Trane SS-PRC003-EN User's Manual
Contents
1. CN lt DEVICE DESCRIPTION LINE c m ABE LINE VOLTAGE F FAN CONTACTOR COIL 7 bd y S 2 B e EDC E AP DEFROST CONTROL 12 lt 8 a p m 3A BK 7 i 10L INTERNAL OVERLOAD 2 89 il penes m x m G ox mm 4AL 7 7 m lt lt lt m 3 Ho hr x lt lt o x ATACYL AE 2 Fel 1A RD 3 54 1 ODELS 5 ON WEOSOAK L F 2 NTE ED F NO TWEOSOA3S 4 a Tee s TWEO9OCK 5 sA BK ES WEO90C3 5 ZI re E TTS EST os on TWE120AK lt E TWE120A3 F Di E M4 X WE120CK 5 A7A BK 36A B BL F 3 i5 TWE120C3 4 5 9 4 77 3 m NOTES 1 SEE FIELD WIRING DIAGRAMS IN PRODUCT F 4 LITERATURE FOR PROPER FIELD CONNECTIONS 9 J 37A BR od Lo 388 B 4 2 ON MODELS WITH A 3 IN THE 8TH DIGIT ON WIRE COLOR DESIGNATION COM NO THE UNIT NAMEPLATE STAMPING UNIT IS FAC ABBR COLOR ABBR COLOR TORY WIRED FOR 208 250 VOLT POWER FOR 1 ES 36A BL CHEATER INTERLOCK BK BLACK BR BROWN 450V POWER RECONNECT MOTOR PER DIAGRAM o BL BLUE yL YELLOW ON MOTOR ATA CYL 3 THE EDC SWITCH IS NOT PROVIDED ON MODELS MTH A C IN maa DIGIT ON THE UNIT 1 B2 NAMEPLATE STAMPING 40A YL 40ACYL 41 ACYL N2. Y DUCT OPENING Ly 7 8 DIA 4 22 2m m KNOCKOUTS 11 2 292 1mm B S 91 2 241 3mm HORIZONTAL AC DUCT OPENING k es p FILTER ACCESS 3 PANEL 4 ACCESS 7 PANEL DUCT OPENING RETURN AIR OPENING VERTICAL VERTICAL RETURN OR HORIZONTAL HORIZONTAL RETURN Table DD 4 Air Handler Dimensions in mm Model No A B C D E F G H J K TWE155B 69 79 1 2 27 5 8 12 3 8 1 5 8 26 25 1 8 49 1 8 56 1 4 15 1 2 1752 60 2019 30 701 68 314 33 41 28 660 40 638 18 124778 1428 75 393 70 TWE200B 71 7 8 92 1 2 30 1 2 18 7 8 4 1 2 31 28 51 7 8 59 1 8 18 1 8 1825 63 2349 50 774 70 479 43 114 30 78740 711 20 131763 1501 78 460 38 Table DD 4 Continued Model No L M N P R S U V w TWE155B 19 1 2 77 1 4 1 1 4 48 35 35 2 7 8 73 7 8 3 3 4 3 3 8 495 30 1962 15 31 75 1219 20 889 00 889 00 73 03 1876 43 95 25 85 73 TWE200B 20 7 8 89 1 4 1 3 4 50 7 8 39 1 8 39 1 8 4 7 8 82 7 8 4 5 8 3 1 8 530 23 2266 95 44 45 1292 23 993 78 993 78 123 83 2105 03 11748 79 38 Table DD 4 Continued Model No Y Z AA AB AC AD AE AF TWE155B 18 73 7 8 3 3 4 2 7 8 18 3 5 8 35 35 45720 1876 43 95 25 73 03 457 20 92 08 889 00 889 00 TWE200B 20 1 8 82 7 8 4 5 8 4 7 8 20 1 8 3 39 1 8 39 1 8 511 18 2105 03 11748 123 83 511 18 76 20 993 78 993 78 SS PRC003
3. 56 1158 8 2 LED COMMON vac st 122A BRY 121A BRY 120AtBRY WENT LED WENT 1 58 ag ACCESSORY 9 LED mat a2 2 system m MP 10 COMM J2 wous 5 m our 4 62 les R 24VAC wi U00695 w2 6 00 Ai 0 5 vici les rio quete le 68 les n TRANE BUILDING MANAGEMENT SYSTEM n CONDENSER LTB B EF 1 mu u 16 n ELECTRIC ed lt ACCESSORY vr BI G 82 w w INDOOR SECTION LTB SS PRC003 EN jez PRINTED FROM D757521P0I 57 e TRANE Dimensional Data uW Figure DD 1 TTA075 Condensing Units All dimensions are in inches and millimeters NOTES 1 MINIMUM CLEARANCE FOR PROPER OPERATION IS 36 914 4mm FROM WALLS SHRUBBERY PRIVACY li cy a FENCES ETC MINIMUM CLEARANCE BETWEEN ADJACENT UNITS IS 72 1828 8mn 1 INCH MILLIMETERS I TAOSOA F 47 6kq 37 6kg 27 7kg 34 9kg 147 CE 3 ALL MASSES WEIGHT ARE GIVEN IN POUNDS FORCE KILOGRAMS TOP DISCHARGE AREA SHOULD BE UNRESTRICTED FOR 100 2540 MINIMUM UNIT SHOULD BE PLACED SO ROOF RUN OFF WATER DOES NOT POUR DIRECTLY ON UNIT
4. Model No J K Q S V w Y AA TWEO75A 4 45 1 4 38 1 8 1 2 15 1 3 8 2 101 60 1149 35 968 38 12 70 381 00 34 93 50 80 TWE100A 4 45 1 4 38 1 8 12 15 1 3 8 2 101 60 1149 35 968 38 12 70 381 00 34 93 50 80 TWE100B 2 1 8 45 1 4 38 1 8 3 8 18 3 4 14 1 1 8 2 1 8 53 98 1149 35 968 38 9 53 476 25 355 60 28 58 53 98 67 e TRANE Figure DD 11 TWE050A 075A 100A TWE100B Air Handlers All dimensions are in inches and millimeters E 22 23MM 4 KNOCKOUTS FOR HORIZONTAL SUSPENSION FILTER ACCESS PANEL RETURN AIR OPENING o PEN 7505 r R L 1 TYP RETURN AIR OPENING VERTICAL HORIZONTAL RETURN OR HORIZONTAL VERTICAL RETURN RETURN AIR OPENING gt x La Ds 2 73 03MM e RETURN AIR OPENING VERTICAL VERTICAL RETURN R HORIZONTAL HORIZONTAL RETURN ACCESS PANEL Dimensional Data dnd 105 266 7 OF KO TYP AL VERTICA VERTICAL R ETURN D BE TI HORIZONTAL HORIZONTAL RETURN Table DD 3 Air Handler Dimensions in mm 2 o o VERTICAL HORIZONTAL RE TURN Q e oF Sg gt EN 4 HORIZONTAL VERTICA
5. B COMPRESSOR 1 1z2e S8imm PIA LIFTING HOLE 4 PLACES 7716 DIA mm ISOLATOR MOUNTING HOLES OUTSIDE HOLE 4 PLACES sce gt DETAIL A oe pu 22 SERVICE ACCESS PANEL COMPRESSOR 5 pi uu oo 374 2076mm 87 3 4 2229mn CLEARANCE PERIMETER NOTE 15 FOOTPRINT DOWN PATTERN 2 7 1 4 184mm e 50 8mm DIA KNOCKOUTS FOR HEAD PRESSURE CONTROL ACCESSORY 10T 6mm ZEGNTROL WiRING gt WIRING NOT APPLICABLE FOR ALL MODELS SEE ACCESSORY INSTALLER S DIA KNOCKDUT ENTRY FOR qn DISCHARGE LINE DIA lt POWER WIRING GUIDE BamDIA EXTRUDED HOLES SUCTION LINES 1 2 38 imm DI lt TYP OF gt REFRIGERANT GAGE FITTING ACCESS 2 8 pia EXTRUDED HOLES ee 22 2mm LIQUID LINES 12 7 8 327mm mee Fa 6 3 8 1775mm AS I 168mm 45 176 1156 mm iimm DETAIL 4 VIEW B 62 SS PRC003 EN Dimensional Data e TRANE Figure DD 6 TTA155C Condensing Units All dimensions are in inches and millimeters APPROXIMATE CORNER TOTAL TOTAL WEIGHT MASS UNIT SHIPPING MODEL m we a3 4 WEIGHT WEIGHT TTAISSC G 196 uo 193 uo 144 uo 146 uo 679 ib 764 uo TTA180C G 88 9 kg 87 5 kg 65 3 kg 662 kg 3542ko CONTROL BOX 34 TDP DISCHARGE AREA SHOULD BE
6. Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity SS PRC003 EN 17 e TRANE Performance Data Table PD 5 Gross Cooling Capacities MBh TTA100A Condensing Unit with TWE100A Air Handler 1 AmbientTemperature F 85 95 105 115 Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 1047 817 115 8 68 5 127 7 46 8 1009 79 7 111 5 66 8 123 0 45 1 96 8 77 7 107 1 65 0 118 1 43 5 92 4 75 5 102 5 63 2 1129 41 7 3025 80 1052 95 0 116 1 78 6 127 8 61 1 101 5 93 1 111 9 76 8 123 2 59 3 97 5 91 1 107 5 75 0 118 3 57 5 93 3 89 0 102 9 73 0 113 3 55 6 85 106 9 106 9 116 3 92 0 128 1 74 9 103 8 103 8 112 1 90 1 123 5 73 1 100 4 100 4 107 7 88 1 118 7 71 3 96 9 96 9 103 1 86 1 113 7 69 5 90 112 3 112 3 116 8 105 4 128 4 88 7 109 1 109 1 112 7 103 5 123 8 86 9 105 7 105 7 108 4 101 6 119 0 85 1 102 1 102 1 104 1 99 7 113 8 82 9 75 106 8 85 3 118 0 67 1 129 8 47 6 102 8 83 3 113 6 65 3 124 9 46 0 98 6 81 2 109 0 63 4 119 8 44 2 94 2 79 1 104 3
7. CONTROL WIRING 32 7 84 835 18 48 he 1219 VIEW 65 e TRANE Figure DD 9 TWE050A Air Handlers All dimensions are in inches and millimeters 66 Dimensional Data CONTROL BOX ACCESS PANEL Es ROSE eJ f FEMALE SCHED 40 PVC PIPE DRAIN CONNECTION E HORIZONTAL CONFIGURATION SEE NOTE 2 amp 5 F WIN DISTANCE FOR FILTER REMOVAL BOTH ENDS 24 609 6NM DUCT FLANGE OUTSIDE x LES 409 58 DUCT FLANGE OUTSIDE r DUCT FLANGE 25AM HEIGHT Z PANEL DEPTH i27MM ALL PANELS SEE NOTE 1 7 DIA KNOCKOUT 2223MM HEATER CONTROL AND SINGLE POWER ENTRY WRES D EN DIA KNOCKOUT 22 25MM HEATER VENTILATION Ln 8 nA BUSHING 22234M Low VOLTAGE ENTRANCE E knockout 22 23MM HIGH VOLTAGE ENTRANCE KNOCKOUT FOR S 0 0 COPPER LIQUID LINE FIELD CONNECTION BOTH ENDS KNOCKOUT FOR O D FILTER ACCESS PANEL NOTES r 25 4MM FEMALE SCHED 40 PVC PIPE DRAIN CONNECTION VERTICAL CONFIGURATION SEE NOTE 2 amp 3 1 LENGTH WDTH AND HEIGHT DIMENSIONS DO NOT INCLUDE 1 2 ACCESS PANEL DEPTH 2 REMOVABLE DRAIN PAN AND ATTACHED DRAIN CONNECTION MAY BE INSTALLED ON EITHER END OF UNIT IN EITHER THE VERTICAL OR HORIZONTAL CONFIGURATION COPPER SUCTION LINE
8. Discharge Discharge Discharge Electric Isolator Isolator Unit Plenum Plenum Plenum Return Heat Oversized Floor Suspended Model No And Grille And Grille And Grill Air Grille Min Max Subbase Motor Mount Mount TWEO50A 63 28 6 58 26 3 93 42 2 3 1 4 32 43 14 5 19 5 14 6 4 31 14 1 2 91 9 4 1 TWEO75A 78 35 4 73 33 1 123 55 8 5 2 3 27 45 12 2 20 4 19 8 6 48 21 8 2 91 6 2 7 TWE100A TWE100B 97 44 0 92 41 7 156 70 8 7 3 2 27 45 12 2 20 4 23 10 4 50 22 7 2 91 7 3 2 TWE155B 124 56 2 230 104 3 10 4 5 79 100 35 8 45 4 27 12 2 80 36 3 2 91 7 3 2 TWE200B E 145 65 8 264 119 8 12 5 4 79 100 35 8 45 4 31 14 1 88 39 9 2 91 9 4 1 NOTES 1 For use when no heat is supplied 2 For use with electric heat SS PRC003 EN 75 e TRANE General Units shall be assembled on heavy gauge steel mounting lifting rails and shall be weather proofed Units shall include hermetic scroll compressors plate fin condenser coils fans and motors controls and holding charge of nitrogen Operating range shall be between 115 F and 50 F in cooling as standard from the factory Units shall be UL 1995 listed certified and rated in accordance with ARI Standard 340 360 or 365 Casing Unit casing shall be constructed of 18 gauge zinc coated heavy gauge galvanized steel Exterior surfaces shall be cleaned phosphatized and finished with a weather resistant baked enamel finish U
9. Split System Cooling Units Split System Cooling Units 75 to 20Tons Air Handlers 75 to 20Tons 50 Hz June 2006 SS PRC003 EN e TRANE Introduction Split System Cooling Units Designed With Your Needs In Mind TheTrane reputation for quality and reliability in air conditioning continues with the Odyssey family of light commercial split systems Trane paid attention to your needs to make sure you get a system that will meet your job requirements every time and at a competitive price Couple Tranes reputation for quality and reliability in split system air conditioners with efficiency flexibility and installation ease and you have systems that will give you Simply the Best Value Manufacturing Control Trane s exclusive control over the design and manufacturing of all major components is unique in the industry This approach assures us total control over both the quality and reliability of these components And allows us to custom match components to deliver the best in split system performance Standard Inc 2001 Designing the Details Careful attention was given to designing the details from control wiring to the access panels Odyssey units feature time saving colored and numbered wiring and removable panels which allow complete access to all major components and controls All outdoor units feature external high and low pressure switches for easy diagnosing
10. Table PD 27 Cooling Capacities MBh TTA200B Condensing Unit Only 1 ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 168 174 180 186 193 200 65 Cap Btuh 1000 198 0 2173 2374 258 3 280 0 302 5 OD Unit KW 12 47 12 77 13 08 13 42 13 79 14 18 Head press PSIG 194 200 206 213 220 227 75 Cap Btuh 1000 188 9 2070 226 1 245 9 266 6 288 2 OD Unit KW 13 83 14 16 14 50 14 88 15 28 15 71 Head press PSIG 222 228 235 242 249 257 85 Cap Btuh 1000 179 1 196 3 214 4 233 4 253 2 273 7 OD Unit KW 15 45 15 80 16 19 16 59 1703 1748 Head press PSIG 253 259 266 274 282 290 95 Cap Btuh 1000 168 7 185 1 202 5 220 6 239 6 259 2 OD Unit KW 1731 17 70 18 12 18 56 19 02 19 50 Head press PSIG 286 293 301 309 317 326 105 Cap Btuh 1000 1578 173 7 190 3 2077 225 9 244 6 OD Unit KW 19 42 19 85 20 31 20 78 21 26 21 75 Head press PSIG 321 329 337 346 355 364 115 Cap Btuh 1000 146 5 161 9 1779 194 7 212 0 229 8 OD Unit KW 21 75 22 23 22 73 23 23 23 74 24 23 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 27 Cooling Capacities MBh TTA200B Condensing Unit Only SI ODTemp Suction Reference Temperature C C 1 1 17 44 72 10 0 12 8 Head pressure kPA 1159 1198 1239 1282 1327 1376 18 3 Capacity kW 58 0 63 6 69 5 75 6 82 0 88 6 OD Unit Power kW 12 47 12 77 13 08 13 42 13 79 14 18 Head pressure kPA 1336 1377 1420 1466 1514 1565 23 9 Capacity
11. 13 UNIT MODELS WITH A R T U OR W IN THE IOTH DIGIT SEE UNIT NAMEPLATE ALL USE A RELIATEL MODULE RTRM SEE PRODUCT LITERATURE FOR EXPLANATION OF IOTH DIGIT MODEL DESIGNATOR 14 THE CRANKCASE HEATER RELAY CHR 15 USED ONLY ON TTAI20A4 TTAI20AW AND TTAI20AK MODELS ON ALL OTHER MODELS SEE MODEL TABLE THE BK RD NOTE 2 CRANKCASE HEATER LEAD CONNECTS TO THE LINE SIDE OF CC I 15 MAXIMUM EXTERNAL LOW VOLTAGE LOAD 1 8 AMPS 24 V A C DOES NOT INCLUDE ACCESSORIES BUT DOES INCLUDE NDOOR BLOWER RELAY R HANDLER HAS NAL CONNECTIONS DEVICE DESCRIPTION TINE COMPRESSOR CONTACTOR 11 14 CRANKCASE HEATER 16 MODELS CFT OUTDOOR FAN CAPACITOR 15 CHR CRANKCASE HEATER RELAY 19 20 NOTE 13 CN CONNECTOR OR WIRE NUT M IMUN ICATI INTERFACE MODULE 59 64 TT cen COMPRESSOR ats A015AD CPS COMPRESSOR PROTECTION SWITCH 35 un tec EVAPORATOR DEFROST CONTROL IIS A085AD FAM TERMINAL BOARD 17 19 FU rose 24 TTA090A3 HEAT RELAYS 42 44 aco TTA090A4 Le ow VOL Tage BOW A090AW TOR TT TR REL ATEL REFRIGERATION 41H A090AK TNSA CONTROL POWER TRANSFORMER 23 mE AIOOAD WIRE COLOR DESIGNATION P EPLACE LE Al20A4 ABBR COLOR ABBR COLOR BLACK PR PURPLE Fuse e Ao ee Al20AW BL BLUE RD RED E BR BROWN WH WHITE A l 2 0 A K GR GREEN YL YELLOW OR ORA
12. 30 35 40 45 50 55 Head press PSIG 154 159 164 169 175 180 65 Cap Btuh 1000 82 0 90 5 99 4 108 7 118 4 128 5 OD Unit KW 4 93 5 03 5 13 5 24 5 36 5 49 Head press PSIG 178 183 188 194 199 205 75 Cap Btuh 1000 78 5 86 5 94 9 103 8 113 0 122 7 OD Unit KW 5 41 5 51 5 63 5 75 5 88 6 02 Head press PSIG 205 210 215 221 227 233 85 Cap Btuh 1000 74 7 82 3 90 3 98 7 1076 116 9 OD Unit KW 6 00 6 11 6 23 6 36 6 49 6 64 Head press PSIG 234 239 245 251 257 264 95 Cap Btuh 1000 70 7 779 85 5 93 6 102 1 111 0 OD Unit KW 6 69 6 80 6 93 707 722 737 Head press PSIG 265 271 277 283 290 297 105 Cap Btuh 1000 66 4 73 3 80 7 88 4 96 6 105 0 OD Unit KW 748 761 774 789 8 04 8 20 Head press PSIG 300 306 312 319 326 333 115 Btuh 1000 61 9 68 6 75 7 83 2 91 0 99 1 OD Unit KW 8 37 8 51 8 66 8 81 8 97 9 13 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 18 Cooling Performance kW TTA085A Condensing Unit Only SI ODTemp Suction Reference Temperature C C 1 1 17 4 4 72 10 0 12 8 Head pressure kPA 1063 1095 1129 1165 1203 1244 18 3 Capacity kW 24 0 26 5 29 1 31 8 34 7 376 OD Unit Power kW 4 93 5 03 5 13 5 24 5 36 5 49 Head pressure kPA 1229 1262 1297 1334 1374 1416 23 9 Capacity kW 23 0 25 3 278 30 4 33 1 35 9 OD Unit Power kW 5 41 5 51 5 63 5 75 5 88 6 02 Head pressure kPA 1412 1446 1482 1521 1563 1607 29 4 Capacity kW 21 9 24 1 26 4 28 9 31 5 34 2 OD Unit Power kW 6 00 6 1
13. PANEL 12 1 2 12 1 2 DIA HOLES SAME PATTERN AS TOP 16 1 8 3 KNOCKOUTS 7 8 1 3 8 amp 2 DIA FOR HIGH VOLTAGE POWER SUPPLY Figure DD 16 Electric Heater for TWE155 and 200 Air Handlers 3 1 8 17 1 8 5 7 lt 2 7 8 55 3 4 B 15 16 2 B 15 16 7 3 8 3 KNOCKOUTS FOR amp 11 20 1 8 DIA HOLES 9 1 500 5 x CONDUIT POWER SUPP 1 7 8 ENTRY 4 BIA HOLES oy 18 1 8 20 1 SAME P TIERN AS TOP REMOVEABLE PANEL DA 72 SS PRC003 EN e TRANE Dimensional Data Figure DD 17 Discharge Plenum and Grille All dimensions are in inches and millimeters Table DD 6 Discharge Plenum And Grille Dimensions in mm Model Model No A B C TWE050 BAYPLNM015 377 21 28 962 555 6 7112 TWE075 BAYPLNM016 47h 25 28 1206 5 635 711 2 TWE100 BAYPLNMO017 631 5 25 28 1612 9 635 711 2 Table DD 7 Discharge Plenum And Grille Dimensions in mm For Use with Electric Heat Model Model No A B C TWE050 BAYPLNM025 377 2717 8 29 962 555 6 736 6 TWE075 BAYPLNM026 47h 25 29 1206 5 635 736 6 TWE100 BAYPLNMO27 631 2 25 29 1612 9 635 736 6 TWE155 BAYPLNM028 79 h 27 35 2019 3 7017 889 TWE200 BAYPLNM029 9212 303 35 2349 5 771 5 889 Figure DD 18 Subbase A 6 Table DD 8 Subbase Dimensions in mm A Model Model N
14. SS PRC003 EN 21 e TRANE Performance Data Table PD 9 Gross Cooling Capacities MBh TTA125B Condensing Unit with TWE100B Air Handler I P Ambient Temperature F 85 95 105 115 Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 109 9 81 1 121 9 71 0 135 2 49 8 106 3 79 2 117 8 69 3 130 6 48 0 102 0 76 9 113 3 67 5 125 5 46 3 97 6 74 6 108 5 65 5 120 2 44 3 3025 80 1102 92 5 122 2 78 4 135 2 63 2 106 5 90 6 118 1 76 5 130 6 61 3 102 5 88 4 113 7 74 5 125 6 59 3 98 1 86 1 108 9 72 3 120 2 57 1 85 110 6 104 2 122 5 90 4 135 4 75 2 107 1 102 3 118 2 88 3 130 8 73 3 103 3 100 2 113 8 86 1 125 9 71 3 99 2 98 0 109 1 83 8 120 6 69 2 90 113 5 113 5 122 7 101 8 135 7 87 3 110 5 110 5 118 6 99 8 131 1 85 4 107 3 107 3 114 2 97 7 126 2 83 3 103 6 103 6 109 5 95 4 120 9 81 2 75 112 6 84 5 124 7 68 5 138 0 50 8 108 5 82 3 120 4 66 6 133 2 49 1 104 3 80 0 115 7 64 5 127 9 47 2 99 8 77 7 110 7 62 3 122 3 45 3 3350 80 112 8 96 8 125 0 81 5 138 0 65 0 109 0 294 7 120 7 79 6 133 2 63 0 104 8 92 5 116 1 77 5 128 0 61 0 100 3 90 1 111 1 75 3 122 4 58 8 85 113 6 109 5 125 1 94 2 138 3 78 0 110 0 107 6 120 8 92 1 133 5 76 1 106 1 105 5 116 3 90 0 128 3 74 1 101 8 101 8 111 4 87 6 122 8 71 9 90 117 6 117 6 125 5 106 7 138 6 91 1 114 5 114 5 121 3 104 6 133 8 89 1 111 0 111 0 116 7
15. The TWEO50A TWE075A TWE100A units shall have a single refrigeration circuit the TWE050B TWE075B TWE100B TWE155B TWE200B units shall have dual refrigeration circuits Each refrigeration circuit is controlled by a factory installed thermal expansion valve Evaporator Coil Configured aluminum fin surface shall be mechanically bonded 3 s 10 mm internally enhanced copper tubing and factory pressure and leak tested at 450 psig 3103 kPa Coil is arranged for draw thru airflow and shall provide a double sloped condensate drain pan constructed of PVC plastic The drain pan shall be removable for cleaning The condensate drain pan can be installed in any of four positions allowing for vertical or horizontal application and providing external connections on either side of the unit 78 Mechanical Specifications Evaporator Fan Double inlet double width forward curved centrifugal type fan s with adjustable belt drive shall be standard Thermal overload protection shall be standard on motor Fan and motor bearings shall be permanently lubricated Oversized motors shall be available as an option for high static application Controls Magnetic evaporator fan contactor low voltage terminal strip check valve s and single point power entry shall be included All necessary controls shall be factory installed and wired Evaporator defrost control shall be included to prevent compressor slugging by temporarily
16. and servicing of the unit And service valves with gauge ports are provided Standardized Cabinets In addition all cabinets have been standardized so when you are servicing an outdoor unit or an air handler all components are in the same location from unit to unit Filters The TWE050 075 and 100 air handlers are supplied with 1 25 4 mm throwaway filters as standard The filter racks were designed to easily convert for installation of 2 50 8 mm filters The TWE155 and 200 air handlers are supplied with 2 50 8 mm filters as standard Rated in Accordance to UL and ARI Trane meets or exceeds all nationally recognized agency safety and design standards Each condensing unit is designed in accordance to UL 1995 standards for central cooling air conditioners refrigeration and air conditioning condensing and compressor units Each air handler is designed in accordance to UL 465 and UL 1995 standard for heat pumps Each unit is certified in accordance with ARI Standard 340 360 or 365 SS PRC003 EN Contents Introduction 2 Features and Benefits 4 Application Considerations 8 Selection Procedure 9 Model Number Description 10 General Data 11 Performance Data 14 Cooling Performance 15 Fan Performance 42 Electrical 47 Controls 51 Dimension and Weights 58 Mechanical Specifications 76 SS PRC003 EN TRANE Condensing Unit Options The Odyssey split system product line includes condensing units in single
17. unloading and dual compressor options TheTTA075A 085A and 100A single compressor models feature single refrigeration circuitry lowering job installation costs by requiring only one set of refrigerant lines These units are ideal for the low cost new construction jobs as well as renovation and replacement buildings Equally important Odyssey offers a single refrigerant circuit capacity unloading option TTA100C 155C and TWE200F condensing units These unloading units feature dual manifolded scroll compressors They offer an excellent opportunity for both new construction and replacement jobs with two stages of capacity modulation and a single refrigeration circuit In addition Odyssey includes a TTA100B 125B 155B and 200B dual scroll compressor unit to give true stand by protection if one compressor fails the second will automatically start up Also the first compressor can be serviced without shutting down the Features and Benefits unit since refrigerant circuits are independent Dual compressors are not just for protection they also save energy costs Most buildings are designed for the peak load requirements yet the building usually operates at less than peak load During light load conditions only one compressor functions to maintain the space comfort thus reducing the need for energy Trane split systems have been specified in thousands of applications and you ll find Odyssey will win you even mo
18. 0 28 0 28 6 26 2 31 2 18 7 26 9 26 9 27 3 25 7 29 8 18 2 29 31 6 31 6 31 6 31 6 33 8 25 6 30 7 30 7 30 8 30 8 32 7 25 2 29 7 29 7 29 7 29 7 31 4 24 7 28 6 28 6 28 6 28 6 30 0 242 32 33 4 33 4 33 5 33 5 34 0 32 0 325 32 5 32 5 32 5 33 0 9161 314 31 4 31 5 31 5 31 7 31 2 30 2 30 2 30 3 30 3 30 3 30 3 24 28 6 28 6 30 8 21 5 33 5 13 1 27 8 27 8 29 8 21 1 323 12 7 26 9 26 9 28 6 20 6 30 9 12 3 25 8 25 8 27 3 20 0 29 4 11 8 9345 27 30 4 30 4 31 0 28 4 33 9 20 3 296 29 6 30 1 28 0 32 7 19 9 28 6 28 6 28 9 27 5 31 4 19 5 27 4 27 4 27 6 27 0 30 0 19 0 29 32 2 32 2 32 3 323 34 1 26 8 313 31 3 31 4 31 4 32 9 26 4 30 3 30 3 30 3 30 3 31 6 25 9 29 1 29 1 29 1 29 1 30 2 25 3 32 34 1 34 1 34 1 34 1 344 33 8 33 2 33 2 33 2 33 2 33 2 33 2 32 1 32 1 32 1 32 1 32 1 32 1 30 8 30 8 30 9 30 9 30 9 30 9 24 29 1 29 1 31 0 222 33 7 13 3 283 28 3 30 0 21 8 32 4 12 9 27 3 27 3 28 8 21 3 31 1 12 5 26 1 26 1 27 5 20 7 29 5 12 0 10194 27 30 9 30 9 31 3 29 7 34 1 21 0 30 1 30 1 30 4 29 3 32 9 20 6 29 0 29 0 29 2 28 8 31 6 20 2 27 8 27 8 27 9 27 9 30 1 19 8 29 328 32 8 32 8 32 8 343 28 0 31 9 31 9 31 9 31 9 33 2 27 5 30 8 30 8 30 8 30 8 31 9 27 0 29 6 29 6 29 6 29 6 30 4 26 5 32 34 3 34 7 34 7 347 34 7 34 7 337 33 7 33 8 33 8 33 8 33 8 32 6 32 6 32 6 32 6 327 327 313 31 3 314 31 4 31 4 31 4 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capac
19. 0 93 759 0 99 789 1 05 819 1 15 850 1 24 3000 524 0 59 557 0 65 590 0 71 624 0 77 657 0 83 690 0 89 723 0 95 760 1 01 790 1 07 821 1 17 853 1 27 1 0 HP Standard Motor 1 0 HP Standard Motor 1 5 HP Oversized Motor and Low Static Drive andDrive andHigh Static Drive Notes 1 Performance based on a wet coil and 1 inch 25 4 mm Table PD 29 Continued throwaway filters 2 Tabulated brake horsepower is the motor shaft output 3 BER UNE of motor sheave is 1 5 turns open 1 20 1 30 1 40 1 50 1 60 i U eis CFM RPM BHP BHP RPM BHP RPM BHP RPM BHP Adjustments are made in 0 5 turn increments 2000 844 0 961 871 1 02 897 1 09 924 1 15 950 1 21 2125 4 852 1 03 879 1 09 906 1 16 933 1 22 2250 859 1 10 886 1 17 914 1 23 942 1 30 2375 866 1 17 894 1 24 922 1 30 950 1 37 2500 870 1 21 899 1 29 928 1 36 2625 874 1 25 903 1 33 932 1 42 2750 877 1 29 907 1 38 937 1 47 2875 880 1 33 911 1 43 942 1 52 3000 884 1 37 915 1 48 946 1 58 1 5 HP Oversized Motor and High Static Drive External Static Pressure In Of Water Column 1 0 HP Standard Motor andDrive Table PD 31 Evaporator Fan Performance TWEO75A SI External Static Pressure Pascal 25 50 75 100 125 150 174 199 224 249 274 m hr RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW 3338 443 0
