPPLIED) (11J '-6 15/1H L 1' -2 7/0• 0'-0 7/18' / / 030.7 LEADS) C786J [378) (80. [[ 11] IEA93) / 0' -2 847 th', O• 7 / ( 0 1116 ' 1 ' - 0 13/18' 0'-0 7/16' / P� SEE NOTE .2 0301T HEADS) (12401 T HEADS) / V ipilik. _ 4 I / SAS Slal / (5133 (SEE NOTE W 1'0 3/15' \► I8/ / (1NSIOE) 0 [1 10 7 1 8• / `� / I ',1 1. / tlNSha 0' -0 1/4' In / _ O TrP p 1114444144 I 0'-4 6/16• ♦ 2 3/8 1115.61 # I / 1 (61) `O I 215/16' O �( 1 SUPPLY AIR RETURN AIR %,. /� / j VIEW " A —A' .4,„‘„„, � HEAD OF SOLT TO E ON ' INSIE OF FLANGE I:- �! Y s 6'i" G' �,ei I 6 All [12641 NOTE. CAIOtI06EPORT 'SURE-LOCK' COMER FASTENING DEVICE IS ACCEPTABLE ♦ • ALTERNATE CON STRUCTION. A pEF F _ �1 3 . rg7 . SEE VIEW • 8' � 1 ,... 7- Y - VIEW (TIP. ALL COt883B) C08546 Fig. 4 - Roof Curb Details 9 If a plenum return is used on a vertical unit, the return should be ducted through the roof deck to comply with 4111111 applicable fire codes. e A minimum clearance is not required around ductwork. Step 6 — Rig and Place Unit �.- / MAXIMUM ALLOWABLE Keep unit upright and do not drop. Spreader bars are not DIFFERENCE IN. (MM) required if top crating is left on unit. Rollers may be used e to move unit across a roof. Level by using unit frame as a A -B I B -C I A -C reference. See Table 1 and Fig. 6 for additional - 0.5" (13) 1.0" (25) 1.0" (25) information. C06110 Fig. 5 - Unit Leveling Tolerances Lifting holes are provided in base rails as shown in Fig. 6. Refer to rigging instructions on unit. Step 5 — Field Fabricate Ductwork Cabinet return -air static pressure (a negative condition) A CAUTION p shall not exceed 0.35 in. wg (87 Pa) with economizer or U 0.45 in. wg (112 Pa) without economizer. UNIT DAMAGE HAZARD co Failure to follow this caution may result in v For vertical ducted applications, secure all ducts to roof equipment damage. curb and building structure. Do not connect ductwork to unit. All panels must be in place when rigging. Unit is not designed for handling by fork truck. Insulate and weatherproof all external ductwork, joints, and roof openings with counter flashing and mastic in accordance with applicable codes. Before setting the unit onto the curb, recheck gasketing on curb. Ducts passing through unconditioned spaces must be insulated and covered with a vapor barrier. POSITION ALL SEAL STRIPS IN PLACE 13" 36 "- 54. UNIT ON AS CLOSE O THIS END AS POSSIBLE. BLE. DETAIL "A" • (914 -1371) - --- SEE DETAIL DUCT END i/ � 4.4 Ilk. ,..-.1r 0 4C4 AP 101 1 -. 40(411,m II C06005 DIMENSIONS UNIT MAX WEIGHT A B C LB KG IN MM IN MM IN MM 48TC *D08 1445 657 88.0 2235 43.0 1090 41.5 1055 48TC *D09 1565 711 88.0 2235 42.5 1080 49.5 1255 48TC *D12 1605 730 88.0 2235 42.0 1065 49.5 1255 48TC* D 14 1760 800 88.0 2235 29.5 750 53.0 1345 NOTES: - 1. Dimensions in () are in millimeters. 2. Hook rigging shackles through holes in base rail, as shown in detail "A." Holes in base rails are centered around the unit center of gravity. Use wooden top to prevent rigging straps from damaging unit. Fig. 6 - Rigging Details 10 Positioning on Curb — Field- supplied flanges should be attached to horizontal duct openings and all ductwork should be secured to the Position unit on roof curb so that the following clearances flanges. Insulate and weatherproof all external ductwork, are maintained: 1 /4 in. (6.4 mm) clearance between the joints, and roof or building openings with counter flashing roof curb and the base rail inside the front and back, 0.0 and mastic in accordance with applicable codes. in. clearance between the roof curb and the base rail inside on the duct end of the unit. This will result in the Do not cover or obscure visibility to the unit's informative distance between the roof curb and the base rail inside on data plate when insulating horizontal ductwork. the condenser end of the unit being approximately equal Step 8 — Install Outside Air Hood to Fig. 4, section C -C. • Economizer Hood Removal and Setup - Factory Although unit is weatherproof, guard against water from Option higher level runoff and overhangs. 1. The hood is shipped in knock -down form and located Flue vent discharge must have a minimum horizontal in the return air compartment. It is attached to the clearance of 4 ft (1220 mm) from electric and gas meters, economizer using two plastic tie - wraps. gas regulators, and gas relief equipment. Minimum 2. To gain access to the hood, remove the filter access distance between unit and other electrically live parts is panel. (See Fig. 8.) 48 inches (1220 mm). o 3. Locate and cut the (2) plastic tie - wraps, being careful U Flue gas can deteriorate building materials. Orient unit to not damage any wiring. (See Fig. 9.) 1- such that flue gas will not affect building materials. 4. Carefully lift the hood assembly through the filter Locate mechanical draft system flue assembly at least 48 access opening and assemble per the steps outlined in in. (1220 mm) from an adjacent building or combustible Economizer Hood and Two - Position Hood on page material. 13. NOTE: Installation of accessory flue discharge deflector FILTER ACCESS PANEL kit will reduce the minimum clearance to combustible — material to 18 in. (460 mm). � After un it is in position, remove rigging skids and shipping materials. Step 7 — Convert to Horizontal and Connect • Ductwork (when required) Unit is shipped in the vertical duct configuration. Unit without factory - installed economizer or return air smoke detector option may be field- converted to horizontal i � ducted configuration. To convert to horizontal � configuration, remove screws from side duct opening covers and remove covers. Using the same screws, install N.•• covers on vertical duct openings with the insulation -side INDOOR COIL ACCESS PANEL down. Seals around duct openings must be tight. See C06023 Fig. 7. Fig. 8 - Typical Access Panel Locations REMOVABLE T ORQONTAL RETURN DUCT OPENING COYER .--. � j I V uo �% Q Remove Hood Parts 4 °• 00 IV • l Cut Plastic Ties QQQ (2) Places QOII `\ il D el! ' Economizer N 800 Al 000 • / REMOVABLE HORIZONTAL - - SUPPLY DUCT OPENING COVER • C06108 Fig. 7 - Horizontal Conversion Panels C08633 Fig. 9 - Economizer Wiring 11 Two Position Damper Hood Removal and Setup - 3. Locate the (2) screws holding the metal tray to the Factory Option basepan and remove. Locate and cut the (2) plastic 1. The hood is shipped in knock -down form and tie -wraps securing the assembly to the damper. (See assembled to a metal support tray using plastic stretch Fig. 10.) Be careful to not damage any wiring or cut wrap. Located in the return air compartment, the tie -wraps securing any wiring. assembly's metal tray is attached to the basepan and 4. Carefully lift the hood assembly (with metal tray) also attached to the damper using two plastic through the filter access opening and assemble per the tie - wraps. steps outlined in Economizer Hood and Two — Position 2. To gain access to the hood, remove the filter access Hood on page 13. panel. (See Fig. 8.) , ppm - - - 7 CI Hood Parts 0 4 0 , � ' 1I Plastic Tie Wrap a Qty (2) - _ �� ol! %�� .,/ � �Screws for Metal Tray I Qty (2) I I C08639 Fig. 10 - Damper Assembly 12 Economizer Hood and Two- Position Hood — 5. Open the filter clips which are located underneath the NOTE: If the power exhaust accessory is to be installed hood top. Insert the aluminum filter into the bottom on the unit, the hood shipped with the unit will not be filter rack (hood divider). Push the filter into position past the open filter clips. Close the used and must be discarded. Save the aluminum filter for filter clips to lock use in the power exhaust hood assembly. the filter into place. See Fig. 13. 1. The indoor coil access panel will be used as the top of the hood. Remove the screws along the sides and bot- tom of the indoor coil access panel. See Fig. 11. 4 411111 ): — ' . DIVIDER - ; . i . SIDE'•, �tx r�wZr SIDE �` AIR _ PANEL M # p HOOD . ' + FILTER UM F ILTER . lir V BAROMETRIC RELIEF OUT a) III TOP FILTER Tr SIDE CLIP O PANEL U LK C08634 HERE INDOOR �' INDOOR Fig. 13 - Economizer Filter Installation COIL r COIL PANEL iTts, P NELS 6. Caulk the ends of the joint between the unit top panel and the hood top. C06025 7. Replace the filter access panel. Fig. 11 - Indoor Coil Access Panel Relocation 2. Swing out indoor coil access panel and insert the Step 9 — Install Flue Hood hood sides under the panel (hood top). Use the screws Flue hood is shipped screwed to the basepan beside the provided to attach the hood sides to the hood top. Use burner compartment access panel. Remove from shipping screws provided to attach the hood sides to the unit. location and using screws provided, install flue hood and See Fig. 12. screen in location shown in Fig. 14. TOP PANEL °*t I INDOOR COIL ACCESS PANEL o 1 LEFT J i ll S DED 19 1/18 . J / (483mm) BLOWER ACCESS FLUE OPENING PANEL : ate 1 33 318" (848mm) C07081 Fig. 14 - Flue Hood Details HOOD DIVIDER Co6026 Step 10 — Install Gas Piping Fig. 12 - Economizer Hood Construction Installation of the gas piping must be accordance with local building codes and with applicable national codes. 3. Remove the shipping tape holding the economizer ba- In U.S.A., refer to NFPA 54 /ANSI Z223.1 National Fuel rometric relief damper in place. Gas Code (NFGC). In Canada, installation must be 4. Insert the hood divider between the hood sides. See accordance with the CAN /CSA B149.1 and CAN /CSA Fig. 12 and 13. Secure hood divider with 2 screws on B149.2 installation codes for gas burning appliances. each hood side. The hood divider is also used as the bottom filter rack for the aluminum filter. This unit is factory equipped for use with Natural Gas fuel at elevations up to 2000 ft (610 m) above sea level. Unit may be field converted for operation at elevations above 13 2000 ft (610 m) and/or for use with liquefied petroleum fuel. See accessory kit installation instructions regarding . these accessories. p NOTE: Furance gas input rate on rating plate is for LOW VOLTAGE installation up to 2000 ft (610 m) above sea level. In CONDUIT 1 U.S.A. the input rating for altitudes above 2000 ft (610 m) 0 11111,, CONNECTOR must be derated by 4% for each 1000 ft (305 m) above sea ;ice ?I `� 1 level. In Canada the input rating must be derated by 10% ` HIGH VOLTAGE for altitudes of 2000 ft (610 m) 4500 (1372 above CONDUIT ( ) to ft ( m ) CONNECTOR sea level. For natural gas applications, gas pressure at unit gas STAINLESS STEEL FITTING connection must not be less than 4 in. wg (996 Pa) or ti greater than 13 in. wg (3240 Pa) while the unit is C008621 operating. For liquified petroleum applications, the gas Fig. 15 - Thru -Base Connection Fittings pressure must not be less than 11 in. wg (2740 Pa) or greater than 13 in. wg (3240 Pa) at the unit connection. The thru -base gas connector has male and female threads. ci U The gas supply pipe enters the unit at the burner access The male threads protrude above the basepan of the unit; F- panel on the front side of the unit, through the long slot at the female threads protrude below the basepan. co cr the bottom of the access panel. The gas connection to the Check tightness of connector lock nuts before connecting unit is made to the 1 /2 -in. or 3 /4 -in. FPT gas inlet port on gas piping. the unit gas valve. See 48TC Gas Heat /Electric cooling Packaged Rooftop 3 to 12.5 Nominal Tons Product Data Gas Line: Install a 1 /2 -in (08 & 09 size Low Gas units for complete details. only) or 3 /4 -in (for all other units) NPT street elbow on the thru-base gas fitting. Attach an appropriate size pipe 'Fable 2 – Natural Gas Supply Line Pressure Ranges nipple with minimum length of 16 -in (406 mm) UNIT MODEL UNIT SIZE MIN MAX (field- supplied) to the street elbow and extend it through the access panel at the gas support bracket. See Fig. 16. 4.0 in. wg 13.0 in. wg 48TC*D 08, 09, 12, 14 (996 Pa) (3240 Pa) I .111Aril mi ..... ......44,, ,.. _ _ .,....._____.,. _,_,_____,,..„, < A CAUTION C V � �1 I w� l t a EQUIPMENT DAMAGE HAZARD - n r dil ,.