20. 1 94 7 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 7 Gross Cooling Capacities kW Both Compressors TTA 100C Condensing Unit with TWE100A Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 194 228 16 1 194 228 16 1 194 228 16 1 194 228 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 304 238 33 6 20 0 37 0 137 29 3 23 3 324 195 357 13 2 28 2 227 312 19 0 342 127 27 0 221 299 185 327 12 2 5139 27 305 278 33 8 231 37 1 17 9 29 5 27 2 32 6 22 6 35 8 17 4 28 4 26 7 31 4 22 1 34 5 16 9 27 3 26 1 30 0 21 3 33 0 16 4 29 31 2 31 2 33 8 26 9 37 3 22 0 30 3 30 3 32 7 26 4 36 0 21 5 29 4 29 4 31 4 25 8 34 7 21 0 28 4 28 4 30 2 25 2 33 2 20 5 32 328 32 8 34 0 30 9 37 4 26 1 31 9 31 9 32 9 30 4 36 0 25 4 30 9 30 9 31 7 29 8 34 7 24 9 29 9 29 9 30 5 29 2 33 3 24 3 24 31 0 24 9 34 33 19 7 37 5 13 9 29 9 24 3 33 0 19 2 36 2 13 4 28 7 23 8 31 7 18 6 34 7 12 9 27 5 23 2 30 4 18 1 33 1 124 5692 27 31 2 29 2 34 4 24 1 37 7 18 5 30 2 28 7 3
21. 102 5 128 7 87 1 107 2 107 2 111 8 100 1 123 2 84 9 75 114 6 87 3 127 0 70 4 140 3 51 8 110 7 85 3 122 5 68 5 135 3 50 0 106 4 83 0 117 7 66 4 129 9 48 2 101 6 80 6 112 5 64 1 124 1 46 2 3675 80 115 1 100 8 127 3 84 5 140 3 66 6 111 2 98 7 122 9 82 5 135 4 64 7 106 9 96 4 118 1 80 4 130 0 62 6 102 1 94 0 113 0 78 1 124 3 60 4 85 116 3 114 6 127 5 97 9 140 6 80 7 112 2 112 2 123 1 95 8 135 7 78 7 108 7 108 7 118 4 93 6 130 4 76 6 104 8 104 8 113 3 91 2 124 7 74 5 90 121 3 121 3 127 9 111 3 141 0 94 7 117 9 117 9 123 5 109 2 136 1 92 7 114 3 114 3 118 8 107 0 130 5 90 3 110 4 110 4 113 8 104 7 124 9 87 9 75 116 6 90 2 129 0 72 3 142 3 52 7 112 5 88 1 124 4 70 3 137 1 51 0 108 1 85 8 119 4 68 1 131 5 49 1 103 2 83 3 114 1 65 9 125 6 46 9 4000 80 117 1 104 5 129 4 87 2 142 3 68 2 113 0 102 4 124 8 85 2 137 3 66 2 108 6 100 2 119 6 82 7 131 8 64 1 103 9 97 7 114 4 80 3 125 9 61 9 85 118 5 118 5 129 6 101 4 142 7 83 2 115 1 115 1 125 1 99 3 137 7 81 2 111 5 111 5 120 2 97 0 132 2 79 1 107 5 107 5 114 9 94 6 126 4 76 9 90 124 5 124 5 130 0 115 8 143 1 98 1 121 1 121 1 125 5 113 7 137 8 95 7 117 3 117 3 120 7 111 4 132 4 93 5 113 2 113 2 115 6 109 1 126 6 91 1 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obt
22. 142 2 108 2 125 8 125 8 125 9 125 9 135 8 105 6 75 128 8 108 2 141 4 84 2 154 2 57 7 123 9 105 8 136 0 82 1 148 1 55 6 118 7 103 3 129 7 79 0 141 6 53 4 113 1 100 5 123 6 76 3 134 6 51 0 4650 80 130 2 128 5 141 8 103 6 155 2 78 7 125 3 125 3 136 5 101 2 149 3 76 5 120 9 120 9 130 8 98 7 143 0 74 3 116 1 116 1 124 7 96 0 136 2 71 9 85 136 4 136 4 142 4 123 5 155 6 98 5 132 2 132 2 137 2 121 2 149 7 96 2 127 5 127 5 131 5 118 6 143 5 93 7 122 6 122 6 125 6 116 0 136 9 91 1 90 143 4 143 4 144 2 144 0 156 3 118 4 139 0 139 0 139 2 139 2 150 4 116 1 134 3 134 3 134 4 134 4 144 2 113 6 129 2 129 2 129 3 129 3 137 6 111 0 75 130 6 112 7 142 7 86 5 155 8 58 6 125 6 110 3 137 3 84 1 149 6 56 4 120 3 107 7 131 3 81 4 142 9 54 1 114 7 104 9 125 1 78 6 135 8 51 7 5100 80 132 5 132 5 143 7 107 7 157 0 81 1 128 3 128 3 138 3 105 3 151 0 79 0 123 7 123 7 132 4 102 7 144 5 76 7 118 8 118 8 126 2 100 0 137 6 74 4 85 139 7 139 7 144 4 129 2 157 5 102 2 135 4 135 4 139 1 126 9 151 5 99 9 130 6 130 6 133 3 124 3 145 2 97 3 125 5 125 5 127 3 121 7 138 4 94 7 90 147 0 147 0 147 2 147 2 158 2 123 7 142 5 142 5 142 6 142 6 152 2 121 3 137 6 137 6 137 7 137 7 145 9 118 8 132 3 132 3 132 4 132 4 139 1 116 2 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considere
23. 17 7 26 3 13 3 21 0 21 0 22 8 17 2 25 0 12 9 29 24 6 24 6 26 0 22 0 28 5 17 7 240 24 0 25 1 21 6 27 5 17 3 23 1 23 1 24 1 21 2 26 3 16 9 22 2 22 2 22 9 20 7 25 0 16 4 32 25 9 25 9 26 2 25 5 28 5 21 1 25 2 25 2 25 4 25 1 27 5 20 7 24 3 24 3 24 4 24 4 26 4 20 3 23 4 23 4 23 4 23 4 25 1 19 8 24 23 8 201 26 2 15 5 28 7 10 7 23 0 197 25 3 15 2 27 7 10 3 22 0 19 2 24 2 14 8 26 5 99 21 0 18 7 23 0 143 25 2 94 5097 27 24 1 23 9 26 2 19 2 28 8 14 5 232 23 2 25 3 18 8 27 7 14 1 22 4 22 4 243 18 4 26 6 13 7 21 5 21 5 23 1 17 9 25 3 13 3 29 25 2 25 2 26 3 22 9 28 8 18 3 245 245 25 4 225 27 8 18 0 23 7 23 7 24 4 22 1 26 6 17 5 227 22 7 23 2 21 6 25 3 17 0 32 26 5 26 5 265 26 5 28 8 22 0 25 8 25 8 25 8 25 8 27 8 21 6 24 9 24 9 24 9 24 9 26 7 21 1 23 9 23 9 23 9 23 9 25 4 20 6 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 14 SS PRC003 EN Performance Data e TRANE Table PD 2 Gross Cooling Capacities MBh TTA075A Condensing Unit with TWE100A Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73
24. 170 7 196 5 141 9 171 4 171 4 173 9 167 9 189 3 139 0 165 4 165 4 166 9 164 6 181 2 135 8 158 7 158 7 158 9 158 9 172 4 132 2 75 164 0 135 9 180 2 106 3 196 3 73 2 158 0 132 9 173 5 103 5 188 6 70 6 151 0 129 4 165 7 100 4 179 8 67 6 143 2 125 5 156 3 95 6 170 1 64 4 5500 80 165 6 160 8 180 8 130 2 197 9 99 4 159 9 157 9 174 1 127 2 190 4 96 7 153 0 153 0 166 5 123 8 182 0 93 6 146 3 146 3 158 0 120 0 172 7 90 4 85 172 8 172 8 181 7 154 8 198 4 124 0 167 6 167 6 175 0 151 8 190 9 121 0 161 5 161 5 167 5 148 4 182 6 117 6 154 7 154 7 159 1 144 7 173 6 114 0 90 181 7 181 7 183 6 179 9 199 4 148 4 176 3 176 3 177 4 177 0 192 0 145 5 170 0 170 0 170 2 170 2 183 7 142 2 163 0 163 0 163 2 163 2 174 7 138 6 75 166 3 141 2 182 5 109 7 198 4 74 4 160 2 138 2 174 9 105 9 190 4 71 7 153 0 134 6 167 0 102 3 181 4 68 6 145 1 130 7 158 8 100 2 171 5 65 3 6000 80 168 7 168 3 183 2 135 1 200 2 102 3 162 7 162 7 176 4 132 0 192 5 99 6 156 5 156 5 168 5 128 5 183 9 96 5 149 6 149 6 159 9 124 7 174 5 93 3 85 177 1 177 1 184 2 161 6 200 8 128 4 171 6 171 6 177 4 158 6 193 2 125 3 165 3 165 3 169 7 155 1 184 8 121 9 158 2 158 2 161 3 151 4 175 5 118 2 90 186 3 186 3 186 5 186 5 201 8 154 7 180 6 180 6 180 8 180 8 194 3 151 7 174 1 174 1 174 3 174 3 185 9 148 4 166 8 166 8 167 0 167 0 176 7 144 8 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat
25. 2 9 76 2 376 5 kg 415 kg NOTES 1 MINIMUM CLEARANCE FOR PROPER OPERATION 15 36 914mm FROM WALLS SHRUBBERY PRIVACY FENCES ETC MINIMUM CLEARANCE BETWEEN ADJACENT UNITS IS 72 1830mm 2 ALL DIMENSIONS ARE GIVEN IN INCH MILLIMETERS TOP DISCHARGE AREA SHDULD BE UNRESTRICTED FOR 100 2540 mm MINIMUM UNIT SHOULD BE PLACED SO ROOF RUN OFF WATER DOES NOT POUR DIRECTLY ON UNIT CONTROL BOX ACCESS PANEL ALL MASSES WEIGHT ARE GIVEN IN PDUNDS F ORCE KILOGRAMS VIEW 142 2375mm Ux SERVICE ACCESS PANEL CA COMPRESSOR HOLE lt 4 HOLES FDDTPRINT lt BOLT DOWN PATTERN 7 16 il i1mmPI ISOLATOR MOUNTING HOLES lt INSIDE HOLES 4 PLACES CLEARANCE PERIMETER lt NOTE 1 gt SERVICE ACCESS PANEL B COMPRESSOR 2362mm Mass DIA 2 50 8mm DIA KNOCKOUTS lt POWER WIRING F R 575V HEAD PRESSURE CONTROL WIRING 7 8 DIA DIA KNOCKDUT ENTRY F R mm GAS BYPASSCIPTIDNAL a ACCESSORY DISCHARGE LII 1 1721 2 Dia HOLE TYP OF 3e 778 1 REFRIGERANT GAGE FITTING ACCESS 835mm 18 3 4 18 778 4763mn 12 9 16 579 amp 174 480mm e CIA 159mm VIEW B DETAIL A ntA EXTRUDED HOLES 0 8m cSUCTION LINES 278 DIA EXTRUDED HOLES 222mm lt LIQuID LINES gt 3 374 Sen 1219 2mm 64 SS PRC003 EN Figure DD 8 TTA200F Condensing
26. 275 4 Unit KW 13 99 4 36 14 75 15 16 15 58 16 02 95 Head Pressure psig 418 7 430 2 442 3 454 9 468 0 481 7 Capacity MBH 169 2 185 6 202 6 220 0 238 0 256 4 Unit KW 15 61 5 99 16 39 16 81 17 24 17 68 105 Head Pressure psig 467 6 479 4 491 8 504 7 518 1 531 9 Capacity MBH 154 9 170 3 186 1 202 5 219 3 236 4 Unit KW 17 43 7 82 18 22 18 64 19 07 19 50 115 Head Pressure psig 519 7 531 8 544 5 557 5 570 9 584 6 Capacity MBH 140 1 154 3 169 0 184 1 199 6 215 3 Unit KW 19 43 9 83 20 23 20 64 21 05 21 46 Table PD 28 Gross Cooling Capacities MBH 20 Ton TTA200F Condensing Unit Only SI Saturated Suction Temperature C Outdoor Air Temperature C 1 1 1 7 4 4 7 2 10 0 12 8 18 3 Head Pressure 2015 8 2085 1 2158 9 2236 8 2318 7 2404 7 Capacity KW 61 0 66 6 72 4 78 4 84 6 91 0 Unit KW 11 40 11 73 12 08 12 45 12 84 13 25 23 9 Head Pressure kPA 2283 6 2356 5 2433 7 2514 9 2599 9 2688 8 Capacity KW 57 4 62 8 68 3 74 1 80 0 86 0 Unit KW 12 59 12 94 13 31 13 70 14 11 14 54 29 4 Head Pressure kPA 2573 7 2649 8 2730 1 2814 2 2902 2 2994 2 Capacity KW 53 6 58 7 64 0 69 4 75 0 80 7 Unit KW 13 99 14 36 14 75 15 16 15 58 16 02 35 0 Head Pressure KPA 2886 7 2966 0 3049 5 3136 4 3227 0 3321 0 Capacity KW 49 6 54 4 59 4 64 5 69 8 75 1 Unit KW 15 61 15 99 16 39 16 81 17 24 17 68 40 6 Head Pressure 3223 7 3305 5 3391 1 3480 0 3572 4 3667 6 Capacity KW 45 4 49 9 54 6 59 3
27. 277 170 302 11 3 244 21 9 26 7 166 29 1 109 234 214 25 6 16 1 27 9 10 5 222 208 24 3 15 6 26 5 10 0 5862 267 25 8 25 8 277 21 2 30 3 15 7 25 0 25 0 26 8 20 8 29 2 15 4 24 2 24 2 25 7 20 3 28 0 15 0 23 1 23 1 24 4 19 8 26 7 14 5 29 4 27 1 27 1 27 8 25 5 30 3 20 1 26 4 26 4 26 9 25 1 29 2 19 7 25 5 25 5 25 8 247 28 1 19 2 244 244 246 242 267 187 32 2 28 5 28 5 28 5 28 5 30 3 244 277 27 7 27 7 27 7 29 3 24 0 26 8 268 26 8 26 8 28 1 23 5 25 7 25 7 25 7 25 7 26 8 23 0 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity SS PRC003 EN 15 e TRANE Performance Data Table PD 3 Gross Cooling Capacities MBh TTA085A Condensing Unit with TWE075A Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 82 5 63 0 91 6 53 2 101 7 37 2 79 6 61 5 88 4 51 9 98 1 359 765 60 0 85 0 50 5 943 34 6 73 3 583 81 5 49 1 90 4 332 2250 80 82 8 72 9 91 9 61 0 101 7 48 1 80 0 71 4 88 7 59 6 98 2 46 7 7
28. 289 1 296 6 304 4 3125 3208 105 Cap Btuh 1000 80 9 89 5 98 5 1077 171 126 6 OD Unit KW 9 3 9 6 9 9 10 2 10 6 11 0 Head press PSIG 3174 324 9 332 7 340 7 349 0 3576 115 Cap Btuh 1000 75 8 84 1 92 6 101 3 110 2 119 1 OD Unit KW 10 4 10 6 10 9 113 11 6 12 0 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 21 Gross Cooling Capacities kW Both Compressors SI TTA100C Condensing Unit Only ODTemp Suction Reference Temperature C C 1 1 17 4 4 72 10 0 12 8 Head pressure kPA 1162 1202 1244 1289 1337 1387 18 3 Capacity KW 29 4 32 3 35 4 38 6 41 9 45 4 OD Unit Power KW 6 30 6 54 6 82 712 745 780 Head pressure 1330 1372 1416 1463 1512 1564 23 9 Capacity KW 28 0 30 8 33 8 36 9 40 1 43 3 OD Unit Power kW 6 89 715 743 7 75 8 09 8 46 Head pressure kPA 1515 1559 1606 1656 1708 1761 29 4 Capacity kW 26 6 29 3 32 2 35 1 38 2 41 3 OD Unit Power kW 758 786 8 16 8 48 8 84 9 22 Head pressure kPA 1720 1767 1816 1868 1921 1977 35 0 Capacity kW 25 2 278 30 5 33 4 36 3 39 2 OD Unit Power kW 8 40 8 68 8 98 9 31 9 67 10 06 Head pressure kPA 1944 1994 2045 2099 2154 2212 40 6 Capacity kW 23 7 26 2 28 8 31 5 34 3 371 OD Unit Power kW 9 32 9 60 9 91 10 24 10 60 10 98 Head pressure kPA 2188 2240 2294 2349 2407 2466 46 1 Capacity KW 222 24 6 271 29 7 32 3 34 9 OD Unit Power kW 10 35 10 63 10 93 11 25 11 60 11 98 Performance Data Calcu
29. 29 3 36 1 24 9 24 33 6 25 6 37 2 20 6 41 1 15 2 324 25 0 35 9 20 0 39 6 14 7 31 1 24 3 34 5 19 4 38 0 14 1 29 8 23 6 32 9 18 8 36 3 13 5 6244 27 33 7 29 5 37 3 24 7 41 1 19 5 325 28 9 36 0 24 1 39 6 18 9 31 3 28 2 34 6 23 5 38 1 18 3 29 9 27 5 33 1 22 9 36 4 17 7 29 34 0 33 6 37 3 28 7 41 2 23 6 328 328 36 0 28 0 39 7 23 0 31 8 31 8 34 7 27 4 38 2 22 4 30 7 30 7 33 2 26 7 36 5 21 8 32 35 5 35 5 37 5 32 6 41 3 27 7 34 5 34 36 2 32 0 39 8 27 1 33 5 335 34 8 31 3 38 2 26 4 32 3 32 3 33 3 30 7 36 6 25 7 24 34 1 26 4 37 8 21 2 41 7 15 4 32 9 25 8 36 4 20 6 40 2 14 9 31 7 25 1 35 0 19 9 38 5 14 4 30 2 24 4 33 4 19 3 36 8 13 7 6796 27 34 3 30 6 37 9 25 5 41 7 20 0 33 1 300 36 5 25 0 40 2 19 4 31 8 29 3 35 0 24 2 38 6 18 8 30 4 28 6 33 5 23 5 36 9 18 1 29 34 7 34 7 38 0 29 7 41 8 24 3 33 7 33 7 36 6 29 1 40 3 23 8 32 6 32 6 35 2 28 4 38 7 23 2 315 31 5 33 7 27 7 37 0 22 5 32 36 5 36 5 38 1 33 9 41 9 28 7 35 4 35 4 36 7 33 3 40 3 28 0 34 3 34 3 35 3 32 6 38 8 27 4 33 1 33 1 33 9 31 9 37 1 26 7 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 22 SS PRC003 EN Performance Data
30. 30 7 11 3 24 2 20 2 26 8 15 7 29 4 10 9 23 2 19 6 25 6 15 2 28 1 10 4 4757 27 26 4 24 8 29 1 20 4 32 0 156 25 5 24 4 28 0 19 9 30 8 15 2 24 5 23 9 26 9 19 4 29 6 14 7 23 5 23 4 25 7 18 9 28 3 14 3 29 27 3 27 3 29 1 24 0 32 1 19 4 26 5 265 28 1 23 5 30 9 19 0 25 6 25 6 27 0 23 0 29 7 1851247 24 7 25 8 22 5 28 4 18 1 32 28 7 28 7 29 3 27 7 32 1 23 1 27 9 27 9 28 3 27 2 31 0 22 6 27 0 27 0 27 3 26 8 29 8 22 1 26 1 26 1 26 1 26 1 28 5 21 7 24 26 7 22 1 29 5 17 2 324 12 0 25 216 28 4 16 8 31 1 11 5 24 7 21 1 27 2 16 3 29 8 11 1 236 20 6 26 0 15 8 28 5 10 6 5267 27 27 0 26 2 29 5 21 2 32 5 16 1 26 0 25 7 28 4 20 7 31 3 15 7 25 0 25 0 27 3 20 2 30 0 15 2 24 0 24 0 26 1 19 7 28 7 14 8 29 28 1 28 1 29 6 25 2 32 6 20 3 27 3 27 3 28 5 24 7 31 4 19 8 26 4 26 4 27 4 24 2 30 1 19 4 25 4 25 4 26 3 23 7 28 8 18 8 32 29 6 29 6 30 0 29 3 32 6 24 2 287 28 7 28 9 28 8 31 4 23 7 27 8 27 8 27 8 27 8 30 2 23 3 26 8 26 8 26 9 26 9 28 9 22 8 24 27 1 23 1 29 9 17 8 32 7 12 1 26 1 22 6 28 8 17 3 31 5 11 7 25 0 22 0 27 6 16 9 30 1 11 2 23 9 21 5 26 4 16 4 28 8 10 8 5777 27 27 5 27 5 30 0 22 1 32 9 16 6 265 265 28 8 21 6 31 7 16 2 25 6 25 6 27 7 21 1 30 4 15 7 24 6 24 6 26 4 20 6 29 0 15 3 29 28 9 28 9 30 1 26 4 33 0 21 1 28 0 28 0 29 0 25 9 31 7 20 5 27 0 27 0 27 8 25 4 30 4 20 0 26 1 26 1 26 6 24 9 29 1 19 5 32 30 4 304 30 4 30 4 33 1 25 3 29 5 29 5 29 5 29 5 31 8 24 8 28 5 28 5 28 6 28 6 30 6 24 4 27 5 27 5 27 5 27 5 29 2 23 8
31. 33 489 0 37 535 0 4 581 0 44 627 0 48 673 0 51 719 0 55 765 0 59 791 0 62 818 0 66 3547 453 0 34 499 0 39 546 0 43 592 0 47 638 0 51 684 0 55 730 0 59 771 0 63 798 0 67 825 0 72 3755 463 0 37 510 0 41 556 0 45 602 0 5 649 0 54 695 0 59 742 0 63 776 0 68 804 0 72 831 0 77 3964 473 0 38 520 0 43 567 0 48 613 0 52 660 0 57 706 0 62 753 0 67 782 0 72 810 0 77 838 0 82 4173 445 0 35 489 0 4 533 0 45 578 0 5 622 0 54 667 0 6 711 0 64 756 0 69 784 0 74 813 0 8 842 0 85 4381 464 0 37 506 0 43 548 0 47 589 0 51 631 0 57 672 0 61 714 0 66 757 0 71 786 0 75 815 0 81 844 0 87 4590 484 0 4 523 0 44 562 0 49 601 0 54 640 0 58 678 0 63 717 0 68 758 0 72 787 0 77 817 0 84 847 0 9 4798 504 0 42 540 0 46 576 0 51 612 0 55 648 0 6 684 0 65 720 0 69 759 0 74 789 0 78 819 0 86 850 0 92 5007 524 0 44 557 0 48 590 0 53 624 0 57 657 0 62 690 0 66 723 0 71 760 0 75 790 0 8 821 0 87 853 0 95 75 kW Standard Motor 75 kW Standard Motor 1 12 kW Oversized Motor and Low Static Drive and Drive and High Static Drive Notes 1 Performance based on a wet coil and 1 inch 25 4 mm Table PD 31 Continued throwaway filters 2 Tabulated brake horsepower is the motor shaft den iustam LT 299 324 349 374 398 Factory setting of motor sheave is 1 5 turns open m hr RPM kW RPM kW RPM kW RPM kW RPM kW Adjustments are made in 0 5 turn increments 3338 844 0 72 871 0 76 897 0 81 924 0 86 950 0 9 3547 852 0 77 879 0 81 906 0 87 933 0 91 3755 859 0 82 886 0 87 91
32. 4 80 7 872 OD Unit KW 8 23 8 35 8 48 8 62 8 76 8 91 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 17 Cooling Performance kW TTA075A Condensing Unit Only SI ODTemp Suction Reference Temperature C C 1 17 44 72 10 0 12 8 Head pressure kPA 1113 1149 1187 1228 1270 1313 18 3 Capacity kW 21 2 23 4 25 8 28 2 30 7 33 2 OD Unit Power kW 4 91 5 01 5 12 5 24 5 37 5 50 Head pressure kPA 1290 1328 1368 1410 1453 1498 23 9 Capacity kW 20 6 22 8 25 0 273 29 6 32 0 OD Unit Power kW 5 40 5 51 5 63 5 76 5 89 6 03 Head pressure kPA 1481 1522 1565 1609 1654 1701 29 4 Capacity kW 19 8 21 9 24 0 26 2 28 3 30 6 OD Unit Power kW 5 97 6 10 6 23 6 37 6 50 6 65 Head pressure kPA 1690 1733 1778 1824 1871 1921 35 0 Capacity kW 18 9 20 8 22 8 24 8 26 9 29 0 OD Unit Power kW 6 65 6 78 6 91 705 719 734 Head pressure kPA 1915 1960 2007 2055 2104 2156 40 6 Capacity KW 178 19 6 21 5 234 25 3 273 OD Unit Power kW 740 753 766 780 794 8 09 Head pressure kPA 2156 2203 2251 2301 2353 2407 46 1 Capacity kW 16 5 18 2 20 0 218 23 6 25 5 OD Unit Power kW 8 23 8 35 8 48 8 62 8 76 8 91 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 30 SS PRC003 EN e TRANE Performance Data Table PD 18 Cooling Performance MBh TTA085A Condensing Unit Only I P ODTemp Suction Reference Temperature F
33. 5 30 0 28 5 32 9 23 3 36 3 18 0 28 9 27 9 31 6 22 7 34 9 17 5 27 7 27 3 30 3 22 1 33 3 16 9 29 32 1 32 1 34 4 28 1 37 9 23 0 31 1 31 1 33 2 27 6 36 6 22 5 30 1 30 1 31 9 27 0 35 1 21 9 29 1 29 1 30 5 26 4 33 4 21 1 32 33 8 33 8 34 6 32 5 38 0 27 1 328 328 33 5 31 9 36 7 26 6 31 8 31 8 32 3 31 4 35 2 26 0 30 7 30 7 31 0 30 8 33 7 254 24 31 3 25 7 34 6 20 3 37 8 14 1 30 2 25 2 33 3 19 7 36 3 13 6 29 0 24 6 32 0 19 2 34 7 13 1 27 8 23 9 30 3 18 4 33 0 12 5 6244 27 31 7 304 34 7 24 8 38 2 19 1 30 6 29 9 33 5 24 2 36 8 18 5 29 5 29 3 32 1 23 6 35 3 18 0 282 28 2 30 7 23 0 33 7 17 4 29 33 0 33 0 34 9 29 4 38 5 23 9 320 32 0 33 7 28 8 36 9 23 1 31 0 31 0 32 4 28 2 35 5 22 5 29 9 29 9 31 0 27 6 33 9 21 9 32 348 34 8 35 3 34 1 38 6 28 3 33 8 33 8 34 1 33 6 37 2 27 8 32 7 327 32 7 32 7 35 8 27 1 31 6 31 6 31 6 31 6 34 2 26 5 24 31 8 26 7 35 0 20 9 38 2 14 3 30 6 26 1 33 7 20 3 36 6 13 8 29 4 25 5 32 1 19 5 35 0 13 2 28 1 24 9 30 7 18 9 33 3 12 7 6796 27 32 2 31 8 35 2 25 7 38 7 19 6 31 0 31 0 33 9 25 1 37 3 19 1 30 0 30 0 32 5 24 4 35 7 18 5 28 9 28 9 31 1 23 8 34 0 17 9 29 33 8 33 8 35 4 30 6 38 8 24 5 328 328 34 2 30 0 37 4 23 9 31 7 31 7 32 8 29 4 35 9 23 3 30 6 30 6 31 4 28 8 34 3 22 6 32 35 7 35 7 36 0 35 7 39 1 29 4 346 34 6 34 6 34 6 37 7 28 9 33 5 33 5 33 5 33 5 36 2 2831323 32 3 32 3 323 346 27 6 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applic
34. 5 4 1 5 20 9 1 1 5 23 10 4 TTA155B 2 9 12 5 4 1 5 22 10 0 1 5 23 10 4 TTA155C TTA200B 2 9 12 5 4 1 5 34 15 4 1 5 23 10 4 TTA200F 2 9 12 5 4 1 5 45 20 4 1 5 42 19 1 Service Access TTA155 200 SS PRC003 EN Weights e TRANE Table W 3 Air Handlers and Corner Weights Ib kg Unit Shipping Net Corner Weights Horizonta Model No Maximum Maximum 1 2 3 4 A B C D TWE050A 298 135 2 232 105 2 59 26 8 59 26 8 59 26 8 59 26 8 54 24 5 64 29 0 64 29 0 54 24 5 TWE075A 388 176 0 317 143 8 79 35 8 79 35 8 79 35 8 79 35 8 73 33 1 81 36 7 84 38 1 77 34 9 TWE100A TWE100B 439 199 1 392 1778 98 44 5 98 44 5 98 44 5 98 44 5 95 43 1 101 45 8 101 45 8 95 43 1 TWE155B 754 342 0 692 313 9 173 78 5 173 78 5 173 78 5 173 78 5 156 70 8 174 78 9 190 86 2 170 771 TWE200B 886 816 204 92 5 204 92 5 204 92 5 204 92 5 179 81 2 221 100 2 228 103 4 185 83 9 TWE200E 857 390 787 357 109 50 262 119 154 70 262 119 192 87 229 104 130 59 236 107 NOTE 1 If application requires steam or hot water heating coils field supplied isolators must be utilized Vertical TWE050 075 100 uA Vertical 3 TWE155 200 Horizontal t Air Flow t TWEO50 075 100 Horizontal TWE155 200 Table W 4 Accessory Weights Net Lbs kg RIS RIS
35. 57 12 91 13 26 13 62 Head pressure kPA 1751 1801 1854 1911 1971 2034 35 0 Capacity kW 373 41 1 45 0 49 0 53 2 574 OD Unit Power kW 13 32 13 62 13 94 14 28 14 63 15 01 Head pressure kPA 1976 2028 2084 2143 2205 2269 40 6 Capacity KW 35 0 38 6 42 3 46 1 50 0 54 0 OD Unit Power kW 14 83 15 12 15 44 15 78 16 14 16 51 Head pressure kPA 2217 2270 2328 2389 2454 2520 46 1 Capacity kW 32 5 35 8 39 3 42 9 46 6 50 5 OD Unit Power kW 16 49 16 77 1708 1741 1777 18 14 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 38 SS PRCO03 EN SS PRC003 EN e TRANE Performance Data Table PD 26 Cooling Performance MBh Single Compressor I P TTA155C Condensing Unit Only ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 139 0 141 9 145 1 148 5 152 1 155 9 65 Cap Btuh 1000 71 8 79 5 879 96 8 106 2 116 1 OD Unit KW 4 9 4 9 5 0 5 1 5 1 5 2 Head press PSIG 163 0 166 2 169 6 173 1 176 9 180 8 75 Cap Btuh 1000 70 8 78 4 86 5 95 1 104 0 113 3 OD Unit KW 5 3 5 3 5 4 5 5 5 6 5 7 Head press PSIG 189 4 192 8 196 4 200 1 204 0 208 0 85 Cap Btuh 1000 68 9 76 4 84 2 92 4 100 9 109 6 OD Unit KW 5 8 5 9 5 9 6 0 6 1 6 2 Head press PSIG 218 1 221 8 225 6 229 5 233 6 2378 95 Cap Btuh 1000 66 3 73 5 81 0 88 8 96 9 105 3 OD Unit KW 6 4 6 5 6 5 6 6 6 7 6 8 Head press PSIG 249 6 253 5 2575 261 6 265 9 270 3 105 Cap Btuh 1000
36. 6 96 5 110 4 110 4 110 5 110 5 118 2 94 3 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 6 Gross Cooling Capacities KW TTA100B Condensing Unit with TWE100B Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 302 237 334 19 9 368 13 6 29 1 23 1 322 194 353 13 1 28 0 226 31 0 189 339 12 6 269 22 0 29 7 184 323 12 1 5139 27 304 276 33 6 23 0 37 1 17 9 293 27 1 32 3 22 4 357 17 4 28 3 265 31 1 21 8 34 3 16 9 27 1 25 9 29 8 21 2 328 16 3 29 31 0 31 0 33 7 26 8 37 3 22 0 30 1 30 1 32 5 26 3 36 0 21 5 29 2 29 2 31 3 25 7 34 6 21 0 282 28 2 30 0 25 1 33 1 20 4 32 32 7 32 7 33 9 30 8 37 3 25 9 31 8 31 8 32 8 30 2 36 0 25 4 30 8 30 8 31 5 29 7 34 6 24 8 29 8 29 8 30 3 29 1 33 2 242 24 30 8 24 7 34 1 19 6 37 3 13 8 297 242 32 8 19 1 35 9 13 4 28 5 23 6 31 5 18 6 34 3 12 8 27 3 23 0 30 1 18 0 32 12 3 5692 27 31 1 29 1 34 1 23 9 37 7 18
37. 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 82 1 66 3 90 5 55 2 99 3 367 79 5 65 0 87 6 54 0 95 9 35 6 76 2 634 84 0 52 6 92 0 34 3 723 61 5 80 0 51 0 87 6 32 8 2550 80 82 6 77 8 90 7 63 7 99 4 48 7 80 0 76 5 87 8 62 5 96 1 47 5 76 9 75 0 84 1 60 8 92 2 46 1 73 3 73 2 80 1 59 1 87 9 44 5 85 85 2 85 2 90 8 75 0 99 6 60 5 83 0 83 0 87 9 73 7 96 3 59 2 80 2 80 2 844 72 2 92 5 57 8 77 1 77 1 80 4 70 5 88 1 56 3 90 89 5 89 5 91 3 86 6 99 7 72 2 87 1 87 1 88 5 85 3 96 3 70 7 84 3 84 3 85 1 83 8 92 5 69 2 81 1 81 1 81 2 81 2 88 2 67 6 75 83 7 697 922 54 1 100 8 37 5 81 0 68 4 89 1 52 8 974 36 2 77 6 66 7 854 51 3 93 3 34 8 737 649 813 497 88 8 332 2850 80 84 5 82 4 92 2 66 7 101 0 50 5 81 9 81 2 89 2 65 4 97 6 49 2 78 6 78 6 85 5 63 8 93 6 47 8 75 3 75 3 81 4 62 1 89 2 46 2 85 88 1 88 1 92 4 79 2 101 2 63 4 857 857 89 4 77 9 97 7 62 1 82 8 82 8 85 8 76 4 93 8 60 7 79 5 79 5 81 8 74 6 89 4 59 2 90 92 5 925 93 3 92 0 101 2 75 9 90 1 90 1 90 1 90 1 97 8 74 6 87 1 87 1 87 2 87 2 93 9 73 1 837 83 7 83 8 83 8 89 5 71 4 75 85 1 729 93 5 56 0 102 0 38 0 82 2 716 90 3 548 985 368 788 69 9 86 6 53 3 944 35 4 74 8 68 0 82 3 51 6 89 8 33 8 3150 80 86 0 860 93 6 69 7 102 3 52 1 83 6 83 6 90 4 68 3 98 7 50 9 80 6 80 6 86 7 66 7 94 7 49 5 77 3 77 3 82 5 649 90 2 47 9 85 90 5 90 5 93 8 83 3 102 5 66 2 88 0 88 0 90 8 82 0 98 9 64 9 85 0 85 0 87 1 80 4 94 8
38. 62 1 62 3 62 1 65 1 59 8 24 60 2 49 8 65 8 27 60 8 60 1 662 10194 30 62 0 61 8 66 6 33 65 2 65 1 67 4 24 61 6 53 0 67 3 27 62 5 62 4 67 7 Td 30 64 642 682 33 676 674 692 24 62 9 56 1 68 5 27 64 1 63 9 68 9 12488 30 66 3 662 69 6 33 69 7 69 70 7 24 64 1 592 69 5 27 64 648 70 1 13994 30 68 1 68 0 70 9 33 716 715 717 NOTES 1 All capacities show n are gross and have not considered indoor fan heat To obtain net cooling subtract indoor fan heat 2 MBH Total Gross Capacity 3 SHC Sensible Heat Capacity SS PRC003 EN 29 e TRANE Performance Data Table PD 17 Cooling Performance MBh TTA075A Condensing Unit Only I P ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 161 167 172 178 184 190 65 Cap Btuh 1000 72 3 80 0 88 0 96 3 104 9 113 5 OD Unit KW 4 91 5 01 5 12 5 24 5 37 5 50 Head press PSIG 187 193 198 205 211 217 75 Cap Btuh 1000 70 4 778 85 4 93 2 101 1 109 1 OD Unit KW 5 40 5 51 5 63 5 76 5 89 6 03 Head press PSIG 215 221 227 233 240 247 85 Cap Btuh 1000 677 74 7 81 9 89 3 96 8 104 4 OD Unit KW 5 97 6 10 6 23 6 37 6 50 6 65 Head press PSIG 245 251 258 265 271 279 95 Cap Btuh 1000 64 5 71 1 779 84 9 91 9 99 1 OD Unit KW 6 65 6 78 6 91 705 719 734 Head press PSIG 278 284 291 298 305 313 105 Cap Btuh 1000 60 7 66 9 73 3 79 8 86 5 93 3 OD Unit KW 740 753 766 780 794 8 09 Head press PSIG 313 320 327 334 341 349 115 Cap Btuh 1000 56 4 62 2 68 2 74
39. 63 0 69 9 771 84 5 92 3 100 3 OD Unit KW 71 72 72 73 74 75 Head press PSIG 283 6 2878 292 0 296 3 300 8 305 5 115 Cap Btuh 1000 59 1 65 6 72 5 79 6 870 94 7 OD Unit KW 79 79 8 0 8 1 82 82 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 26 Cooling Performance kW Single Compressor SI TTA155C Condensing Unit Only ODTemp Suction Reference Temperature C C 1 1 17 4 4 72 10 0 12 8 Head pressure kPA 959 979 1000 1024 1049 1075 18 3 Capacity kW 21 0 23 3 25 7 28 3 31 1 34 0 OD Unit Power kW 4 89 4 93 4 99 5 06 5 13 5 21 Head pressure kPA 1124 1146 1169 1194 1220 1246 23 9 Capacity kW 20 7 23 0 25 3 278 30 5 33 2 OD Unit Power kW 5 29 5 35 5 42 5 49 5 57 5 66 Head pressure kPA 1306 1329 1354 1380 1406 1434 29 4 Capacity kW 20 2 22 4 24 7 270 29 5 32 1 OD Unit Power kW 5 79 5 86 5 93 6 01 6 10 6 18 Head pressure kPA 1504 1529 1555 1583 1611 1640 35 0 Capacity kW 19 4 21 5 23 7 26 0 28 4 30 8 OD Unit Power kW 6 38 6 46 6 54 6 62 6 70 6 79 Head pressure kPA 1721 1748 1775 1804 1833 1864 40 6 Capacity kW 18 4 20 5 22 6 24 7 270 29 4 OD Unit Power kW 708 715 723 731 739 748 Head pressure kPA 1956 1984 2013 2043 2074 2107 46 1 Capacity kW 173 19 2 212 23 3 25 5 277 OD Unit Power kW 786 793 8 00 8 08 8 16 8 25 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 39 e TRANE Performance Data
40. 64 3 69 3 Unit KW 17 43 17 82 18 22 18 64 19 07 19 50 46 1 Head Pressure kPA 3583 3 3666 9 3754 0 3843 8 3936 2 4030 5 Capacity KW 41 1 45 2 49 5 54 0 58 5 63 1 Unit KW 19 43 19 83 20 23 20 64 21 05 21 46 SS PRC003 EN 41 e TRANE Performance Data Table PD 29 Evaporator Fan Performance TWEO050A I P External Static Pressure Inches of Water Column 20 30 40 50 60 70 80 90 1 00 1 10 RPM RPM RPM RPM RPM RPM RPM RPM RPM RPM 1400 646 0 37 698 0 42 751 0 47 803 0 52 856 0 56 908 0 61 941 0 65 973 0 68 1006 0 71 1500 607 0 36 661 0 40 713 0 45 764 0 50 816 0 54 867 0 59 919 0 64 952 0 67 984 0771 1600 625 0 38 676 0 43 727 0 48 778 0 52 828 879 0 62 930 0 67 963 0 70 995 074 1700 601 0 35 648 0 40 696 0 44 744 0 49 792 0 54 889 0 64 937 0 69 971 0 73 1005 0 77 1800 625 0 36 671 0 41 716 0 46 762 0 51 807 0 56 898 0 66 944 0 71 979 076 1900 642 0 40 687 0 45 731 0 50 776 0 55 820 0 60 865 0 66 909 0 71 951 0 75 987 0 800 2000 659 0 44 703 0 49 745 0 54 790 0 60 833 0 65 877 0 70 920 0 75 957 0 80 994 0 84 2100 674 0 48 722 0 54 770 0 60 817 0 65 857 0 70 897 0 75 936 0 80 973 0 85 1009 0 89 0 75 HP Standard Motor 1 0 HP Oversized Motor and Standard Static Drive and High Static Drive
41. 87 6 101 6 62 3 85 107 9 107 9 108 0 108 0 115 4 87 3 105 0 105 0 105 0 105 0 111 6 85 9 101 5 101 5 101 6 101 6 107 2 84 3 97 6 97 6 97 6 97 6 102 3 82 5 90 114 1 114 1 114 3 114 3 116 3 109 4 111 0 111 0 111 1 111 1 112 6 108 1 107 4 107 4 107 5 107 5 108 4 106 5 103 3 103 3 103 4 103 4 103 5 103 5 75 97 7 97 7 105 2 73 3 114 5 44 7 95 0 95 0 101 8 71 9 110 2 43 4 91 8 91 8 97 8 70 2 105 6 41 9 88 0 88 0 93 2 68 2 100 4 40 3 5500 80 103 8 103 8 106 0 97 0 115 8 69 3 101 0 101 0 102 7 95 6 111 8 68 0 97 6 97 6 98 8 94 0 107 3 66 5 93 6 93 6 94 4 92 1 102 4 64 9 85 110 1 110 1 110 2 110 2 116 4 91 5 107 0 107 0 107 1 107 1 112 5 90 0 103 4 103 4 103 5 103 5 108 1 88 4 99 4 99 4 99 4 99 4 103 1 86 5 90 116 5 116 5 116 6 116 6 117 6 115 4 113 3 113 3 113 4 113 4 113 5 113 5 109 5 109 5 109 6 109 6 109 7 109 7 105 3 105 3 105 4 105 4 105 5 105 5 75 99 3 99 3 106 0 75 9 115 1 45 5 96 6 96 6 102 6 74 5 110 7 44 1 93 2 93 2 98 5 72 7 106 1 42 6 89 3 89 3 93 9 70 7 100 8 41 0 6000 80 105 6 105 6 107 0 101 4 116 6 71 8 102 6 102 6 103 7 100 0 112 5 70 5 99 1 99 1 99 8 98 3 107 9 69 1 95 1 95 1 95 1 95 1 103 0 67 5 85 112 0 112 0 112 1 112 1 117 2 95 5 108 9 108 9 109 0 109 0 113 3 94 0 105 2 105 2 105 2 105 2 108 8 92 3 101 0 101 0 101 0 101 0 103 9 90 5 90 118 5 118 5 118 6 118 6 118 7 118 7 115 2 115 2 115 3 115 3 115 4 115 4 111 4 111 4 111 5 111 5 111 5 111 5 107 0 107 0 107 1 107 1 107 2 107 2 Equal TGC and SHC value
42. 9 59 1 70 7 70 7 70 8 70 8 75 1 58 1 68 44 68 4 68 4 68 4 72 2 57 0 65 9 65 9 65 9 65 9 69 1 55 9 90 770 77 0 77 1 77 1 78 4 74 0 747 74 7 74 8 74 8 75 7 73 0 723 72 3 72 4 72 4 73 0 72 0 69 7 69 7 69 8 69 8 69 8 69 8 75 66 0 66 0 71 2 49 7 77 4 30 2 63 9 63 9 68 5 48 6 74 4 292 616 61 6 65 8 47 4 71 2 28 2 59 3 59 3 62 9 46 2 67 8 27 2 3675 80 702 70 2 71 7 65 7 78 3 46 7 68 0 68 0 69 1 64 6 75 4 45 7 65 6 65 6 66 4 63 5 72 4 44 8 63 1 63 1 63 6 62 3 69 2 43 7 85 744 74 4 74 4 744 78 6 61 9 72 1 72 1 72 1 72 1 75 7 6081697 69 7 69 7 69 7 72 8 59 8 67 1 67 1 67 1 67 1 69 6 58 6 90 78 6 78 6 78 7 78 7 79 3 78 0 76 2 76 2 76 3 76 3 76 3 76 3 71737 73 7 73 8 73 8 73 8 73 8 71 0 71 0 71 1 71 1 71 1 71 1 75 67 1 67 1 71 7 51 4 77 8 30 7 64 9 64 9 69 1 50 3 74 7 29 7 62 6 62 6 66 3 49 1 71 5 28 7 60 2 60 2 63 3 47 8 68 0 27 6 4000 80 71 4 71 4 72 3 68 6 78 8 48 3 69 1 69 1 69 8 67 5 75 9 47 4 66 7 66 7 67 1 66 4 72 9 46 4 64 1 64 1 64 2 64 2 69 6 45 4 85 75 6 75 6 75 7 75 7 79 1 64 5 73 3 733 73 3 73 3 76 2 63 5 7028 70 8 70 9 70 9 73 3 62 4 684 68 1 68 2 68 2 70 1 61 2 90 79 9 79 9 80 0 80 0 80 1 80 1 77 5 77 5 77 6 77 6 77 6 77 6 74 9 74 9 75 0 75 0 75 0 75 0 72 1 72 1 72 2 722 72 3 72 3 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and ha
43. Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 12 Gross Cooling Capacities KW TTA155B Condensing Unit with TWE200B Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 23 9 46 2 364 51 0 30 2 55 9 207 446 356 49 2 295 53 8 200 427 346 47 0 28 6 51 3 19 1 405 335 446 27 6 48 7 18 2 7646 26 7 46 5 42 5 51 1 35 1 56 2 27 3 449 41 7 49 3 343 54 1 26 5 43 0 40 7 47 2 33 3 51 8 25 6 41 0 39 7 44 8 32 2 49 2 24 7 29 4 47 5 47 5 51 4 41 1 56 4 33 6 46 2 46 2 49 5 40 3 544 32 8 44 6 446 47 4 39 3 52 1 31 9 427 42 7 45 1 38 2 49 3 30 7 32 2 500 500 51 6 47 2 56 5 39 6 48 6 486 49 8 46 4 54 5 38 7 46 9 46 9 47 8 45 5 52 2 37 8 45 0 45 0 45 6 44 4 49 7 36 8 23 9 47 2 38 1 52 0 30 1 56 8 21 1 45 5 37 3 50 1 29 3 54 6 20 3 43 5 36 3 47 8 28 4 52 1 19 4 41 3 35 2 45 4 27 4 49 3 18 5 8495 26 7 47 6 44 8 52 1 36 6 57 2 28 2 45 9 44 0 50 2 35 8 55 0 27 4 44 0 43 0 48 0 34 8 52 6 26 5 41 7 41 7 45 6 33 7 50 0 25 6 294 49 2 49 2 52 4 43 3 57 4 35 1 47 7 47 7 50 5 42 4 55 3 34 3 46 0 46 0 48 3 41 4 52 7 33 1 441
44. EN e TRANE Dimensional Data Figure DD 14 TWE200E Air Handler All dimensions are in inches and millimeters 11 172 1292 1 OF KNOCKOUT TYP p 9 1 2 N 241 3 C DUCT OPENING S OUTSIDE 16 1 8 CEILING SUSPENSION gt 409 6 DUCT OPEINING E OUTSIDE 778 122 2mm DIA KNOCKOUT HEATER CONTROL AND SINGLE POWER ENTRY WIRES Y DUCT OPENING 1 2 112 7 PANEL DEPTH TYP ALL PANELS SEE NOTE 1 T R 5 w 1 DRAIN CONNEC TION FOR HORIZONTAL CONF IGURAT ION 5 SEE NOTE 2 amp 3 DUCT OPENING G RETURN AIR OPENING 7 8 p 122 2 mm DIA BUSHING LOW VOLTAGE ENTRANCE MIN FOR FILTER REMOVAL VERTICAL HORIZONTAL RETURN BOTH ENDS Pd UM DIA KNOCKOUT HORIZONTAL VERTICAL RETURN F HIGH VOLTAGE ENTRANCE 1 2 DUCT OPENING 11 374 12 7 mm 298 0 0 COPPER LIQUID LINE d1 NI FIELD CONNECTION lt x BOTH ENDS 241 31 J EUER T 8 DIA dh K L LL AF AE 22 2 mm i AA AD SPLIT BUSHING 2508 Y FOR TXV BULBS 1 5 25 4 mm FEMALE SCHED 40 PVC RETURN AIR OPENING 1 3 8 PIPE DRAIN CONNECTION NOCKOUT FOR 35 9 mm VERTICAL VERTICAL RETURN VERTICAL CONFIGURATION 0 D COPPER SUCTION LINE T HORIZONTAL HORIZONTAL RETURN PERDOIA PIEEO UNNEC ON RUTH NOTES 1 LENGTH WIDTH AND HEIGHT DIMENSIONS DO NOT INCLUDE 1 2 ACCESS PANEL DE
45. FIELD CONNECTION BOTH ENDS PLASTIC DRAIN PAN ACCESS PLATE ON THE END OF UNIT OPPOSITE DRAIN CONNECTION MUST BE REMOVED TO SLIDE DRAIN PAN OUT OF UNIT FOR CLEANING ACCESS PLATE MUST BE RE INSTALLED AFTER SLIDING DRAIN PAN BACK INTO UNIT 3 IF PERIODIC DRAIN PAN CLEANING IS REQUIRED ALLOW ROOM FOR PARTIAL REMOVAL OF PAN ON DRAIN CONNECTION END OF UNIT Table DD 1 Air Handler Dimensions in mm Model No A B G H TWEO050A 48 38 22 26 15 7 8 14 1 8 1219 20 965 20 558 80 203 20 495 30 660 40 403 23 358 78 Table DD 1 Continued Model No J K Q W Y AA TWEO050A 1 7 8 42 1 8 34 5 8 1 1 8 1 78 4763 1069 98 879 48 9 53 28 58 4763 SS PRC003 EN SS PRC003 EN e TRANE Dimensional Data Figure DD 10 TWE075A TWE100A 100B Air Handlers All dimensions are in inches and millimeters 24 PE 609 6NM Sc DUCT FLANGE 9 050 OUTSIDE sucr FLANGE 254 ve 75 PANEL DEPTH ALL PANELS SEE NOTE 1 KNOCKOUT 7 m T1 22254M HEATER CONTROL AND SINGLE POWER ENTRY WIRES CONTROL LC BOX 4 DIA KNOCKOUT ACCESS 22 23NM HEATER VENTILATION 9 no A 8 E DIA BUSHING D 223MM Low VOLTAGE se ENTRANCE rw PE 8 DIA KNOCKOUT 223MM HIGH VOLTAGE 254MW M p FEMALE SCHED 40 PVC 2 PIPE DRAIN CONNECTION DNI ENTRANCE HORIZONTAL CONFIGURATION J SEE NOTE 2 amp 3 A KNOCKOUT FOR S 0 D
46. HOLES gt P 4 PLACES 4mm zem Jes 7 2 se Pj ks P d 30 E d GP 4 DIAMETER HOLE 445mm HIGH VOLTAGE 1 8 DIAMETER HOLE emm CONTROL WIRING ui DIAMETER KNOCKOUT ENTRY FOR HOT GAS 25 4mm BYPASSCOPTIONAL ACCESSORY DISCHARGE LINE 1 8 DIAMETER HOLE 65 57 LIQUID LINES im DIA GAGE mm LINE ENTRY HOLE NOTES 1 MINIMUM CLEARANCE FOR PROPER OPERATION IS 36 914 4mm FROM WALLS SHRUBBERY PRIVACY FENCES ETC MINIMUM CLEARANCE BETWEEN ADJACENT UNITS IS 72 1828 8mm 2 ALL DIMENSIONS ARE GIVEN IN INCH MILLIMETERS 3 ALL MASSES WEIGHT ARE GIVEN IN POUNDS F ORCE KILOGRAMS APPROXIMATE CORNER TOTAL TOTAL WEIGHT MASS UNIT SHIPPING TTA100B E TTAL20B E TTAI2SB E 60 33k TTA150B E x DIAMETER HOLES 8mm SUCTION LINES VIEW A SS PRCOO3 EN 61 e TRANE Dimensional Data E Figure DD 5 TTA155B Condensing Unit All dimensions are in inches and millimeters APPROXIMATE CORNER TOTAL TOTAL WEIGHT MASS UNIT SHIPPING i e 3 4 WEIGHT WEIGHT MODEL 79 lbs 764 lbs 3542 kg TTAISSBD F 196 tes h93 tes 144 tes 46 lbs 1808 F 87 5 kg 65 3 kg 662 kg 308 CONTROL BDX ACCESS PANEL TOP DISCHARGE AREA SHOULD BE UNRESTRICTED FOR 90 2290mm MINIMUM UNIT SHOULD BE PLACED SO ROOF RUN OFF WATER DOES NOT POUR DIRECTLY ON UNIT VIEW a 2 lt c 2 SS ar CCDD
47. Notes 1 Performance based on a wet coil and 1 inch 25 4 mm throwaway filters 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 1 5 turns open Adjustments are made in 0 5 turn increments Table PD 29 Evaporator Fan Performance TWEO50A SI External Static Pressure Pascal 25 50 75 100 125 150 174 199 224 249 274 m hr RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW 2379 1646 0 28 698 0 31 751 0 35 803 0 39 856 0 42 908 0 45 941 0 48 973 0 51 1006 0 53 2549 607 0 27 661 0 30 713 0 34 764 0 37 816 0 40 867 0 44 919 0 48 952 0 50 984 0 53 2718 625 0 28 676 0 32 727 0 36 778 0 39 828 0 43 879 0 46 930 0 50 963 0 52 995 0 55 2888 601 0 26 648 0 30 696 0 33 744 0 37 792 0 40 841 0 44 889 0 48 937 0 51 971 0 54 1005 0 57 3058 625 0 27 671 0 31 716 0 34 762 0 38 807 0 42 853 0 45 898 0 49 944 0 53 979 0 57 3228 642 0 30 687 0 34 731 0 37 776 0 41 820 0 45 865 0 49 909 0 53 951 0 56 987 0 00 3398 659 0 33 703 0 37 745 0 40 790 0 45 833 0 48 877 0 52 920 0 56 957 0 60 994 0 63 3568 674 0 36 722 0 40 770 0 45 817 0 48 857 0 52 897 0 56 936 0 60 973 0 63 1009 0 00 0 56 kW Standard Motor 0 75 kW Oversized Motor and Standard Static Drive and High Static Drive Notes 1 Performance based on a wet coil and 1
48. POUR DIRECTLY ON UNIT mas Ta 1300 2mm CONTROL ACCESS COMPRESSOR PRESSURE TAPS AND SERVICE VALVES ACCESS 38 3 74 984 3nm nra los DIA KNOCKOUT ENTRY FOR HOTGAS BYPASS OPTIONAL ACCESSORY gt DISCHARGE LINE 1 3 4 DIA HOLE 44 5mm SHIGH VOLTAGE 1 1 4 DIA LIFTING HOLE 31 8mm 4 PLACES 7 6 DIA 22 2mm CONTROL WIRING amp DIA EXTRUDED HOLE 50 8mm FIELD SUCTION LINE EN CLEARANCE i PERIMETER p d 206 NOTE 15 d M 4 Sa ind BOLT DOWN PATTERN ES xL I a lt I 7 8 DIA gt 2 888mm EXTRUDED HOLE FIELD LIQUID LINE ENTR Q 7716 DIA ISOLATOR ilimm MOUNTING HOLES INSIDE HDLES 4 PLACES Z 1066 8mm ES RECOMMENDED SERVICE CLEARANCE SS PRC003 EN 59 e TRANE Dimensional Data Figure DD 3 TTA100C Condensing Units All dimensions are in inches and millimeters NOTES 1 MINIMUM CLEARANCE FOR PROPER OPERATION IS 36 914MM FROM WALLS SHRUBBERY PRIVACY FENCES ETC MINIMUM CLEARANCE APPROXIMATE CORNER TOTAL BETWEEN ADJACENT UNITS IS 72 WEIGHT MASS UNIT SHIPPING EIGHT 71830 MM MODEL 1 we 3 4 2 ALL DIMENSIONS ARE GIVEN IN INCH MILLIMETERS TTA100C G 133u 1226 8716 sub 437L k 4924 i gt 3 ALL MASSES WEIGHT ARE GIVEN TTA180C G amp o 3Cg 55 3 g 39 9 o 43 1 9 198 2 g 2232 kg
49. Return Air Grilles Accessory return air grille shall be provided for vertical front free return applications Grilles shall be installed in place of the front lower side panel Grille shall be satin finished aluminum with non adjustable louvers Mounting Subbase This accessory shall be available for vertical floor mount configurations Subbase shall be constructed of heavy gauge zinc coated galvanized steel with baked enamel finish to match air handler unit Subbase is required in the vertical air flow application for condensate drain trapping and when isolators are required Vibration Isolators This accessory shall reduce transmission of noise and vibration to building structures equipment and adjacent spaces Packages shall be available in either neoprene in shear or spring flex types in floor or suspended mountings Oversized Motors Field installed oversized motors shall be available for high static pressure applications Control Options Standard IndoorThermostats Two stage heating and cooling operation or one stage heating and cooling thermostats shall be available in either manual or automatic changeover Programmahble Electronic Night Setback Thermostat The option shall provide heating setback and cooling setup with 7 day programming capability SS PRC003 EN TRANE Trane A business of American Standard Companies www trane com For more information contact your local district offi
50. Unit Dimensional Data e TRANE All dimensions are in inches and millimeters TOP DISCHARGE AREA SHOULD BE UNRESTRICTED FOR 100 2540 mm MINIMUM UNIT SHOULD BE PLACED SO ROOF RUN OFF WATER DOES NOT POUR DIRECTLY ON UNIT SERVICE ACCESS PANEL A COMPRESSOR 1 12 38 1 DIA LIFTING HOLE 4 HOLES 44 374 1136 FOOTPRINT BOLT DOWN PATTERN CLEARANCE PERIMETER NOTE 1 SEE DETAIL A ONTROL BOX ACCESS PANEL hl 1116 93 3 8 ACCESS PANEL B COMPRESSOR 6 7 8 TYP 173 2 5 DIA 63 5mm 4 1 2 POWER W IRING 115 es 3 4 7 8 18 22 2 mm D A CONTROL WIRING 2 3 1 8 50 8 ID BUSHING 80 SUCTION LINES 1 5 38 1 DIA HOLE TYP OF 2 20 REFRIGERANT GAGE FITTING ACCESS 510 14 578 372 CD ot i c 4 174 1 107 25 gt 3 348 86 9 1 4 T 235 DETAIL A SS PRC003 EN 2372 k 2 50 8 mm HOLES FOR 575V HEAD PRESSURE 7 16 4 4 DIA ISOLATOR MOUNTING HOLES INSIDE HOLES 4 PLACES MUM CLEARANCE FOR PROPER TION IS 36 914 mm FROM WALL BERY PRIVACY FENCES MINIMUM CLEARANCE BETWEEN CENT UNITS IS 72 1830 mm m L 20 o gt MENSIONS ARE GIVEN IN MILLIMETERS N Ar 3 ALL MASSES WEIGHT ARE GIVEN IN NDS FORCE KILOGRAMS
51. WARNING JA AVERTISSEMENT CAUTION 12 Y HAZARDOUS VOLTAGE VOLTAGE HASARDEUX DECON USE COPPER CONDUC r lt 3 DISCONNECT ALL ELEC NECTEZ TOUTES LES SOURCES TORS ONLY UNIT 13 o TRIG POWER INCLUDING ELECTRIQUES INCLUANT LES TERMINALS ARE NOT 1 REMOTE DISCONNECTS DISJONCTEURS SITUES DIS DESIGNED TO ACCEPT BEFORE SERVICING TANCE AVANT D EFFECTUER L OTHER TYPES OF CON W FAILURE TO DISCON ENTRETIEN FAUTE DE DECON DUCTORS FAILURE NECT POWER BEFORE NECTER LA SOURCE ELECTRIQUE TO DO SO MAY CAUSE SERVICING CAN CAUSE AVANT D EFFECTUER L ENTRE DAMAGE TO THE 2 39C BK SEVERE PERSONAL TIEN PEUT ENTRAINER DES EQUIPMENT 5 INJURY OR DEATH BLESSURES CORPORELLES SEVERES OU LA MORT Pip PRINTED FROM B757230P03 52 SS PRC003 EN Air Handler Typical Wiring e TRANE Typical unit wiring diagram For specific wiring see see wire diagram manual online 39C BK a lt e IACRDO _ _ 2A BL 2 5 3A BK Z 40ACYL 9 3 MODELS zo oc TWEO90AK TWE090A3 TWEO90CK 3 TWE090C3 TWEI20AK TWEI20A3 TWE 120CK TWEI20C3 NOTES LITERATURE FOR PROPER WIRE COLOR DESIGNATION ON MODELS WITH A 3 ABBR COLOR ABBR COLOR BK BLACK BR BROWN 460V POWER ON MOTOR 3 THE EDC SWITCH IS NOT WITH A C IN THE 7TH NAMEPLATE STAMPING RECONNECT SEE FIELD WIRIN
52. a7 Tt COPPER LIQUID LINE PA FIELD CONNECTION E BOTH ENDS t x G KNOCKOUT FOR Y O D COPPER SUCTION LINE FIELD CONNECTION rS BOTH ENDS a H F MIN DISTANCE FOR FILTER REMOVAL BOTH ENDS ihe T 31 75 254MW FEMALE SCHED 40 PIPE DRAIN CONNECTION VERTICAL CONFIGURATION SEE NOTE 2 amp 3 NOTES 1 LENGTH WIDTH AND HEIGHT DIMENSIONS DO NOT INCLUDE 1 2 ACCESS PANEL DEPTH REMOVABLE DRAIN PAN AND ATTACHED DRAIN CONNECTION MAY BE INSTALLED ON EITHER END OF UNIT IN EITHER THE VERTICAL OR HORIZONTAL CONFIGURATION PLASTIC DRAIN PAN ACCESS PLATE ON THE END OF UNIT OPPOSITE DRAIN CONNECTION MUST BE REMOVED TO SLIDE DRAIN PAN OUT OF UNIT FOR CLEANING ACCESS PLATE MUST BE RE INSTALLED AFTER SLIDING DRAIN PAN BACK INTO UNIT IF PERIODIC DRAIN PAN CLEANING IS REQUIRED ALLOW ROOM FOR PARTIAL REMOVAL OF PAN ON DRAIN CONNECTION END OF UNIT M Table DD 2 Air Handler Dimensions in Tons Model No A B C D E F G H TWEO075A 54 47 1 2 25 11 3 4 22 3 8 22 17 3 4 1371 60 1206 50 635 00 298 45 568 33 558 80 450 85 TWE100A 54 63 12 25 19 3 4 22 3 8 22 17 3 4 1371 60 1612 90 635 00 501 65 568 33 558 80 450 85 TWE100B 54 63 1 2 25 19 3 4 22 3 8 22 20 1 8 16 1371 60 1612 90 635 00 501 65 568 33 55880 51118 406 40 Table DD 2 Continued
53. h Straight 20 40 55 1400 2380 38 11 6 24 73 22 6 7 18 5 5 1600 2718 42 12 8 31 9 4 26 79 20 6 1 TWE050 1800 3060 46 14 0 37 11 3 29 8 8 22 6 7 2000 3398 48 14 6 43 13 1 33 10 1 24 73 2200 3737 51 15 5 50 15 2 36 11 0 25 76 2100 3568 49 14 9 38 11 6 31 9 4 27 8 2 TWE075 2400 4079 52 15 9 43 13 1 35 10 7 29 8 8 2700 4586 55 16 8 48 14 6 38 11 6 31 9 4 3000 5098 58 177 53 16 2 42 12 8 32 9 8 3200 5436 56 171 46 14 0 38 11 6 30 9 1 3600 6116 62 18 9 51 15 5 42 12 8 33 10 1 TWE100 4000 6797 66 20 1 57 174 47 14 3 35 10 7 4400 7477 71 21 6 62 18 9 52 15 9 38 11 6 4800 8154 76 23 2 67 20 4 56 17 1 42 12 8 4300 7304 42 12 8 32 9 8 29 8 8 21 6 4 4900 8327 47 14 3 38 11 6 32 9 8 25 76 TWE155 5400 9176 52 15 9 44 13 4 37 113 29 8 8 6000 10195 57 174 49 14 9 41 12 5 32 9 8 5600 9515 50 15 2 40 12 2 33 10 1 27 8 2 6400 10872 56 171 46 14 0 38 11 6 30 9 1 TWE200 7200 12233 62 18 9 51 15 5 42 12 8 33 10 1 8000 13594 66 20 1 57 174 47 14 3 35 10 7 Throw distance values are based on a terminal velocity of 75 FPM 0 38 m s Throw distance values at other terminal velocities may be established by multiplying throw distances in table above by throw factor Terminal Velocity Throw Factor 50 fpm 25 m s x 1 50 100 fpm 51 m s x 75 150 fpm 76 m s x 50 Table PD 40 Static Pr
54. inch 25 4 mm throwaway filters 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 1 5 turns open Adjustments are made in 0 5 turn increments Table PD 30 Blower Speeds TWE050A Motor DriveTurns Open Drive 6 5 4 3 2 1 0 Standard NA 590 639 688 737 786 835 High Static NA 713 772 832 891 951 1009 42 SS PRC003 EN e TRANE Performance Data Table PD 31 Evaporator Fan Performance TWE075A I P External Static Pressure In Of Water Column 0 10 0 20 0 30 0 40 0 50 0 60 0 70 0 80 0 90 1 00 1 10 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 2000 443 0 44 489 0 49 535 0 54 581 0 59 627 0 64 673 0 69 719 0 74 765 0 79 791 0 83 818 0 89 2125 453 0 46 499 0 52 546 0 57 592 0 63 638 0 68 684 0 74 730 0 79 771 0 85 798 0 90 825 0 96 2250 463 0 49 510 0 55 556 0 61 602 0 67 649 0 73 695 0 79 742 0 85 776 0 91 804 0 97 831 1 03 2375 473 0 51 520 0 57 567 0 64 613 0 70 660 0 77 706 0 83 753 0 90 782 0 97 810 1 03 838 1 10 2500 445 0 47 489 0 54 533 0 60 578 0 67 622 0 73 667 0 80 711 0 86 756 0 93 784 0 99 813 1 07 842 1 14 2625 464 0 50 506 0 57 548 0 63 589 0 69 631 0 76 672 0 82 714 0 88 757 0 95 786 1 01 815 1 09 844 1 17 2750 484 0 53 523 0 59 562 0 66 601 0 72 640 0 78 678 0 84 717 0 91 758 0 97 787 1 03 817 1 12 847 1 21 2875 504 0 56 540 0 62 576 0 68 612 0 74 648 0 81 684 0 87 720
55. install smoothly Discharge Plenum and Grille Return Grille Subbase Electric Heaters High Static Evaporator Motor Isolators both Rubberin Shear and Spring Type A Full Line of Thermostats OutdoorThermostat Odyssey A Complete Split System Odyssey delivers the flexibility to select a complete system that meets your particular job requirements Air handlers are designed tested and rated with outdoor units to let you select the proper match between capacity and load Heat pumps can also be matched with Trane built up air handlers Also these matched systems can be quickly engineered for specific applications using Trane s computerized selection and load programs SS PRC003 EN e TRANE Features and Benefits Odyssey Lowers Installation Costs Your installation costs are reduced with Odyssey Both outdoor units and air handlers are factory packaged and assembled so jobsite installation is quick and easy You get a complete unit with all the components controls and the internal wiring factory ready for a smooth jobsite start up Unlike some competitive models the following components are factory installed in Trane air handlers 1 Single Point Power Entry rex 1 Blower wheel and housing 1 Evaporator motor with sheaves and pulleys 1 LowVoltageTerminal Board 1i Transformer Most Models 1 Contactor i Fan relay i DX Coil with comp