� i� Failure to follow this caution may result in damage - - ���51,�� \ to equipment. � �� When connecting the gas line to the unit gas valve, the installer MUST use a backup wrench to prevent damage to the valve. EMBOSSMENT STAINLESS STEEL FITTING SUPPORT C08579 Install a gas supply line that runs to the unit heating Fig. 16 -Gas Line Piping section. Refer to the NFPA 54/NFGC or equivalent code for gas pipe sizing data. Do not use a pipe smaller than the Other hardware required to complete the installation of size specified. Size the gas supply line to allow for a the gas supply line will include a manual shutoff valve, a maximum pressure drop of 0.5 -in wg (124 Pa) between sediment trap (drip leg) and a ground -joint union. A gas regulator source and unit gas valve connection when pressure regulator valve may also be required (to convert unit is operating at high -fire flow rate. gas pressure from pounds to inches of pressure). The manual shutoff valve must be located within 6 -ft (1.83 m) The gas supply line can approach the unit in three ways: of the unit. The union, located in the final leg entering the horizontally from outside the unit (across the root), unit, must be located at least 9 -in (230 mm) away from thru- curb /under unit basepan (accessory kit required) or the access panel to permit the panel to be removed for through unit basepan (factory- option or accessory kit service. If a regulator valve is installed, it must be located required). Consult accessory kit installation instructions a minimum of 4 -ft (1220 mm) away from the unit's flue for details on these installation methods. outlet. Some municipal codes require that the manual Facto O hon Thru -Base Connections — shutoff valve be located upstream of the sediment trap. - �'- p See Fig. 17 and Fig. 18 for typical piping arrangements This service connection kit consists of a NPT gas adapter for gas piping that has been routed through the sidewall of fitting, an electrical bulkhead connector and a 3 /4 -in the curb. See Fig. 19 for typical piping arrangement when .. electrical bulkhead connector, all factory- installed in the thru-base is used. Ensure that all piping does not block embossed (raised) section of the unit basepan in the access to the unit's main control box or limit the required condenser section. working space in front of the control box. 14 a - When installing the gas supply line, observe local codes pertaining to gas pipe installations. Refer to the NFPA ( 9" (229mm) min 54 /ANSI Z223.1 NFGC latest edition (in Canada, , CAN /CSA B149.1). In the absence of local building codes, adhere to the following pertinent Thru -Curb Adapter Ilk union recommendations: [.7 1. Avoid low spots in long runs of pipe. Grade all pipe 1 /4-in. in every 15 ft (7 mm in every 5 m) to prevent , ' traps. Grade all horizontal runs downward to risers. v , Use risers to connect to heating section and to meter. rii T ' Unit Base Rail 2. Protect all segments of piping system against physical i�� " and thermal damage. Support all piping with appro- ...-'r , A lp priate straps, hangers, etc. Use a minimum of one Shut Off hanger every 6 ft (1.8 m). For pipe sizes larger than Valve 01 1 /2-in., follow recommendations of national codes. .• 3. Apply joint compound (pipe dope) sparingly and only ' 0 Drip to male threads of joint when making pipe connec- o v. Leg tions. Use only pipe dope that is resistant to action of U C07469 liquefied petroleum gases as specified by local and/or Fig. 17 - Gas Piping with Thru -Curb Accessory national codes. If using PTFE (Teflon) tape, ensure v the material is Double Density type and is labeled for use on gas lines. Apply tape per manufacturer's in- structions. 4. Pressure -test all gas piping in accordance with local 9" (229mm) min and national plumbing and gas codes before connect - Burner ing piping to unit. Access ). _ NOTE: Pressure test the gas supply system after the gas Panel supply piping is connected to the gas valve. The supply Union piping must be disconnected from the gas valve during the Thru -Curb Adapter Ik -ll, testing of the piping systems when test pressure is in excess of 0.5 psig (3450 Pa). Pressure test the gas supply e j � piping system at pressures equal to or less than 0.5 psig (3450 Pa). The unit heating section must be isolated from V i Unit Base Rail the gas piping system by closing the external main manual shutoff valve and slightly opening the ground -joint union. rr �>>��rl\1�,l Check for gas leaks at the field- installed and on�'�J fa installed gas lines after all piping connections Drip Leg have been completed. Use soap- and -water solution (or Shut Off V g method specified by local codes and/or regulations). Valve C07470 Fig. 18 - Gas Piping with Thru -Curb Accessory (alternate layout) LJ ii; it . tail ailct4 , I C08018 Fig. 19 - Gas Piping with Thru -Rase Accessory 15 Step 11— Install External Condensate Trap and A WARNING Line FIRE OR EXPLOSION HAZARD The unit has one 3 /4 -in. condensate drain connection on Failure to follow this warning could result in personal the end of the condensate pan and an alternate connection injury, death and /or property damage. on the bottom. See Fig. 21. Unit airflow configuration does not determine which drain connection to use. Either _ • Connect gas pipe to unit using a backup wrench to drain connection can be used with vertical or horizontal avoid damaging gas controls. applications. • Never purge a gas line into a combustion chamber. • Never test for gas leaks with an open flame. Use a When using the standard side drain connection, ensure the - commercially available soap solution made red plug in the alternate bottom connection is tight. Do specifically for the detection of leaks to check all this before setting the unit in place. The red drain pan can connections. be tightened with a 1 /2 -in. square socket drive extension. • Use proper length of pipe to avoid stress on gas control manifold. To use the alternate bottom drain connection, remove the red drain plug from the bottom connection (use a 1 /2 -in. square socket drive extension) and install it in the side 0 NOTE: If orifice hole appears damaged or it is suspected drain connection. H to have been redrilled, check orifice hole with a numbered co drill bit of correct size. Never redrill an orifice. A 1110111bliiiMin burr -free and squarely aligned orifice hole is essential for proper flame characteristics. � � i r I CONDENSATE PAN (SIDE VIE\ \ <>%Vi ' J /, ALTERNATE \ SIDE DRAIN DRAIN PLUG BOTTOM DRAIN (FACTORY - INSTALLED) till \ ` ORIFICE C08021 d� Fig. 21 - Condensate Drain Pan (Side View) J The piping for the condensate drain and external trap can BURNER be completed after the unit is in place. See Fig. 22. �� - MINIMUM PITCH 1" (25mm) PER BASE RAIL .... A93059 10' (3m) OF UNE 1: Fig. 20 - Orifice Hole 2' (51) MIN �--- _ - - OPEN VENT\ - 41■1111 i TO ROOF • • j SEE NOTE DRAIN • • \I.I% I • ■• al••••• ROOF • CURB DRAIN PLUG NOTE: Trap should be deep enough to offset maximum unit static difference. A4" (102) trap is recommended C08022 Fig. 22 - Condensate Drain Piping Details All units must have an external trap for condensate drainage. Install a trap at least 4 -in. (102 mm) deep and protect against freeze -up. If drain line is installed downstream from the external trap, pitch the line away from the unit at 1 -in. per 10 ft (25 mm in 3 m) of run. Do not use a pipe size smaller than the unit connection ( /4 -in.). - 16 • Step 12 — Make Electrical Connections for factory run -test purposes only; remove and discard before connecting field power wires to unit connection A WARNING points. Make field power connections directly to line connection pressure lugs only. ELECTRICAL SHOCK HAZARD Failure to follow this warning could result in personal 41 v \A R N I N ( z injury or death. Do not use gas piping as an electrical ground Unit FIRE HAZARD cabinet must have an uninterrupted, unbroken Failure to follow this warning could result in electrical ground to minimize the possibility of intermittent operation or performance satisfaction. personal injury if an electrical fault should occur. This Do not connect aluminum wire between disconnect ground may consist of electrical wire connected to switch and furnace. Use only copper wire. unit ground lug in control compartment, or conduit (See Fig. 23.) approved for electrical ground when installed in accordance with NEC (National Electrical Code); ANSI/NFPA 70, latest edition (in Canada, Canadian Electrical Code CSA [Canadian Standards Association] C22.1), and local electrical codes. ELECTRIC DISCONNECT =1 NOTE: Check all factory and field electrical connections SWITCH for tightness. Field - supplied wiring shall conform with COPPER WIRE ONLY the limitations of 63 °F (33 °C) rise. Field Power Supply — If equipped with optional Powered Convenience Outlet: The power source leads to the convenience outlet's A93033 transformer primary are not factory connected. Installer Fig. 23 - Disconnect Switch and Unit must connect these leads according to required operation of the convenience outlet. If an always- energized Units Without Factory - Installed Disconnect — convenience outlet operation is desired, connect the source leads to the line side of the unit - mounted When installing units, provide a disconnect switch per disconnect. (Check with local codes to ensure this method NEC (National Electrical Code) of adequate size. is acceptable in your area.) If a de- energize via unit Disconnect sizing data is provided on the unit informative disconnect switch operation of the convenience outlet is plate. Locate on unit cabinet or within sight of the unit per desired, connect the source leads to the load side of the national or local codes. Do not cover unit informative unit disconnect. On a unit without a unit - mounted plate if mounting the disconnect on the unit cabinet. disconnect, connect the source leads to compressor Units with Factory - Installed Disconnect — contactor C and indoor fan contactor IFC pressure lugs with unit field power leads. The factory- installed option disconnect switch is located in a weatherproof enclosure located under the main All units except 208/230 -v units are factory wired for the control box. The manual switch handle is accessible voltage shown on the nameplate. If the 208/230 -v unit is through an opening in the access panel. to be connected to a 208 -v power supply, the control transformer must be rewired by moving the black wire All units - with the 1 /4 -in. female spade connector from the 230 -v connection and moving it to the 208 -v 1 /4-in male All field wiring must comply with NEC and all local terminal on the primary side of the transformer. Refer to codes. Size wire based on MCA (Minimum Circuit Amps) unit label diagram for additional information. Field power on the unit informative plate. See Fig. 24 for power wiring wires will be connected line -side pressure lugs on the connections to the unit power terminal block and power terminal block or at factory- installed option equipment ground. Maximum wire size is #4 ga AWG per non -fused disconnect. pole. Field power wires are connected to the unit at line -side Provide a ground -fault and short- circuit over - current • pressure lugs on compressor contactor C and indoor fan protection device (fuse or breaker) per NEC Article 440 contactor IFC (see wiring diagram label for control box (or local codes). Refer to unit informative data plate for component arrangement) or at factory- installed option MOCP (Maximum Over - current Protection) device size. non -fused disconnect switch. Max wire size is #4 AWG (copper only). • NOTE: TEST LEADS - Unit may be equipped with short leads (pigtails) on the field line connection points on contactor C or optional disconnect switch. These leads are 17 Units Without Disconnect Option Installing Weatherproof Cover - C IFC ,3 ,) A weatherproof while -in -use cover for the • • • factory - installed convenience outlets is now required by -' - - J- - -` -' Disconnect , UL standards. This cover cannot be factory- mounted due Per I its depth; it must be installed at unit installation. For I" - r -, - c ' - shipment, the convenience outlet is covered with a blank - L1 L2 L3 2oaa3o-3 -6o cover plate. 