56. interrupting compressor operation when low evaporator coil temperatures are encountered Filters One inch throwaway filters shall be standard TWEO050A TWE075A TWE100A and TWE100B model air handlers Filters shall be accessible from the side coil access panel Filter rack can be field converted to two inch capability Two inch throwaway filters shall be standard on TWE155B TWE200B and TWE200E models Accessories Electric Heaters Approved electric heat modules shall be available for installation directly on fan discharge Electric heaters shall be available in a wide range of capacities with one or two stage control single point electric power connection and terminal strip connections Electric heater elements shall be constructed on heavy duty nickel chromium elements internally wye connected on 480 600 volt three phase and delta connected on 208 240 volt three phase Each 208 240 volt three phase heater shall have pilot duty with secondary backup fuse links for automatic reset of high limit controls Each 480 600 volt heater shall have automatic line break high limit controls Discharge Plenums and Grilles Accessory discharge plenums shall be available for vertical free discharge applications Plenums shall be constructed of heavy gauge zinc coated galvanized steel finished with baked enamel to match the air handler unit Grilles shall be satin finished aluminum and have four way adjustable louvers
57. kW 55 3 60 6 66 2 72 0 78 1 84 4 OD Unit Power kW 13 83 14 16 14 50 14 88 15 28 15 71 Head pressure kPA 1530 1573 1619 1668 1719 1773 29 4 Capacity kW 52 4 575 62 8 68 3 74 1 80 1 OD Unit Power kW 15 45 15 80 16 19 16 59 1703 1748 Head pressure kPA 1741 1788 1836 1888 1943 2000 35 0 Capacity kW 49 4 54 2 59 3 64 6 70 1 75 9 OD Unit Power kW 1731 1770 18 12 18 56 19 02 19 50 Head pressure kPA 1970 2020 2072 2128 2185 2246 40 6 Capacity KW 46 2 50 8 55 7 60 8 66 1 71 6 OD Unit Power kW 19 42 19 85 20 31 20 78 21 26 2175 Head pressure kPA 2216 2270 2327 2386 2448 2511 46 1 Capacity KW 42 9 474 52 1 570 62 1 673 OD Unit Power kW 21 75 22 23 22 73 23 23 23 74 24 23 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 40 SS PRC003 EN e TRANE Performance Data Table PD28 Gross Cooling Capacities MBH 20 Ton TTA200F Condensing Unit Only l P Saturated Suction Temperature F Outdoor Air Temperature F 30 35 40 45 50 55 65 Head Pressure psig 292 4 302 4 313 1 324 4 336 3 348 8 Capacity MBH 208 2 227 3 247 1 267 6 288 8 310 5 Unit KW 11 40 1 73 12 08 12 45 12 84 13 25 75 Head Pressure psig 331 2 341 8 353 0 364 7 377 1 390 0 Capacity MBH 196 0 214 2 233 2 252 7 272 9 293 5 Unit KW 12 59 2 94 13 31 13 70 14 11 14 54 85 Head Pressure psig 373 3 384 3 396 0 408 2 420 9 434 3 Capacity MBH 182 9 200 3 218 2 236 8 255 9
58. kW Oversized Motor and High Static Drive Table PD 34 Blower Speeds TWE100A TWE100B je idi d Es Motor Sheave Turns Open 5012 886 105 939 1 17 Drive 6 5 4 3 2 1 0 5309 889 1 1 941 1 22 Standard 587 629 671 713 755 796 Se m E Low Static N A 453 485 518 550 583 615 5301 on H 25 em High Static 606 641 677 713 748 784 6499 912 1 41 960 1 63 High Static Il N A 745 789 833 877 920 965 F 6796 922 1 52 965 1 72 44 SS PRC003 EN Performance Data e TRANE Table PD 35 Evaporator Fan Performance TWE155B I P External Static Pressure Inches of Water Column 10 20 30 40 50 60 70 80 90 1 00 1 20 1 40 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 3 0 HP Oversized Motor 2 0 HP Standard Motor and Drive and High Static Drive 4000 628 1 34 653 1 38 678 1 43 692 1 48 708 1 52 723 1 57 738 1 60 749 1 61 759 1 62 795 1 66 851 1 85 907 2 03 4250 633 1 37 658 1 41 683 1 46 697 1 51 713 1 55 728 1 60 743 1 62 751 1 63 770 1 64 806 1 71 862 1 90 918 2 11 4500 637 1 40 662 1 44 687 1 49 701 1 53 717 1 58 732 1 63 747 1 64 754 1 65782 1 67 817 1 76 873 1 96 929 2 19 4750 641 1 42 666 1 50 691 1 53 705 1 61 721 1 63 736 1 65 751 1 66 765 1 67 793 1 72 828 1 81 884 2 01 940 2 27 5000 645 1 44 670 1 52 695 1 56 710 1 65 725 1 67 739 1 68 758 1 70 777 1 74 806 1 81 839 1 91 896
59. the actualTotal Static Pressure is 1 10 0 10 1 00 in 275 25 250 Pa With 3000 cfm 5097 m h and 1 00 inches 250 Pa Table PD 29 shows a 1 17 bhp 0 8 kW Note The formula below the table can be used to calculate Fan Motor Heat 3 5xBhp MBh 3 5x1 17 4 10 MBh 1 375 x KW kW 1 375 x 0 8 1 1 kW NetTotal Cooling Capacity 86 5 MBh 4 10 82 4 MBh 18 8 1 1 2 177 kW Net Sensible Cooling Capacity 64 4 MBh 4 10 60 3 MBh 25 3 1 1 24 2 kW Heating Capacity Step 1 Calculate the building heating load Step 2 Size the system heating capacity to match the calculated building heating load The following are building heating requirements a Total Heating Load at 970 MBh 28 4 kW b 3000 cfm 5097 m3 h c Electric Supplementary Heaters Table PD 39 the 34 88 kW heater has a capacity of 119 045 btu From Table ED 5 the 34 88 kW indicates the heater model number is BAYHTRL435A This heater will adequately cover the buildings heating requirement Air Delivery Selection External static pressure drop through the air distribution system has been calculated to be 0 77 inches 192 5 Pa of water gauge From Table PD 38 static pressure drop through the electric heater is 0 23 inches 575 Pa of water 0 77 0 23 1 00 in 192 5 575 250 Pa Enter Table 39 1 forTWE075AD at 3000 cfm 5097 m h and 1 00 static pressure 250 Pa The standard motor at 821 rpm will give the d
60. 0 0 10 3 10 6 10 9 113 Head press PSIG 195 5 202 2 209 2 216 8 224 9 233 4 75 Cap Btuh 1000 140 0 154 3 169 1 184 4 200 2 216 4 OD Unit KW 10 8 11 1 11 4 11 7 12 0 12 4 Head press PSIG 223 5 230 5 2379 245 9 254 3 263 0 85 Cap Btuh 1000 134 2 1479 161 9 176 5 191 4 206 8 OD Unit KW 12 0 123 12 6 12 9 13 3 13 6 Head press PSIG 253 9 261 2 269 0 277 2 285 9 294 9 95 Cap Btuh 1000 1275 140 3 153 7 1674 181 6 196 2 OD Unit KW 13 3 13 6 13 9 14 3 14 6 15 0 Head press PSIG 286 6 294 1 302 2 310 8 319 8 329 0 105 Cap Btuh 1000 119 7 131 8 144 3 1573 170 8 184 6 OD Unit KW 14 8 15 1 15 4 15 8 16 1 16 5 Head press PSIG 321 6 329 3 3377 346 5 355 9 365 5 115 Cap Btuh 1000 111 1 122 4 134 2 146 5 159 2 172 4 OD Unit KW 16 5 16 8 171 174 178 18 1 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 25 Gross Cooling Capacities kW Both Compressors SI TTA155C Condensing Unit Only ODTemp Suction Reference Temperature C C 1 1 17 4 4 72 10 0 12 8 Head pressure kPA 1171 1215 1262 1311 1364 1421 183 Capacity KW 42 3 46 6 51 2 56 0 60 8 65 9 OD Unit Power KW 9 79 10 04 10 31 10 60 10 92 11 26 Head pressure kPA 1348 1394 1443 1495 1551 1609 23 9 Capacity kW 41 0 45 2 49 5 54 0 58 6 63 4 OD Unit Power kW 10 79 11 07 11 36 11 68 12 02 12 37 Head pressure kPA 1541 1589 1640 1695 1753 1813 29 4 Capacity kW 39 3 43 3 474 51 7 56 1 60 5 OD Unit Power kW 11 97 12 26 12
61. 00 0 84 631 0 93 658 1 00 691 1 08 721 1 16 746 1 21 764 1 28 793 1 34 846 1 48 3650 562 0 82 588 0 88 618 0 97 648 1 05 671 1 11 703 1 19 732 1 27 753 1 31 772 1 38 801 1 45 853 1 59 3825 582 0 96 608 1 03 637 1 11 666 1 20 685 1 26 711 1 31 739 1 38 763 1 44 787 1 51 815 1 58 862 1 74 4000 602 1 11 628 1 17 656 1 26 683 1 35 698 1 40 720 1 43 747 1 50 773 1 58 801 1 64 829 1 71 872 1 89 2 826 1 16 830 1 20 833 1 25 737 1 30 1 5 HP Standard Motor and Drive 0 HP Oversized Motor and High Static Drive Notes 1 Performance based on a wet coil and 1 inch 25 4 mm throwaway filters B 2 Tabulated brake horsepower is the motor shaft output required Table PD 33 Continued 3 Factory setting of motor sheave is 1 5 turns open Adjustments are External Static Pressure In Of Water Column made in 0 5 turn increments 4 Low Static Drive must be field supplied 1 40 1 60 CFM RPM BHP RPM BHP 2 0 HP Oversized Motor and High Static Drive 2600 881 1 30 936 1 45 2775 884 1 36 938 1 51 2960 886 1 41 939 1 57 3125 889 1 47 941 1 64 3300 892 1 54 945 1 73 3475 897 1 63 950 1 85 3650 902 1 73 955 1 99 3825 912 1 89 960 2 18 4000 922 2 04 965 2 30 Table PD 33 Evaporator Fan Performance TWE0100A TWE100B SI External Static Pressure Pascal 25 50 75 100 125 150 174 199 224 249 299 m hr RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW 1 12 kW Standard Motor and Lo
62. 00 80 88 1 83 9 96 8 68 5 106 8 52 5 85 1 82 4 93 3 67 0 102 9 51 1 81 9 80 8 89 6 65 3 98 9 49 6 78 3 78 3 85 8 63 7 94 7 48 1 85 91 4 91 4 97 2 81 0 107 2 65 6 88 7 88 7 93 7 79 5 103 3 64 2 85 9 85 9 90 1 77 9 99 3 62 7 829 82 9 86 3 76 3 94 9 60 8 90 96 3 96 3 98 2 93 9 107 3 78 0 93 5 93 5 94 9 92 4 103 5 76 5 90 6 90 6 91 4 90 8 99 5 74 9 876 87 6 87 6 87 6 95 4 73 3 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 3 Gross Cooling Capacities kW TTA085A Condensing Unit with TWE075A Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 194 228 16 1 194 228 16 1 194 228 16 1 194 228 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 242 185 26 8 15 6 298 10 9 233 18 0 25 9 15 2 287 105 224 17 6 249 148 276 10 1 21 5 17 1 239 144 265 9 7 3823 27 242 213 269 17 9 29 8 14 1 23 4 20 9 26 0 17 4 287 13 7 22 5 20 5 25 0 17 0 27 7 13 3 21 6 20 0 24 0 16 6 26 5 12 8 29 24 6 244 27 0 20 8 29 9 17 1 23 7 23 7 26 0 20 3 28 8 16 7 23 0 23 0
63. 1 0 85 1 99 4 66 7 90 103 8 103 8 103 9 103 9 112 9 86 4 100 7 100 7 100 8 100 8 108 7 84 8 97 4 97 4 97 5 97 5 104 4 83 2 94 0 94 0 94 0 94 0 99 9 81 4 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 4 Gross Cooling Capacities KW TTA085A Condensing Unit with TWE100A Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 257 20 284 167 314 11 5 247 19 6 274 163 302 11 1 23 7 192 263 159 29 0 107 227 186 252 15 4 27 7 10 2 4248 27 258 234 285 19 4 314 15 1 249 23 0 27 5 19 0 30 3 14 6 23 9 22 5 26 4 18 5 29 1 14 2 229 22 0 25 2 18 0 27 9 13 7 29 26 3 263 285 22 7 31 5 18 5 25 5 255 27 5 22 2 30 4 18 1 24 7 247 26 4 21 8 29 2 17 6 23 9 23 9 25 3 21 3 28 0 172 32 27 6 27 6 28 7 26 1 31 6 21 9 26 8 26 8 27 7 25 6 30 4 21 5 26 0 26 0 26 6 25 1 29 2 21 0 254 25 1 25 6 24 7 28 0 20 5 24 26 2 21 1 29 0 16 6 31 9 11 7 25 3 20 7 27 9 16 2
64. 1 10 8 23 3 19 0 25 6 15 8 28 1 104 223 186 246 15 4 26 9 10 0 212 18 0 23 4 149 25 9 6 4332 26 7 242 22 8 26 6 18 7 29 1 143 234 22 4 25 7 18 3 28 1 13 9 22 5 22 0 24 6 17 8 27 0 13 5 21 5 21 4 23 5 17 3 25 7 13 0 29 4 25 0 25 0 26 6 22 0 29 1 17 7 243 24 3 25 7 21 6 28 2 17 3 23 5 23 5 247 21 1 27 1 16 9 226 22 6 23 5 20 6 25 8 16 5 32 2 26 2 26 2 26 7 25 3 29 2 21 1 25 5 25 5 25 9 25 0 28 2 20 7 247 247 249 245 27 1 20 3 237 23 7 23 8 23 8 25 8 19 8 23 9 245 204 27 0 15 8 29 5 11 0 23 7 20 0 26 1 15 5 285 10 6 227 19 5 25 0 15 0 27 3 10 2 21 6 19 0 238 145 260 9 7 4842 267 247 241 27 0 19 5 29 6 14 8 240 23 8 26 1 19 2 28 6 14 4 23 0 23 0 25 0 18 7 27 4 14 0 220 22 0 23 8 18 2 26 1 13 5 29 4 25 8 25 8 27 1 23 2 29 6 18 6 25 1 25 1 26 2 22 8 28 6 182 243 243 25 1 22 4 27 5 17 8 23 3 23 3 23 9 21 8 26 2 17 3 322 271 27 1 27 3 26 9 29 6 222 26 4 26 4 26 4 26 4 28 6 21 8 25 5 25 5 25 5 25 5 27 5 21 4 245 24 5 24 5 24 5 26 2 20 9 239 249 21 4 274 164 299 11 1 24 1 21 0 264 16 0 288 10 8 23 1 20 5 25 3 15 6 27 6 104 21 9 19 9 24 1 15 1 263 9 9 5352 26 7 25 2 25 2 27 4 20 4 29 9 15 3 245 24 5 26 5 20 0 289 14 9 23 6 23 6 25 4 19 5 27 7 14 5 22 6 22 6 24 2 19 0 26 4 14 0 29 4 265 26 5 27 5 24 4 30 0 19 4 25 8 25 8 26 6 24 0 29 0 19 0 24 9 24 9 25 5 23 5 27 8 18 5 23 9 23 9 24 3 23 0 26 5 18 0 322 278 27 8 279 279 30 0 23 3 271 27 1 27 1 27 1 29 0 22 9 26 2 26 2 26 2 26 2 27 8 22 5 25 1 25 1 25 2 25 2 26 5 22 0 23 9 25 2 22 3
65. 1 6 23 6 36 6 49 6 64 Head pressure kPA 1612 1648 1686 1727 1771 1817 35 0 Capacity kW 20 7 22 8 25 0 274 29 9 32 5 OD Unit Power kW 6 69 6 80 6 93 707 722 737 Head pressure kPA 1830 1869 1910 1953 1999 2047 40 6 Capacity KW 19 4 21 5 23 6 25 9 28 3 30 8 OD Unit Power kW 748 761 774 789 8 04 8 20 Head pressure kPA 2067 2109 2153 2199 2246 2297 46 1 Capacity KW 18 1 20 1 22 2 244 26 6 29 0 OD Unit Power kW 8 37 8 51 8 66 8 81 8 97 9 13 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat SS PRC003 EN 31 e TRANE Performance Data Table PD 19 Cooling Performance MBh TTA100A Condensing Unit Only I P ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 166 172 178 185 192 200 65 Cap Btuh 1000 101 6 111 9 122 6 133 8 145 5 1576 OD Unit KW 6 30 6 46 6 63 6 81 701 722 Head press PSIG 191 197 203 210 218 226 75 Cap Btuh 1000 971 106 8 116 9 1276 138 7 150 3 OD Unit KW 6 95 712 730 750 77 794 Head press PSIG 218 224 231 238 246 254 85 Cap Btuh 1000 92 3 101 4 111 1 121 3 131 9 143 0 OD Unit KW 773 791 8 11 8 32 8 55 8 79 Head press PSIG 248 254 261 269 277 286 95 Cap Btuh 1000 87 1 95 8 105 1 114 8 125 0 135 7 OD Unit KW 8 64 8 83 9 04 9 27 9 50 9 75 Head press PSIG 280 287 294 302 311 320 105 Cap Btuh 1000 81 6 90 1 99 0 108 4 118 1 128 3 OD Unit KW 9 66 9 87 10 10 10 34 10 59 10 84 Head press PSIG 315 322 330 339 348 3
66. 1 77 766 1 92 793 2 07 859 2 37 906 2 60 5850 497 1 01 539 1 18 581 1 34 623 1 39 661 1 53 717 1 76 755 1 95 782 2 10 809 2 25 868 2 55 915 2 81 6175 473 0 99 515 1 15 557 1 31 599 1 48 641 1 57 682 1 71 732 1 94 769 2 12 796 2 27 823 2 43 877 2 73 924 3 02 6500 492 1 12 534 1 28 576 1 45 618 1 61 660 1 75 702 1 90 748 2 12 784 2 30 811 2 45 838 2 60 886 2 91 933 3 22 6825 510 1 25 552 1 42594 1 59 636 1 75 678 1 91 723 2 10 763 2 30 794 2 47 820 2 62 846 2 77 894 3 09 941 3 42 7150 528 1 38 570 1 56 612 1 73 654 1 90 697 2 07 744 2 30 779 2 49 804 2 64 830 2 78 855 2 94 903 3 26 950 3 62 7475 550 1 61 594 1 77 640 1 92 683 2 08 721 2 29 760 2 50 790 2 67 815 2 81 840 2 96 865 3 11 914 3 47 959 3 85 7800 572 1 83 618 1 97 668 2 10 712 2 27 746 2 52 776 2 69 802 2 84 826 2 99 851 3 13 876 3 27 926 3 67 969 4 08 3 0 HP Standard 3 0 HP Standar 3 0 HP Standard Motor 5 0 HP Oversized Motor Motor and Low Motor and Low and Standard and High Static Static Drive Static Drive System Il Drive System Drive System Notes 1 Performance based on a wet coil and 2 inch b1mm throwaway filters Table PD 37 Continued 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 1 5 turns open Adjustments are made in External Static Pressure In Of Water Column 0 5 turn increments 1 60 1 80 4 Low static drive components referencing this note are field supplie
67. 1 9 21 9 22 2 21 4 21 2 21 2 21 2 21 2 21 4 21 1 20 4 20 4 20 4 20 4 20 4 20 4 24 19 3 193 20 8 14 5 227 88 187 187 20 1 14 2 21 8 8 6 18 0 18 0 19 3 13 9 20 8 8 3 17 3 17 3 18 4 13 5 19 8 8 0 6244 27 20 5 20 5 21 0 19 2 22 9 13 7 19 9 19 9 20 2 18 9 22 1 13 4 19 2 19 2 19 5 18 6 21 2 13 1 185 18 5 18 6 18 3 20 3 12 8 29 21 8 21 8 21 8 21 8 23 0 18 1 21 1 214 21 1 21 1 22 2 17 8 20 4 20 4 20 4 20 4 21 3 17 5 19 6 19 6 19 7 19 7 20 4 17 2 32 23 0 23 0 23 0 23 0 23 2 22 8 223 223 22 3 22 3 22 4 22 4 21 6 21 6 21 6 21 6 21 6 21 6 20 8 20 8 20 8 20 8 20 8 20 8 24 19 7 197 21 0 15 1 228 90 19 0 19 0 20 2 147 21 9 8 7 18 3 18 3 19 4 14 4 20 9 8 4 17 6 17 6 18 5 14 0 19 9 8 1 6796 27 20 9 20 9 21 2 20 1 23 1 14 2 20 2 202 20 4 19 8 22 2 13 9 19 5 19 5 19 7 19 5 21 3 13 6 18 8 18 8 18 8 18 8 20 4 13 3 29 22 1 22 1 222 222 23 2 18 9 215 21 5 21 5 21 5 22 3 18 6 20 7 20 7 20 7 20 7 215 18 3 199 19 9 20 0 20 0 20 5 17 9 32 23 4 23 4 23 4 23 4 23 4 23 4 227 22 7 22 7 227 227 22 7 21 9 21 9 22 0 22 0 22 0 220 21 1 21 1 21 1 21 1 212 21 2 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity
68. 102 4 97 3 112 4 79 6 124 0 61 4 98 6 95 4 108 1 77 5 119 0 59 6 94 7 93 4 103 5 75 4 113 7 57 7 85 109 5 109 5 117 4 96 1 129 6 78 5 106 3 106 3 113 2 94 2 124 9 76 7 103 0 103 0 108 8 92 2 120 0 74 9 99 5 99 5 104 2 90 0 114 2 72 1 90 115 4 115 4 118 3 110 9 129 8 92 7 112 1 112 1 114 3 109 0 125 2 90 8 108 7 108 7 110 1 107 1 120 4 88 8 105 0 105 0 105 8 105 1 115 2 86 7 75 107 0 87 9 118 1 69 2 129 0 48 1 103 0 85 9 113 7 67 4 123 9 46 4 99 0 83 9 109 1 65 5 118 5 44 6 94 8 81 8 103 6 62 8 112 8 42 7 3675 80 108 2 103 9 118 6 84 6 130 6 65 1 104 4 102 0 114 3 82 6 125 8 63 3 100 6 100 0 109 7 80 6 120 6 61 5 96 5 96 5 105 0 78 4 115 1 59 5 85 112 6 112 6 119 3 100 4 131 5 81 5 109 3 109 3 115 0 98 4 126 2 79 0 105 8 105 8 110 5 96 4 121 1 76 9 102 1 102 1 105 9 94 3 115 8 74 7 90 118 8 118 8 120 7 116 5 131 8 96 7 115 4 115 4 116 6 114 6 127 2 94 8 111 7 111 7 111 8 111 8 122 1 92 7 107 8 107 8 107 9 107 9 116 8 90 6 75 108 5 91 2 119 7 71 3 130 4 48 9 104 5 89 2 115 2 69 5 125 1 47 2 100 4 87 1 109 7 66 6 119 5 45 2 96 1 84 9 104 9 64 4 113 6 43 3 4000 80 110 1 108 5 120 2 87 6 132 2 66 9 105 8 105 8 115 8 85 6 127 2 65 1 102 3 102 3 111 2 83 5 121 9 63 2 98 6 98 6 106 3 81 2 116 3 61 3 85 115 5 115 5 121 0 104 5 132 6 83 7 112 0 112 0 116 7 102 6 127 8 81 7 108 3 108 3 112 1 100 5 122 6 79 6 104 4 104 4 107 3 98 3 117 1 77 3 90 121 8 121 8 122 8 121 9 133 5 100 5 118 2 118 2 118 3 118 3 128 8 98 6 114 4 114 4 114 5 114 5 123
69. 13 695 1 16 710 1 23 725 1 25 739 1 25 758 1 27 777 1 3 806 1 35 839 1 42 896 1 59 8937 650 1 09 675 1 14 700 1 19 716 1 25 728 1 27 741 1 29 765 1 3 790 1 36 819 1 43 849 1 51 907 1 7 9345 652 1 1 678 1 16 703 1 22 721 1 28 734 1 3 747 1 33 775 1 36 804 1 43 832 1 51 861 1 6 920 1 82 9769 653 1 1 680 1 17 706 1 25 726 1 31 743 1 3 761 1 39 789 1 45 817 1 52 846 1 61 875 1 71 935 1 95 10194 655 1 11 681 1 19 709 1 3 731 1 34 752 1 35 774 1 45 803 1 53 831 1 62 860 1 71 889 1 82 950 2 07 Notes 1 Performance based on a wet coil and 2 inch 51 mm throwaway filters 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 1 5 turns open Adjustments are made in 0 5 turn increments Table PD 36 Blower Speeds TWE155B Motor SheaveTurns Open Drive 6 5 4 3 2 1 0 Standard 619 648 677 705 734 763 N A High Static 777 806 835 863 892 921 950 SS PRC003 EN 45 e TRANE Performance Data Table PD 37 Evaporator Fan Performance TWE200B E I P External Static Pressure In Of Water Column 0 10 0 20 0 30 0 40 0 50 0 60 0 70 0 80 0 90 1 00 1 20 140 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 5200 461 0 74 503 0 91 545 1 07 587 1 03 619 1 17 685 1 40 723 1 59 750 1 74 777 1 89 851 2 19 898 2 39 5525 479 0 88 521 1 04 563 1 21 605 1 21 640 1 35 701 1 58 739
70. 1524088 Sol TiBACYL ee HH SE ases ooi dort P mum i TE s H veel TEES Popes f BI 1250088 jern Ab doptezarem qoM P Sa HI E av 2 ES 180084 P olioip c 20812 i 3 TII z a 8 mom NOTE THREE PHASE MOTOR S FACTORY SUPPLIED IN THIS EQUIPMENT PROTECTED UNDER PRIMARY SINGLE PHASING CONDITIONS BROWN BLACK PURPLE BK RD NOTE 13 YELLOW BLACK YELLOW BLACK BLACK YELLOW E N WARNING AVERTISSEMENT HAZARDOUS VOLTAGE VOLTAGE HASARDEUX ISCONNECT A Tic DECoNNECTEZ toutes Les POWER INCLUDING REMOTE SOURCES ELECTRIOUES DISCONNECTS BEFORE INCLUANT LES WIRE COLOR DESIGNATION FUSE DISJONCTUERS SI TUES Tiles To piscounccr A DISTANCE AVANT ABBR COLOR ABBR COLOR REPLACEMENT TABLE POWER BEFORE SERVICING 0 EFFECTUER L ENTRETIEN BK BLACK PR PURPLE FUSE Ave BOR QC Ld CA Source EE EC TATOU BL BLUE RD RED PERSONAL INJURY OR LA SOURCE FUA 3 DAE L ENTRETIEN PEUT BR BROWN WH WHITE ENTRAINER DES BLESSURES GREEN Y YELLOW CORPORELLES SEVERES GR GREEN YL YELLOW OR ORANGE N CAUTION USE COPPER CONDUCTORS ONLY UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF CONDUCTORS FAILURE TO DO SO MAY CAUSE DAMAGE TO THE EQUIPMEN
71. 161 6 184 1 134 1 160 3 160 3 162 2 158 4 176 2 130 9 153 9 153 9 154 0 154 0 167 6 127 4 75 159 3 130 9 175 1 102 7 191 1 71 3 153 6 128 1 168 6 100 0 183 6 68 7 146 9 124 7 161 1 97 0 175 2 65 9 139 4 120 9 152 2 92 7 165 9 62 6 5500 80 160 8 154 6 175 7 125 6 192 4 96 1 155 3 151 8 169 2 122 7 185 1 93 5 149 0 148 6 161 9 119 4 176 9 90 5 141 9 141 9 153 7 115 7 167 9 87 3 85 167 2 167 2 176 5 148 9 192 8 119 7 162 3 162 3 170 1 146 0 185 6 116 8 156 5 156 5 162 8 142 7 177 5 113 6 149 9 149 9 154 7 139 1 168 7 110 0 90 175 9 175 9 178 3 172 8 194 0 143 0 170 7 170 7 172 2 170 0 186 7 140 1 164 7 164 7 164 8 164 8 178 6 136 8 157 9 157 9 158 1 158 1 169 8 133 3 75 161 5 135 9 177 3 105 9 193 1 72 5 155 6 132 9 170 6 103 2 185 5 69 7 148 8 129 5 162 4 99 0 176 8 66 7 141 2 125 7 154 0 95 3 167 3 63 5 6000 80 163 6 161 5 178 0 130 1 194 7 98 8 157 4 157 4 171 4 127 2 187 2 96 1 151 6 151 6 163 8 123 8 178 8 93 2 145 0 145 0 155 5 120 0 169 6 90 0 85 171 3 171 3 178 9 155 2 195 3 123 8 166 1 166 1 172 4 152 3 187 8 120 8 160 0 160 0 164 9 148 9 179 6 117 5 153 2 153 2 156 8 145 3 170 6 113 9 90 180 2 180 2 181 4 181 0 196 5 148 8 174 7 174 7 174 9 174 9 188 8 145 8 168 5 168 5 168 6 168 6 180 7 142 5 161 5 161 5 161 6 161 6 171 7 139 0 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacit
72. 2 13 5260 650 1 46 675 1 53 700 1 59 716 1 67 728 1 70 741 1 73 765 1 75 790 1 82 819 1 92 849 2 03 907 2 28 5500 652 1 47 678 1 55 703 1 63 721 1 71 734 1 75 747 1 78 775 1 83 804 1 92 832 2 03 861 2 15 920 2 44 5750 653 1 48 680 1 57 706 1 68 726 1 76 743 1 81 761 1 86 789 1 94 817 2 04 846 2 16 875 2 29 935 2 61 6000 655 1 49 681 1 59 709 1 74 731 1 80 752 1 87 774 1 94 803 2 05 831 2 17 860 2 29 889 2 44 950 2 78 Notes 1 Performance based on a wet coil and 2 inch 51 mm throwaway filters 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 1 5 turns open Adjustments are made in 0 5 turn increments Table PD 35 Evaporator Fan Performance TWE155B SI External Static Pressure Pascal 25 50 75 100 125 150 174 199 224 249 299 349 m hr RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW 2 24 kW Oversized Motor 1 49 kW Standard Motor and Drive and High Static Drive 6796 628 1 653 1 03 678 1 07 692 1 1 708 1 13 723 1 17 738 1 19 749 1 2 759 1 21 795 1 24 851 1 38 907 1 51 7221 633 1 02 658 1 05 683 1 09 697 1 13 713 1 16 728 1 19 743 1 21 751 1 22 770 1 22 806 1 28 862 1 42 918 1 57 7646 637 1 04 662 1 07 687 1 11 701 1 14 717 1 18 732 1 22 747 1 23 754 1 23 782 1 25 817 1 31 873 1 46 929 1 63 8070 641 1 06 666 1 12 691 1 14 705 1 2 721 1 22 736 1 23 751 1 24 765 1 25 793 1 28 828 1 35 884 1 5 940 1 69 8495 645 1 07 670 1
73. 20 20 20 Outdoor Fan Type Propeller Propeller Propeller Propeller No Used 1 1 1 1 Diameter in mm 26 00 660 4 28 00 711 2 28 00 711 2 28 00 711 2 DriveType Direct Direct Direct Direct No Speeds 1 1 1 1 m3 h 4700 7985 30 8120 13795 0 8120 13795 0 8120 13795 0 No Motors 1 1 1 1 Motor HP KW 0 33 25 0 75 56 0 75 56 0 75 56 Motor RPM 925 925 975 975 R 22 Refrigerant Charge Ib kg 16 0 7 26 19 0 8 62 19 0 8 62 21 0 9 53 Notes 1 Cooling Performance is rated at 95 F 35 C ambient 80 F 26 7 C entering dry bulb 67 F 19 4 C entering wet bulb and nominal cfm listed ARI rating cfm is 350 cfm ton for this product Gross capacity does not include the effect of fan motor heat ARI capacity is net and includes the effect of fan motor heat Units are suitable for operation to 20 of nominal cfm Certified in accordance with the Unitary Large Equipment certification program which is based on ARI Standard 340 360 or 365 00 Condensing Unit Only Gross Cooling Capacity rated at 45 F 7 2 C saturated suction temperature and at 95 F 35 C ambient ARI Net Cooling Capacity is calculated with matched blower coil and 25 ft 7 2 m of 1 375 0 500 OD interconnecting tubing EER and or SEER are rated at ARI conditions and in Wn accordance with DOE test procedures Integrated Part Load Value is based on ARI Standard 340 360 or 365 00 Units are rated at 80 F 26 7 C ambient 80 F 26 7 C entering dry b