460-3-60 575-3-60 The weatherproof cover kit is shipped in the unit's control box. The kit includes the hinged cover, a backing plate Units With Disconnect Option and gasket. Factory Wiring DISCONNECT ALL POWER TO UNIT AND I I I CONVENIENCE OUTLET. - -0 -0 , Remove the blank cover plate at the convenience outlet; Disconnect t I discard the blank cover. • Switch a " ' -a -t -' Loosen the two screws at the GFCI duplex outlet, until approximately 1 /2 -in (13 mm) under screw heads are co L1 L2 L3 exposed. Press the gasket over the screw heads. Slip the Disconnect factory test leads backing plate over the screw heads at the keyhole slots and discard. and align with the gasket; tighten the two screws until Fig. 24 - Power Wiring Connections CD9349 snug (do not over - tighten). Mount the weatherproof cover to the backing plate as Convenience Outlets — shown in Fig. 26. Remove two slot fillers in the bottom of the cover to permit service tool cords to exit the cover. A WARNING Check for full closing and latching. COVER - WHILE -IN -USE RECEPTACLE ELECTRICAL OPERATION HAZARD WEATHERPROOF NOT INCLUDED Failure to follow this warning could result in personal injury or death. Units with convenience outlet circuits may use -�'-= x -- -- - multiple disconnects. Check convenience outlet for e ' p -- x _ power status before opening unit for service. Locate '� '� its disconnect switch, if appropriate, and open it. a Tag -out this switch, if necessary. +♦ { .. _ 4, �. • -- - k - k Two types of convenience outlets are offered on 48TC *D 0 � models: Non - powered and unit - powered. Both types - __ provide a 125 -volt GFCI (ground -fault ~�� .. t, circuit - interrupter) duplex receptacle rated at 15 -A hinged waterproof access cover, located on the BASE EC EP FOR behind a hin g P GFCI RECEPTACLE end panel of the unit. See Fig. 25. C09022 Pwd -CO Fig. 26 - Weatherproof Cover Installation Convenience Transformer Outlet / GFCI f Non - powered type: This type requires the field I t ' �� installation of a general - purpose 125 -volt 15 -A circuit ^ � !p I�!. powered from a source elsewhere in the building. Observe Pwd-CO ll`' nation and local codes when selecting wire size, fuse or Switch �iI I breaker requirements and disconnect switch size and location. Route 125 -v power supply conductors into the bottom of the utility box containing the duplex receptacle. Unit - powered type: A unit- mounted transformer is factory - installed to stepdown the main power supply voltage to the unit to 115 -v at the duplex receptacle. This Control Box option also includes a manual switch with fuse, located in Access Panel a utility box and mounted on a bracket behind the ., convenience outlet; access is through the unit's control C08126 box access panel. See Fig. 25. Fig. 25 - Convenience Outlet Location 18 I The primary leads to the convenience outlet transformer power to the unit. Treat all units as electrically energized • • are not factory - connected. Selection of primary power until the convenience outlet power is also checked and source is a customer - option. If local codes permit, the de- energization is confirmed. Observe National Electrical transformer primary leads can be connected at the Code Article 210, Branch Circuits, for use of convenience line -side terminals on the unit - mounted non -fused outlets. disconnect or HACR breaker switch; this will provide • service power to the unit when the unit disconnect switch Factory - Option Thru -Base Connections — or HACR switch is open. Other connection methods will This service connection kit consists of a 1 /2 -in electrical result in the convenience outlet circuit being de- energized bulkhead connector and a 1 /4 -in electrical bulkhead • when the unit disconnect or HACR switch is open. See connector, all factory- installed in the embossed (raised) Fig. 27. section of the unit basepan in the condenser section. The SCHEMATIC CONVENIENCE OUTLET 1 /2 -in bulkhead connector enables the low- voltage control _ . _ .. _ wires to pass through the basepan. The 1 /4 -in electrical I I bulkhead connector allows the high - voltage power wires RED TEL KU GRA ERTY 6 to pass through the basepan. See Fig. 15. k C7e l9 41i�— ROTCAL COT ONNECT E TEN ED— LOC SUPPLY Check tightness of connector lock nuts before connecting EInn A DEL CONNECT ILU , 0 GRA AND NIT 10 TEL electrical conduits. o !L 164 O. 43) ICD TE U UCQUN. �� Field-supplied and field- installed liquidtight conduit ...._ ..._..� r ..— ,RANA connectors and conduit may be attached to the connectors CO I I on the basepan. Pull correctly rated high voltage and low RED GRA I / EL Ct io RD 600V i voltage through appropriate conduits. Connect the power ILA TE .NT T} Y GROUND EATLN conduit to the internal disconnect (if unit is so equipped) ,RANK INTERRUPTER CONVENIENCE or to the external disconnect (through unit side panel). A OUTLET i t oI "' I t WN-fE`TI CO hole must be field cut in the main control box bottom on GIN - TEL SECONOAR, •[� the left side so the 24 -v control connections can be made. $NY — — _ — _ SNITCH Fun Ill PAT Connect the control power conduit to the unit control box 15 ANT at this hole. C08283 Units without Thru -Base Connections — UNIT CONNECT PRIMARY TRANSFORMER VOLTAGE AS CONNECTIONS TERMINALS 1. Install power wiring conduit through side panel open - 208, L1: RED +YEL H1 + H3 ings. Install conduit between disconnect and control 230 240 L2: BLU + GRA H2 + H4 box. Li: RED H1 2. Install power lines to terminal connections as shown 460 480 Splice BLU + YEL H2 + H3 in Fig. 24. L2: GRA H4 L1: RED H1 All Units — 575 600 L2: GRA H2 Voltage to compressor terminals during operation must be Fig. 27 - Powered Convenience Outlet Wiring within voltage range indicated on unit nameplate. See Table 10. On 3 -phase units, voltages between phases must Duty Cycle: the unit - powered convenience outlet has a be balanced within 2% and the current within 10%. Use duty cycle limitation. The transformer is intended to the formula shown in the legend for Table 10, Note 2 to provide power on an intermittent basis for service tools, determine the percent of voltage imbalance. Operation on lamps, etc; it is not intended to provide 15 -amps loading improper line voltage or excessive phase imbalance for continuous duty loads (such as electric heaters for constitutes abuse and may cause damage to electrical overnight use). Observe a 50% limit on circuit loading components. Such operation would invalidate any above 8 -amps (i.e., limit loads exceeding 8 -amps to 30 applicable Carrier warranty. minutes of operation every hour). Field Control Wiring — Test the GFCI receptacle by pressing the TEST button on The 48TC *D unit requires an external temperature control the face of the receptacle to trip and open the receptacle. device. This device can be a thermostat (field- supplied) Check for proper grounding wires and power line phasing or a PremierLink controller (available as factory- installed if the GFCI receptacle does not trip as required. Press the option or as field- installed accessory, for use on a Carrier RESET button to clear the tripped condition. Comfort Network or as a stand alone control) or the Fuse on power type: The factory fuse is a Bussman RTU -MP Controller for Building Management Systems • "Fusetron" T -15, non - renewable screw -in (Edison base) using non -CCN protocols (RTU -MP is available as a type plug fuse. factory- installed option only). Using unit - mounted convenience outlets: Units with Thermostat — unit- mounded convenience outlet circuits will often Install a Carrier- approved accessory 2 -stage thermostat require that two disconnects be opened to de- energize all according to installation instructions included with the 19 accessory. Locate the thermostat accessory on a solid wall Unit without thru -base connection kit — in the conditioned space to sense average temperature in accordance with the thermostat installation instructions. Pass the thermostat control wires through the hole provided in the end panel (see item "D" in the view If the thermostat contains a logic circuit requiring 24 -v labeled "LEFT" in Fig. 1 & 2); then feed the wires power, use a thermostat cable or equivalent single leads of through the raceway built into the corner post to the different colors with minimum of seven leads. If the control box. Pull the wires over to the terminal strip on the thermostat does not require a 24 -v source (no "C" upper -left corner of the Central Terminal Board (CTB). connection required), use a thermostat cable or equivalent See Fig. 29. with minimum of six leads. Check the thermostat NOTE: If thru- the - bottom connections accessory is installation instructions for additional features which used, refer to the accessory installation instructions for might require additional conductors in the cable. information on routing power and control wiring. For wire runs up to 50 ft. (15 m), use no. 18 AWG Heat Anticipator Settings — (American Wire Gage) insulated wire (35 °C minimum). For 50 to 75 ft. (15 to 23 m), use no. 16 AWG insulated Set heat anticipator settings at 0.14 amp for the first stage wire (35 °C minimum). For over 75 ft. (23 m), use no. 14 and 0.14 amp for second -stage heating, when available. AWG insulated wire (35 °C minimum). All wire sizes RACEWAY larger than no. 18 AWG cannot be directly connected to the thermostat and will require a junction box and splice {� to _ CO at the thermostat. • Central • Typical Terminal • Thermostat Board • Connections , • X ® X o C ® C C OG G ® G •� • W2 - • r�.� W ® • ©1 W1 ® W1 ' HOLE IN END PANEL (HIDDEN) C08027 0B/Y2 Y2 ® Y2 Fig. 29 - Field Control Wiring Raceway (see Note) Y1 Y1 ® Y1 ® R ® R ' T- TAT Note : Typical multi- function marking. Follow manufacturer's configuration instructions to select Y2. — — — Field Wiring C09350 Fig. 28 - Typical Low - Voltage Control Connections 20 . . PremierLink" (Factory- Option) — HVAC SENSOR INPUTS 0 0 0 SPACE TEMP - SET POINT _ k "" — _ SUPPLY AIR TEMP � .,,� m s•.- °°" "�K OUTDOOR TEMP ti . = 1 7 • 1 P\ E' m k Z„„„' w+.*. no INDOOR AIR QUALITY g ; , ,17,1 "" \ De signekc OUTDOOR AIR QUALITY „_ ,„,a. _ .. — emu. ate: -.,- ..) Da.... D UAL MODE SENSORJSTAT — — Y °'"" REMOTE OCCUPANCY (G) i Sc IWO ®. a.... .., l_ 0... COMP SAFETY (Y1) /� IL'. .o n �� r.< FIRE SHUTDOWN (Y2) /� � w 1 T.,. ,. 001 C■1•2 .1 NW • SUPPLY FAN STATUS (W1) I"' "°'"° a. NOT USED (W2)� I"® �_ ." CIi .4 Sc It .,, mfr S. SW MO ENTHALPY STATUS (ENTH) f 0, ® ,q 19 y , ) .I I MR GOMM I CO / 1} v CCN /LEN NAVIG 4 -20MA INDOOR COMPR HEA EXHAUST PORT PORT ECONOMIZER FAN MOTOR 1 & 2 LOW /HIGH RVS VALVE OUTPUTS • C08199 Fig. 30 - PremierLink Controller The PremierLink controller (see Fig. 30) is compatible This sensor is a tubular probe type, approx 6- inches (12.7 with Carrier Comfort Network® (CCN) devices. This mm) in length. It is a nominal 10 -k ohm thermistor. control is designed to allow users the access and ability to change factory- defined settings, thus expanding the The SAT is factory-wired. The SAT probe is wire -tied to function of the standard unit control board. CCN service the supply -air opening (on the horizontal opening end) in access tools include System Pilot (TM), Touch Pilot (TM) its shipping position. Remove the sensor for installation. and Service Tool. (Standard tier display tools Navigator' Re- position the sensor in the flange of the supply -air and Scrolling Marquee are not suitable for use with latest opening or in the supply air duct (as required by local PremierLink controller (Version 2.x).) codes). Drill or punch a 1 /2 -in. hole in the flange or duct. Use two field - supplied, self- drilling screws to secure the The PremierLink control is factory- mounted in the sensor probe in a horizontal orientation. See Fig. 31. 48TC *D unit's main control box to the left of the Central Terminal Board (CTB). Factory wiring is completed through harnesses connected to the CTB thermostat. Field connections are made at a 16 -pole terminal block (TB1) located on the bottom shelf of the unit control box in front of the PremierLink controller. The factory- installed PremierLink control includes the supply -air temperature (SAT) sensor. The outdoor air temperature (OAT) sensor is included in the FIOP /accessory EconoMi$er" 2 package. D. The PremierLink controller requires the use of a Carrier 1 e SUPPLY AIR broadcast to initiate its r a int CCN coal c timeclock. ( This nis TEMPERATUR E % % I i j _ •� CUU necessary for broadcast of time of day functions SENSOR \\\\\\ ' j \ SUPPLY AIR RETURN AIR / (occupied/unoccupied). N NOTE: PremierLink controller is shipped in Sensor j mode. To be used with a thermostat, the PremierLink C08200 controller must be configured to Thermostat mode. Refer Fig. 31 - Typical Mounting Location for Supply Air to PremierLink Configuration instructions for Operating Temperature (SAT) Sensor on Small Rooftop Units Mode. Supply Air Temperature (SAT) Sensor — On NOTE: Refer to Form 33CS -58SI for complete HOP- equipped 48TC *D unit, the unit is supplied with a PremierLink configuration, operating sequences and supply -air temperature (SAT) sensor (33ZCSENSAT). troubleshooting information. Have a copy of this manual available at unit start-up. 21 • NOTE: The sensor must be mounted in the discharge of field connections for units equipped with Space airstream downstream of the cooling coil and any heating Thermostat. devices. Be sure the probe tip does not come in contact Space Sensors - The PremierLink controller is with any of the unit's heater surfaces. factory- shipped configured for Space Sensor Mode. A Outdoor Air Temperature (OAT) Sensor — The OAT is Carrier T -55 or T -56 space sensor must be used. T -55 factory- mounted in the EconoMi$er2 (FLOP or space temperature sensor provides a signal of space accessory). It is a nominal 10k ohm thermistor attached to temperature to the PremierLink control. T -56 provides an eyelet mounting ring. same space temperature signal plus it allows for EconoMi$er2 — The PremierLink control is used with adjustment of space temperature setpoints from the face of EconoMi$er2 (option or accessory) for outdoor air the sensor by the occupants. management. The damper position is controlled directly Connect T -55 - See Fig. 33 for typical T -55 internal by the PremierLink control; EconoMi$er2 has no internal connections. Connect the T -55 SEN terminals to TB1 logic device. terminals 1 and 3 (see Fig. 34). Outdoor air management functions can be enhanced with Connect T -56 - See Fig. 35 for T -56 internal field- installation of these accessory control devices: connections. Install a jumper between SEN and SET o terminals as illustrated. Connect T -56 terminals to TB1 Enthalpy control (outdoor air or differential sensors) terminals 1, 3 and 5 (see Fig. 36). Space CO2 sensor co Outdoor air CO2 sensor Connect Thermostat — A 7 -wire thermostat connection Refer to Table 3 for accessory part numbers. requires a 24 -v power source and a common connection. Use the R and C terminals on the CTB's THERMOSTAT Field connections — Field connections for accessory connection strip for these. Connect the thermostat's Yl, sensor and input devices are made at the 16 -pole terminal Y2, Wl, W2 and G terminals to PremierLink TB1 as block (TB1) located on the control box bottom shelf in shown in Fig. 37. front of the PremierLink control (See Fig. 32). Some input If the 48TC *D unit is equipped with factory- installed devices also require a 24 -vac signal source; connect at smoke detector(s), disconnect the factory BLU lead at C1 terminal R at "THERMOSTAT" connection strip for TB1 -6 (Y2) before connecting the thermostat. Identify the this signal source. See connections figures on following BLU lead originating at CTB- DDC -1; disconnect at pages for field connection locations (and for continued TB1 -6 and tape off. Confirm that the second BLU lead at connections at the PremierLink board inputs). TB1 -6 remains connected to PremierLink J4 -8. Table 4 provides a summary of field connections for units equipped with Space Sensor. Table 5 provides a summary Table 3 - PremierLink Sensor Usage OUTDOOR AIR RETURN AIR OUTDOOR AIR RETURN AIR APPLICATION TEMPERATURE TEMPERATURE ENTHALPY SENSOR ENTHALPY SENSOR SENSOR SENSOR Differential Dry Bulb Temperature with Included - Required - PremierLink CRTEMPSN001A00 33ZCT55SPT - - (PremierLink requires or equivalent 4 -20 mA Actuator) Single Enthalpy with PremierLink Included - _ Requires - _ (PremierLink requires Not Used 33CSENTHSW 4 -20mA Actuator) Differential Enthalpy with PremierLink Included - Requires - Requires - (Premier Link requires Not Used 33CSENTHSW 33CSENTSEN 4 -20mA Actuator) NOTES: CO2 Sensors (Optional): 33ZCSENCO2 - Room sensor (adjustable). Aspirator box is required for duct mounting of the sensor. 33ZCASPCO2 - Aspirator box used for duct- mounted CO2 room sensor. 33ZCT55CO2 - Space temperature and CO2 room sensor with override. 33ZCT56CO2 - Space temperature and CO2 room sensor with override and setpoint. 22 • I , AcC ,, - ©- +8' u f aii R,1• ... , C� I r nc I ssarll zroa aj4u. - lItti (•CD 0 •eA ltrw. 4-'3> . -•: ®T • • , E� • a ,� A A I . i tlT�[ • , r E'm •; 11 .' . . . I r10R[! AT . RI a• ,lo— lull ,-el Al a _Ina :o ' 0461.9).' 0461.9).' I 1 • x [ - 11 MI L' E E ®. • ® e. lowep va[ canal R.. 4.• • M - , I, r EE1) a�.. RENEAT I tra,isssar I vat rea 10. O 1F1 xr re lrIN.", 1 71 �� CONTROL �� —.. —.. iW 1 I NC r - - - -- .. r , xrrm • r[nlul NOM uri ® O AC C[SEWr: 1 1 061". ��. _ I -.a• ar on �nr ,R,a, an 17 mommer000 • • - ' wi wi COMPONENT ARRANGEMENT . II I I V 1 - I P . x . � -x. fr { „r, J ,. 1 1 I M • " µ _!_1 I . o . o �,-w. r ' s� r�a,ra I I Ifld W NOTE S TERMINAL ROARS SCNENFT EC LAYOUT DOES NOT SNATCH ACTUAL TERMINAL BOARD ~J ,-.h s *w – �• -" ' I. N H� i M 11` .' r. a. TO SIMPLIFY CIRCUIT TRACES. ���!y ```i1 u11 air • - � n. r.J I < [ MARKED IIIRES ©- ERIN MISR LO (FROM TERN BD ECM 71 L eH , ae l •mow • • '1 n t I , a 'A v a D ISCRE TE D-10 ANALOG ©__ I r, s • .g * V��I I oil „w .0 [ [Tr L J �a i• G� lJ E � �`� V W J,J� I ' slots INC ' ! �+ ' * �p ~s SI f00 16 ] 222 _ Y*YY -Y� Y -Y•YY - _•Yf*Y 44(4I'af�l' -Y4( I uar a -}I was - — - i$ J666 ;6� ::..... . C'' F ici T , -..e— 33 .R i i 3 YS s R�rll II �� b •risi . iii K r i 1 Rf , nni, ri I I,,,, •e I I I I u. RIM HOW T.... • aari _ it.) it.) CD4y ���� C..1 -t i •` �•'> — .. — . — . — .. ! TM s, 11a, S lCDT '-NGl - - - '• ;� r�..n u u 1-ka m _ —w ni.fH BEE .CH,r- ,•-84 � ' C 12 I Inn — .. • _ D .. Tlire -rc, lit • f .. as, • R rs R • u Ii ?• • I — L EC fil r ,� l: can , 11 IF EOPE 04 rr �}-� ACCESSORY, [eorr CCVI et o J1 1 w. . n11 I on I u. �' 4.-oa. r, . ACC I1 , +mo•rf , . • tN[rw- - •• •. , or- e• • 3 I NAwE. F ,Il.olr +a.. . :: STAY 'IR „•' U NI II u u u J - - 1 -j E , r . .... 1 .. 3 • • W U - •,rsE• I A . r u1 E IELSEEM , I NU , i ', :: ..... - e ; ^ D pp 'f' e ® : SPACE IE {p�,/p ,09),„...._ M /OFFSET I i 11 i 111 ' 1 ET, - + - Ir4 • 3- .l- •Y L •Y 3- •Y� �' , 1 N J 11< 1, I ,EL- rl• f(D • T -_ FFF CRP 1 11 _ Em ) -11r tt i.1 i, SR[/ EEL /l. CC N Ca.I �) .. ' .. !+ ' E [ + Imo- «. £ • IS [xEAT � } P 4 T A fl !If •0• r. , k 1-4 r, � :ow -U• s '( I • —[,.- S I a ' 11 Cl IS 11 IA J. d M' I Ii Ur -• , 2.I 111 II 1, I1 { . I I , I l Qom•- rU -I I 11� i <7 --- 1” - —S S 1 Y . >; .n 1, ru nu nr nD WI I - r, - -. C I -( I E —•m- .-- � S 0 r we 1 . r. �T tt11II CE' Ir r+ I N. > .E I r I E - R S ?,D.e_''{1 . 1 I I .: �--11. f I r e, I� -an- S Doc W (I l tie - ••I ' { ] 8 !R y- n. -{ --r I . I 1 - 1 . -- , . I � I 4' I Ti( IE F - nI - —1 3. J. J- `: y� _ I I � '' "' � � PREMIERL INN OPTION fl. I L- _;� �x,.o11R , 't L F�' 86 1 0 . 0 n11 -. rl. e n11 P T • p T O ~_ WIMPS L .. 610P,uCCES5d1n .. — 1 48TC *D j/ \\ // n s _ R ( EDLL 1 . s ` s s REDL +)� r 1\.' ,- -w� tt CCN COM '.. • - - -�� D� -_- CCN COM _ i][0::= % � — @RN L�NDl F: SENSOR WIRING � , ` t , J38NlGNQ) SENSOR WIRING — J3LUSSED : @L!! a �� �® JUMPER © ©C) \I IJ TERMINALS „i/ AS SHOWN 0 n 0 .. MI /"2 \ •, ; Cool 1= Warm \ i 0 C08201 C08202 I- Fig. 33 - T -55 Space Temperature Sensor Wiring Fig. 35 - T -56 Internal Connections co v TB1 PL ® -El TB1 PL TB1 PL ® 0 J6 -7 ® — 3a (J6 - 6> )A ® © <J6 -6) Cul C08212 Fig. 34 - PremierLink T -55 Sensor ® - El CD C08213 Fig. 36 - PremierLink T -56 Sensor _ 24 Table 4 - Space Sensor Mode TB1 TERMINAL FIELD CONNECTION INPUT SIGNAL 1 T55- SEN/T56 -SEN Analog (10k thermistor) 2 RMTOCC Discrete, 24VAC 3 T55- SEN/T56 -SEN Analog (10k thermistor) 4 CMPSAFE Discrete, 24VAC 5 T56 -SET Analog (10k thermistor) 6 FSD Discrete, 24VAC 7 LOOP -PWR Analog, 24VDC 8 SPS Discrete, 24VAC 9 IAQ -SEN Analog, 4 -20mA 10 FILTER Discrete, 24VAC 11 IAQ -COM/OAQ -COM/RH -COM Analog, 4 -20mA 12 CCN + (RED) Digital, , 5VDC 13 OAQ- SEN /RH -SEN Analog, 4 -20mA 14 CCN Gnd (WHT) Digital, 5VDC 15 AUX OUT(Power Exhaust) (Output)Discrete 24VAC 16 CCN - (BLK) Digital, 5VDC v LEGEND: T55 - Space Temperature Sensor T56 - Space Temperature Sensor CCN - Carrier Comfort Network (communication bus) CMPSAFE - Compressor Safety FILTER - Dirty Filter Switch FSD - Fire Shutdown IAQ - Indoor Air Quality (002) OAQ - Outdoor Air Quality (CO2) RH - Relative Humidity SFS - Supply Fan Status Table 5 - Thermostat Mode TB1 TERMINAL FIELD CONNECTION INPUT SIGNAL 1 RAT SEN Analog (10k thermistor) 2 G Discrete, 24VAC 3 RAT SEN Analog (10k thermistor) 4 Y1 Discrete, 24VAC 5 6 Y2 Discrete, 24VAC 7 LOOP -PWR Analog, 24VDC 8 W1 Discrete, 24VAC 9 IAQ -SEN Analog, 4 -20mA 10 W2 Discrete, 24VAC 11 IAQ- COM /OAQ- COM /RH -COM Analog, 4 -20mA 12 CCN + (RED) Digital, 5VDC 13 OAQ-SEN/RH -SEN Analog, 4 -20mA 14 CCN Gnd (WHT) Digital, 5VDC 15 AUX OUT (Power Exhaust) (Output) Discrete 24VAC 16 CCN - (BLK) Digital, 5VDC LEGEND: CCN - Carrier Comfort Network (communication bus) G - Thermostat Fan IAO - Indoor Air Quality (002) OAQ - Outdoor Air Quality (002) RAT - Return Air Temperature RH - Relative Humidity W1 - Thermostat Heat Stage 1 W2 - Thermostat Heat Stage 2 Y1 - Thermostat Cool Stage 1 Y2 - Thermostat Cool Stage 2 25 Connect Thermostat — A 7 -wire thermostat connection Enthalpy requires a 24 -v power source and a common connection. Switch Use the R and C terminals on the CTB's THERMOSTAT <24V)---- RED ECONO connection strip for these. Connect the thermostat's Yl, }MOTOR Y2, Wl, W2 and G terminals to PremierLink TB1 as GND} -- BLK shown in Fig. 37. SPACE CTB 7 CTB THERMOSTAT THERMOSTAT LO GRA T ESL I I ECON R R • TB1 Factory Wiring Harness PL © © J4 12 C09026 Fig. 38 - Enthalpy Switch (33(ENTHSW) Connections IND LJ <J4 - 10> 6 J4 - The outdoor enthalpy changeover setpoint is set at the enthalpy controller. ci ® 8 J4 - 6 Differential Enthalpy Control — Differential enthalpy 1- 420 10 <J4 - 4> control is provided by sensing and comparing the outside 0 C I CTB air and return air enthalpy conditions. Install the outdoor THERMOSTAT air enthalpy control as described above. Add and install a return air enthalpy sensor. C08119 Fig. 37 - Space Thermostat Connections 24V — RED }ECONO 4 -20 MOTOR If the 48TC *D unit has an economizer system and Main GND— BLK free - cooling operation is required, a sensor representing + VDC Out LOW — GRA Return Air Temperature must also be connected (field - supplied and installed). This sensor may be a T -55 Space Sensor (see Fig. 33) installed in the space or in the return duct, or it may be sensor PNO 33ZCSENSAT, installed in the return duct. Connect this sensor to TB1 -1 and TB1 -3 per Fig. 34. + 24 -36 Configure the unit for Thermostat Mode — Connect to the VDC In - CCN bus using a CCN service tool and navigate to - 4 -20 Main PremierLink Configuration screen for Operating Mode. Out Default setting is Sensor Mode (value 1). Change the 009027 value to 0 to reconfigure the controller for Thermostat Fig. 39 - Outside and Return Air Enthalpy Sensor Mode. Wiring When the PremierLink is configured for Thermostat Mode, these functions are not available: Fire Shutdown To wire the return air enthalpy sensor, perform the (FSD), Remote Occupied (RMTOCC), Compressor Safety following: (CMPSAFE), Supply Fan Status (SFS), and Filter Pressure 1. Use a 2- conductor, 18 or 20 AWG, twisted pair cable Switch (FILTER). to connect the return air enthalpy sensor to the enthal- Economizer controls — py controller. 