74. 208K 780 E BLACK BLACK NOTES 1 LOW VOLTAGE WIRING MUST BE 18 AWG MINIMUM 2 ON ALL NOTE 2 REFERENCES LEAD COLOR TO BE BK YL ON TTAO90A3 MODEL BK BR ON TTAO90 120AW MODELS AND BK RD ON ALL OTHER MODELS 3 SEE HEATER ACCESSORY DIAGRAM FOR DETAILS OF HEATER WIRING CONNECTIONS SHOWN ARE FOR 230V 60 HZ 3 PH WHEN 208V 60 HZ 3 PH OPERATION IS REQUIRED REMOVE IA RD WIRE AT UNIT TRANSFORMER AND RECONNECT TO 208V TRANSFORMER TERMINAL 5 IF EVAPORATOR DEFROST CONTROL EDC IS USED IN INDOOR UNIT REMOVE JUMPER WIRE ON CONDENSER LOW VOLTAGE BOARD BETWEEN TERMINALS R AND CD 6 DO NOT JUMPER COMPRESSOR PROTECTION SWITCH CPS OR THE HIGH PRESSURE CUT OUT SWITCH HPCO 7 ON MODELS WITH RTRM BOARDS INSTALLER MUST MOVE EDC WIRES IF AI AN EVAPORATOR DEFROST CONTROL FROM AIR HANDLER LOW VOLTAGE TERMI B2 AND BI TO AND CD 8 ALL COMPONENTS WITH PHANTOM LINES AROUND PERIMETER ARE FIELD INSTALLED ACCESSORIES EXCEPT FOR COMMUNICATION INTERFACE BOARD COMM AND CRANKCASE HEATER RELAY CHR WHICH MAY BE FACTORY INSTALLED ON SOME MODELS 9 IF ANY OF THE ORIGINAL WIRE AS SUPPLIED WITH THIS UNIT MUST BE REPLACED REPLACE WITH 600V 18 GAUGE WIRING MATERIAL RATED AT 105 C 10 CUT WIRE 120 TO ENABLE ELECTRIC HEAT 11 CUT WIRE 110 TO CONFIGURE FOR TWO STAGES OF ELECTRIC HEAT 12 CONNECTIONS FOR THE 230V 60HZ 3 PH UNIT ARE SHOWN FOR 400V 460V AND 575V MODELS SEE TRANSFORMER CONNECTIONS IN INSERT AND B
75. 24 vac oops 5 5 TYPICAL ROOM THERMOSTAT COMM OUT 126A BK FIELD ACCESSORY NOTE Jafa oe 1 TMERMOSTAT INPUT JI TMERMOSTAT inputs 127ACBL 24 vac i 128A RD wi MODBUS ou we J8 P8 6 OD air temp 2 2 MIT COMMON B DING MANAGEMENT SYSTEM PNS COMMON e n s n TTA CONDENSER LTB co B EF Kd f 07 lt Me Be 6 n m E pea EDC CD R T Y O B G w J ELECTRIC MEAT SWITCH ACCESSORY INDOOR SECTION LTB 9 TU 2 86 PRINTED FROM D757527P01 55 e TRANE Condensing Unit Dual Compressor PURPLE e ORAE n 78 TB RD YO 0 BROWN E A Lr Typical wiring diagram For specific m arom 2188 m EES 5 2538 nce IPIAUGLO aBt RO NCEA zr a sz 22 52 wiring see wire diagram manual on HEAD eel Ela 5 n z line 2 Ge m T FU J BLACK lt succ So o ob ance BK RD BK RD IB RD 13 nawe lt EH BLACK fo i verre ifi sa bton sess reco HSE SA BL 2ol2AGBL i disc et moike 1 RTRM B 199807
76. 25 0 19 9 27 7 16 3 22 2 22 2 24 0 19 4 26 6 15 9 32 25 7 25 7 27 0 23 7 29 9 20 1 25 0 25 0 26 1 23 2 28 9 19 7 24 2 24 2 25 2 22 8 27 8 19 3 23 4 23 4 24 2 22 3 26 7 18 8 24 24 7 19 3 27 4 15 4 30 3 11 1 23 8 18 8 26 4 15 0 29 3 10 7 22 9 18 4 25 4 14 5 28 1 10 3 21 9 17 9 24 3 14 1 26 9 9 9 4248 27 24 8 225 27 5 18 7 30 4 14 5 24 0 22 0 26 5 18 3 29 3 14 1 23 1 21 6 25 4 17 7 28 2 13 7 22 1 21 1 244 17 3 27 0 13 3 29 25 3 25 3 27 5 21 8 30 5 17 8 246 246 26 6 21 4 29 4 17 4 23 8 23 8 25 6 20 9 28 3 17 0 23 0 23 0 245 20 4 27 1 16 6 32 26 6 26 6 27 7 25 0 30 5 21 1 25 9 25 9 26 7 24 6 29 4 20 6 25 1 25 1 25 8 24 1 28 3 20 2 24 3 24 3 248 23 7 27 2 197 24 25 2 20 1 27 9 15 9 30 8 11 3 24 3 19 6 26 9 15 5 29 7 10 9 23 3 19 2 25 8 15 0 285 1051223 18 7 24 7 14 6 27 3 10 1 4672 27 25 3 23 5 27 9 19 4 30 9 15 0 24 5 23 1 26 9 18 9 29 7 14 6 23 5 22 6 25 9 18 5 28 6 14 1 22 6 22 2 24 8 18 0 27 4 13 7 29 26 1 26 1 28 0 228 31 0 18 5 25 3 25 3 27 0 22 3 29 8 18 1 24 5 245 26 0 21 9 28 7 17 7 23 7 23 7 24 9 21 4 27 5 17 3 32 27 5 27 5 28 2 26 3 31 0 22 0 26 7 26 7 27 3 25 8 29 9 21 5 25 9 25 9 26 3 25 4 28 8 21 1 25 0 25 0 25 3 24 9 27 6 20 6 24 25 6 20 8 28 3 16 4 31 2 11 5 246 20 4 27 2 15 9 30 0 11 1 23 6 19 9 26 2 15 5 28 8 10 7 22 6 19 4 25 0 15 0 27 6 10 2 5097 27 25 8 246 28 3 20 1 31 3 15 4 24 9 24 1 27 3 19 6 30 1 15 0 24 0 23 7 26 2 19 1 28 9 14 5 229 22 9 25 1 18 6 27 7 14 1 29 26 8 26 8 28 5 23 7 31 4 19 2 26 0 2
77. 3 e TRANE Performance Data Table PD 11 Gross Cooling Capacities MBh TTA155B Condensing Unit with TWE155B Air Handler 1 AmbientTemperature F 85 95 105 115 Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 153 4 120 3 169 3 101 1 185 9 68 9 148 2 117 6 163 3 98 6 178 9 66 4 142 0 114 4 156 3 95 8 170 9 63 7 134 9 110 8 148 4 92 6 162 0 60 6 4500 80 154 3 140 1 169 6 116 0 186 6 90 3 149 1 137 4 163 7 113 2 179 8 87 7 143 0 134 3 156 7 110 0 172 0 84 8 136 2 130 8 149 0 106 4 163 5 81 7 85 157 3 157 3 170 5 135 7 187 4 111 0 152 9 152 9 164 5 132 9 180 6 108 4 147 7 147 7 157 6 129 7 172 9 105 5 141 7 141 7 149 9 126 2 163 9 101 7 90 165 4 165 4 171 3 155 6 187 6 130 6 160 8 160 8 165 5 152 8 180 9 127 9 155 3 155 3 158 8 149 7 173 3 124 7 149 2 149 2 151 4 146 3 165 0 121 3 75 156 6 125 7 172 5 99 4 188 8 70 0 151 1 122 9 166 2 96 8 181 5 67 5 144 6 119 7 158 9 93 8 173 3 64 7 137 3 116 0 150 8 90 5 164 2 61 6 5000 80 157 7 147 5 172 9 120 9 189 8 93 3 152 4 144 8 166 7 118 1 182 7 90 7 146 1 141 6 159 5 114 8 174 7 87 7 139 2 138 0 151 6 111 2 166 0 84 6 85 162 6 162 6 173 8 142 5 190 6 115 9 157 9 157 9 167 6 139 6 183 6 113 3 152 4 152 4 160 4 136 4 175 2 109 4 146 1 146 1 152 5 132 8 166 5 105 9 90 171 0 171 0 175 0 164 3 191 1 137 0 166 1 166 1 169 0
78. 3 1 23 4 36 4 18 0 29 1 28 1 31 8 22 9 35 0 17 5 27 9 27 5 30 5 22 3 33 5 16 9 29 322 32 2 34 5 28 2 37 9 22 9 31 3 31 3 33 3 27 7 36 6 22 4 30 3 30 3 32 0 27 1 35 2 21 9 29 3 29 3 30 7 26 5 33 7 21 4 32 33 9 33 9 34 7 32 6 37 9 27 2 33 0 33 0 33 6 32 1 36 6 26 6 31 9 31 9 32 4 31 5 35 3 26 1 30 9 30 9 31 1 30 9 33 8 25 5 24 31 5 25 9 34 8 20 3 38 0 14 1 30 4 25 3 33 5 19 8 36 6 13 7 29 2 24 7 32 2 19 3 35 1 13 2 28 0 24 1 30 8 18 7 33 4 12 6 6244 27 31 9 30 6 34 8 24 9 38 2 19 0 30 8 301 33 6 24 3 36 9 18 5 29 7 295 32 3 23 8 35 5 18 0 28 4 28 4 30 9 23 1 33 9 17 5 29 33 1 33 1 35 0 29 5 38 4 23 8 322 322 33 8 29 0 37 1 23 3 31 1 31 1 32 5 28 4 35 6 22 8 301 30 1 31 2 27 8 34 0 22 0 32 34 8 34 8 35 4 34 2 38 5 28 3 33 9 33 9 34 2 33 7 37 1 27 8 32 8 32 8 328 32 8 35 7 27 2 31 7 31 7 31 7 31 7 34 2 26 6 24 32 0 26 9 35 2 20 9 38 4 14 4 30 8 26 3 33 9 20 4 37 0 13 9 29 6 25 7 32 6 19 9 35 4 13 3 283 25 1 31 0 19 1 33 12 8 6796 27 32 4 32 0 35 3 25 8 38 7 19 5 31 2 31 2 34 1 25 2 37 3 19 1 30 1 30 1 32 7 24 6 35 8 18 5 29 1 29 1 31 3 24 0 342 18 0 29 33 9 33 9 35 5 30 7 38 9 24 7 329 32 9 34 3 30 2 37 4 24 0 31 9 31 9 33 0 29 6 35 9 23 4 307 30 7 31 6 29 0 34 4 228 32 35 7 35 7 36 0 35 8 38 9 29 5 347 34 7 34 7 34 7 37 6 28 9 33 6 33 6 33 6 33 6 36 1 28 3 32 4 32 4 325 32 5 34 6 27 7 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In th
79. 3 4 OD Unit Power kW 3 13 3 21 3 30 3 39 3 50 3 62 Head pressure kPA 1114 1133 1154 1175 1198 1222 23 9 Capacity kW 14 3 15 8 174 19 0 20 7 22 6 OD Unit Power kW 3 36 3 45 3 54 3 65 3 77 3 89 Head pressure kPA 1288 1309 1331 1354 1378 1402 29 4 Capacity kW 13 6 15 1 16 6 18 2 19 9 21 6 OD Unit Power kW 3 65 3 74 3 85 3 96 4 08 4 21 Head pressure kPA 1481 1504 1527 1551 1576 1602 35 0 Capacity kW 12 9 14 3 15 8 173 18 9 20 6 OD Unit Power kW 4 01 4 10 4 20 4 32 4 44 4 58 Head pressure kPA 1694 1717 1742 1768 1794 1821 40 6 Capacity kW 12 2 13 5 14 9 16 4 18 0 19 6 OD Unit Power kW 4 42 4 51 4 62 4 73 4 86 5 00 Head pressure kPA 1926 1951 1977 2004 2032 2061 46 1 Capacity kW 11 4 12 7 14 1 15 5 170 18 5 OD Unit Power kW 4 89 4 98 5 08 5 20 5 32 5 46 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat SS PRC003 EN 35 e TRANE Performance Data Table PD 23 Cooling Performance MBh TTA125B Condensing Unit Only I P ODTemp Suction Reference Temperature F 9p 30 35 40 45 50 55 Head press PSIG 175 181 187 193 200 207 65 Cap Btuh 1000 116 6 128 0 139 9 152 2 164 9 178 1 OD Unit KW 8 04 8 25 8 47 8 70 8 95 9 20 Head press PSIG 201 207 214 221 228 235 75 Cap Btuh 1000 111 2 122 1 133 4 145 2 1575 170 0 OD Unit KW 8 83 9 06 929 9 53 9 79 10 06 Head press PSIG 230 237 244 251 259 267 85 Cap Btuh 1000 105 6 116 0 126 9 138 1 149 8 1
80. 3 7 51 3 25 8 40 8 40 4 44 5 32 6 48 7 24 8 29 47 7 47 7 51 0 41 8 56 0 34 0 46 3 46 3 49 2 40 9 53 9 33 2 447 44 7 47 1 40 0 51 4 32 1 42 8 42 8 44 7 38 9 48 9 31 1 32 50 2 50 2 51 4 48 2 56 1 40 2 48 7 487 49 6 47 4 54 1 39 3 47 0 47 0 47 6 46 4 51 8 38 4 45 1 45 1 45 2 45 2 49 2 37 4 24 46 7 38 4 51 4 30 1 56 2 20 9 45 1 37 5 495 29 3 54 0 20 2 43 1 36 6 47 3 28 4 51 5 19 3 40 9 35 4 44 7 27 2 48 7 18 4 9345 27 47 2 45 3 51 6 36 8 56 5 28 2 45 6 44 5 49 7 36 0 54 4 27 4 43 7 43 6 47 5 35 0 52 0 26 6 41 6 41 6 45 1 33 9 49 3 25 6 29 49 1 49 1 51 8 43 7 56 6 35 1 47 6 476 49 9 42 8 54 5 34 3 45 9 45 9 47 8 41 9 52 2 33 3 44 0 44 0 45 4 40 8 49 6 32 3 32 51 6 51 6 52 3 50 7 56 9 41 9 50 1 50 1 50 5 49 8 54 8 41 1 48 3 48 3 48 4 48 4 525 40 1 46 3 46 3 46 4 46 4 49 9 39 1 24 47 4 39 8 52 1 31 1 56 7 21 3 45 7 39 0 50 1 30 3 54 5 20 5 43 7 38 0 47 7 29 1 52 0 19 6 41 4 36 9 45 2 27 9 49 1 18 6 10194 27 48 0 47 3 52 3 38 2 57 2 29 0 46 2 46 2 50 3 37 3 55 0 282 445 44 5 48 1 36 3 52 5 27 3 425 425 45 6 35 2 49 8 26 4 29 503 50 3 525 45 5 57 3 36 3 48 7 48 7 50 6 44 6 55 2 35 5 47 0 47 0 48 4 43 7 52 8 34 5 45 0 45 0 46 0 42 6 50 1 33 4 32 52 9 52 9 53 3 53 1 57 6 43 6 513 51 3 51 3 51 3 55 5 42 8 49 4 49 4 49 5 49 5 53 1 41 8 47 4 47 4 47 4 47 4 50 4 40 8 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capa
81. 3 96 0 108 7 78 1 119 6 59 7 95 4 94 0 104 1 76 0 114 4 57 8 85 110 0 110 0 117 7 96 5 129 4 78 3 106 9 106 9 113 7 94 6 125 0 76 7 103 5 103 5 109 3 92 7 120 2 74 9 100 0 100 0 104 8 90 6 115 1 73 1 90 115 8 115 8 118 6 111 3 129 5 92 8 112 5 112 5 114 8 109 5 125 1 91 0 109 1 109 1 110 6 107 6 120 4 89 1 105 4 105 4 106 3 105 6 115 4 87 1 75 107 6 88 5 118 8 69 4 129 7 48 3 103 7 86 6 114 5 67 6 125 0 46 7 99 7 84 5 109 9 65 8 119 8 44 9 95 5 82 4 105 2 63 9 114 2 43 0 3675 80 108 8 104 5 119 0 85 1 130 6 65 0 105 1 102 7 114 8 83 2 126 0 63 3 101 3 100 7 110 3 81 1 121 1 61 5 97 0 97 0 105 6 79 0 115 8 59 6 85 113 1 113 1 119 6 100 8 131 2 81 4 109 8 109 8 115 4 98 9 126 6 79 7 106 3 106 3 111 0 96 9 121 7 77 9 102 6 102 6 106 4 94 8 116 1 75 2 90 119 0 119 0 120 9 116 9 131 4 96 8 115 7 115 7 117 0 115 1 126 9 95 0 112 1 112 1 112 2 112 2 122 0 93 0 108 2 108 2 108 3 108 3 116 9 90 9 75 109 1 91 8 120 2 71 5 131 1 49 1 105 2 89 8 115 9 69 7 126 2 47 4 101 1 87 8 111 2 67 8 120 9 45 5 96 8 85 6 105 8 65 1 115 2 43 6 4000 80 110 7 109 1 120 6 88 0 132 1 66 8 106 4 106 4 116 3 86 1 127 4 65 1 102 9 102 9 111 7 84 1 122 4 63 3 99 2 99 2 106 9 81 9 116 9 61 4 85 115 9 115 9 121 2 104 9 132 7 84 3 112 5 112 5 117 0 103 1 127 7 81 9 108 8 108 8 112 6 101 1 122 7 80 0 105 0 105 0 107 9 98 9 117 4 77 8 90 121 9 121 9 123 0 122 3 133 0 100 6 118 5 118 5 118 6 118 6 128 3 98 8 114 8 114 8 114 9 114 9 123 4 96 8 110 7 110 7 110 8 110 8 118
82. 4 0 92 942 0 97 3964 866 0 87 894 0 92 922 0 97 950 1 02 External Static Pressure Pascal Table PD 32 Blower Speeds TWE075A 4173 870 0 9 899 0 96 928 1 01 Motor Drive Turns Open 4381 874 0 93 903 0 99 932 1 06 Z 4590 877 0 96 907 1 03 937 1 1 Daye ENS Ss 2 3 4798 880 0 99 911 1 07 942 1 13 PIN Standard N A 600 650 700 750 800 850 5007 884 1 02 915 1 1 946 1 18 Low Static 428 464 499 535 571 606 1 12 kW Oversized Motor and High Static Drive High Static N A 700 750 800 850 900 950 1 75 kW Standard Motor andDrive SS PRC003 EN 43 e TRANE Performance Data Table PD 33 Evaporator Fan Performance TWE100A TWE100B I P External Static Pressure In Of Water Column 0 10 0 20 0 30 0 40 0 50 0 60 0 70 0 80 0 90 1 00 1 20 CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1 5 HP Standard Motor and Low Static Drive 2600 460 0 32 493 0 39 527 0 47 565 0 55 603 0 63 641 0 71 679 0 79 717 0 87 744 0 94 772 1 01 2775 473 0 37 506 0 45 540 0 53 576 0 61 613 0 69 649 0 77 686 0 85 723 0 93 748 1 00 775 1 07 2950 487 0 43 519 0 50 552 0 58 587 0 67 623 0 75 658 0 83 693 0 91 728 0 99 751 1 06 779 1 12 3125 501 0 49 532 0 56 565 0 64 599 0 72 632 0 81 666 0 89 700 0 97 734 1 05 755 1 11 783 1 18 3300 520 0 58 548 0 65 581 0 73 613 0 81 644 0 89 677 0 98 710 1 06 740 1 13 759 1 19 787 1 25 841 1 37 3475 541 0 69 568 0 76 6
83. 4 1 11341 27 613 57 8 67 1 47 3 73 8 36 4 59 0 56 7 64 6 46 1 71 0 35 3 56 7 55 5 61 9 44 9 68 0 34 2 54 3 54 3 59 2 43 7 65 0 33 2 29 63 3 63 3 67 5 55 8 74 1 45 3 61 4 61 4 64 9 546 71 3 44 2 59 3 59 3 62 2 53 5 68 2 42 9 57 1 57 1 59 5 52 2 65 2 41 7 32 66 6 66 6 68 0 64 5 74 2 53 7 646 64 6 65 6 63 4 71 5 52 5 624 62 4 63 1 62 2 68 6 51 4 60 2 60 2 60 3 60 3 65 6 50 2 24 61 8 51 3 68 0 40 1 74 4 27 7 59 4 50 1 65 3 39 0 71 4 26 7 56 9 48 8 62 6 37 8 68 3 25 6 54 3 47 5 59 4 36 4 65 0 24 5 12488 27 62 5 60 7 68 2 49 2 74 8 37 5 60 2 59 5 65 6 48 0 71 9 36 4 57 6 57 6 62 8 46 8 68 9 35 4 55 4 55 4 60 0 45 5 65 8 34 3 29 65 1 65 1 68 5 58 4 75 2 47 1 631 63 1 65 9 57 2 72 1 45 7 60 9 60 9 63 2 56 0 69 1 44 6 58 6 58 6 60 5 54 8 66 0 43 3 32 68 5 68 5 69 4 67 9 75 3 56 1 664 66 4 66 9 66 8 72 5 55 0 64 2 64 2 64 3 64 3 69 5 53 8 61 9 61 9 61 9 61 9 66 4 52 6 24 627 53 3 68 9 41 3 75 2 28 2 60 2 52 0 66 1 40 2 72 1 27 1 57 6 50 8 63 1 38 7 68 9 26 0 55 0 49 5 60 2 37 5 65 6 24 8 13634 27 63 6 63 5 69 1 51 0 75 7 38 6 61 2 61 2 66 4 49 8 72 7 37 5 59 0 59 0 63 6 48 6 69 6 36 4 56 7 56 7 60 7 47 3 66 4 35 3 29 667 66 7 69 5 60 9 75 9 48 5 646 64 6 66 8 59 8 72 9 47 4 62 3 62 3 64 1 58 6 69 9 46 2 60 0 60 0 61 3 57 3 66 8 44 9 32 70 2 70 2 70 3 70 3 76 3 58 4 68 0 68 0 68 1 68 1 73 3 57 3 65 7 65 7 65 8 65 8 70 3 56 1 63 3 63 3 63 4 63 4 67 2 54 9 Equal TGC and SHC values constitute dry coil conditio
84. 44 1 45 9 40 3 50 1 32 1 32 2 51 7 51 7 52 7 50 0 57 5 41 6 50 2 50 2 50 9 49 2 55 4 407 484 48 4 48 9 48 2 53 1 39 8 46 5 46 5 46 5 46 5 50 5 38 7 23 9 48 0 39 8 52 8 31 1 57 5 21 4 46 3 38 9 50 8 30 3 55 2 20 7 44 2 37 9 48 5 29 4 52 6 19 8 41 0 36 7 45 8 28 0 49 8 18 8 9345 26 7 485 47 1 52 9 38 1 58 0 29 1 46 8 462 51 0 37 3 55 8 28 3 44 8 44 8 48 7 36 2 53 3 27 4 42 8 42 8 46 3 35 1 50 6 26 5 29 4 506 506 53 2 45 3 58 1 36 3 49 1 49 1 51 3 44 4 55 9 35 4 47 3 47 3 49 0 43 5 53 5 34 4 45 3 45 3 46 6 424 50 8 33 4 32 2 53 2 532 53 8 52 7 58 4 43 5 516 516 51 9 51 8 56 2 42 6 49 8 49 8 49 8 49 8 53 8 41 6 47 7 47 7 47 8 47 8 51 2 40 6 23 9 48 7 41 4 53 4 32 1 58 1 21 8 46 9 40 5 51 2 31 0 55 7 21 0 44 8 39 4 48 9 30 0 53 1 20 1 42 5 38 3 46 5 29 3 50 2 19 1 10194 26 7 49 4 49 3 53 7 39 6 58 6 30 0 47 6 47 6 51 6 38 7 56 4 29 1 45 8 45 8 49 4 37 6 53 8 28 3 438 43 8 46 8 36 5 51 1 27 3 29 4 51 8 51 8 53 9 47 3 58 8 37 6 503 50 3 52 0 46 4 56 6 36 7 48 4 48 4 49 7 45 4 54 1 35 7 46 3 46 3 47 2 443 51 4 34 6 32 2 545 545 54 6 54 6 59 1 45 3 529 52 9 52 9 52 9 56 9 44 4 51 0 51 0 51 0 51 0 54 4 43 5 48 8 48 8 48 9 48 9 51 7 424 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity acity SHC isthe total capacity All capacities shown are gross and have not considered indoor fan h
85. 5 00 Refer to Performance Data section in this catalog 13 e TRANE Performance Data Table PD 1 Gross Cooling Capacities MBh TTA075A Condensing Unit with TWE075A Air Handler 1 AmbientTemperature F 85 95 105 115 Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 772 606 85 4 50 9 941 347 748 594 826 49 8 90 9 336 718 57 9 793 48 4 87 2 323 684 56 2 75 5 46 9 83 0 30 8 2250 80 77 6 70 5 85 6 58 4 94 2 45 3 75 2 69 3 82 8 57 2 91 0 44 1 72 3 67 9 79 5 55 8 87 3 42 7 69 0 66 2 75 6 54 0 832 412 85 79 1 79 1 85 7 68 3 94 3 55 6 77 0 77 0 83 0 67 0 91 2 54 4 74 6 74 6 79 6 65 6 87 5 53 0 71 7 71 7 75 9 63 9 83 4 51 5 90 83 1 83 1 86 1 78 3 94 5 65 9 81 0 81 0 83 4 77 1 91 2 64 5 78 4 78 4 80 2 75 6 87 6 63 0 75 4 75 4 76 6 74 0 83 5 61 4 75 78 8 63 4 87 0 49 9 95 7 35 4 76 2 62 1 84 1 48 7 92 4 34 2 73 2 60 6 80 7 47 2 885 32 9 69 6 58 9 76 7 45 6 842 31 4 2500 80 79 3 74 3 87 2 61 1 95 8 46 8 76 8 73 1 84 2 59 7 92 5 45 6 73 9 71 6 80 8 58 2 88 7 44 2 70 5 70 0 76 9 56 4 84 4 42 6 85 81 7 81 7 87 4 71 8 96 0 58 1 79 6 796 84 5 70 5 92 7 56 8 77 0 77 0 81 0 69 0 88 9 55 4 73 9 73 9 77 2 67 3 84 6 53 9 90 85 9 85 9 87 9 82 8 96 0 69 0 83 7 83 7 85 2 815 92 7 607 7 80 9 80 9 81 9 80 0 89 0 66 2 77 8 77 8 77 8 77 8 84 8 64 5 75 80 1 66 1 88 3 51 5 97 0 36 0 7
86. 5 18 0 33 5 12 4 5692 27 31 5 29 3 34 6 24 0 38 1 18 5 30 3 28 7 33 4 23 5 36 7 17 9 29 2 28 1 32 0 23 0 35 2 17 4 27 9 27 5 30 6 22 3 33 7 16 8 29 32 3 32 3 34 7 28 3 38 1 22 9 31 4 31 4 33 4 27 7 36 8 22 3 30 3 30 3 32 1 27 1 35 3 21 8 29 3 29 3 30 7 26 5 33 8 21 3 32 34 0 34 0 34 9 32 6 38 2 27 2 33 0 33 0 33 7 32 0 36 8 26 6 31 9 31 9 32 4 31 4 35 3 26 1 30 9 30 9 31 1 30 9 33 8 25 5 24 31 8 26 0 35 1 20 3 38 5 14 2 30 6 25 4 33 7 19 7 37 0 13 7 29 3 24 8 32 4 19 2 35 5 13 2 280 24 1 30 9 18 6 33 9 12 6 6244 27 32 1 30 6 35 2 25 0 38 6 19 0 30 9 30 1 33 8 24 4 37 1 18 5 29 7 295 32 4 23 8 35 6 17 9 28 4 28 4 31 0 23 2 34 1 17 4 29 33 2 33 2 35 2 29 5 38 7 23 7 322 322 33 9 28 9 37 2 23 2 31 2 31 2 32 6 28 4 35 8 22 7 30 0 30 0 31 2 27 8 342 22 1 32 35 0 35 0 35 6 34 2 38 7 28 3 33 9 33 9 34 3 33 7 37 3 27 8 32 8 32 8 32 8 32 8 35 8 27 2 31 7 31 7 31 7 31 7 343 26 6 24 32 2 27 0 35 5 20 9 38 9 14 4 31 0 26 4 34 2 20 3 37 4 13 9 29 7 25 7 32 8 19 8 35 8 13 3 284 25 1 31 3 19 2 342 12 8 6796 27 32 6 320 35 6 25 8 39 0 19 5 31 5 31 4 34 2 25 2 37 5 19 0 30 2 30 2 32 8 24 6 36 0 18 4 29 1 29 1 31 4 24 0 344 17 9 29 34 0 34 0 35 7 30 7 39 1 24 6 33 0 33 0 34 4 30 2 37 7 24 1 31 9 31 9 33 0 29 6 36 1 23 5 30 7 30 7 31 6 29 0 34 5 22 8 32 35 8 35 8 36 2 35 8 39 2 29 5 347 347 34 8 34 8 37 7 28 9 33 6 33 6 33 6 33 6 36 2 28 3 32 4 32 4 32 4 32 4 34 6 27 7 Equal TGC and SHC values constitute dry coil condit
87. 5 ft 7 6 m of interconnecting refrigerant lines SS PRC003 EN SS PRC003 EN General Data e TRANE Table GD 3 General Data TWEO50A TWEO75A TWE100A TWE100B System Data No Refrigerant Circuits 1 1 1 2 Suction Line in mm OD 1 120 28 4 1 380 35 0 1 380 35 0 1 380 35 0 Liquid Line in mm OD 0 38 9 7 0 50 12 7 0 50 12 7 0 50 12 7 Indoor Coil Type Plate Fin Plate Fin Plate Fin Plate Fin Tube Size in mm OD 0 375 9 5 0 375 9 5 0 375 9 5 0 375 9 5 Face Area sq ft m 5 00 47 8 07 75 11 18 1 0 11 18 1 0 Rows 3 3 4 4 Fins Per Inch 12 12 12 12 Refrigerant Control Expansion Valve Expansion Valve ExpansionValve Expansion Valve Drain Connection No 4 4 4 4 Drain Connection Size mm 0 75 19 0 0 75 19 0 0 75 19 0 0 75 19 0 Drain ConnectionType PVC PVC PVC PVC Indoor Fan Type FC Centrifugal FC Centrifugal FC Centrifugal FC Centrifugal No Used 1 1 1 1 Diameter in mm 12 0 304 8 15 0 381 15 0 381 15 0 381 Width in mm 12 0 304 8 15 0 381 15 0 381 15 0 381 DriveType Belt Belt Belt Belt No Speeds 1 1 1 1 m3 h 1670 2837 2500 4247 3325 5649 3325 5649 No Motors 1 1 1 1 Motor HP kW Standard Oversized 0 75 1 0 55 74 1 0 1 5 74 1 11 1 5 2 0 1 11 1 49 1 5 2 0 1 11 1 49 Motor RPM Standard 1425 1425 1425 1425 Motor Frame Size Standard 56 56 56 56 Filters Type Throwaway Throwaway Throwaway Throwaway Furnished Yes Yes Yes Yes No 1 1 3 4 4 Reco
88. 57 115 Cap Btuh 1000 76 0 84 1 92 8 101 8 111 1 120 8 OD Unit KW 10 80 11 04 11 28 11 54 11 79 12 05 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 19 Cooling Performance kW TTA100A Condensing Unit Only SI ODTemp Suction Reference Temperature C C 1 1 17 4 4 72 10 0 12 8 Head pressure kPA 1146 1187 1230 1276 1326 1378 18 3 Capacity kW 29 8 32 8 35 9 39 2 42 6 46 1 OD Unit Power kW 6 30 6 46 6 63 6 81 701 722 Head pressure kPA 1316 1358 1402 1450 1501 1556 23 9 Capacity kW 28 4 31 3 34 2 37 4 40 6 44 0 OD Unit Power kW 6 95 712 730 750 77 794 Head pressure kPA 1502 1546 1593 1643 1696 1753 29 4 Capacity kW 270 29 7 32 5 35 5 38 6 41 9 OD Unit Power kW 773 791 8 11 8 32 8 55 8 79 Head pressure kPA 1707 1753 1802 1854 1910 1969 35 0 Capacity KW 25 5 28 1 30 8 33 6 36 6 39 7 OD Unit Power kW 8 64 8 83 9 04 9 27 9 50 9 75 Head pressure kPA 1929 1977 2030 2085 2144 2205 40 6 Capacity kW 23 9 26 4 29 0 317 34 6 376 OD Unit Power kW 9 66 9 87 10 10 10 34 10 59 10 84 Head pressure kPA 2169 2221 2277 2335 2397 2461 46 1 Capacity kW 222 24 6 272 29 8 32 5 35 4 OD Unit Power kW 10 80 11 04 11 28 11 54 11 79 12 05 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 32 SS PRC003 EN SS PRC003 EN Performance Data e TRANE Table PD 20 Cooling Performance MBh TTA100B Condensing Unit On
89. 6 0 27 4 23 3 30 2 18 8 25 1 25 1 26 4 22 8 29 1 18 4 24 3 24 3 25 3 22 3 27 8 17 8 32 28 2 28 2 28 7 27 5 31 4 22 8 274 27 4 27 8 27 0 30 3 22 4 26 5 26 5 26 8 26 6 29 1 21 9 256 25 6 25 7 25 7 27 9 21 5 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 16 SS PRC003 EN e TRANE Performance Data Table PD 4 Gross Cooling Capacities MBh TTA085A Condensing Unit with TWE100A Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 877 68 7 97 0 57 2 107 1 39 2 845 67 1 93 5 55 8 103 1 37 9 81 1 65 4 89 8 54 3 98 9 36 4 77 6 63 7 86 0 52 7 94 6 35 0 2500 80 88 0 80 1 97 3 66 3 107 2 51 4 84 9 78 5 93 8 64 8 103 4 49 9 81 6 76 9 90 1 63 2 99 3 48 4 78 2 75 1 86 1 61 3 95 1 46 9 85 89 8 89 8 97 5 77 6 107 6 63 2 87 2 87 2 94 0 76 0 103 7 61 7 84 4 84 4 90 3 74 3 99 7 60 2 81 5 81 5 86 5 72 7 95 5 58 7 90 94 4 94 4 97 9 89 0 107 8 74 9 91 7 91 7 94 4 87 4 103 9 73 5
90. 6 189 5 211 4 153 4 232 3 117 0 185 4 185 3 202 1 149 2 221 9 113 2 85 216 3 216 3 230 4 190 6 253 1 154 7 209 6 209 6 221 6 186 6 243 5 151 1 202 4 202 4 212 6 182 6 232 8 146 5 195 0 195 0 203 3 178 4 222 5 142 3 90 227 5 227 5 232 3 220 2 253 6 183 3 220 6 220 6 224 0 216 4 244 0 179 4 213 3 213 3 215 4 212 5 234 1 175 5 205 7 205 7 205 9 205 9 223 9 171 4 75 211 1 175 1 232 2 136 8 254 0 94 7 202 8 171 0 223 1 133 1 243 7 91 2 194 2 166 7 213 7 129 3 233 2 87 5 185 3 162 3 203 0 124 3 222 2 83 7 7350 80 213 4 207 2 232 9 168 0 255 5 128 1 205 6 203 3 223 9 163 9 245 5 124 5 196 9 196 9 214 6 159 8 235 3 120 8 189 3 189 3 205 0 155 5 224 6 117 0 85 222 4 222 4 234 0 199 5 256 7 161 0 215 4 215 4 225 1 195 5 246 1 156 2 208 0 208 0 216 0 191 4 236 0 152 2 200 3 200 3 206 5 187 2 225 5 148 0 90 234 1 234 1 236 9 231 9 257 3 191 6 226 8 226 8 228 5 228 1 247 5 187 7 219 2 219 2 219 5 219 5 237 3 183 6 211 3 211 3 211 5 211 5 226 9 179 5 75 214 1 181 9 235 2 141 1 256 7 96 2 205 6 177 7 225 8 137 3 246 2 92 5 196 8 173 4 215 4 132 3 235 3 88 7 187 8 168 9 205 5 127 9 224 1 84 8 8025 80 217 3 216 7 236 0 174 2 258 5 131 8 208 9 208 9 226 8 170 1 248 3 128 1 201 4 201 4 217 3 165 8 237 8 124 4 193 6 193 6 207 5 161 5 226 9 120 6 85 227 9 227 9 237 3 208 1 259 2 165 7 220 6 220 6 228 3 204 1 249 1 161 8 212 9 212 9 218 9 200 0 238 7 157 7 204 9 204 9 209 4 195 7 228 0 153 4 90 239 9 239 9 240 1 240 1 260 5 199 6 232 4 232 4 232 6 232
91. 6 250 4 195 6 224 5 224 5 224 7 224 7 240 1 191 5 216 3 216 3 216 5 216 5 229 4 187 3 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 15 Gross Cooling Capacities MBh TTA200B Condensing Unit with TWE200B Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 194 228 16 1 194 228 16 1 194 228 16 1 194 228 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 596 47 0 657 39 3 723 268 573 458 63 2 383 695 258 549 44 6 60 6 373 66 5 24 8 52 5 434 57 9 362 634 237 10194 27 599 548 65 9 45 3 72 5 35 2 577 53 7 63 4 44 2 69 8 34 1 55 4 52 5 60 8 43 0 67 0 33 1 53 0 51 3 58 1 41 8 64 0 32 0 29 613 61 3 66 2 53 1 72 8 43 3 59 4 59 4 63 7 51 9 70 1 42 3 57 4 57 4 61 1 50 8 67 3 41 2 55 3 55 3 58 5 49 6 64 3 40 2 32 64 4 64 4 66 6 61 0 72 9 51 1 62 5 62 5 64 2 59 8 70 2 50 0 60 5 60 5 61 7 58 7 67 4 48 9 58 3 58 3 59 1 57 5 64 5 47 7 24 60 8 49 2 67 0 38 7 73 5 27 2 58 4 48 0 64 4 37 7 70 5 26 21 560 46 8 61 7 36 6 67 5 25 2 53 4 45 5 58 9 35 4 64 3 2
92. 6 49 5 47 3 53 9 39 3 46 9 46 9 47 5 46 4 51 6 38 3 45 1 45 1 45 1 45 1 49 1 37 3 9345 24 46 6 38 3 51 3 30 1 56 0 20 9 45 0 37 5 49 4 29 3 53 8 20 1 43 0 36 5 47 2 28 4 51 3 19 3 40 8 35 4 44 6 27 1 48 6 18 3 27 47 1 45 3 51 4 36 8 56 3 28 1 45 5 445 49 6 35 9 54 2 27 4 43 6 43 5 47 4 35 0 51 8 26 5 41 6 41 6 45 0 33 9 49 2 25 6 29 49 0 49 0 51 7 43 6 56 5 35 1 47 5 47 5 49 8 42 8 54 3 34 2 45 8 45 8 47 7 41 8 52 0 33 3 43 9 43 9 45 3 40 7 49 4 322 32 51 5 51 5 52 2 50 6 56 8 41 9 50 0 50 0 50 4 49 8 54 7 41 0 48 2 48 2 48 3 48 3 52 3 40 1 46 2 46 2 46 3 46 3 49 7 39 0 10194 24 47 3 39 8 51 9 31 0 56 5 21 2 45 6 38 9 50 0 30 2 54 3 20 4 43 6 37 9 47 5 29 0 51 8 19 5 41 3 36 8 45 1 27 9 49 0 18 6 27 47 9 47 3 52 1 38 1 57 0 28 9 461 46 1 50 2 37 2 54 8 28 2 444 44 4 48 0 36 2 52 3 27 3 42 5 425 45 5 35 1 49 7 26 3 29 50 2 50 2 52 4 45 4 57 2 36 3 48 6 48 6 50 5 44 6 55 0 35 4 46 9 46 9 48 3 43 6 526 34 4 44 9 44 9 45 9 42 5 50 0 33 4 32 52 8 528 53 1 53 0 57 5 43 6 51 2 512 51 2 51 2 55 3 427 493 49 3 49 4 49 4 52 9 41 7 47 3 47 3 47 3 47 3 50 3 40 7 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensi
93. 61 5 114 5 42 4 3350 80 107 5 99 9 118 3 82 1 130 0 63 0 103 7 98 0 113 9 80 3 125 2 61 2 99 6 96 0 109 4 78 4 120 2 59 4 95 4 93 9 104 5 76 0 115 0 57 5 85 110 4 110 4 118 4 96 5 130 3 78 1 107 1 107 1 114 1 94 6 125 5 76 3 103 7 103 7 109 6 92 6 120 6 74 5 100 0 100 0 104 9 90 5 115 4 72 6 90 116 1 116 1 119 2 111 2 130 5 93 1 112 7 112 7 115 0 109 3 125 6 90 9 109 1 109 1 110 7 107 4 120 7 89 0 105 4 105 4 106 3 105 4 115 6 87 0 75 108 6 88 8 119 7 69 3 131 5 48 5 104 5 86 8 115 2 67 4 126 5 46 8 100 2 84 7 110 6 65 5 121 2 44 9 95 6 82 4 105 7 63 5 115 8 43 0 3675 80 109 5 104 7 120 1 85 4 131 7 64 8 105 6 102 7 115 4 83 2 126 8 63 1 101 6 100 7 110 8 81 2 121 7 61 2 97 0 97 0 105 9 79 1 116 4 59 3 85 113 5 113 5 120 3 100 8 132 1 81 1 110 1 110 1 115 8 98 8 127 2 79 3 106 4 106 4 111 2 96 8 122 1 77 5 102 6 102 6 106 5 94 8 116 8 75 6 90 119 4 119 4 121 4 116 8 132 2 96 8 115 8 115 8 117 2 114 9 127 3 94 9 112 1 112 1 112 2 112 2 122 3 92 9 108 2 108 2 108 3 108 3 117 0 90 9 75 110 1 92 1 121 2 71 3 132 9 49 2 105 9 90 0 116 6 69 4 127 8 47 4 101 5 87 9 111 9 67 5 122 4 45 5 96 9 85 7 106 9 65 6 116 8 43 6 4000 80 111 4 109 2 121 4 88 2 133 2 66 6 107 5 107 3 116 9 86 2 128 2 64 8 103 1 103 1 112 1 84 2 123 0 63 0 99 3 99 3 107 2 82 0 117 6 61 1 85 116 3 116 3 121 9 105 0 133 6 84 0 112 7 112 7 117 4 103 0 128 6 82 2 108 9 108 9 112 7 101 0 123 4 80 4 105 0 105 0 107 9 98 9 117 8 78 0 90 122 3 122 3 123 5 122 3 133 8 100 7 11
94. 61 8 OD Unit KW 9 73 9 97 10 22 10 48 10 75 11 02 Head press PSIG 262 269 276 284 292 300 95 Cap Btuh 1000 99 9 109 7 120 0 130 8 141 8 153 2 OD Unit KW 10 73 10 98 11 25 11 52 11 80 12 09 Head press PSIG 296 304 311 320 328 337 105 Cap Btuh 1000 94 0 103 2 113 0 123 1 133 6 144 5 OD Unit KW 11 83 12 09 12 37 12 66 12 95 13 26 Head press PSIG 334 341 349 358 367 376 115 Cap Btuh 1000 879 96 6 105 7 115 2 125 2 135 5 OD Unit KW 13 02 13 30 13 59 13 89 14 20 14 52 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 23 Cooling Performance kW 125 Condensing Unit Only SI ODTemp Suction Reference Temperature C C 1 1 17 44 72 10 0 12 8 Head pressure kPA 1205 1245 1287 1331 1377 1425 18 3 Capacity kW 34 1 375 41 0 44 6 48 3 52 1 OD Unit Power kW 8 04 8 25 8 47 8 70 8 95 9 20 Head pressure kPA 1387 1430 1474 1521 1571 1623 23 9 Capacity KW 32 6 35 8 39 1 42 5 46 1 49 8 OD Unit Power kW 8 83 9 06 9 29 9 53 9 79 10 06 Head pressure kPA 1587 1633 1681 1731 1783 1838 29 4 Capacity kW 30 9 34 0 372 40 4 43 9 474 OD Unit Power kW 9 73 9 97 10 22 10 48 10 75 11 02 Head pressure kPA 1806 1855 1905 1958 2013 2071 35 0 Capacity kW 29 2 32 1 35 2 38 3 41 5 44 9 OD Unit Power kW 10 73 10 98 1125 1152 11 80 12 09 Head pressure kPA 2044 2095 2148 2203 2261 2322 40 6 Capacity kW 275 30 2 33 1 36 0 39 1 42 3 OD Unit Power kW 11 83 12 09 12 37 12 66 12 95 13 26 He
95. 63 2 81 6 81 6 83 0 78 6 90 4 61 5 90 95 1 95 1 95 2 95 2 102 5 79 6 92 5 92 5 92 6 92 6 99 0 78 3 89 4 89 4 89 5 89 5 95 1 76 8 85 9 85 9 86 0 86 0 90 6 75 1 75 86 2 760 946 57 9 103 1 38 6 83 3 74 6 91 3 56 6 99 4 37 3 79 9 73 0 87 5 55 1 95 3 35 9 75 9 71 1 83 0 53 1 90 6 343 3450 80 88 0 88 0 947 72 5 103 3 53 7 85 5 85 5 91 5 71 1 99 7 52 5 82 5 82 5 87 7 69 5 95 7 51 1 79 0 79 0 83 4 67 7 91 1 49 5 85 927 92 7 95 1 87 2 103 4 68 6 901 90 1 92 0 85 9 99 8 67 2 86 9 86 9 88 3 84 3 95 8 65 7 83 4 83 4 84 2 82 5 91 3 64 0 90 97 4 97 4 97 4 97 4 103 6 83 2 946 94 6 94 7 94 7 100 0 81 9 91 4 91 4 91 5 91 5 96 0 80 4 87 8 87 8 87 9 87 9 91 5 78 7 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 2 Gross Cooling Capacities kW TTA075A Condensing Unit with TWE100A Air Handler SI AmbientTemperature C 294 35 0 40 6 46 1 Enter Dry Entering Wet Bulb C mh Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 23 9 240 19 4 26 5 16 2 29
96. 7 0 69 9 85 4 58 1 94 5 45 3 73 8 68 3 81 9 56 6 90 6 43 8 85 84 0 83 3 92 1 70 9 102 0 58 4 81 0 81 0 88 9 69 4 98 4 57 0 78 5 78 5 85 5 67 9 94 8 55 6 75 9 75 9 82 1 66 3 90 9 54 1 90 87 7 87 7 92 4 80 8 102 2 68 7 85 3 85 3 89 3 79 4 98 7 67 3 827 82 7 86 0 77 9 95 0 65 9 80 1 80 1 82 6 76 3 91 0 64 1 75 84 4 65 9 93 6 52 5 103 7 37 9 81 4 64 4 90 3 51 1 99 9 36 6 78 2 62 8 86 8 49 6 96 0 35 3 74 8 61 1 83 1 48 1 91 9 33 9 2500 80 84 8 76 7 93 9 63 8 103 7 49 6 81 9 75 2 90 6 62 3 100 0 48 2 78 8 73 7 86 9 60 6 96 2 46 8 75 6 72 1 83 3 59 0 92 2 45 3 85 86 4 86 4 94 1 74 4 104 0 60 9 83 9 83 9 90 8 72 9 100 4 59 5 81 3 81 3 87 3 71 4 96 5 58 1 78 6 78 6 83 7 69 8 92 6 56 6 90 90 9 90 9 94 5 85 3 104 3 72 1 88 4 88 4 91 3 83 9 100 4 70 4 85 7 85 7 88 0 82 4 96 7 68 9 82 9 82 9 84 5 80 8 92 7 67 3 75 85 9 68 6 95 2 54 2 105 2 38 7 82 8 67 0 91 8 52 8 101 4 37 3 79 5 65 4 88 2 51 3 97 3 36 0 76 1 63 7 84 4 49 8 93 1 34 5 2750 80 86 5 80 4 95 3 66 1 105 4 51 1 83 5 78 9 91 9 64 6 101 6 49 7 80 4 77 3 88 4 63 0 97 6 48 2 77 1 75 7 84 7 61 4 93 5 46 8 85 89 0 89 0 95 7 77 8 105 7 63 3 86 4 86 4 92 3 76 3 101 9 61 9 83 7 83 7 88 8 74 7 98 0 60 4 80 9 80 9 85 1 73 1 93 9 59 0 90 93 8 93 8 96 4 89 7 105 8 75 0 91 1 91 1 93 2 88 2 102 1 73 5 88 3 88 3 89 8 86 7 98 2 72 0 85 4 85 4 86 3 85 1 942 70 4 75 87 3 71 2 96 6 55 9 106 6 39 4 84 1 69 6 93 1 54 4 102 6 38 0 80 7 68 0 89 4 52 9 98 5 36 5 77 2 66 2 85 5 51 3 94 2 35 0 30
97. 7 20 BAYHTRL415A 14 96 1 24 25 BAYHTRL425A 24 92 2 37 40 BAYHTRL405A 5 00 1 12 15 BAYHTRL410A 9 96 1 18 20 BAYHTRL415A 14 96 TWEO075AD 1 25 25 BAYHTRL425A 24 92 2 38 40 BAYHTRL435A 34 88 2 51 60 BAYHTRL405A 5 00 1 12 15 BAYHTRL410A 9 96 1 19 20 BAYHTRL415A 14 96 TWE100AD TWE100BD 1 25 25 BAYHTRL425A 29 92 2 38 40 BAYHTRL435A 34 88 2 52 60 BAYHTRM410A 10 00 1 19 20 BAYHTRM420A 19 92 TWE155BD 1 32 35 BAYHTRM430A 29 92 2 46 50 BAYHTRM450A 49 84 2 72 80 BAYHTRM410A 10 00 1 23 25 BAYHTRM420A 19 92 TWE200BD 1 36 40 29 92 TWE200FD 2 49 50 BAYHTRM450A 49 84 2 76 80 1 kW ratings are at 400v for 3 phase 400v air handlers For other than rated voltage ampacity iae u x Rated Capacity and kW Voltage _ y Rated kW a Rated Voltage Rated Voltage 2 Any power supply and circuits must be wired and protected in accordance with local codes MCA and Maximum Fuse Size is based on 400V 3 Field wire must be rated at least 167 75 4 Field wire must be rated at least 194 F 90 C 50 SS PRC003 EN Wiring shown with dashed lines isto be furnished and installed by the customer All customer supplied wiring must be copper only and must conform to local electrical codes NOTE 1 When electric heater accessory is used single point power entry or dual point power entry is field optional Single point power entry option is through electric heater only TTA050 TWE050A Field Wiring A 3 power wires Li
98. 7 5 64 8 85 3 50 3 93 5 34 8 74 3 63 2 81 8 48 8 89 6 33 4 70 7 61 5 77 7 47 2 85 2 31 8 2750 80 80 9 78 0 88 4 63 4 97 1 48 2 78 3 76 7 85 5 62 1 93 7 47 0 75 3 75 2 81 9 60 5 89 8 45 6 71 9 71 9 77 9 58 8 85 4 44 0 85 84 1 84 1 88 7 75 1 97 3 60 4 81 8 81 8 85 7 73 8 93 9 59 1 79 0 79 0 82 3 72 2 90 0 57 7 75 8 75 8 78 3 70 5 85 5 55 9 90 88 4 88 4 89 6 87 1 97 4 72 0 86 0 86 0 86 8 85 8 94 0 70 7 83 1 83 1 83 2 83 2 90 1 69 2 79 8 79 8 79 9 79 9 85 8 67 5 75 81 3 68 6 89 5 53 1 98 0 36 5 78 5 67 3 86 4 51 9 94 5 35 2 75 3 65 7 82 7 50 4 90 5 33 8 71 6 63 9 78 6 48 7 85 9 322 3000 80 82 3 81 5 89 6 65 7 98 2 49 6 79 4 79 4 86 5 64 4 94 7 48 3 76 6 76 6 82 9 62 8 90 7 46 9 73 5 73 5 78 8 61 1 86 3 45 3 85 86 1 86 1 89 9 78 3 98 4 62 6 83 7 83 7 86 9 76 9 94 9 61 3 80 8 80 8 83 4 75 4 90 8 59 6 77 5 77 5 79 4 73 7 86 4 57 9 90 90 5 90 5 90 6 90 6 98 5 75 0 88 0 88 0 88 1 88 1 95 0 73 6 85 0 85 0 85 1 85 1 91 1 72 1 81 6 81 6 81 7 81 7 86 7 70 4 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 1 Gross Cooling Capacities kW TTA075A Condensing Unit with TW
99. 76 2 01 802 2 12 826 2 23 851 2 33 876 2 44 926 2 74 969 3 04 2 24 kW Standard 2 24 kW Standard 2 24 kW Standard 3 73 kW Oversized Mlotor Motor and Low Motor and Low Motor and Standard and High Static Drive System Static Drive System Static Drive System Il Drive System Notes 1 Performance based on a wet coil and 2 inch 51mm throwaway filters Table PD 37 Continued 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 1 5 turns open Adjustments are made in 0 5 turn increments 4 Low static drive components referencing this note are field supplied External Static Pressure Pascal 398 448 m hr RPM kW RPM kW 3 73 kW Oversized Motor and High Static Drive System 8835 944 2 05 989 2 33 9387 952 2 21 997 2 48 9939 961 2 36 1006 2 64 Table PD 38 Blower Speeds TWE200B E Motor SheaveTurns Open 10491 970 2 52 1015 2 8 Drive 6 5 4 3 2 1 0 11044 978 2 68 1023 2 95 Standard 706 732 758 784 811 837 Beg 21990 2 12148 994 2 99 Low Static 457 478 500 521 542 563 585 Low Static Il 574 595 617 638 659 680 702 jedes bres Fa High Static N A 821 862 903 945 986 1027 36 46 SS PRC003 EN e TRANE Performance Data Table PD 39 Discharge Plenum And Grille Assembly Throw Distance Air Handle ft m Unit Louver Angle Deflection Position Model No CAM m
100. 8 2 158 2 168 0 139 8 184 2 113 5 152 7 152 7 160 8 136 5 175 7 109 7 146 3 146 3 152 8 132 9 167 0 106 1 90 171 4 171 4 175 4 164 5 191 6 137 2 166 4 166 4 169 4 161 8 184 7 134 3 160 7 160 7 162 5 158 6 176 8 131 1 154 2 154 2 154 3 154 3 168 1 127 6 75 159 6 131 1 175 5 102 9 191 8 71 5 153 9 128 2 169 0 100 2 184 3 68 9 147 2 124 8 161 5 97 2 175 8 66 1 139 6 121 1 152 5 92 8 166 4 62 8 5500 80 161 1 154 8 176 1 125 8 193 0 96 4 155 6 152 0 169 7 122 9 185 7 93 7 149 3 148 7 162 3 119 6 177 5 90 7 142 1 142 1 154 0 115 9 168 5 87 5 85 167 6 167 6 177 0 149 2 193 4 120 0 162 6 162 6 170 6 146 2 186 2 117 1 156 8 156 8 163 2 142 9 178 1 113 8 150 2 150 2 155 1 139 3 169 2 110 2 90 176 3 176 3 178 7 173 0 194 5 143 2 171 1 171 1 172 6 170 2 187 3 140 3 165 0 165 0 165 2 165 2 179 2 137 1 158 2 158 2 158 4 158 4 170 4 133 5 75 161 9 136 0 177 8 106 1 193 8 72 7 156 0 133 1 171 1 103 3 186 1 70 0 149 1 129 7 162 8 99 2 177 4 66 9 141 4 125 9 154 3 95 4 167 8 63 6 6000 80 163 9 161 7 178 5 130 3 195 3 99 1 157 7 157 7 171 9 127 4 187 8 96 4 151 9 151 9 164 3 124 0 179 4 93 4 145 3 145 3 155 9 120 2 170 2 90 2 85 171 6 171 6 179 4 155 4 195 8 124 0 166 4 166 4 172 8 152 5 188 5 121 1 160 4 160 4 165 4 149 1 180 2 117 8 153 5 153 5 157 1 145 5 171 1 114 1 90 180 6 180 6 181 9 181 2 196 9 149 0 175 2 175 2 175 3 175 3 189 5 146 1 168 9 168 9 169 0 169 0 181 3 142 8 161 9 161 9 162 0 162 0 172 3 139 2 Equal TGC and SHC values co
101. 8 2 38 2 38 3 38 3 41 7 31 7 36 8 36 8 36 9 36 9 39 8 30 9 24 377 317 414 247 45 1 169 36 3 31 0 39 8 24 0 434 16 3 34 8 30 2 38 0 23 1 41 5 15 6 331 29 4 36 2 22 3 39 4 149 7900 27 38 1 37 6 41 5 30 3 45 4 23 0 36 7 36 7 40 0 29 6 43 7 22 4 35 4 35 4 38 3 28 9 41 9 21 8 340 34 0 36 5 28 1 39 9 21 1 29 39 9 39 9 417 36 2 45 6 28 9 38 7 38 7 40 2 35 5 43 8 28 2 37 3 37 3 38 5 34 7 42 0 27 4 35 9 35 9 36 8 34 0 40 1 26 7 32 42 0 42 0 42 2 42 2 45 8 347 407 40 7 40 7 40 7 44 1 34 0 39 3 39 3 39 4 39 4 42 2 33 3 37 8 37 8 37 9 37 9 40 3 32 5 24 38 2 330 41 8 25 3 45 6 17 2 36 8 32 3 40 2 246 43 8 16 5 35 2 31 5 38 5 23 8 41 8 15 8 33 6 30 7 36 6 23 0 39 8 15 1 8665 27 38 8 38 8 42 1 31 5 46 0 23 8 37 6 37 6 40 5 30 8 44 2 23 1 36 2 36 2 38 8 30 1 42 3 22 5 348 348 37 0 29 3 40 3 21 8 29 40 9 40 9 42 3 37 8 46 1 29 9 39 6 39 6 40 7 37 1 44 4 29 2 38 2 38 2 39 0 36 4 42 5 28 5 367 36 7 37 3 35 6 40 5 27 7 32 43 0 43 0 43 1 43 1 46 3 36 2 41 7 41 7 41 8 41 8 44 6 35 5 40 3 40 3 40 3 40 3 42 7 34 8 38 7 38 7 38 8 38 8 40 7 340 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity SS PRC003 EN 2
102. 8 6 118 6 118 7 118 7 128 8 98 7 114 7 114 7 114 8 114 8 123 7 96 8 110 7 110 7 110 8 110 8 118 3 94 7 Equal TGC and SHC values constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 5 Gross Cooling Capacities kW TTA100A Condensing Unit with TWE100A Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 194 228 16 1 194 228 16 1 194 228 16 1 194 228 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 307 239 33 9 20 1 374 137 295 23 3 327 196 36 0 13 2 283 227 314 19 0 346 127 27 22 1 30 0 185 33 1 12 2 5139 27 308 27 8 340 230 374 17 9 297 27 3 32 8 22 5 36 1 17 4 28 5 26 7 31 5 22 0 34 6 16 8 27 3 26 1 30 1 21 4 33 2 163 29 31 3 31 3 34 0 26 9 37 5 21 9 30 4 30 4 32 8 26 4 36 2 21 4 29 4 29 4 31 5 25 8 34 7 20 9 28 4 28 4 30 2 25 2 33 3 20 3 32 32 9 32 9 34 2 30 9 37 6 26 0 31 9 31 9 33 0 30 3 36 2 25 5 30 9 30 9 31 8 29 8 34 8 24 9 29 9 29 9 305 29 2 33 3 24 3 24 31 3 25 0 34 5 19 7 38 0 13 9 301 244 33 3 19 1 36 6 13 5 28 9 23 8 31 9 18 6 35 1 12 9 27 6 23 1 30
103. 8 8 1 2 1375 34 9 1125 28 58 0 500 12 7 0 375 9 53 Plate Fin Plate Fin 0 375 9 5 0 375 9 5 24 0 2 23 24 0 223 2 2 20 20 Propeller Propeller 1 1 28 00 7112 28 00 7112 Direct Direct 1 1 8120 13795 0 8120 13795 0 1 1 0 75 56 0 75 56 925 925 20 5 9 30 23 6 10 70 TTA 155B 166 000 48 60 166 000 48 60 160 000 46 85 4 18 4 33 2 Scroll 1 6 25 4 7 2875 8 8 2 1375 34 9 0 500 12 7 Plate Fin 0 375 9 5 33 33 3 0 2 20 Propeller 2 26 00 660 4 Direct 1 9400 15970 60 1 0 33 25 925 30 0 13 67 5 167 000 48 90 467 000 48 90 161000 47 4 6 7 4 28 2 Scroll 1 6 25 4 7 2875 8 8 1 1625 413 0 625 15 9 Plate Fin 0 375 9 5 33 33 3 1 2 20 Propeller 2 26 00 660 4 Direct 1 9400 15970 60 1 0 33 25 925 28 0 12 70 TTA200B 220 000 64 42 220 000 64 42 212 000 62 07 2122 48 56 2 Scroll 1 8 33 6 21 2875 8 8 2 1375 34 9 0 500 12 7 Plate Fin 0 375 9 5 50 2 4 66 2 18 Propeller 2 28 00 7112 Direct 1 18400 22766 60 2 0 75 56 925 39 5 17 92 TTA200F 220 000 64 42 220 000 64 42 212 000 62 07 20 72 4 81 2 Copeland Scroll 1 8 29 6 18 2900 92 1 1625 413 0 625 15 9 Plate Fin 0 375 9 5 52 9 4 91 2 18 Propeller 2 28 00 7112 Direct 1 12100 20558 2 0 75 56 925 413 8 7 R40A 1 Cooling Performance is rated at 95 F 35 C ambient 80 F 26 7 C e
104. 88 9 88 9 90 9 85 8 99 8 71 6 85 9 85 9 87 3 84 2 95 6 70 0 75 89 6 72 2 99 1 56 7 109 0 40 0 86 3 70 6 95 4 55 2 104 9 38 6 82 8 68 9 91 6 53 6 100 5 37 2 79 2 67 1 87 6 52 0 96 0 35 6 2800 80 90 2 84 8 99 4 69 7 109 3 53 3 87 0 83 2 95 5 67 8 105 3 51 8 83 7 81 6 91 7 66 2 101 1 50 3 80 2 79 9 87 8 64 4 96 7 48 7 85 93 1 93 1 99 5 81 9 109 6 66 3 90 4 90 4 95 9 80 3 105 6 64 8 874 87 4 92 1 78 6 101 5 63 3 84 4 84 4 88 2 76 9 97 1 61 7 90 98 0 98 0 100 2 94 6 109 7 78 8 95 1 95 1 96 7 93 0 105 7 77 2 92 1 92 1 93 1 91 4 101 6 75 6 89 0 89 0 89 1 89 1 97 3 73 9 75 91 2 75 5 100 7 58 8 110 5 40 8 87 8 73 9 96 9 57 3 106 2 39 4 84 2 72 1 93 0 55 7 101 8 37 9 80 5 70 3 88 9 54 1 97 2 36 3 3100 80 92 1 89 4 100 9 72 5 111 0 55 1 88 9 87 8 97 1 70 8 106 8 53 6 85 2 85 2 93 2 69 1 102 5 52 1 82 1 82 1 89 2 67 4 98 1 50 5 85 96 1 96 1 101 2 86 1 111 3 69 2 93 1 93 1 97 5 84 5 107 2 67 7 90 1 90 1 93 7 82 8 102 9 66 2 86 9 86 9 89 7 81 1 98 3 64 1 90 101 1 101 1 102 3 100 0 111 5 82 7 98 1 98 1 98 8 98 5 107 4 81 1 94 9 94 9 95 0 95 0 103 1 79 5 91 6 91 6 91 7 91 7 98 7 77 8 75 92 6 78 7 102 1 60 8 111 8 41 5 89 1 77 0 98 2 59 2 107 4 40 0 85 5 75 3 94 2 57 6 102 9 38 4 81 7 73 5 90 0 56 0 98 2 36 8 3400 80 93 9 93 8 102 3 75 4 112 4 56 8 90 5 90 5 98 5 73 7 108 1 55 3 87 4 87 4 94 5 72 0 103 7 53 8 84 1 84 1 90 3 70 2 99 2 522 85 98 6 98 6 102 7 90 1 112 8 72 0 95 6 95 6 99 0 88 5 108 3 70 1 924 92 4 95 0 86 8 104 0 68 5 89 0 89 0 9
105. 94 1536 1581 1628 1678 29 4 Capacity kW 26 2 28 9 318 34 8 379 41 1 OD Unit Power kW 735 760 788 8 19 8 52 8 89 Head pressure kPA 1663 1705 1750 1798 1848 1901 35 0 Capacity kW 24 8 274 30 2 33 0 36 0 39 1 OD Unit Power kW 8 16 8 42 8 71 9 03 9 37 9 75 Head pressure kPA 1889 1934 1983 2033 2087 2142 40 6 Capacity kW 23 4 25 9 28 5 31 3 34 1 371 OD Unit Power kW 9 08 9 34 9 64 9 96 10 31 10 68 Head pressure kPA 2134 2183 2234 2288 2344 2402 46 1 Capacity kW 21 9 24 3 26 8 29 5 322 34 9 OD Unit Power kW 10 10 10 37 10 66 10 98 11 33 11 70 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 33 e TRANE 34 Performance Data Table PD 21 Gross Cooling Capacities MBh Both Compressors I P TTA100C Condensing Unit Only ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 168 5 174 3 180 4 1870 193 9 201 2 65 Cap Btuh 1000 100 5 110 4 120 9 131 8 143 2 154 9 OD Unit KW 6 3 6 5 6 8 71 74 78 Head press PSIG 192 9 198 9 205 3 212 2 219 3 226 8 75 Cap Btuh 1000 95 7 105 3 115 5 126 0 136 9 148 0 OD Unit KW 6 9 71 74 78 8 1 8 5 Head press PSIG 219 7 226 1 232 9 240 1 2476 255 4 85 Cap Btuh 1000 90 8 100 1 109 9 120 0 130 5 141 1 OD Unit KW 76 79 82 85 8 8 92 Head press PSIG 249 5 256 3 263 4 270 9 278 7 286 8 95 Cap Btuh 1000 85 9 94 9 104 2 113 9 123 9 133 9 OD Unit KW 84 8 7 9 0 9 3 9 7 10 1 Head press PSIG 282 0
106. A LRA RA LRA Model No No Phase Ea Ea No Phase Ea Ea 75 1 3 11 2 94 9 1 1 1 6 4 0 TTAO85A 1 3 13 1 100 0 1 1 24 93 TTA100A 1 3 15 8 124 0 1 1 2 7 9 3 TTA100B 2 3 9 4 63 0 1 1 2 7 9 3 TTA125B 2 3 1 3 75 0 2 1 27 9 3 TTA155B 2 3 112 94 9 2 1 1 6 4 0 TTA155C 1 3 11 2 94 9 2 1 1 6 4 0 TTA200B 2 3 15 8 124 0 2 1 24 93 TTA200F 2 3 20 0 118 0 2 1 19 58 NOTE 1 Electrical characteristics reflect nameplate values and are calculated in accordance with UL and ARI specifications Table ED 3 Electrical Characteristics Motors Air Handler Standard Fan Motor Oversized Fan Motor Unit Amps Amps Model No Volts Phase RA LRA Phase RA LRA TWEO050 380 415 3 29 8 2 3 18 21 6 TWE075 380 415 3 3 8 19 7 3 4 0 275 TWE100 380 415 3 4 0 275 3 5 3 375 TWE155 380 415 3 4 5 36 2 3 6 9 39 2 TWE200 380 415 3 76 45 0 3 9 0 65 1 SS PRC003 EN Table ED 4 Unit Wiring Air Handler Minimum Maximum Fuse Unit Unit Operating Circuit Size or Maximum Model No Voltage Range Ampacity Circuit Breaker TWEO50 380 415 4 15 TWEO75 380 415 5 15 TWE100 380 415 5 15 TWE155 380 415 6 15 TWE200 380 415 10 15 49 e TRANE Electric Heat Data Table ED 5 Unit Wiring With Electric Heat Single Point Connection Air Handlers Heater Heater To Use Control Minimum Maximum Model No kW Rating with Unit Stages Circuit Ampacity Fuse Breaker Size BAYHTRL405A 5 00 1 Ti 15 BAYHTRL410A 9 96 TWEO50AD 1 1
107. E075A Air Handler SI AmbientTemperature C 29 4 35 0 40 6 46 1 Enter Dry Entering Wet Bulb C Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 226 177 250 149 276 10 2 21 9 174 242 146 266 98 210 169 232 142 255 9 5 200 165 22 1 137 243 9 0 3823 27 227 20 7 25 1 17 1 27 6 13 3 22 0 20 3 243 168 26 6 129 21 2 19 9 23 3 16 3 25 6 12 5 202 19 4 22 1 15 8 243 12 1 29 23 2 23 2 25 1 20 0 27 6 16 3 226 226 24 3 19 6 26 7 15 9 21 8 21 8 23 3 19 2 25 6 15 5 21 0 21 0 22 2 18 7 24 4 15 1 32 243 24 3 25 2 22 9 27 7 19 3 23 7 23 7 24 4 22 6 26 7 18 9 23 0 23 0 23 5 22 1 25 6 18 5 22 1 22 1 22 4 21 7 24 4 18 0 24 23 1 18 6 25 5 14 6 28 0 10 4 223 18 2 24 6 14 3 27 0 10 0 21 4 17 7 23 6 13 8 25 9 9 6 20 4 17 2 22 5 13 4 247 9 2 4248 27 23 2 21 8 25 5 17 9 28 0 13 7 225 21 4 247 17 5 27 1 13 3 21 6 21 0 23 7 17 0 26 0 12 9 207 20 5 22 5 16 5 24 7 12 5 29 23 9 23 9 25 6 21 0 28 1 17 0 23 3 23 3 24 7 20 6 27 1 16 6 22 5 22 5 23 7 20 2 26 0 16 2 216 21 6 22 6 19 7 24 8 15 8 32 25 2 25 2 25 8 24 2 28 1 20 2 245 24 5 24 9 23 9 27 2 19 8 23 7 23 7 24 0 23 4 26 1 19 4 22 8 22 8 22 8 22 8 24 8 18 9 24 235 19 3 25 9 15 1 28 4 10 5 22 7 19 0 25 0 14 7 27 4 10 2 21 8 18 5 23 9 14 3 26 2 9 8 20 7 18 0 22 8 13 8 249 9 3 4672 27 23 7 22 8 25 9 18 6 28 4 14 1 229 22 5 25 0 18 2 27 4 13 8 22 1 22 0 24 0
108. EN 47 e TRANE Performance Data Table PD 41 Auxiliary Electric Heat Capacity Air Handler No Stage 1 Stage 2 Total Unit Total of kW Btu kW Btu kW Btu Model No kW Stages Input Output Input Output Input Output 5 00 1 5 00 17065 5 00 17065 TWE050 075 100AD 9 96 1 9 96 33 993 9 96 33 993 TWE100BD 14 96 1 14 96 51 058 14 96 51 058 24 92 2 14 96 51 058 9 96 33 993 24 92 85 051 TWEO075 100AD TWE100BD 34 88 2 19 92 67 987 14 96 51 058 34 88 119 045 10 00 1 10 00 34 130 10 00 34 130 TWE155 200B 200E 19 92 1 19 92 67987 19 92 67987 29 92 2 19 92 67987 10 00 34 130 29 92 102 117 49 84 2 29 92 102 117 19 92 67987 49 84 170 104 Heaters are rated at 400v For other than rated voltage T Voltage 2 Voltage y Capacity 5 Voltage x Rated Capacity and kW Rated Voltage Rated kW 48 SS PRC003 EN Electrical Data e TRANE Table ED 1 Unit Wiring Condensing Units Minimum Maximum Fuse Size Unit Unit Operating Circuit or Maximum Circuit Model No Voltage Ampacity Breaker 75 380 415 15 6 25 5 380 415 19 1 25 TTA100A 380 415 22 5 35 TTA100B 380 415 23 9 30 TTA125B 380 415 28 1 35 TTA155B 380 415 284 35 TTA155C 380 415 284 35 TTA200B 380 415 41 0 50 TTA200F 380 415 48 8 60 Table ED 2 Electrical Characteristics Motors Condensing Units Compressor Motor Condenser Fan Motor Amps Amps Unit RL
109. ERENCES LEAD COLOR IS BK BR ON TTAI80 240BW MODELS BK YL ON TTAI80B3 MODELS AND BK RD ON ALL OTHER MODELS 14 UNIT MODELS WITH A R T U OR W IN THE IOTH DIGIT SEE UNIT NAMEPLATE ALL USE A RELIATEL MODULE RTRM SEE PRODUCT LITERATURE FOR EXPLANATION OF IOTH DIGIT MODEL DESIGNATOR DEVICE DESCRIPTION LINE CC COMPRESSOR CONTACTOR 5 12 ELS dort rO su TTAI55BD TTAI80B3 2 m DR TTAI80B4 FTE FAN TERMINAL BOARD ATI TTAIS80BW SIE HEAT RELAYS 3138 TTAI80BK HPCO HIGH PRESSURE CUTOUT 44 49 T T A 2 0 0 B D FT TTA240B4 PATE AFRIGERETIG ROLE TTA2408W TNSA CONTROL POWER TRANSFORMER 25 TTA240BK PRINTED FROM D757521P01 56 SS PRC003 EN e TRANE Typical Wiring LINE VOLTAGE USE 60 C WIRE HTB 4 3 CCB 3 4 BLACK BLACK 38 BK 26 BL Condensing Unit Dual Compressor 1 9A B BK QACBK Typical wiring diagram For specific wiring see wire diagram manual on o BALBL BABL 2 3 8K RD BK RD 18 80 1A BtRDY line s s BLACK BK RO NOTE 13 t 98 8 nem BK n saer eis 6A B BK 6ACBK 3 B 2A BLY si SALBL I mD pe iA EOD AARD 1 I ae