2. Connect the field - supplied RED wire to ( +) spade Outdoor Air Enthalpy Control (PNO 33CSENTHSW) - connector on the return air enthalpy sensor and the The enthalpy control (33CSENTHSW) is available as a ( +) terminal on the enthalpy controller. Connect the field- installed accessory to be used with the EconoMi$er2 BLK wire to ( -) spade connector on the return air en- damper system. The outdoor air enthalpy sensor is part of thalpy sensor and the ( -) terminal on the enthalpy the enthalpy control. (The separate field- installed controller. accessory return air enthalpy sensor (33CSENTSEN) is Indoor Air Quality (CO2 sensor) — The indoor air quality required for differential enthalpy control. See Fig. 38.) sensor accessory monitors space carbon dioxide (CO2) levels. This information is used to monitor IAQ levels. Locate the enthalpy control in the economizer next to the - types of sensors are available, for wall mounting Actuator Motor. Locate two GRA leads in the factory in the space or in return duct, with and without LCD harness and connect the gray lead labeled "ESL" to the display, and in combination with space temperature terminal labeled "LOW ". See Fig. 38. Connect the sensors. Sensors use infrared technology to measure the enthalpy control power input terminals to economizer levels of CO2 present in the space air. actuator power leads RED (connect to 24V) and BLK (connect to GND). 26 The CO2 sensors are all factory set for a range of 0 to IAQ Sensor 2000 ppm and a linear mA output of 4 to 20. Refer to the TB1 PL m ® B1 instructions supplied with the CO2 sensor for electrical TB1 requirements and terminal locations. See Fig. 40 for ) <coM>- -111 CD typical CO2 sensor wiring schematic. 24 VAC C08636 Fig. 41 - indoor CO2 Sensor (33ZCSENCO2) 0 Connections • Refer to Form 33CS -58SI, PremierLink Installation, Start-up, and Configuration Instructions, for detailed O 0 configuration information Outdoor Air Quality Sensor (PNO 33ZCSENCO2 plus § o -iov weatherproof enclosure) — The outdoor air CO2 sensor is EH A M designed to monitor carbon dioxide (CO2) levels in the NC ALARM outside ventilation air and interface with the ventilation 0 COM RELAY damper in an HVAC system. The OAQ sensor is packaged o NO CONTACTS with an outdoor cover. See Fig. 42. The outdoor air CZ] ooeoc+FT co g CO2 2 H G 24 VAC E sensor must be located in the economizer outside air hood. co 0 0000000 v + 24VDC 21 O 87654321 J3 J4 4 114 0 ____ _____, It 33/4' 4 �-- 3.5' --Ill - -1 1--... • g ® 00 C08635 Fig. 40 - Indoor /Outdoor Air Quality (CO2) Sensor O o (33ZCSENCO2) - Typical Wiring Diagram 6 1/2 7° T 0 o accurately monitor the quality of the air in the ICiti ` conditioned air space, locate the sensor near a return -air 1 0 0 grille (if present) so it senses the concentration of CO2 0 leaving the space. The sensor should be mounted in a location to avoid direct breath contact. P Do not mount the IAQ sensor in drafty areas such as near ` supply ducts, open windows, fans, or over heat sources. COVER REMOVED SIDE VIEW Allow at least 3 ft (0.9 m) between the sensor and any C07135 corner. Avoid mounting the sensor where it is influenced Fig. 42 - Outdoor Air Quality Sensor Cover by the supply air; the sensor gives inaccurate readings if the supply air is blown directly onto the sensor or if the Wiring the Outdoor Air CO2 Sensor — A dedicated power supply air does not have a chance to mix with the room air supply is required for this sensor. A two -wire cable is before it is drawn into the return airstream. required to wire the dedicated power supply for the sensor. Wiring the Indoor Air Quality Sensor — The two wires should be connected to the power supply and terminals 1 and 2. For each sensor, use two 2- conductor 18 AWG (American To connect the sensor to the control, identify the positive Wire Gage) twisted -pair cables (unshielded) to connect (4 to 20 mA) and ground (SIG COM) terminals on the the separate isolated 24 vac power source to the sensor OAQ sensor. See Fig. 40. Connect the 4 to 20 mA and to connect the sensor to the control board terminals. terminal to the TB1 -13 terminal of the 48TC *D . Connect To connect the sensor to the control, identify the positive the SIG COM terminal to the TB1-11 terminal of the (4 to 20 mA) and ground (SIG COM) terminals on the 48TC *D. See Fig. 43. sensor. See Fig. 40. Connect the 4 -20 mA terminal to OAO Sensor/RH Sen terminal TB1 -9 and connect the SIG COM terminal to TB1 PL terminal TB1 -11. See Fig. 41. <SEN� 13 TB1 J �COM� 11 CD 24 VAC C08275 Fig. 43 - Outdoor CO2 Sensor Connections 27 Smoke Detector/Fire Shutdown (FSD) — This function is NO contact set to TB1 -8. Setpoint for Supply Fan Status available only when PremierLink is configured for is set at the switch. See Fig. 45. (Space) Sensor Mode. The unit is factory -wired for PremierLink FSD operation when PremierLink is Fan (Pressure) Switch (NO, close on rise in pressure) factory - installed. Thermostat On 48TC *D units equipped with factory- installed Smoke Detector(s), the smoke detector controller implements the TB1 PL unit shutdown through its NC contact set connected to the 0 CD unit's CTB input. The FSD function is initiated via the smoke detector's Alarm NO contact set. The PremierLink co8118 communicates the smoke detector's tripped status to the Fig. 45 - PremierLink Wiring Fan Pressure Switch CCN building control. See Fig. 32, the PremierLink Connection wiring schematic. Filter Status Switch — This function is available only Remote Occupied Switch — The PremierLink control when PremierLink is configured for (Space) Sensor Mode. permits a remote timeclock to override the control's on -board occupancy schedule and place the unit into PremierLink control can monitor return filter status in two Occupied mode. This function may also provide a "Door U ways: By monitoring a field - supplied/installed filter Switch" time delay function that will terminate cooling w pressure switch or via supply fan runtime hours. and heating functions after a 2 -20 minute delay. c Using switch input: Install the dirty filter pressure switch Connect one side of the NO contact set on the timeclock according to switch manufacturer's instructions, to to CTB's THERMOSTAT -R terminal. Connect the other measure pressure drop across the unit's return filters. side of the timeclock contact to the unit's TB1 -2 terminal. Connect one side of the switch's NO contact set to CTB's THERMOSTAT -R terminal. Connect the other side of the Remote Occupied CTB NO contact set to TB1 -10. Setpoint for Dirty Filter is set o Thermostat at the switch. See Fig. 44. Time Clock T PL TB1 Filter Switch (NO, close on rising pressure (high drop)) CTB C08214 Thermostat Fig. 46 - PremierLink Wiring Remote Occupied Refer to Form 33CS -58SI for additional information on TB1 PL configuring the PremierLink control for Door Switch o- --0- 10 timer function. C08216 Power Exhaust (output) - Connect the accessory Power Fig. 44 - PremierLink Filter Switch Connection Exhaust contactor coils(s) per Fig. 47. When the filter switch's NO contact set closes as filter Power Exhaust pressure drop increases (indicating dirt-laden filters), the TB1 PL input signal to PremierLink causes the filter status point to (a TAN 15 48 -3> read "DIRTY ". CTB THERMOSTAT Using Filter Timer Hours: Refer to Form 33CS -58SI for GRA instructions on using the PremierLink Configuration screens and on unit alarm sequence. C08120 Fig. 47 - PremierLink Power Exhaust Output Supply Fan Status Switch — The PremierLink control can Connection monitor supply fan operation through a field - supplied/installed differential pressure switch. This Space Relative Humidity Sensor — The RH sensor is not sequence will prevent (or interrupt) operation of unit used with 48TC *D models at this time. cooling, heating and economizer functions until the pressure switch contacts are closed indicating proper CCN Communication Bus — The PremierLink controller supply fan operation. connects to the bus in a daisy chain arrangement. Negative pins on each component must be connected to Install the differential pressure switch in the supply fan respective negative pins, and likewise, positive pins on section according to switch manufacturer's instructions. each component must be connected to respective positive Arrange the switch contact to be open on no flow and to pins. The controller signal pins must be wired to the signal close as pressure rises indicating fan operation. ground pins. Wiring connections for CCN must be made Connect one side of the switch's NO contact set to CTB's at the 3 -pin plug. THERMOSTAT -R terminal. Connect the other side of the At any baud (9600, 19200, 38400 baud), the number of controllers is limited to 239 devices maximum. Bus length 28 may not exceed 4000 ft, with no more than 60 total The communication bus shields must be tied together at • devices on any 1000 -ft section. Optically isolated RS -485 each system element. If the communication bus is entirely repeaters are required every 1000 ft. within one building, the resulting continuous shield must NOTE: Carrier device default is 9600 band. be connected to ground at only one single point. If the communication bus cable exits from one building and COMMUNICATION BUS WIRE SPECIFICATIONS — enters another building, the shields must be connected to The CCN Communication Bus wiring is field- supplied the grounds at a lightning suppressor in each building (one and field - installed. It consists of shielded 3- conductor point only). cable with drain (ground) wire. The cable selected must be identical to the CCN Communication Bus wire used for Connecting CCN bus: the entire network. NOTE: When connecting the communication bus cable, See Table 6 for recommended cable. a color code system for the entire network is recommended to simplify installation and checkout. See Table 6 - Recommended Cables Table 7 for the recommended color code. MANUFACTURER CABLE PART NO. Table 7 - Color Code Recommendations Alpha 2413 or 5463 CCN BUS WIRE CCN PLUG PIN American A22503 SIGNAL TYPE COLOR NUMBER U Belden 8772 + Red 1 co Columbia 02525 Ground White 2 Black 3 NOTE: Conductors and drain wire must be at least 20 - AWG, stranded, and tinned copper. Individual conductors Connect the CCN ( +) lead (typically RED) to the unit's must be insulated with PVC, PVC /nlon, vinx,,,l, Teflon, or TB1 -12 terminal. Connect the CCN (ground) lead polyethylene. An aluminum /po yester 100% foil shield (typically WHT) to the unit's TB1 -14 terminal. Connect and an outer jacket of PVC, PVC /nylon, chrome vinyl, or the CCN ( -) lead (typically BLK) to the unit's TB1 -16 Teflon with a minimum operating temperature range of terminal. See Fig. 48. -20 °C to 60 °C is required. Do not run communication wire in the same conduit as or next to any AC voltage CCN Bus wiring. TB1 PL + (RED) TB1 GND (WHT) 14 0J2 - 2> TB1 - (BLK) 16 J2-3 C08276 Fig. 48 - PremierLink CCN Bus Connections 29 RTU —MP CONTROL SYSTEM The RTU -MP control is factory- mounted in the 48TC"D unit's main control box, to the left of the CTB. See - The RTU -MP controller, see Fig. 49, provides expanded Fig. 50. Factory wiring is completed through harnesses stand -alone operation of the HVAC system plus connected to the CTB. Field connections for RTU -MP connection and control through communication with sensors will be made at the Phoenix connectors on the several Building Automation Systems (BAS) through RTU -MP board. The factory- installed RTU -MP control popular third -party network systems. The available includes the supply -air temperature (SAT) sensor. The - network systems are BACnet MP/TP, Modbus and outdoor air temperature (OAT) sensor is included in the Johnson J2. Communication with LonWorks is also FLOP /accessory EconoMi$er2 package. possible by adding an accessory interface card to the Refer to Table 8, RTU -MP Controller Inputs and Outputs RTU -MP Selection of the communication protocol and for locations of all connections to the RTU -MP board. baud rate are made at on -board DIP switches. > (AO-1) o s o-lovoc RTU -M P J4 J2 Board Power - 2 J3 v g I v a a mi Q N 7 t7 t7 D Q O 015 » F., E. C) 4 -20mA n 0 n c7 c M n m N . - N - • ..Wwr�rm:rr < a < c < c < c Power DZD1 »Di.Di- r s ort o w C) u, C) w ice_. , J5 . DO DO-4 D0 -5 HK50AA047 PC134012311 Rcv.3 & J22 * ._ RTU -MP A", I 00 -6 GND . I (0-lOVon on DO .7 " ] DO-6 (H) _ (Humidistat) LOCAL 1 =1 DO-7 (Spare) - ACCESS Z �1 PORT RNET I + �/ 1 +12 VDC DO -8 ! 