110. ERTICAL DRAIN ia f S IsoLATORS SPRING OR RUBBER Typical Vertical Air Handler Application SS PRC003 EN SS PRC003 EN Selection Procedure e TRANE Cooling Capacity Step 1 Calculate the buildings total and sensible cooling loads at design conditions Use the Trane calculation form or any other standard accepted method Step 2 Size the equipment usingTable PD 1 Match the cooling loads at design conditions Example The following are the building cooling requirements a Electrical Characteristics 380 415 50 3 b Summer Design Conditions Entering Evaporator Coil 80 DB 67 WB 27 DB 19WB C Outdoor Ambient 95 F 35 C c Total Cooling Load 75 MBh 22 kW d Sensible Cooling Load 53 MBh 15 5 kW e Airflow 3000 cfm 5097 m h External Static Pressure 0 77 in 192 5 Pa Table PD 1 shows that aTTA075A matched with a TWE075A has a gross cooling capacity of 86 5 MBh 25 3 kW and 64 4 MBh 18 8 kW sensible capacity at 95 DB 35 C ambient and 3000 cfm 5097 m h and 80 DB 67 WB 27 DB 19 WB air entering the evaporator To find the net cooling capacities fan motor heat must be subtracted Determine the total unit static pressure In Pa External Static 0 77 193 Standard Filter 0 10 25 Supplementary Electric Heat 023 57 Total Static Pressure 1 10 275 Note The Evaporator Fan Performance Table has included the effect of a 1 in 250 Pa filter already Therefore
111. G DIAGRAMS THE UNIT NAMEPLATE STAMPING TORY WIRED FOR 208 230 VOLT POWER IN PRODUCT FIELD CONNECTIONS N THE 8TH DIGIT ON UNIT IS FAC FOR MOTOR PER DIAGRAM PROVIDED ON MODELS DIGIT ON THE UNIT N WARNING HAZARDOUS VOLTAGE DISCONNECT ALL ELEC TRIC POWER INCLUDING REMOTE DISCONNECTS BEFORE SERVICING FAILURE TO DISCON NECT POWER BEFORE SERVICING CAN CAUSE SEVERE PERSONAL INJURY OR DEATH AVERTISSEMENT VOLTAGE HASARDEUX DECON NECTEZ TOUTES LES SOURCES ELECTRIQUES INCLUANT LES DISJONCTEURS SITUES A DIS TANCE AVANT D EFFECTUER L ENTRETIEN FAUTE DE DECON NECTER LA SOURCE ELECTRIQUE AVANT D EFFECTUER L ENTRE TIEN PEUT ENTRAINER DES BLESSURES CORPORELLES SEVERES OU LA MORT N CAUTION USE COPPER CONDUC TORS ONLY UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF CON DUCTORS FAILURE TO DO SO MAY CAUSE DAMAGE TO THE EQUIPMENT DEVICE DESCRIPTION LINE L NE VOLTAGE F FAN CONTACTOR COIL 1 777 EVAP DEFROST CONTROL 12 I I 10L INTERNAL OVERLOAD 4 peer EP 6 16 E 4 wr 4 i i 3 77 I 1 2 s w 3 1 1 ld Fe Ec IA RD 3 I r O bg 2 4 I z I 3A BK 9 0 4 6 R F 47A BK A B BL F 3 1 B olo B BL ACT 8 T F 4 9 P 37A BR Lo 368 BL 4 g TER oc L 1 HEATER INTERLOCK 10 36A BL L N
112. IN POUNDS FORCE KILOGRAMS TOP DISCHARGE AREA SHOULD BE UNRESTRICTED FOR 100 2540 mm 51 1 8 MINIMUM UNIT SHOULD BE PLACED 1299mm 50 ROOF RUN OFF WATER DOES NOT POUR DIRECTLY ON UNIT 3 CONTROL ACCESS 38 37 41 984mm COMPRESSORS PRESSURE TAPS 1 374 nia HOLE AND SERVICE VALVE ACCESS 44 5mm HIGH VOLTAGE 7 8 22 2mm DIA CCONTROL WIRING 1 1 4 DIA LIFTING HOLE 31 8mm lt 4 PLACES gt 1 DIA KNOCKOUT ENTRY FOR 25 4 mm HOT GAS BYPASS OPTIONAL ACCESSDRY DISCHARGE LINE CLEARANCE m PERIMETER a NOTE 1 gt Z 50 8mm DIAMETER HOLE gt CSUCTION ENTRY DIA HOLE 22 2mm lt LIQUID ENTRY FOOTPRINT X BDLT DOWN PATTERN 7 16 11 1mnmDIA ISOLATOR MOUNTING HOLES INSIDE HOLES 4 PLACES 1067mm RECOMMENDED SERVICE CLEARANCE 60 SS PRC003 EN e TRANE Dimensional Data Figure DD 4 TTA100B and TTA125B Condensing Units All dimensions are in inches and millimeters TOP DISCHARGE AREA SHOULD BE UNRESTRICTED FOR 100 2540mm MINIMUM UNIT SHOULD BE PLACED SD ROOF RUN DFF WATER DOES NOT POUR DIRECTLY ON UNIT ONTROL ACCESS OMPRESSOR PRESSURE TAPS AND SERVICE VALVE ACCESS GOTPRINT P d lt BOLT DOWN PATTERN E d 271 124 DIA LIFTING HOLE k ATS 4 PLACES 298 P d 2 4 d mm s RECOMMENDED SERVICE mee ka 3 16 ilimm DIA 16 Amm a ot ISOLATOR MOUNTING s HOLE DUTSIDE
113. L RETURN Model No L N P R T X 2 TWEOb0A 34 5 8 35 5 8 12 1 4 32 1 4 12 1 2 7 5 8 2 879 48 904 88 311 15 819 15 31750 193 68 50 80 TWEO75A 36 7 8 45 1 8 16 1 8 41 3 4 16 1 4 6 7 8 1 3 4 936 63 168 28 1146 18 409 58 1060 45 412 75 174 63 44 45 TWE100A 1008 36 7 8 61 1 8 16 1 8 57 3 4 16 1 4 6 7 8 1 3 4 936 63 168 28 1552 58 409 58 1466 85 412 75 174 63 44 45 68 SS PRC003 EN Figure DD 12 TWE155B and 200B Air Handlers e TRANE Dimensional Data All dimensions are in inches and millimeters VERTICAL VERTICAL RETURN SS PRC003 EN DRAIN CONNECTION FOR HORIZONTAL CONFIGURATION SEE NOTE 2 amp 3 7 8 HORIZONTAL RETURN vay FOR FILTER REMOVAL BOTH ENDS 16a DUCT 408 6mm OPENING OUTSIDE E B 54 1 4 1393 8mm DUCT OPENING OUTSIDE DUCT FLANGE DIA KNOCKOUT 22 2mM HEATER CONTROL AND SINGLE POWER ENTRY WIRES gt gt gt DIA BUSHING 22 2mm OW VOLTAGE ENTRANCE uz PANEL DEPTH mm ALL PANELS SEE NOTE 1 DIA KNOCKOUT HIGH VOLTAGE ENTRANCE 18 22 2mm 1 2 KNOCKOUT FOR COPPER 127 LIQUID LINE FIELD CONNECTION BOTH ENDS 130 KNOCKOUT FOR 0 0 COPPER 349m
114. NGE PRINTED FROM D757527P01 SS PRC003 EN Condensing Unit Single Compressor Typical wiring diagram For specific wiring see wire diagram manual on line SS PRC003 EN Typical Wiring e TRANE SEE UNIT NAMEPLATE FOR AV WARNING AAVERTISSEMENT _ CINE VOLTAGE HAZARDOUS VOLTAGE VOLTAGE HASARDEUX DISCONNECT ALL ELECTRIC POWER OECONNECTEZ TOUTES LES SOURCES EE I INCLUDING REMOTE DISCONNECTS ELECTRIQUES INCLUANT LES BEFORE SERVICING DISJONCTUERS SITUES A DISTANCE L i F R T TP R AVANT D EFFECTUER L ENTRETIEN T DA UE CEU E Q Cs S FAUTE DE DECONNECTER LA SOURCE 9 ELECTRIQUE AVANT D EFFECTUER SEVERE PERSONAL INJURY OR DEATH ELECTRIQUE AVANT D WoW I BLESSURES CORPORELLES SEVERES LLE OU LA MORT i l ANCAUTION USE COPPER CONDUCTORS ONLY UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT OTHER TYPES OF CONDUCTORS FAILURE TO DO SO MAY CAUSE l DAMAGE TO THE EQUIPMENT 1o BLACK zace NC o 4A B BK 4 3 rm of fo SACBL
115. O SACBLO 2 u F BCcRDO 3ACRDO d i 20 o 34 um BLACK AAA BK ROCNOTE 2 lt cur 1 C8 4 1FCRD 9 K RDCNOTE 2 FTBA INSERT B 20 1 LLLI 2ACBK 2A BK a LALR DE IACRD 230v 9COM lt a 3 PT wg FU 44 wo BLACK BLACK CM 5 35D RD SYYYS 24 V v 35DtRD n 36C BL BL 36C BL oomcrd 5 5 n 8 EF Hi H2 8 20 s LTB a e 2 uu s cs 101B BL n dec racer YELLOW veLLOW CN 21 LTB R m 11 TACPRO 100F RD 116ACBLO Te O0D RD a50Aco LTB EF 100C RD H O 100G RD oo LTB HI jJ 151ACBRO ae 3 on 100J RD TB H ae H2 _152A BR 6 x gr J2 P2 utar 2 12 1018 C BL 4 MEAT 1 o 9 1228882 OUE DEL NO HEAT 2 2 120A BR 2s HI CONF IG C10 adl 24 vAc io io 1588 je zot sensor inputs AJ Teup s COMMON sme Aoa CI COOLING MEAT CONFIG 6 6 rn 3 conr ie CPR 101F HEATING config 4 a OLE EBL cur lt a SetPoint wON MEAT 101G BL R Me i rad tonii s E z ovr LSAB 101D F G BL El HEAT LED 4 H COOL LED ees lie Tem CN 25 R T on cosi i N25 BLACK BLACK LED comi LISACYL SERVICE PROVING LED LA J4 P4 12 use as 125A BK M
116. ONTROL ACCESS COMPRESSOR PRESSURE TAPS AND SERVICE VALVE ACCESS 1 3 4 DIAMETER HOLE 445mm HIGH VOLTAGE 778 DIAMETER HOLE S88 83mm CONTROL WIRING 1 1 4 LIFTING HOLES 4 375mm 4 PLACES Som SUCTION B e c 1 DIA KNOCKOUT ENTRY FOR RECOMMENDED SERVICE CLEARANCE TGAS BYPASS OPTIONAL HDTG O S 4MMACCESSORY DISCHARGE LINE 2 8 _ DIA HOLE 22 23mm LIQUID J 3 76 2mm OOTPRINT BOLT DOWN PATTERN 882 65mm mm CLEARANCE PERIMETE lt NOTE D 7 16 ISOLATOR MOUNTING HOLES 47 3mm iliimm OUTSIDE HOLES 4 PLACES 58 SS PRC003 EN e TRANE Dimensional Data Figure DD 2 TTA085A and 100A Condensing Units All dimensions are in inches and millimeters NOTES 1 MINIMUM CLEARANCE FOR PROPER OPERATION IS 36 914 4mm FROM WALLS SHRUBBERY PRIVACY APPROXIMATE CORNER WEIGHT MASS TOTAL TOTAL FENCES ETC MINIMUM CLEARANCE UNIT SHIPPING BETWEEN ADJACENT UNITS IS MODEL NO 1 2 3 4 WEIGHT WEIGHT 72 1828 8mm 8 ALL DIMENSIUNS ARE GIVEN TTAOBSA F 149 uos 116 t6s 78 los 100 les 399 lbs 443 tos TTALOOA F ALL MASSES WEIGHT ARE GIVE ALL MASSES WEIGHT IVEN 20 67 6 5 35 4 o 45 4 ko 180 9 amp g 200 9 o IN POUNDS FORCE KILUGRAMS TOP DISCHARGE AREA SHOULD BE UNRESTRICTED FOR 100 2540mm MINIMUM UNIT SHOULD BE PLACED SO ROOF RUN OFF WATER DOES NOT
117. PTH 2 REMOVABLE DRAIN PAN AND ATTACHED DRAIN CONNECTION MAY BE INSTALLED ON EITHER 4 OF UNIT IN EITHER THE VERTICAL OR HORIZONTAL CONFIGURATION PLASTIC DRAIN PAN ACCESS PLATE ON THE END OF UNIT OPPOSITE DRAIN CONNECTION MUST BE REMOVED TO SLIDE DRAIN PAN OUT OF UNIT FOR CLEANING ACCESS PLATE MUST BE RE INSTALLED AFTER SLIDING DRAIN PAN BACK INTO UNIT IF PERIODIC DRAIN PAN CLEANING IS REQUIRED ALLOW ROOM FOR PARTIAL REMOVAL OF PAN ON DRAIN CONNECTION END OF UNIT D D T VERTICAL VERTICAL HORIZONTAL HORIZONTAL VERTICAL RETURN HORIZONTAL RETURN HORIZONTAL RETURN VERTICAL RETURN Table DD 5 Air Handler Dimensions in mm Model No A B C D E F G H J K L M N P R TWE20E 7178 92 5 8 30 1 2 18 7 8 412 28 1 2 28 51 7 8 59 1 8 18 1 8 207 8 89 1 4 134 50 7 8 39 1 8 1826 2353 775 479 114 724 711 1318 1502 460 530 2267 45 1292 994 Table DD 5 Continued Model No S T U V Ww Y Z AA AB AC AD AE AF TWE200E 39 1 8 47 8 82 7 8 45 8 31 8 20 1 8 82 7 8 45 8 47 8 20 1 8 31 8 39 1 8 39 1 8 994 124 2105 118 79 511 2105 117 124 511 79 994 994 SS PRC003 EN 71 e TRANE Dimensional Data Figure DD 15 Electric Heater for TWE050 075 100 Air Handlers All dimensions are in inches and millimeters 12 1 8 DIA HOLES 5 8 TYP REMOVEABLE
118. T NOTES 1 LOW VOLTAGE WIRING MUST BE 18 AWG MINIMUM 2 MAXIMUM EXTERNAL LOW VOLTAGE LOAD 1 8 AMPS 24 V A C DOES NOT INCLUDE ACCESSORIES BUT DOES INCLUDE INDOOR BLOWER RELAY 3 SEE HEATER ACCESSORY DIAGRAM FOR DETAILS OF HEATER WIRING 4 CONNECTIONS SHOWN ARE FOR 230V 60 HZ 3 PH WHEN 208V 60 HZ 3 PH OPERATION IS REQUIRED REMOVE IE RD WIRE AT UNIT TRANSFORMER AND RECONNECT TO 208V TRANSFORMER TERMINAL 5 IF EVAPORATOR DEFROST CONTROL EDC IS N IN INDOOR UNIT REMOVE JUMPER WIRE ON CONDENSER LOW VOLTAGE BOARD BETWEE D US n TERMINALS R AND C 6 DO NOT JUMPER COMPRESSOR PROTECTION SWITCH CPS OR THE HIGH PRESSURE CUT OUT SWITCH HPCO 7 ON MODELS WITH RTRM BOARDS INSTALLER MUST MOVE EDC WIRES IF AIR HANDLER HAS AN EVAPORATOR DEFROST CONTROL FROM AIR HANDLER LOW VOLTAGE TERMINAL CONNECTIONS B2 AND Bi TO R AND CD 8 ALL COMPONENTS WITH PHANTOM LINES AROUND PERIMETER ARE FIELD INSTALLED ACCESSORIES EXCEPT FOR COMMUNICATION INTERFACE BOARD COMM WHICH MAY BE FACTORY INSTALLED ON SOME MODELS 9 IF ANY OF THE ORIGINAL WIRE AS SUPPLIED WITH THIS UNIT MUST BE REPLACED REPLACE WITH 600V 18 GAUGE WIRING MATERIAL RATED AT 105 C 10 CUT WIRE 120A TO ENABLE ELECTRIC HEAT ll CUT WIRE 110A TO CONFIGURE FOR TWO STAGES OF ELECTRIC HEAT 12 CONNECTIONS FOR THE 230V 60HZ 3 PH UNIT ARE SHOWN FOR 400V 460V AND 575V MODELS SEE TRANSFORMER CONNECTIONS IN INSERT A AND B 13 AT ALL NOTE 13 REF
119. UNRESTRCTED FOR 90 2290mm MINIMUM UNIT SHOULD BE PLACED SD ROOF RUN DFF WATER DOES NOT POUR DIRECTLY ON UNIT VIEW B E D S s il imm CLEARANCE PERIMETER NOTE 1 SERVICE ACCESS PANEL gt ea COMPRESSOR rre ae FOOTPRINT lt BOLT DOWN PATTERN 2 50 8mm DIA KNOCKOUTS FOR HEAD PRESSURE CONTROL ACCESSORY WIRING NOT APPLICABLE FOR ALL MODELS SEE ACCESSORY INSTALLER S GUIDE 3 1 8 79 4mm ro Au DIA CONTROL WIRING DIA POWER WIRING e DIA EXTRUDED HOLE S06 8mm SUCTION LINE ENTRY ISOLATOR MOUNTING HOLES OUTSIDE HOLE 4 PLACES SERVICE ACCESS PANEL B COMPRESSOR Serf DIA LIFTING HOLE lt 4 PLACES DIA 20 178 11 2 pra 26 7 8 P 683mm REFRIGERANT GAGE FITTING ACCESS DIA KNOCKOUT ENTRY FOR HOT GAS BYPASSCOPTIONAL ACCESSORY DISCHARGE LINE DIA EXTRUDED HOLE lt LIQUID LINE ENTRY 9 3 8 aca 4 1 8 778 22 2mm 4 378 45 172 1156mm 111mm DETAIL A VIEW B SS PRC003 EN e TRANE Dimensional Data Figure DD 7 TTA200B Condensing Unit All dimensions are in inches and millimeters APPROXIMATE CORNER TOTAL _ TOTAL MWEXGHT EST UNIT SHIPPING WEIGHT WEIGHT MDDEL ND 1 2 3 4 TTA240B F 247lbs 247lbs 168lbs 168lbs 830 lb 915 lb TTA200BD F 1i2rg 112 ksg 76
120. aa II 40ACYL 40ACYL EDC AtACYL 2 Y 18 o 14 wi 39C BK 5 Ne 16 C0 LTB PRINTED FROM D75751 7TPOI SS PRC003 EN 53 Condensing Unit Single Compressor Typical wiring diagram For specific wiring see wire diagram manual on line 54 z _ T TIUS RP 2 o ie 24 CHR M 100F G RD 115A 8 BK ada 28A RD 44 w n 554 208v af piy ims a s KASI 12 a TBI aja 125A BK ISIACBRD 101C 0 BL av Rr 5 DL 223 sen a mc 2 28 JarP2 HI xQ m4 TE 3 B gre gt R8 32 HH z 5 3 CD COMM 15208849 DS 2 Ez Ph LL MES 3 55 INSET FEN 2 100 t8D 45 BOP 2 ACBRO aw 8 ri 5 x 1 3 8 2 2 um x x 1254810 Tis fl 126ALBK 1 121408002 2 P4724 rs 128At RD F oj 4B BK pent FIBA au 22 RTRM o s o 1158CBK 2a peace 92 izarea 3 as Fu Sakata ENGS Hi Cc cb sig 2722 II fetes 5 120a 88 2 T2225 23053 120 05055 5 5555 igni 2 I lc TOIT 8 ie FH r e2 co LTB BLACK BLACK YELLOW YELLOW wort
121. able In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity SS PRC003 EN 19 e TRANE Performance Data Table PD 7 Gross Cooling Capacities MBh Both Compressors TTA100C Condensing Unit with TWE100A Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 103 7 81 4 114 8 68 3 126 3 46 7 100 1 79 6 110 8 66 7 121 8 45 1 96 3 77 6 106 5 65 0 116 9 43 5 92 3 75 6 102 0 63 2 111 6 41 7 3025 80 104 3 94 9 115 3 78 8 126 8 61 2 100 8 93 0 111 3 77 1 122 4 59 5 97 1 91 1 107 1 75 3 117 7 57 8 93 3 89 2 102 4 72 8 112 7 55 9 85 106 4 106 4 115 5 92 0 127 3 75 1 103 5 103 5 111 6 90 2 123 0 73 5 100 3 100 3 107 4 88 2 118 4 71 8 97 0 97 0 103 0 86 2 113 4 69 9 90 112 0 112 0 116 2 105 5 127 6 89 0 108 9 108 9 112 3 103 7 123 1 86 9 105 7 105 7 108 3 101 8 118 5 85 0 102 2 102 2 104 0 99 9 113 6 83 0 75 105 8 85 0 117 0 67 2 128 2 47 5 102 1 83 1 112 8 65 5 123 5 45 9 98 1 81 2 108 4 63 6 118 5 44 1 94 0 79 1 103 8 61 7 113 1 42 3 3350 80 106 7 99 8 117 5 82 4 128 9 63 1 103 1 97 9 113 0 80 1 124 4 61 5 99
122. ach refrigeration circuit shall have an integral subcooling circuit A refrigeration filter drier shall be provided as standard Units shall have both a liquid line and suction gas line service valve with gauge port TTA100B TTA125B TTA155B and TTA200B units shall have two Trane direct drive hermetic scroll compressors with centrifugal oil pump and provide positive lubrication to all moving parts Motor shall be suction gas cooled and shall have a voltage utilization range of plus or minus 10 percent of nameplate voltage Crankcase heater internal temperature and current sensitive motor overloads shall be included for maximum protection Scroll compressor shall provide inherently low vibration and noise by having no suction and discharge valves External high and low pressure cutout devices shall be provided Evaporator defrost control provided in indoor blower coil shall prevent compressor slugging by temporarily interrupting compressor operation when low evaporator coil temperatures are encountered Refrigeration System Dual Manifolded Compressors TTA 100C TTA155C andTTA200F units shall have a single refrigeration circuit with an integral subcooling circuit A refrigeration filter drier shall be provided as standard Units shall have both a liquid line and suction gas line service valve with gauge port The units shall have two scroll compressors manifolded together Motor shall be suction gas cooled and shall have a
123. ad pressure kPA 2301 2354 2409 2466 2527 2591 46 1 Capacity kW 25 7 28 3 30 9 337 36 7 39 7 OD Unit Power kW 13 02 13 30 13 59 13 89 14 20 14 52 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 36 SS PRC003 EN SS PRC003 EN Performance Data e TRANE Table PD 24 Cooling Performance MBh TTA155B Condensing Unit Only 1 ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 171 178 185 192 200 208 65 Cap Btuh 1000 144 5 159 5 175 1 191 3 2078 225 0 OD Unit KW 9 84 10 10 10 37 10 67 11 00 11 35 Head press PSIG 197 204 211 218 227 235 75 Cap Btuh 1000 140 1 154 4 169 2 184 4 200 2 216 4 OD Unit KW 10 85 11 13 11 43 11 74 12 09 12 45 Head press PSIG 225 232 239 247 256 265 85 Cap Btuh 1000 134 4 148 0 162 0 176 4 191 4 206 7 OD Unit KW 12 02 12 32 12 64 12 97 13 32 13 70 Head press PSIG 255 263 270 278 287 297 95 Cap Btuh 1000 1276 140 5 153 7 1673 1815 196 1 OD Unit KW 13 38 13 68 14 00 14 33 14 70 15 08 Head press PSIG 288 296 303 312 321 331 105 Cap Btuh 1000 119 9 132 0 144 4 1573 170 7 184 6 OD Unit KW 14 89 15 19 15 50 15 83 16 19 16 58 Head press PSIG 323 331 339 347 357 367 115 Btuh 1000 111 3 122 6 134 3 146 4 159 1 172 4 OD Unit KW 16 56 16 84 1714 1745 1781 18 20 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 24 Cooling Performance kW TTA155B Condens
124. ain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 9 Gross Cooling Capacities kW TTA125B Condensing Unit with TWE100B Air Handler SI AmbientTemperature C 29 4 35 0 40 6 46 1 Enter Dry Entering Wet Bulb C m h Bulb 16 1 19 4 22 8 16 1 194 22 8 16 1 194 22 8 16 1 194 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 32 2 237 357 20 8 39 6 14 6 31 1 23 2 345 20 3 382 141 299 225 332 198 368 13 6 286 21 8 31 8 19 2 35 2 13 0 5139 27 32 3 27 1 35 8 23 0 39 6 18 5 31 2 26 5 34 6 22 4 38 2 17 9 30 0 25 9 33 3 21 8 36 8 17 4 287 25 2 31 9 21 2 35 2 167 29 32 4 30 5 35 9 26 5 39 6 22 0 31 4 29 9 34 6 25 8 38 3 21 5 30 2 29 3 33 3 25 2 36 9 20 9 29 0 28 7 31 9 24 6 35 3 20 3 32 33 2 33 2 35 9 29 8 39 7 25 5 324 324 34 7 29 2 38 4 25 0 31 4 31 4 33 5 28 6 36 9 24 4 30 3 30 3 32 1 27 9 35 4 23 8 24 33 0 24 7 365 20 1 40 4 14 9 31 8 24 1 35 2 19 5 39 0 14 4 30 5 23 4 33 9 18 9 37 5 13 8 29 2 22 7 32 4 18 2 35 8 13 3 5692 27 33 0 28 3 36 6 23 9 40 4 19 0 31 9 27 7 35 3 23 3 39 0 18 5 30 7 27 1 34 0 22 7 37 5 17 9 29 4 26 4 32 5 22 1 35 9 17 2 29 33 3 32 1 36 6 27 6 40 5 22 8 32 2 31 5 35 4 27 0 39 1 22 3 31 1 30 9 34 0 26 3 37 6 21 7 29 8 29 8 32 6 25 7 36 0 21 1 32 34 4 344 36 8 31 2 40 6 26 7 33 5 33 5 35 5 30 6 39 2 26 1 32 5 32 5 34 2 30 0 37 7 25 5 31 4 31 4 32 7
125. bility Testing All units were rigorously rain tested at the factory to ensure water integrity Actual shipping tests were performed to determine packaging requirements Units were test shipped around the country to determine the best packaging e Factory shake and drop tests were used as part of the package design process to help assure that the unit arrives at the job site in top condition Rigging tests include lifting a unit into the air and letting it drop one foot assuring that the lifting lugs and rails hold up under stress VariTrac When Trane s changeover VAV System for light commercial applications is coupled with split unit systems it provides the latest in technological advances for comfort management systems and can allow thermostat control in every zone served by VariTrac SS PRC003 EN e TRANE Features and Benefits We perform a 100 coil leak test at the factory The evaporator and condenser coils are leak tested at 375 psig and pressure tested to 660 psig All parts are inspected at the point of final assembly Sub standard parts are identified and rejected immediately Every unit receives a 10096 unit run test before leaving the production line to make sure it lives up to rigorous Trane requirements We test designs at our factory not on our customers VariTrac e TRANE Application of this product should be within the catalogued airflow and performance considerat
126. ble Heat Capacity 24 SS PRC003 EN e TRANE Performance Data Table PD 12 Gross Cooling Capacities MBh TTA155B Condensing Unit with TWE200B Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC TGC SHC TGC SHC TGC SHC 75 157 9 124 4 174 3 103 2 191 0 70 7 152 4 121 5 168 0 100 6 183 7 68 2 145 9 118 2 160 7 97 7 175 3 65 3 138 5 114 5 152 5 94 4 166 2 62 2 4500 80 158 8 145 1 174 6 119 9 192 0 93 1 153 4 142 3 168 4 117 0 184 9 90 5 147 0 139 1 161 1 113 7 176 9 87 5 139 9 135 4 153 1 110 0 168 1 84 2 85 162 4 162 4 175 4 140 4 192 8 114 7 157 7 157 7 169 2 137 6 185 8 112 0 152 2 152 2 162 0 134 3 177 8 109 1 146 0 146 0 154 0 130 6 168 5 105 0 90 170 7 170 7 176 3 161 3 193 0 135 2 165 8 165 8 170 2 158 4 186 1 132 3 160 1 160 1 163 3 155 2 178 2 129 1 153 7 153 7 155 6 151 7 169 6 125 6 75 161 2 130 3 177 6 102 7 193 9 71 9 155 4 127 3 171 0 100 0 186 4 69 3 148 7 123 9 163 4 96 9 177 8 66 4 141 0 120 1 155 0 93 5 168 4 63 2 5000 80 162 4 153 1 178 0 125 2 195 2 96 3 156 8 150 2 171 5 122 2 187 9 93 6 150 3 146 9 164 0 118 8 179 7 90 6 142 6 142 6 155 8 115 1 170 6 87 4 85 167 9 167 9 178 8 147 8 196 1 119 9 163 0 163 0 172 4 144 8 188 9 117 3 157 2 157 2 164 9 141 5 180 1 113 2 150 6 150 6 156 7 137 8 171 3 109 6 90 176 6 176 6 180 2
127. ce or e mail us at comfort trane com Literature Order Number SS PRC003 EN File No PL UN SS PRC003 EN 0606 Supersedes PL UN SS PRC003 EN 0104 Stocking Location Electronic Only Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice
128. choice of microprocessor or electro mechanical controls shall be available The 24 volt electro mechanical control circuit shall include control transformer and contactor pressure lugs for power wiring Units shall have single point power entry as standard The microprocessor controls shall provide for all 24 volt control functions The resident control algorithms shall make all heating cooling and or ventilating decisions in response to electronic signals from sensors measuring indoor and outdoor temperatures The control algorithm maintains accurate temperature control minimizes drift from set point and provides better building comfort A centralized microprocessor shall provide anti short cycle timing and time delay between compressors to provide a higher level of machine protection Time delay timers shall be provided to help prevent compressors in dual compressor units from simultaneous start up An anti short cycle timer shall be available as an optional accessory SS PRC003 EN Mechanical Specifications Zone Sensor This field installed control shall be provided to interface with the Micro equipped units and shall be available in either manual automatic programmable with night setback with system malfunction lights or remote sensor options Thermostat Two stage heating and cooling operation or one stage heating and cooling shall be available for field installation in either manual or automatic changeover Aut
129. city SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 26 SS PRC003 EN Performance Data e TRANE Table PD 14 Gross Cooling Capacities MBh Single Compressor TTA155C Condensing Unit with TWE155B Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 943 92 3 103 0 67 8 112 7 43 8 91 7 91 0 99 8 66 5 108 7 42 4 88 2 88 2 96 0 64 8 104 3 41 0 84 6 84 6 91 6 62 9 99 3 39 4 4500 80 99 4 99 4 103 6 87 7 113 5 63 2 96 8 96 8 100 4 86 4 109 6 61 8 93 7 93 7 96 6 84 8 105 3 60 1 90 0 90 0 92 3 83 0 100 6 58 3 85 105 3 105 3 105 4 105 4 114 2 83 1 102 5 102 5 102 6 102 6 110 4 81 7 99 2 99 2 99 3 99 3 106 1 80 1 95 4 95 4 95 5 95 5 101 4 78 3 90 111 3 111 3 111 5 111 5 114 8 103 2 108 4 108 4 108 5 108 5 111 2 101 9 104 9 104 9 105 0 105 0 107 0 100 3 100 9 100 9 101 0 101 0 102 3 98 5 75 95 8 95 8 104 2 72 0 113 7 43 9 93 3 93 3 100 9 70 8 109 5 42 6 90 1 90 1 97 0 69 3 105 0 41 1 86 4 86 4 92 5 65 6 100 0 39 5 5000 80 101 8 101 8 104 9 92 4 114 9 66 6 99 1 99 1 101 6 91 1 110 9 65 3 95 8 95 8 97 8 89 5 106 5 63 9 92 0 92 0 93 4