1 , _1 DO-8 (PE) MSB LSB h.. iRnet- p (Power Exhaust) _ Rnet4 CR2032 ® " ' 1 GND Error J11 i r i i - UN .,Z SW1 SW2 u0 ao. • S RX TX Ec:. n7� z z ( - - : J14 SW3 3 3 o 0 ari IP t r 1 l ( 1 `a , 1 I Ill 10 _. - -; . Protocol Selector 'Remove Mput_10 (T -55 Accy) BACnet both for 0 -5V Input_11 (T -56 Accy) or Net Comm C07129 Fig. 49 - RTU -MP Multi - Protocol Control Board CTB 1 - /- = V I= a VI • ■ r NC r[ruu IOW WI . r ® I O : r - idi�ar. i r t • X:. Il II RTU-MP Board - C08585 Fig. 50 - 48TC *D Control Box Component Locations 30 , f r — I -El1J' ®: .."1— .. -. Tne K IN[I l4() pp�� -' CiNa- -p.— • q Ip[f BOOM( I SN 101 ..IM Y.,,'))i -' I pzII KY- t ' SION • ma I� '« m>' I p' zRrr[r ll K � -- S� - a.• -kE•m � ......,_,{i}� m--�` N s-. s LU) Moo - 4 1 - ►. -QY)" r ,ram, _ . -0D r t,. �.' - -k . •' L.._..11 , (lei M,[ J - - p�VE(D • ®�, _ Ina MVO = ..C�-+NM -- I ' LJ ar r o�w rc 1 1 EEE ''' ��� ''' .'' l -.1 �t E� •' ® `••' n ; l o-p t Y VIDM[ UNMAN 1 Nu -.r �(.• � m.n Kr - TN, ---Y REHEAT ant 1 [Ia • Fla N to '.It'�— I J1 ° - CONTROL • - .. - " -" w 1. ' • R I 1 11111111■ OR p.[. 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MARRED NINE MIN SENOR LO (FROM TERM BD (CON TI _ _it 1K o Lt?tt t7., M tg-tt- -1'.1: t t4; t i f P C) 0 0 . 0 48TC *D Table 8 - RTU -MP Controller Inputs and Outputs POINT NAME BACnet OBJECT TYPE OF I/O CONNECTION PIN NAME NUMBERS INPUTS Space Temperature Sensor sptsens Al (10K Thermistor) J20 -1,2 Supply Air Temperature sat Al (10K Thermistor) J2 -1, 2 . Local Outside Air Temperature Sensor oatsens Al (10K Thermistor) J2 -3, 4 Space Temperature Offset Pot sptopot Al (100K Potentiometer) J20 -3 Indoor Air Quality iaq Al (4 -20 ma) J4 -2, 3 Outdoor Air Quality oaq Al (4 -20 ma) J4 -5, 6 Safety Chain Feedback safety DI (24 VAC) J1-9 Compressor Safety compstat DI (24 VAC) J1 -2 Fire Shutdown firedown DI (24 VAC) J1 -10 Enthalpy Switch enthalpy DI (24 VAC) J2 -6, 7 Humidistat Input Status humstat DI (24 VAC) J5 -7, 8 0 CONFIGURABLE INPUTS* H Space Relative Humidity sprh Al (4 -20 ma) co Outside Air Relative Humidity oarh Al (4 -20 ma) J4 -2,3 or J4 -5,6 Supply Fan Status fanstat DI (24 VAC) Filter Status filtstat DI (24 VAC) J5 -1,2 or J5 -3,4 or J5 5,6 or J5 -7,8 Remote Occupancy Input remocc DI (24 VAC) OUTPUTS Economizer Commanded Position econocmd 4 -20ma J2 -5 Supply Fan Relay State sf DO Relay (24VAC , 1A) J1 -4 Compressor 1 Relay State comp_1 DO Relay (24VAC , 1A) J1-8 Compressor 2 Relay State comp_2 DO Relay (24VAC , 1A) J1-7 Heat Stage 1 Relay State heat_1 DO Relay (24VAC , 1A) J1-6 Heat Stage 2 Relay State heat_2 DO Relay (24VAC , 1A) J1 -5 Power Exhaust Relay State aux_2 DO Relay (24VAC , 1A) J11 -3 Dehumidification Relay State humizer DO Relay (24VAC, 1A) J11-7, 8 LEGEND Al - Analog Input AO - Analog Output DI - Discrete Input DO - Discrete Output * These inputs (if installed) take the place of the default input on the specific channel according to schematic. Parallel pins J5 -1 = J2 -6, J5 -3 = J1-10, J5 -5 = J1-2 are used for field - installation. The RTU -MP controller requires the use of a Carrier accessory). It is a nominal 10k ohm thermistor attached to space sensor. A standard thermostat cannot be used with an eyelet mounting ring. the RTU -MP system. EconoMi$er2 - The RTU -MP control is used with Supply Air Temperature (SAT) Sensor - On EconoMi$er2 (option or accessory) for outdoor air HOP- equipped 48TC*D unit, the unit is supplied with a management. The damper position is controlled directly supply -air temperature (SAT) sensor (33ZCSENSAT). by the RTU -MP control; EconoMi$er2 has no internal This sensor is a tubular probe type, approx 6- inches (12.7 logic device. mm) in length. It is a nominal 10 -k ohm thermistor. Outdoor air management functions can be enhanced with The SAT is factory- wired. The SAT probe is wire -tied to field- installation of these accessory control devices: the supply -air opening (on the horizontal opening end) in Enthalpy control (outdoor air or differential sensors) its shipping position. Remove the sensor for installation. Re- position the sensor in the flange of the supply -air Space CO2 sensor opening or in the supply air duct (as required by local Outdoor air CO2 sensor codes). Drill or punch a 1 /2 -in. hole in the flange or duct. Field Connections - Field connections for accessory Use two field - supplied, self - drilling screws to secure the sensors and input devices are made the RTU -MP, at plugs sensor probe in a horizontal orientation. See Fig. 31. J1, J2, J4, J5, Jll and J20. All field control wiring that Outdoor Air Temperature (OAT) Sensor - The OAT is connects to the RTU -MP must be routed through the ` factory- mounted in the EconoMi$er2 (FLOP or raceway built into the corner post as shown in Fig. 29. The raceway provides the UL required clearance between 32 high- and low- voltage wiring. Pass the control wires BRN (COM) • - through the hole provided in the corner post, then feed the BLK (STO) SENSOR wires thorough the raceway to the RTU -MP. Connect to I WIRING the wires to the removable Phoenix connectors and then i I BLU (SPT) reconnect the connectors to the board. I I Space Temperature (SPT) Sensors OR SET SEN ' 0 0 0 A field- supplied Carrier space temperature sensor is required with the RTU -MP to monitor space temperature. There are 3 sensors available for this application: OPB COM- PWR+ • 33ZCT55SPT, space temperature sensor with override 0 0 0 button i I I I • 33ZCT56SPT, space temperature sensor with override POWER 24 VAC WIRING button and setpoint adjustment • 33ZCT59SPT, space temperature sensor with LCD NOTE: Must use a separate isolated transformer. (liquid crystal display) screen, override button, and c07132 Fig. 54 - Space Temperature Sensor Typical Wiring setpoint adjustment (33ZCT59SPT) 1-- co Use 20 gauge wire to connect the sensor to the controller. The wire is suitable for distances of up to 500 ft. Use a Economizer controls — three-conductor shielded cable for the sensor and setpoint Outdoor Air Enthalpy Control (PNO 33CSENTHSW) - adjustment connections. If the setpoint adjustment (slidebar) is not required, then an unshielded, 18 or 20 The enthalpy control (33CSENTHSW) is available as a gauge, two- conductor, twisted pair cable may be used. field- installed accessory to be used with the EconoMi$er2 Connect T -55 - See Fig. 33 for typical T -55 internal damper system. The outdoor air enthalpy sensor is part of connections. Connect the T -55 SEN terminals to the enthalpy control. (The separate field - installed RTU -MP J20 -1 and J20 -2. See Fig. 52. accessory return air enthalpy sensor (33CSENTSEN) is required for differential enthalpy control See below.) ® 1J20 -11 Locate the enthalpy control in the economizer next to the Actuator Motor. Locate two GRA leads in the factory harness and connect the gray lead labeled "ESL" to the 1 J20 -21 terminal labeled "LOW ". See Fig. 38. Connect the enthalpy control power input terminals to economizer c0e460 actuator power leads RED (connect to 24V) and BLK Fig. 52 - RTU -MP T -55 Sensor Connections (connect to GND). Connect T -56 - See Fig. 35 for T -56 internal The outdoor enthalpy changeover setpoint is set at the connections. Install a jumper between SEN and SET enthalpy controller. terminals as illustrated. Connect T -56 terminals to Differential Enthalpy Control — Differential enthalpy RTU -MP J20 -1, J20 -2 and J20 -3 per Fig. 53. control is provided by sensing and comparing the outside air and return air enthalpy conditions. Install the outdoor �S EN>. J20 -1 air enthalpy control as described above. Add and install a return air enthalpy sensor. ® 20_ To wire the return air enthalpy sensor, perform the 14— Jumper following: ® 1. Use a 2- conductor, 18 or 20 AWG, twisted pair cable to connect the return air enthalpy sensor to the enthal- py controller. <SET>— —P20-31 2. Connect the field- supplied RED wire to ( +) spade Co8461 connector on the return air enthalpy sensor and the Fig. 53 - RTU -MP T -56 Sensor Connections ( +) terminal on the enthalpy controller. Connect the BLK wire to ( -) spade connector on the return air en- • Connect T -59 - The T -59 space sensor requires a thalpy sensor and the ( -) terminal on the enthalpy separate, isolated power supply of 24 VAC. See Fig. 54 controller. for internal connections at the T -59. Connect the SEN Indoor Air Quality (CO2 sensor) — The indoor air quality terminal (BLU) to RTU -MP J20 -1. Connect the COM sensor accessory monitors space carbon dioxide (CO2) terminal (BRN) to J20 -2. Connect the SET terminal (STO levels. This information is used to monitor IAQ levels. or BLK) to J20 -3. Several types of sensors are available, for wall mounting 33 in the space or in return duct, with and without LCD To connect the sensor to the control, identify the positive display, and in combination with space temperature (4 to 20 mA) and ground (SIG COM) terminals on the sensors. Sensors use infrared technology to measure the OAQ sensor. See Fig. 38. Connect the 4 to 20 mA levels of CO2 present in the space air. terminal to RTU -MP terminal J4 -5. Connect the SIG COM terminal to RTU -MP terminal J4 -6. See Fig. 56. The CO2 sensors are all factory set for a range of 0 to 2000 ppm and a linear mA output of 4 to 20. Refer to the instructions supplied with the CO2 sensor for electrical OAQ Sensor /RH Sensor requirements and terminal locations. See Fig. 40 for typical CO2 sensor wiring schematic. ® J4 -5 To accurately monitor the quality of the air in the conditioned air space, locate the sensor near a return -air COM J4 -6 grille (if present) so it senses the concentration of CO2 24 VAC leaving the space. The sensor should be mounted in a location to avoid direct breath contact. C08463 Fig. 56 - RTU -MP / Outdoor CO2 Sensor Do not mount the IAQ sensor in drafty areas such as near (33ZCSENCO2) Connections • supply ducts, open windows, fans, or over heat sources. O Allow at least 3 ft (0.9 m) between the sensor and any On 48TC *D units equipped with factory - installed Smoke • corner. Avoid mounting the sensor where it is influenced Detector(s), the smoke detector controller implements the • by the supply air; the sensor gives inaccurate readings if unit shutdown through its NC contact set connected to the the supply air is blown directly onto the sensor or if the unit's CTB input. The FSD function is initiated via the supply air does not have a chance to mix with the room air smoke detector's Alarm NO contact set. The RTU -MP before it is drawn into the return airstream. controller communicates the smoke detector's tripped Wiring the Indoor Air Quality Sensor — status to the BAS building control. See Fig. 32, the PremierLink wiring schematic. For each sensor, use two 2- conductor 18 AWG (American The Fire Shutdown Switch configuration, Wire Gage) twisted -pair cables (unshielded) to connect MENU- rConfig- ►Inputs- ainput 5, identifies the the separate isolated 24 vac power source to the sensor normally open status of this input when there is no fire and to connect the sensor to the control board terminals. alarm. To connect the sensor to the control, identify the positive Connecting Discrete Inputs - (4 to 20 mA) and ground (SIG COM) terminals on the sensor. See Fig. 40. Connect the 4 -20 mA terminal to Filter Status RTU - terminal J4 -2 and connect the SIG COM terminal to RTU -MP terminal J4 -3. See Fig. 55. The filter status accessory is a field- installed accessory. This accessory detects plugged filters. When installing IAO Sensor this accessory, the unit must be configured for filter status by setting MENU-*Confg-oInputs-oinput 3, 5, 8, or 9 <SEN)- to Filter Status and normally open (N /O) or normally closed (N /C). Input 8 or 9 is recommended for easy of <COM>-- installation. Refer to Fig. 49 and Fig. 51 for wire terminations at J5. 24 VAC C08462 Fan Status Fig. 55 - RTU -MP / Indoor CO2 Sensor (33ZCSENCO2) Connections The fan status accessory is a field- installed accessory. This accessory detects when the indoor fan is blowing air. When installing this accessory, the unit must be Outdoor Air Quality Sensor (PNO 33ZCSENCO2 plus configured for fan status by setting weatherproof enclosure) — The outdoor air CO2 sensor is MENU- +Config- +Inputs input 3, 5, 8, or 9 to Fan designed to monitor carbon dioxide (CO2) levels in the Status and normally open (N /O) or normally closed (N /C). outside ventilation air and interface with the ventilation Input 8 or 9 is recommended for easy of installation. Refer damper in an HVAC system. The OAQ sensor is packaged to Fig. 49 and Fig. 51 for wire terminations at J5. with an outdoor cover. See Fig. 42. The outdoor air CO2 sensor must be located in the economizer outside air hood. Remote Occupancy Wiring the Outdoor Air CO2 Sensor — A dedicated power supply is required for this sensor. A two -wire cable is The remote occupancy accessory is a field- installed required to wire the dedicated power supply for the sensor. accessory. This accessory overrides the unoccupied mode The two wires should be connected to the power supply and puts the unit in occupied mode. When installing this and terminals 1 and 2. accessory, the unit must be configured for remote - occupancy by setting MENU-.Conffg-.Inputs- ►input 3, 34 5, 8, or 9 to Remote Occupancy and normally open (N /O) Communication Wiring - Protocols • - or normally closed (N /C). Also set MENU-*Schedules--occupancy source to DI General on /off. Input 8 or 9 is recommended for easy of installation. Refer to Fig. 49 and Table 8 for wire Protocols are the communication languages spoken by terminations at J5. control devices. The main purpose of a protocol is to • Power Exhaust (output) communicate information in the most efficient method possible. Different protocols exist to provide different Connect the accessory Power Exhaust contactor coil(s) per kinds of information for different applications. In the BAS Fig. 57. application, many different protocols are used, depending on manufacturer. Protocols do not change the function of Power Exhaust a controller; just make the front end user different. The RTU -MP can be set to communicate on four different PEC TAN 1 J11-31 protocols: BACnet, Modbus, N2, and LonWorks. Switch 3 CTB (SW3) on the board is used to set protocol and baud rate. THERMOSTAT Switches 1 and 2 (SW1 and SW2) are used to set the n board's network address. See Fig 58 for the switch setting o GRA 1 1 per protocol. The 3rd party connection to the RTU -MP is V C08464 through plug i19 I- Fig. 57 - RTU -MP Power Exhaust Connections NOTE: Power must be cycled after changing the SW1 -3 v switch settings. Space Relative Humidity Sensor - The RH sensor is not Refer to the RTU -MP 3rd Party Integration Guide for used with 48TC *D models at this time. more detailed information on protocols, 3rd party wiring, and networking. SW3 Protocol Selection PROTOCOL DS8 DS7 DS6 DS5 DS4 DS3 DS2 DS1 BACnet MS/TP Unused OFF OFF OFF ON OFF Select Baud Select Baud (Master) Modbus Unused OFF OFF ON ON OFF Select Baud Select Baud (Slave) N2 Unused OFF OFF OFF ON ON OFF OFF (Slave) LonWorks Unused ON ON OFF ON OFF OFF OFF NOTE: Comm Set to DS = Dip Switch Option Set to MISTP 384k uas BACnet MS/TP SW3 example shown Unused Pod ( *r) baud 1 Baud Rate Selections BAUD RATE DS2 DS1 (OFF f II 8115.11 9600 OFF OFF t O M 1 1 1 I n i l I■ 19,200 ON OFF 38,400 OFF ON dor , IhvItc as 76,800 ON ON c07166 Fig. 58 - RTU -MP SW3 Dip Switch Settings 35 Local Access Virtual BACview Virtual BACview is a freeware computer program that BACview Handheld functions as the BACview Handheld. The USB Link The BACview is a keypad /display interface used to interface (USB -L) is required to connect a computer to connect to the RTU -MP to access the control information, the RTU -MP board. The link cable connects a USB port read sensor values, and test the RTU, see Fig. 59. This is to the J12 local access port. This program functions and an accessory interface that does not come with the MP operates identical to the handheld. controller and can only be used at the unit. Connect the BACview to the RTU -MP's J12 local access port. There RTU - Troubleshooting are 2 password protected levels in the display (User and Admin). The user password is defaulted to 0000 but can Communication LEDs be changed. The Admin password is 1111 and cannot be changed. There is a 10 minute auto logout if a screen is idle. See Form 48- 50H -T -2T, Appendix A for navigation The LEDs indicate if the controller is speaking to the and screen content. devices on the network. The LEDs should reflect communication traffic based on the baud rate set. The higher the baud rate the more solid the LEDs will appear. in U co co I LOW RNET 1+ MSR l56 , in R,w,s C `: 12 �� � + � V GNO a ■ACvdaw' a �� Sr SW, sW. 0 r , Se ix', .72. 33 R% 7% I �p D D- P Ll 1 .. Sµ3 a c II) crass Pert l P7 °° RT i i i •' •' i i • Wader �• •° U -MP J12 P1 I. Cable P5 P5 BACvlevi Local Access Cable 4 C07170 Fig. 59 - BACview Handheld Connections 36 Table 9 — LEDs The LEDs on the RTU -MP show the status of certain functions If this LED is on... Status is... Power The RTU MP has power Rx The RTU MP is receiving data from the network segment 'I'x The RTU MP is transmitting data over the network segment D()# The digital output is active The Run and Error LEDs indicate control module and network status If Run LED shows... And Error LED shows... Status is... 2 flashes per second Off Normal 2 flashes per second 2 flashes, Five minute auto — restart delay after system error alternating with Run LED 2 flashes per second 3 flashes, Control module has just been formatted then off 2 flashes per second 4 flashes, Two or more devices on this network have the then pause same ARC156 network address H w 2 flashes per second On Exec halted after frequent system errors or �+ control programs halted 5 flashes per second On Exec start—up aborted, Boot is running 5 flashes per second Off Firmware transfer in progress, Boot is running 7 flashes per second 7 flashes per second, alternating with Ten second recovery period after brownout Run LED 14 flashes per second 14 flashes per second, Brownout alternating with Run LED Failure. Try the following solutions: • Turn the RTU —MP off, then on. On On • Format the RTU —MP. • Download memory to the RTU —MP • Replace the RTU —MP. • NOTE: Refer to Form 48- 50H -T -2T for complete configuration of RTU -MP, operating sequences and troubleshooting information. Refer to RTU -MP 3rd Party Integration Guide for details on configuration and troubleshooting of connected networks. Have a copy of these manuals available at unit start -up. 37 SMOKE DETECTORS Smoke detectors are available as factory - installed options ` ' t !'-, on 48TC *D models. Smoke detectors may be specified for i I� I, Supply Air only or for Return Air without or with c . �-: economizer or in combination of Supply Air and Return % -� Air. Return Air smoke detectors are arranged for vertical Duct smoke ,.. ^' °' • return configurations only. All components necessary for operation are factory- provided and mounted. The unit is ' n °.,n factory- configured for immediate smoke detector '''1010.1M r Conduit shutdown operation; additional wiring or modifications to j 11111 unit terminal board may be necessary to complete the unit . .. ‘,,', /1 f r c � t support pm and smoke detector configuration to meet project !► ` �'... re""'" bbar�°..r req u irements. `°°b°l "� "°9 1 '' �� ' r `R gresk q ekcbonks J r (ordennq option) Units equipped with factory- optional Return Air smoke c°ndurtcouw J r `°n "" °Y" IsupPId by msul") detectors require a relocation of the sensor module at unit v , p installation. See "Completing Installation of Return Air ° ' ;2 " ' ( el U Smoke Sensor:" on page 40 for details. v System I I, The smoke detector system consists of a four -wire Q Trouble controller and one or two sensors. Its primary function is A,,rn c I Power to shut down the rooftop unit in order to prevent smoke from circulating throughout the building. It is not to be ° Test/reset used as a life saving device. c? 'w °`" Controller C08208 The controller (see Fig. 60) includes a controller housing, Fig. 60 - Controller Assembly a printed circuit board, and a clear plastic cover. The controller can be connected to one or two compatible duct I smoke sensors. The clear plastic cover is secured to the °�� . housing with a single captive screw for easy access to the ,1 .10111"t �� wiring terminals. The controller has three LEDs (for '' Power, Trouble and Alarm) and a manual test/reset button '` _ (on the cover face). Sensor r Wu. tube The sensor (see Fig. 61) includes a plastic housing, a , printed circuit board, a clear plastic cover, a sampling r E.ti " °gage n ° o, bo tube inlet and an exhaust tube. The sampling tube (when f \ e °""`°°" 0 used) and exhaust tube are attached during installation. De� A ° C) . 4..----.111 The sampling tube varies in length depending on the size ,.:ll ' : of the rooftop unit. The clear plastic cover permits visual t -../ ' ... Cover gasket inspections without having to disassemble the sensor. The ' cover attaches to the sensor housing using four captive screws and forms an airtight chamber around the sensing r %v � l°r op../ r CQe electronics. Each sensor includes a harness with an RJ45 r,,,,, -. terminal for connecting to the controller. Each sensor has ' r (ordered four LEDs (for Power, Trouble, Alarm and Dirty) and a oetTA manual test/reset button (on the left-side of the housing). \ r co..re •. Air is introduced to the duct smoke detector sensor's sensing chamber through a sampling tube that extends into the HVAC duct and is directed back into the ventilation system through a (shorter) exhaust tube. The difference in air pressure between the two tubes pulls the sampled air "" u °"w it through the sensing chamber. When a sufficient amount of ;<h smoke is detected in the sensing chamber, the sensor ° signals an alarm state and the controller automatically Alarm Power Trouble at1 takes the appropriate action to shut down fans and blowers, change over air handling systems, notify the fire C08209 Fig. 61 - Smoke Detector Sensor alarm control panel, etc. 38 The sensor uses a process called differential sensing to Return Air Detector module (shipping position shown)` prevent gradual environmental changes from triggering false alarms. A rapid change in environmental conditions, 1 such as smoke from a fire, causes the sensor to signal an 1 '' ,` a �, I, II al state but dust and debris accumulated over time ;� does not. . I Controller module `•� � For installations using two sensors, the duct smoke detector does not differentiate which sensor signals an 0 K a larm or trouble condition. ' Smoke Detector Locations " � <7,....g.; r � Supply Air — The Supply Air smoke detector sensor is located to the left of the unit's indoor (supply) fan. See .. Fig. 62. Access is through the fan access panel. There is Return Air Detector Sampling Tube no sampling tube used at this location. The sampling tube *RA detector must be moved from shipping pp' g position to operating position by installer inlet extends through the side plate of the fan housing C07307 (into a high pressure area). The controller is located on a Fig. 63 - Typical Return Air Detector Location o bracket to the right of the return filter, accessed through U the lift -off filter panel. '— Return Air with Economizer — The sampling tube is 4 inserted through the side plates of the economizer housing, placing it across the return air opening on the unit basepan. See Fig. 64. The holes in the sampling tube ��� face downward, into the return air stream. The sampling tube is connected via tubing to the return air sensor that is '� �„„ mounted on a bracket high on the partition between return (: ;� , filter and controller location. (This sensor is shipped in a \\ 411 �\ N.- 41IP flat-mounting location. Installation requires that this �s , sensor be relocated to its operating location and the tubing ' to the sampling tube be connected. See installation steps below.) „v .- - Smoke Detector Sensor C08245 Fig. 62 - Typical Supply Air Smoke Detector Sensor Location Return Air without Economizer — The sampling tube is , 9 j located across the return air opening on the unit basepan. See Fig. 63. The holes in the sampling tube face downward, into the return air stream. The sampling tube is connected via tubing to the return air sensor that is mounted on a bracket high on the partition between return filter and controller location. (This sensor is shipped in a ® flat - mounting location. Installation requires that this - eturn Air sensor be relocated to its operating location and the tubing Sampling Tube to the sampling tube be connected. See "Completing Installation of Return Air Smoke Sensor:" on page 40 for details.) C08129 Fig. 64 - Return Air Sampling Tube Location 39 Completing Installation of Return Air Smoke Sensor: 1. Unscrew the two screws holding the Return Air Sensor detector plate. See Fig. 65. Save the screws. 2. Remove the Return Air Sensor and its detector plate. 3. Rotate the detector plate so the sensor is facing out- wards and the sampling tube connection is on the bot- torn. See Fig. 66. 4. Screw the sensor and detector plate into its operating ( position using screws from Step 1. Make sure the sampling tube connection is on the bottom and the ex- haust tube is on the top. See Fig. 66. - -" ""'""' 5. Connect the flexible tube on the sampling inlet to the —' C08127 sampling tube on the basepan. Fig. 66 - Return Air Sensor Operating Position Screws Additional Application Data — Refer to Catalog No. HKRNKA -1XA for discussions on additional control co features of these smoke detectors including multiple unit coordination. Flexible Exhaust Tubes Sample Tube C06126 Fig. 65 - Return Air Detector Shipping Position r 40 Step 13 — Humidi- Miler' - f l 1 Space RH Controller — The Humidi-MiZer dehumidification system requires a " rrler 40 field- supplied and - installed space relative humidity ° 5 control device. This device may be a separate humidistat ' OD control (contact closes on rise in space RH above control o setpoint) or a combination thermostat - humidistat control " z CID device such as Carrier's EDGE Pro Thermidistat with �� C11 o CE isolated contact set for dehumidification control. The ° FF o� OD humidistat is normally used in applications where a OD temperature control is already provided (units with % RELATIVE NINNRY PermierLink'" control). To connect the Carrier humidistat (HI38MG029): C09295 1. Route the humidistat 2- conductor cable (field -sup- Fig. 67 - Accessory Field- Installed Humidistat plied) through the hole provided in the unit corner post. 2. Feed wires through the raceway build into the corner 9 post (see Fig. 29) to the 24 -v barrier located on the left side of the control box. The raceway provides the v UL- required clearance between high- voltage and low - voltage wiring. I I F 3. Use wire nuts to connect humidistat cable to two IL F PINK leads in the low — voltage wiring as shown in actual temp Fig. 69. To connect the Thermidistat device (33CS2PPRH -01): 59 outside temp 1. Route the Thermidistat multi- conductor thermostat cable (field- supplied) through the hole provided in the unit corner post. ,12 • • u I 2. Feed wires through the raceway build into the corner post (see Fig. 29) to the 24 -v barrier located on the left side of the control box. The raceway provides the UL- required clearance between high- voltage and low- voltage wiring. 3. The Thermidistat has dry contacts at terminals Dl C09296 and D2 for dehumidification operation (see Fig. 70). Fig. 68 - EDGE Pro Thermidistat The dry contacts must be wired between CTB terminal R and the PINK lead to the LTLO switch with field - supplied wire nuts. Refer to the installation instructions included with the Carrier Edge Thermidistat device (Form 33CS -65SI or latest) for more information. 41 5} . /e'• Q •_ r tt.-�1 0.n)_ - LM _ _kka„ IIRLLIat rpL e•' I n �t<� . . rrryyyfff` - Lana I t *� ' 0 . . : Cpl IM • r ° I NM `iar a�iaw , . Mt w.0 1coara 41". LL• I o I •. p . IN r QQ aL m" w � . _ ■ . "� a LnL i = M `: , , .. . i cf., . r. 6E1 c i 0 1 1.6.. 6111 1 : m r Mil J= ^ p Lana - — — - — . MIN :: :... • 9.t' -STA i• , ' rows ai d «m S r.°_ S .._,,... filli ' f C09606 Fig. 69 - Typical Humidi -MiZer Adaptive Dehumidification System Humidistat Wiring EDGE Pro THERMIDISTAT Unit CTB THERMOSTAT Rc O- 0 X* Rh O , -O 0 W1 O 1 G O- - -- O G Y2 0 , } - C O- i + ; - -- 0 W2 OJW2 /B 0- -I I - - -0 W1 Y1 o _, -- L I . - --0 Y2 ' -t 4 I L- - 0 Y1 OAT O - 0 R RRS 0 SRTN O HUM O Humidi- MiZer" FIOP D1 O- i- - PO - - -GD TMEIMOSTAT j j j D2 0 1 I LTLO IENEAT j V+ 0 - ►IIA - -� CONTROL Vg 0 _ *Connection not required. 4 C09298 Fig. 70 - Typical Rooftop Unit with Humidi -MiZer Adaptive Dehumidification System with EDGE Pro Thermidistat Device 42 Table 10 - Unit Wire/MOCP Sizing Data NO C.O. or UNPWRD C.O. E' NOM. IFM COMBUSTION POWER NO P.E. w/ P.E. (pwrd fr/ unit) j V -Ph -Hz TYPE FAN MOTOR EXHAUST DISC. SIZE DISC. SIZE FLA FLA MCA MOCP MCA MOCP FLA LRA FLA LRA STD 38.8 50 41 193 42.6 50 45 197 208/230 -3 -60 MED 0.48 3.8 41.1 50 43 230 44.9 50 48 234 - HIGH 49.0 60 52 256 52.8 60 56 260 E STD 17.9 20 19 95 19.7 25 21 97 U 460 -3 -60 MED 0.25 1,8 18.7 25 20 114 20.5 25 22 116 I- HIGH 23.1 30 24 127 24.9 30 26 129 STD 13.1 15 14 77 16.9 20 18 81 575 -3 -60 MED 0.24 3.8 13.5 15 14 92 17.3 20 19 96 HIGH 16.6 20 17 106 20.4 25 22 110 STD 40.0 50 42 208 43.8 50 46 212 208/230 -3 -60 MED 0.48 3.8 40.0 50 42 219 43.8 50 46 223 .. U HIGH 44.8 50 47 262 48.6 60 52 266 co o STD 18.4 25 19 109 20.2 25 21 111 0 U 460 -3 -60 MED 0.25 1.8 18.4 25 19 115 20.2 25 21 117 v HIGH 20.2 25 21 137 22.0 25 23 139 STD 14.3 20 15 89 18.1 20 19 93 575 -3 -60 MED 0.24 3.8 13.9 20 15 93 17.7 20 19 97 HIGH 14.7 20 16 104 18.5 20 20 108 STD 43.7 50 46 258 47.5 60 50 262 208/230 -3 -60 MED 0.48 3.8 48.5 60 51 301 52.3 60 56 305 HIGH 53.5 60 57 310 57.3 70 61 314 STD 21.5 25 23 123 23.3 30 25 125 0 ' U 460 -3 -60 MED 0.25 1.8 23.3 30 25 145 25.1 30 27 147 CO v HIGH 26.3 30 28 149 28.1 35 30 151 STD 16.2 20 17 93 20.0 25 21 97 575 -3 -60 MED 0.24 3.8 17.0 20 18 104 20.8 25 22 108 HIGH 19.8 25 21 118 23.6 30 25 122 STD 60.7 80 63 360 64.5 80 68 364 208/230 -3 -60 MED 0.48 3.8 63.2 80 66 377 67.0 80 71 381 HIGH 68.2 80 72 386 72.0 80 76 390 a STD 29.5 40 31 181 31.3 40 33 183 T 0 U 460 -3 -60 MED 0.25 1.8 30.5 40 32 190 32.3 40 34 192 H. HIGH 33.5 40 35 194 35.3 45 37 196 STD 22.3 30 23 142 26.1 30 28 146 575 -3 -60 MED 0.24 3.8 22.3 30 23 142 26.1 30 28 146 HIGH 25.1 30 27 156 28.9 35 31 160 NOTE: See page 45 for table legend and notes. ti 43 Table 10 - Unit Wire/MOCP Sizing Data (cont) w/ PWRD C.O. NOM. IFM COMBUSTION POWER NO P.E. w/ P.E. (pwrd fr/ unit) Z V -Ph -Hz TYPE FAN MOTOR EXHAUST DISC. SIZE DISC. SIZE FLA FLA MCA MOCP FLA LRA MCA MOCP FLA LRA STD 43.6 50 46 198 47.4 60 51 202 208/230 -3 -60 MED 0.48 3.8 45.9 50 49 235 49.7 60 53 239 HIGH 53.8 60 58 261 57.6 70 62 265 - co STD 20.1 25 21 97 21.9 25 23 99 - 0 4 460 -3 -60 MED 0.25 1.8 20.9 25 22 116 22.7 25 24 118 U t- HIGH 25.3 30 27 129 27.1 30 29 131 m o STD 14.8 20 16 79 18.6 20 20 83 575 -3 -60 MED 0.24 3.8 15.2 20 16 94 19.0 25 21 98 HIGH 18.3 20 19 108 22.1 25 24 112 STD 44.8 50 47 213 48.6 60 52 217 a 208/230 -3 -60 MED 0.48 3.8 44.8 50 47 224 48.6 60 52 228 H HIGH 49.6 60 53 267 53.4 60 57 271 a) cr c STD 20.6 25 22 111 22.4 25 24 113 0 U 460 -3 -60 MED 0.25 1.8 20.6 25 22 117 22.4 25 24 119 co HIGH 22.4 25 24 139 24.2 30 26 141 or STD 16.0 20 17 91 19.8 25 21 95 575 -3 -60 MED 0.24 3.8 15.6 20 17 95 19.4 25 21 99 HIGH 16.4 20 17 106 20.2 25 22 110 STD 48.5 60 51 263 52.3 60 56 267 208/230 -3 -60 MED 0.48 3.8 53.3 60 57 306 57.1 70 61 310 HIGH 58.3 70 62 315 62.1 70 67 319 STD 23.7 30 25 125 25.5 30 27 127 0 V 460 -3 -60 MED 0.25 1.8 25.5 30 27 147 27.3 30 29 149 c HIGH 28.5 35 31 151 30.3 35 33 153 - a STD 17.9 20 19 95 21.7 25 23 99 575 -3 -60 MED 0.24 3.8 18.7 25 20 106 22.5 25 24 110 HIGH 21.5 25 23 120 25.3 30 27 124 STD 65.5 80 69 365 69.3 80 73 369 208/230 -3 -60 MED 0.48 3 8 68.0 80 72 382 71.8 80 76 386 HIGH - - - - - - - - or STD 31.7 40 33 183 33.5 40 35 185 0 V 460 -3 -60 MED 0.25 1.8 32.7 40 35 192 34.5 45 37 194 m HIGH 35.7 45 38 196 37.5 45 40 198 v STD 24.0 30 25 144 27.8 30 30 148 575 -3 -60 MED 0.24 3.8 24.0 30 25 144 27.8 30 30 148 HIGH 26.8 30 29 158 30.6 35 33 162 NOTE: See page 45 for table legend and notes. 44 Legend and Notes for Table 10 LEGEND: Example: Supply voltage is 230 -3 -60 CO - Convenient outlet • • c DISC - Disconnect AB = 224 v FLA - Full load amps c us BC = 231 v IFM - Indoor fan motor y AC = 226 v LRA - Locked rotor amps MCA - Minimum circuit amps (224 + 231 + 226) 681 MOCP - Maximum over current protection Average Voltage = _ PE - Power exhaust 3 3 UNPWR CO - Unpowered convenient outlet NOTES: = 227 1. In compliance with NEC requirements for multimotor and combination load equipment (refer to NEC Articles 430 and Determine maximum deviation from average voltage. 440), the overcurrent protective device for the unit shall be (AB) 227 - 224 = 3 v fuse or HACR breaker. Canadian units may be fuse or circuit (BC) 231 - 227 = 4 v breaker. (AC) 227 - 226 = 1 v 2. Unbalanced 3 -Phase Supply Voltage Maximum deviation is 4 v. Never operate a motor where a phase imbalance in supply Determine percent of voltage imbalance. voltage is greater than 2 %. Use the following formula to de- termine the percentage of voltage imbalance. 4 CI Voltage Imbalance = 100 x 227 U max voltage deviation from average voltage = 1.76% % Voltage Imbalance = 100 x average voltage This amount of phase imbalance is satisfactory as it is below the maximum allowable 2 %. IMPORTANT: If the supply voltage phase imbalance is more than 2 %, contact your local electric utility company immediately. 45 C ron* Aus Rum's. ECONOMI ZEN (F10PrACCESSONr1 1 ■ r SON. r 1 CL • KW r ( /NN • NrMKLir • TINS v1 I I �t j ■ —A ID .ran: 'y • .c1 It II 1 ECONOMIZER • IK16)E rPR • • I r� ..{JXJ EI IN i I {KgfE It3EWN1. M IN - # 'x Nr /R NE I .. .. I E ►N N I L! I-I Njq TNNT 1 N am O �(yI ♦ill ►1 11.1-1 ir Kt WI �M MILD 111111 I VIO < r ' - nE /KCf 1 I • • rr ECONOIIIIMI I "" MI�[N ' 11 i i [TI !7'� 1 E { €•-•-•1111-111-11.11- �� • O I • j • ® • ''J ,' - ' • : ' '� l' I to Mi ft lf! Kr Kr L iRA— MT IOW !1( : I It E tt arRAE�NmN • ur ru--- '- -oz�-I , Nor am 1 0( ( —{ E N Er atr- t , n , w, I n lA nl _ • • LRA�� S REE 1� 'JX_{1� [ p Tin.-- i S ,( l� ■ I / • IDTw. K1 MX ALJO •--11.0 ; fl E 1 1, I �pN- —nN- -� <—EEN- N 111111-4 . [ rirLi: 11E0—••--< .. E—KN-. • ���pN�� �� M r y r N[N's N r X(11111 am MEN CI : T � - i i 1. , /1 \� n r q • Lary mNN . rM[ TAN ANA— s { 1 E -- � ( i 1 U w N r, Ir La r y I tro. T s r i Ati[ ra q. rsma r 1 °MI I T, E ( I NN'- CO : i nirii rl ' i3i'ib'n TO M iioir MAIM IN T ND/ !. : 1 — rq_ sec orIlell 61.1 I 7 \ Economizer 2 Position Damper Unit Without Economizer or 2 Position Damper C08631 Fig. 71 - EconoMi$er' IV Wiring Step 14 — Adjust Factory - Installed Options Flue Discharge Deflector Smoke Detectors — Flue Exhaust Heat Shield Low Ambient Controls Smoke detector(s) will be connected at the Controls Thermostat / Sensors Connections Board, at terminals marked "Smoke • • Shutdown ". Remove jumper JMP 3 when ready to Two - Position motorized outside air damper energize unit. EconoMi$er2 (without control /for external signal and integrated barometric relief) EconoMi$er IV Occupancy Switch — EconoMi$er2 (without control /for external signal) Refer to Fig. 71 for general EconoMi$er IV wiring. Power Exhaust External occupancy control is managed through a Differential dry -bulb sensor ( EconoMi$er IV) connection on the Central Terminal Board. Outdoor enthalpy sensor If external occupancy control is desired, connect a time Differential enthalpy sensor clock or remotely controlled switch (closed for Occupied, CO2 sensor open for Unoccupied sequence) at terminals marked DDC interface (PremierLink) OCCUPANCY on CTB. Remove or cut jumper JMP 2 to Louvered hail guard complete the installation. Phase monitor control Step 15 — Install Accessories Winter Start kit Available accessories include: Refer to separate installation instructions for information Roof Curb on installing these accessories. Thru -base connection kit (must be installed before unit Pre-Start and Start-Up is set on curb) LP conversion kit This completes the mechanical installation of the unit. Manual outside air damper Refer to the unit's Service Manual for detailed Pre -Start High Altitude Gas kits and Start -up instructions. • 46 . • • . c - • 48TC *D V Cl • U I— o h • s 4 Copyright 2010 Carrier Corp. • 7310 W. Morris St. • Indianapolis, IN 46231 Printed in U.S.A. Edition Date: 01/10 Catalog No: 48TC -07S1 Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations. Replaces: 48TC -06S1 48 sec or S(o7 PLAZ:.WEST r4 I5ooj SW Oak St. Tigard OR 'x7223 Root access S'dr! C'reenburg Rd ( C . D Equipment • H uv 217 52 rn zo �' T rn _I e0 - rn 0 °