130. d RPM RPM BHP 5 0 HP Oversized Motor and High Static Drive System 5200 944 2 75 989 3 12 5525 952 2 96 997 3 33 5850 961 3 17 1006 3 54 5175 970 3 38 1015 3 75 8500 978 3 59 1023 3 96 8825 986 3 80 7150 994 4 01 7475 1003 4 25 7800 1012 4 50 Table PD 37 Evaporator Fan Performance TWE200BE SI External Static Pressure Pascal 25 50 75 100 125 150 174 199 224 249 299 349 m hr RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW RPM kW 8835 461 0 55 503 0 68 545 0 8 587 0 77 619 0 87 685 1 04 723 1 19 750 1 3 777 1 41 851 1 63 898 1 78 9387 479 0 66 521 0 78 563 0 9 605 0 9 640 1 01 701 1 18 739 1 32 766 1 43 793 1 54 859 1 77 906 1 94 9939 497 0 75 539 0 88 581 1 623 1 04 661 1 14 717 1 31 755 1 45 782 1 57 809 1 68 868 1 9 915 2 1 641 1 17 682 1 28 732 1 45 769 1 58 796 1 69 877 2 04 924 2 52 886 2 17 933 2 4 10491 473 0 74 515 0 86 557 0 98 599 1 1 11044 492 0 84 534 0 95 576 1 08 618 1 2 660 1 3 702 1 421748 1 58 784 1 72 811 1 83 11596 510 0 93 552 1 06 594 1 19 636 1 3 678 1 42 723 1 57 763 1 72 794 1 84 820 1 95 894 2 3 941 2 55 12148 528 1 03 570 1 16 612 1 29 654 1 42 697 1 54 744 1 72 779 1 86 804 1 97 830 2 07 903 2 43 950 2 7 12700 550 1 2 594 1 32 640 1 43 683 1 55 721 1 71 760 1 87 790 1 99 815 2 1 840 2 21 865 2 32 914 2 59 959 2 87 13252 572 1 36 1618 1 47 668 1 57 712 1 69 746 1 88 7
131. d indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 10 Gross Cooling Capacities kW 125 Condensing Unit with TWE155B Air Handler SI AmbientTemperature C 294 35 0 40 6 46 1 Enter Dry Entering Wet Bulb C m h Bulb 16 1 194 22 8 16 1 194 22 8 16 1 194 22 8 16 1 194 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 36 3 289 40 0 24 1 43 9 16 3 35 0 28 2 38 5 23 5 42 2 15 7 33 6 27 5 36 9 22 9 40 4 15 1 320 26 7 35 2 22 2 385 144 6371 27 36 5 33 8 40 1 27 8 44 0 21 5 35 2 33 1 38 6 27 1 42 4 20 9 33 8 32 4 37 0 264 40 7 20 2 32 4 31 6 35 4 25 6 38 8 19 6 29 37 5 37 5 40 3 32 6 44 2 26 6 36 4 36 4 38 8 32 0 42 6 26 0 35 2 35 2 37 2 31 2 40 9 25 3 33 8 33 8 35 5 30 5 38 9 244 32 39 4 39 4 40 5 37 5 44 3 31 4 38 2 38 2 39 0 36 9 42 7 30 7 37 0 37 0 37 5 36 2 40 9 30 0 35 6 35 6 35 9 35 5 39 1 29 3 24 37 1 30 3 408 23 8 44 6 16 6 35 7 296 39 2 23 2 428 16 0 34 2 28 9 37 6 22 5 41 0 15 4 32 6 28 1 357 21 6 39 0 147 7136 27 37 4 35 7 40 9 29 1 44 8 22 3 36 0 35 1 39 4 28 4 43 1 21 7 34 6 34 3 37 7 27 7 41 3 21 0 33 1 33 1 36 0 26 9 39 4 20 3 29 38 8 38 8 41 0 344 45 0 27 9 37 6 37 6 39 5 33 7 43 2 27 1 36 3 36 3 37 9 33 0 41 4 26 3 35 0 35 0 36 2 32 3 39 5 25 6 32 40 8 40 8 41 4 39 9 45 1 33 1 39 6 39 6 39 9 39 2 43 4 32 4 3
132. de capacity modulation Time Delay Relay Shall prevent compressors in dual compressor unit from coming on line simultaneously Timer shall be 24 volt cycle with four minute timing period Anti Short CycleTimer Shall prevent rapid on off compressor cycling in light load conditions by not allowing compressor to operate for 5 7 minutes upon shutdown Shall consist of a solid state timing device 24 volt cycle with either 5 or 7 minute fixed off timing period Condenser Coil Guard Metal grille with PVC coating shall be provided to alleviate coil damage 77 e TRANE General Air handler units shall be completely factory assembled including coil condensate drain pan fan motor s filters and controls in an insulated casing that can be applied in either vertical or horizontal configuration Units shall be rated and tested in accordance with ARI standard 210 240 340 360 Casing Unit casing shall be constructed of zinc coated heavy gauge galvanized steel Exterior surfaces shall be cleaned phosphatized and finished with a weather resistant baked enamel finish Casing shall be completely insulated with cleanable foil faced fire retardant permanent odorless glass fiber material All insulation edges shall be either captured or sealed Knockouts shall be provided for unit electrical power and refrigerant piping connections Captive screws shall be standard on all access panels Refrigeration System
133. e TRANE Table PD 10 Gross Cooling Capacities MBh TTA125B Condensing Unit with TWE155B Air Handler I P AmbientTemperature F 85 95 105 n5 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC SHC TGC SHC TGC SHC 75 124 0 98 6 136 6 82 4 149 8 55 6 119 5 96 3 131 6 80 4 144 1 53 6 114 6 93 8 126 1 78 2 137 9 51 5 109 3 91 2 120 3 75 9 131 3 49 3 3750 80 124 7 115 3 136 9 94 8 150 4 73 4 120 2 113 0 131 9 92 5 144 8 71 3 115 5 110 6 126 5 90 1 138 9 69 1 110 5 108 1 120 8 87 5 132 5 66 8 85 128 0 128 0 137 5 111 4 151 0 90 7 124 2 124 2 132 5 109 1 145 4 88 7 120 1 120 1 127 1 106 7 139 5 86 5 115 6 115 6 121 4 104 1 132 8 83 5 90 134 5 134 5 138 2 128 2 151 2 107 1 130 6 130 6 133 3 125 9 145 7 104 9 126 3 126 3 128 2 123 6 139 9 102 5 121 7 121 7 122 8 121 1 133 6 100 0 75 126 6 103 5 139 2 81 3 152 2 56 6 121 9 101 2 134 0 79 1 146 3 54 6 116 9 98 7 128 4 76 8 140 0 52 4 111 4 96 0 121 9 73 8 133 2 50 2 4200 80 127 6 122 0 139 6 99 3 153 0 76 1 123 1 119 7 134 4 97 0 147 3 74 0 118 3 117 3 128 8 94 5 141 2 71 8 113 1 113 1 122 9 91 8 134 6 69 4 85 132 5 132 5 140 2 117 6 153 7 95 2 128 5 128 5 135 0 115 3 147 6 92 4 124 1 124 1 129 5 112 8 141 5 90 0 119 4 119 4 123 6 110 2 135 0 87 4 90 139 3 139 3 141 3 136 2 154 0 112 9 135 1 135 1 136 4 133 9 148 3 110 6 130 6 130 6 130 7 130 7
134. e voltage TTA200F TWE200E B power wires line voltage for Field Wiring 3 phase 2 wires for single phase A 3power wires line voltage C Cooling only thermostat 4 wires B power wires line voltage 24 volts C Cooling only thermostat 5 wires One stage electric heat add 24 volts 1 additional wire 24 volts One stage electric heat add Two stage electric heat add 1 additional wire 24 volts 2 additional wires 24 volts Two stage electric heat add D 4wires 24 volts 2 additional wires 24 volts TTA100B TWE100B D 5wires 24 volts FISCI edo 2 TTA075A TWE155B A power wires line voltage 2 TTA100A TWE200B B power wires line voltage for Field Wiring 3 phase 2 wires for single phase A power wires line voltage C Cooling only thermostat 5 wires B 3 power wires line voltage 24 volts C Cooling only thermostat 5 wires One stage electric heat add 24 volts 1 additional wire 24 volts One stage electric heat add Two stage electric heat add 1 additional wire 24 volts 2 additional wires 24 volts Two stage electric heat add 2 additional wires 24 volts D 6wires 24 volts 51 e TRANE Typical Wiring Air Handler Typical wiring diagram For specific wiring see isee wire diagram manual online 1A FD
135. eat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity SS PRC003 EN 25 e TRANE Performance Data Table PD 13 Gross Cooling Capacities MBh Both Compressors TTA 155C Condensing Unit With TWE155B Air Handler I P Ambient Temperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 153 7 120 4 169 7 101 2 186 5 69 1 148 4 117 7 163 7 98 8 179 5 66 6 142 2 114 5 156 6 95 9 171 4 63 8 135 1 110 9 148 7 92 7 162 4 60 8 4500 80 154 5 140 2 170 0 116 1 187 2 90 5 149 4 137 5 164 1 113 4 180 3 87 9 143 3 134 4 157 1 110 2 172 5 85 0 136 4 130 9 149 3 106 6 163 9 81 8 85 157 6 157 6 170 9 135 9 187 9 111 2 153 2 153 2 164 9 133 1 181 1 108 6 147 9 147 9 158 0 129 9 173 4 105 7 141 9 141 9 150 2 126 3 164 9 102 6 90 165 7 165 7 171 7 155 8 188 2 130 9 161 1 161 1 165 9 153 0 181 5 128 1 155 6 155 6 159 1 149 9 173 9 124 9 149 4 149 4 151 7 146 5 165 4 121 5 75 156 9 125 9 172 9 99 6 189 5 70 2 151 4 123 1 166 6 97 0 182 1 67 7 144 9 119 8 159 3 93 9 173 8 64 9 137 6 116 1 151 2 90 6 164 7 61 8 5000 80 158 0 147 6 173 4 121 1 190 4 93 5 152 6 144 9 167 1 118 3 183 3 90 9 146 4 141 7 159 9 115 0 175 3 87 9 139 4 138 1 151 9 111 3 166 4 84 8 85 162 9 162 9 174 2 142 7 191 2 116 1 15
136. esired airflow e TRANE 10 Model Number Description sx wwsss s Split System Condensing Unit Model Nomenclature T T A 1 2 0 A 4 0 0 E A 1 2 3 4 5 6 7 8 9 10 11 12 Digits 1 2 3 Product Type Digit 8 Electrical Characteristics Split System Cooling D 380 415 50 3 Digits 4 5 6 Nominal Gross Cooling Capacity MBh 075 75 085 85 m 1X0 490 Digit 9 10 Factory Installed Options 155 155 00 Stock 200 200 OS Black Epoxy Coated Coil OR ReliaTel Controls Digit 7 Mejor Development Sequence OT ReliaTel Controls with Black Epoxy A 1 Refrigerant Circuit R22 Coated Coil B 2 Refrigerant Circuits R22 00 ReliaTel Controls with LonTalk C Manifold Scroll Compressors R22 Communications Interface RLCI D 1 Refrigerant Circuit RA10A OW ReliaTel Controls with LonTalk E 2 Refrigerant Circuits R410A Communications Interface RLCI F Manifold Scroll Compressors and Black Epoxy Coated Coil R410A Digit 11 Minor Design Sequence B Second Digit 12 Service Digit A First Air Handler Model Nomenclature T W E 0 9 0 A 1 0 0 E A 1 2 3 4 5 6 7 8 9 10 11 12 Digits 1 2 3 Product Type Digit 8 Electrical Characteristics TWE Split System Heat 0 380 415 3 50 Pump Cooling Air Handler Digit 9 10 Factory Installed Options Digits 4 5 6 Nominal Gross Cooling Capacity MBh 00 Packed Stock 050 50 Digit 11 Minor De
137. essure Drop Through Accessories Inches Of Water Column Air Handler Discharge Electric Heaters kW Unit Return Grille Plenum and Grille 5 10 15 20 25 30 35 50 Model No CFM m h In wc Pascal In wc Pascal In wc Pascal 1400 2380 09 22 4 16 39 8 06 15 0 06 15 0 12 29 9 TWE050A 1600 2718 12 29 9 21 52 3 08 19 9 08 19 9 14 34 9 2000 3398 18 44 8 33 82 2 13 32 4 13 324 19 473 2100 3568 05 12 5 19 473 02 5 0 03 75 05 12 5 08 19 9 TWE075A 2400 4079 08 19 9 27 67 2 03 75 06 15 0 08 19 9 12 29 9 3000 5098 13 32 4 40 99 6 06 15 0 12 29 9 17 424 23 573 TWE100A 2800 4756 04 10 0 34 84 7 03 75 04 10 0 14 34 9 20 49 8 TWE100B 3200 5436 07 17 4 43 1071 06 15 0 13 324 19 473 26 64 8 4300 7304 07 174 18 44 8 02 5 0 02 5 0 04 10 0 05 12 5 TWE155B 4800 8154 09 22 4 23 573 03 75 03 75 06 15 0 08 19 9 6000 10195 15 37 4 34 84 7 06 15 0 06 15 0 12 29 9 17 42 4 5600 9515 07 174 32 79 7 04 10 0 04 10 0 10 25 0 15 374 TWE200BE 6400 10872 M 274 43 1071 06 15 0 06 15 0 13 324 19 473 8000 13594 17 42 3 66 164 3 25 0 10 25 0 20 49 8 30 74 7 1 Returnairfilter ESP included in Fan Performance Table data 2 Atlouver opening angle of 42 F 5 5 C For ESP at other angle openings see accessory Installer s Guide SS PRC003
138. ing Unit Only SI ODTemp Suction ReferenceTemperature C c 1 1 17 44 72 10 0 12 8 Head pressure kPA 1180 1225 1273 1324 1378 1436 18 3 Capacity kW 42 3 46 7 51 3 56 0 60 8 65 9 OD Unit Power kW 9 84 10 10 10 37 10 67 11 00 11 35 Head pressure kPA 1357 1404 1454 1506 1563 1623 23 9 Capacity kW 41 0 45 2 49 5 54 0 58 6 63 4 OD Unit Power kW 10 85 11 13 11 43 11 74 12 09 12 45 Head pressure kPA 1550 1599 1651 1705 1764 1826 29 4 Capacity kW 39 4 43 3 474 51 7 56 0 60 5 OD Unit Power kW 12 02 12 32 12 64 12 97 13 32 13 70 Head pressure kPA 1760 1811 1864 1920 1981 2045 35 0 Capacity kW 374 41 1 45 0 49 0 53 1 574 OD Unit Power kW 13 38 13 68 14 00 14 33 14 70 15 08 Head pressure kPA 1986 2038 2093 2150 2213 2280 40 6 Capacity kW 35 1 38 6 42 3 46 0 50 0 54 1 OD Unit Power kW 14 89 15 19 15 50 15 83 16 19 16 58 Head pressure kPA 2228 2282 2337 2396 2461 2530 46 1 Capacity kW 32 6 35 9 39 3 42 9 46 6 50 5 OD Unit Power kW 16 56 16 84 1714 1745 1781 18 20 Performance Data Calculated at 8 3 deg subcooling and 8 3 deg superheat 37 e TRANE Performance Data Table PD 25 Gross Cooling Capacities MBh Both Compressors I P TTA155C Condensing Unit Only ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 169 8 176 2 183 0 190 1 1978 206 0 65 Cap Btuh 1000 144 3 159 3 175 0 191 1 2077 224 9 OD Unit KW 9 8 1
139. ions Clearance Requirements The recommended clearances identified with unit dimensions should be maintained to assure adequate serviceability maximum capacity and peak operating efficiency Actual clearances which appear inadequate should be reviewed with the local Trane Representative 180 Blower Rotation TheTWE050 075 and 100 air handler blower section can be rotated 180 to change the discharge pattern This modification must be done in the field and requires an addition of kit See unit installer s guide Typical Split System Application Application Considerations Low Ambient Cooling As manufactured these units can operate to 50 F 10 C in the cooling mode of operation An accessory head pressure control will allow operation to 0 F 178 outdoor ambient When using these units with control systems such as bypass changeover Variable Air Volume make sure you consider the requirement for a head pressure control to allow low ambient cooling 9 ISOLATOR 4 PLACES 7 SPRING RUBBER SUPPORT RODS amp ATTACHING HARDWARE BY OTHERS ELECTRIC HEATER T HEATING COIL amp ENCLOSURE SN ASSEMBLY STEAM OR HOT WATER Typical Horizontal Air Handler Application DISCHARGE PLENUM AND GRILL ASSEMBLY HEATING COIL AND ENCLOSURE ASSEMBLY AIR HANDLER HORIZONTAL RETURN AIR GRILLE DRAIN L Pd E L2 SUB BASE V
140. ions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 18 SS PRC003 EN e TRANE Performance Data Table PD 6 Gross Cooling Capacities MBh TTA100B Condensing Unit with TWE100B Air Handler I P AmbientTemperature F 85 95 105 115 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 103 0 80 9 114 1 68 0 125 6 46 6 99 4 79 0 110 0 66 4 120 7 44 9 95 6 77 1 105 7 64 6 115 6 43 2 91 7 75 1 101 3 62 8 110 3 41 3 3025 80 103 7 94 4 114 8 78 7 126 6 61 2 100 2 92 5 110 3 76 3 122 0 59 4 96 5 90 6 106 1 74 4 117 2 57 6 92 7 88 6 101 7 72 3 112 0 55 7 85 105 9 105 9 115 1 91 6 127 3 75 2 102 9 102 9 111 1 89 7 122 8 73 5 99 7 99 7 106 8 87 7 118 0 71 7 96 4 96 4 102 4 85 7 112 9 69 8 90 111 5 111 5 115 8 105 1 127 4 88 5 108 4 108 4 111 9 103 3 123 0 86 7 105 2 105 2 107 8 101 3 118 3 84 7 101 7 101 7 103 5 99 3 113 3 82 6 75 105 2 84 5 116 3 67 0 127 5 47 3 101 4 82 6 112 1 65 2 122 5 45 6 97 5 80 6 107 6 63 4 117 2 43 8 93 4 78 5 103 0 61 5 111 7 41 9 3350 80 106 1 99 2 116 6 81 5 128 8 63 2
141. is case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 20 SS PRC003 EN e TRANE Performance Data Table PD 8 Gross Cooling Capacities MBh Single Compressor TTA100C Condensing Unit with TWE100A Air Handler I P AmbientTemperature F 85 95 105 15 Enter Dry Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 63 8 62 6 69 8 46 0 76 2 29 7 61 3 61 3 67 2 45 0 73 4 28 6 59 2 59 2 64 6 43 8 70 4 27 7 57 0 57 0 61 8 42 6 67 1 26 6 3025 80 67 3 67 3 70 1 59 5 76 9 43 1 65 2 65 2 67 6 58 5 74 0 41 8 63 0 63 0 65 0 57 4 71 1 40 7 60 7 60 7 62 2 56 3 68 1 40 8 85 712 71 2 71 3 71 3 77 1 56 3 69 1 69 1 69 2 69 2 74 4 55 3 66 8 66 8 66 9 66 9 71 5 54 2 64 4 64 4 64 5 64 5 68 5 53 1 90 75 2 75 2 75 3 75 3 77 5 69 9 73 0 73 0 73 1 73 1 74 8 69 0 70 7 70 7 70 8 70 8 72 0 67 9 682 68 2 68 3 68 3 69 1 66 8 75 64 8 64 8 70 6 48 6 76 9 29 7 62 7 62 7 67 9 46 8 74 0 28 7 605 60 5 65 2 45 7 70 9 27 7 58 2 58 2 624 444 67 5 26 7 3350 80 68 8 68 8 70 9 62 7 77 7 44 9 66 7 66 7 68 4 61 6 74 8 44 0 644 64 4 65 7 60 5 71 9 43 0 62 0 62 0 63 0 59 4 68 7 42 0 85 72 9 72 9 73 0 73 0 77
142. ity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity SS PRC003 EN 27 e TRANE Performance Data Table PD 15 Gross Cooling Capacities MBh TTA200B Condensing Unit with TWE200B Air Handler I P AmbientTemperature F 85 95 105 115 Entering Wet Bulb F CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73 Airflow F TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 75 203 5 160 6 224 5 134 3 247 0 91 4 195 8 156 6 215 9 130 8 237 4 88 1 187 6 152 4 207 0 127 2 227 3 84 6 179 2 148 2 197 8 123 5 216 6 81 0 6000 80 204 7 187 3 224 9 154 7 247 8 120 1 197 2 183 4 216 5 150 8 238 4 116 6 189 3 179 4 207 7 146 8 228 7 113 0 1181 1 175 3 198 6 142 6 218 6 109 2 85 209 3 209 3 226 0 181 2 248 8 148 0 202 9 202 9 217 6 177 4 239 4 144 5 196 1 196 1 208 8 173 4 229 8 140 8 189 0 189 0 199 7 169 2 219 8 137 2 90 220 0 220 0 227 3 208 2 249 1 174 6 213 4 213 4 219 1 204 4 239 8 170 9 206 5 206 5 210 7 200 5 230 3 167 0 199 3 199 3 202 0 196 5 220 4 162 9 75 207 6 168 0 228 8 132 3 250 9 93 0 199 6 164 0 219 9 128 6 240 9 89 6 191 2 159 7 210 7 124 8 230 5 86 0 182 5 155 4 201 2 121 0 219 8 82 4 6675 80 209 3 197 5 229 3 161 5 252 0 124 2 201 6 193 5 220 5 157 5 242 3 120 6 193
143. lated at 8 3 deg subcooling and 8 3 deg superheat SS PRC003 EN e TRANE Performance Data Table PD 22 Gross Cooling Capacities MBh Single Compressor I P TTA100C Condensing Unit Only ODTemp Suction Reference Temperature F F 30 35 40 45 50 55 Head press PSIG 138 6 1413 144 1 1470 150 1 153 4 65 Cap Btuh 1000 51 3 56 5 61 9 677 73 7 80 1 OD Unit KW 3 1 3 2 3 3 3 4 3 5 3 6 Head press PSIG 161 5 164 4 1673 170 4 173 7 1772 75 Cap Btuh 1000 48 9 54 0 59 3 64 9 70 8 770 OD Unit KW 3 4 3 4 3 5 3 7 3 8 3 9 Head press PSIG 186 8 189 9 193 0 196 3 199 8 203 4 85 Cap Btuh 1000 46 5 51 4 56 6 62 1 678 73 8 OD Unit KW 3 7 3 7 3 8 4 0 4 1 4 2 Head press PSIG 214 8 218 1 221 4 225 0 228 6 232 3 95 Cap Btuh 1000 44 1 48 8 53 8 59 1 64 6 70 4 OD Unit KW 4 0 4 1 4 2 4 3 4 4 4 6 Head press PSIG 245 6 249 1 252 7 256 4 260 2 264 2 105 Cap Btuh 1000 416 46 1 51 0 56 1 61 4 66 8 OD Unit KW 4 4 4 5 4 6 4 7 4 9 5 0 Head press PSIG 279 4 283 0 286 8 290 7 294 7 298 9 115 Cap Btuh 1000 39 0 43 4 48 1 52 9 58 0 63 2 OD Unit KW 4 9 5 0 5 1 5 2 5 3 5 5 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 22 Gross Cooling Capacities kW Single Compressor SI TTA100C Condensing Unit Only ODTemp Suction Reference Temperature C C 1 1 1 7 4 4 72 10 0 12 8 Head pressure kPA 956 974 994 1014 1035 1057 18 3 Capacity kW 15 0 16 5 18 1 19 8 21 6 2
144. lete refrigeration circuitry 1 Expansion Valve and Check Valves There s no need to install components and put together the air handler on the job This provides you with less labor cost and fewer chances for installation errors which cause callbacks All this means saving you money both in replacement and new construction applications e TRANE Features and Benefits Micro Controls Several years ago Trane was the first to introduce microprocessor controls into the Light Commercial Market That design along with immeasurable experience has provided the technology for Trane s second generation ReliaTel microprocessor controls in Odyssey split unit systems the first in the industry ReliaTel Micro Provides unit control for heating and cooling by utilizing input from sensors that measure indoor temperature Improves quality and reliability through the use of time tested microprocessor controls and logic Prevents the unit from short cycling considerably improving compressor life Ensures that the compressor will run for a specific amount of time which allows oil to return for better lubrication enhancing the reliability of the compressor Reduces the number of components required to operate the unit thereby reducing possibilities for component failure Eliminates the need for field installed components with its built in anti short cycle timer time delay relay and minimum on time co
145. ly 1 ODTemp Suction Reference Temperature F 30 35 40 45 50 55 Head press PSIG 159 163 169 174 180 186 65 Cap Btuh 1000 99 0 108 9 119 2 130 1 141 5 153 4 OD Unit KW 6 08 6 30 6 54 6 81 710 743 Head press PSIG 184 189 194 200 207 214 75 Cap Btuh 1000 94 4 103 9 114 0 124 5 135 5 1471 OD Unit KW 6 66 6 90 716 745 777 8 11 Head press PSIG 211 217 223 229 236 243 85 Cap Btuh 1000 89 6 98 8 108 6 118 7 129 4 140 5 OD Unit KW 735 760 788 8 19 8 52 8 89 Head press PSIG 241 247 254 261 268 276 95 Cap Btuh 1000 84 8 93 7 103 0 112 8 123 1 133 7 OD Unit KW 8 16 8 42 8 71 9 03 9 37 9 75 Head press PSIG 274 281 288 295 303 311 105 Cap Btuh 1000 79 8 88 4 974 106 8 16 5 126 6 OD Unit KW 9 08 9 34 9 64 9 96 10 31 10 68 Head press PSIG 310 317 324 332 340 348 115 Cap Btuh 1000 74 8 83 1 91 6 100 6 109 8 119 3 OD Unit KW 10 10 10 37 10 66 10 98 11 33 11 70 Performance Data Calculated at 15 deg subcooling and 15 deg superheat Table PD 20 Cooling Performance kW TTA100B Condensing Unit Only SI ODTemp Suction ReferenceTemperature C c 1 1 17 44 72 10 0 12 8 Head pressure kPA 1094 1127 1163 1201 1241 1285 18 3 Capacity kW 29 0 31 9 34 9 38 1 414 44 9 OD Unit Power kW 6 08 6 30 6 54 6 81 710 743 Head pressure kPA 1266 1302 1341 1382 1426 1473 23 9 Capacity kW 276 30 4 33 4 36 5 39 7 43 1 OD Unit Power kW 6 66 6 90 716 745 777 8 11 Head pressure kPA 1455 14
146. m SUCTION LINE FIELD CONNECTION BOTH ENDS LL SPLIT 22 2MM BUSHINGS FOR TXV BULBS k 25 4mm FEMALE SCHED 40 PVC PIPE DRAIN CONNECTION VERTICAL CONFIGURATION SEE NOTE 2 amp 3 NOTES 1 LENGTH WIDTH AND HEIGHT DIMENSIONS DO NOT INCLUDE 1 2 ACCESS PANEL DEPTH 2 REMOVABLE DRAIN PAN AND ATTACHED DRAIN CONNECTION MAY BE INSTALLED ON EITHER END OF UNIT IN EITHER THE VERTICAL OR HORIZONTAL CONFIGURATION PLASTIC DRAIN PAN ACCESS PLATE ON THE END OF UNIT OPPOSITE DRAIN CONNECTION MUST BE REMOVED TO SLIDE DRAIN PAN OUT OF UNIT FOR CLEANING ACCESS PLATE MUST BE RE INSTALLED AFTER SLIDING DRAIN PAN BACK INTO UNIT 3 IF PERIODIC DRAIN PAN CLEANING IS REQUIRED ALLOW ROOM FOR PARTIAL REMOVAL OF PAN ON DRAIN CONNECTION END OF UNIT a J Z Ss vu H S SEIN lt d SS L gt IN gt N M D e D Y N lt Li va T1 Nis HORIZONTAL HORIZONTAL VERTICAL HORIZONTAL RETURN VERTICAL RETURN 69 e TRANE Dimensional Data Figure DD 13 TWE155B and 200B Air Handlers All dimensions are in inches and millimeters 70 A E o d SEES el ele R S y lt DUCT OPENING RETURN AIR OPENING VERTICAL HORIZONTAL RETURN OR VERTICAL RETURN
147. mmended Size in mm 16x20x1 20x20x1 16x25x1 16x25x1 16x25x1 406 4x508x25 4 406 4 635 25 4 406 4 635 25 4 406 4 635 25 4 508x508x25 4 Notes 1 ARI certified with various condensing units per ARI Standard 210 240 or 340 360 or 365 00 Refer to Performance Data section in this catalog Table GD 4 General Data TWE155B TWE200B E System Data No Refrigerant Circuits 2 2 Suction Line in mm OD 1 38 35 0 1 38 35 0 Liquid Line in mm OD 0 500 12 7 0 500 12 7 Indoor Coil Type Plate Fin Plate Fin Tube Size in mm OD 0 375 9 5 0 375 9 5 Face Area sq ft m 16 33 1 52 21 63 2 01 Rows 3 3 Fins Per Inch 12 12 Refrigerant Control Expansion Valve Expansion Valve Drain Connection No 4 4 Drain Connection Size in mm 1 000 25 4 1 000 25 4 Drain ConnectionType PVC PVC Indoor Fan Type FC Centrifugal FC Centrifugal No Used 2 2 Diameter in mm 15 0 381 15 0 381 Width in mm 15 0 381 15 0 381 DriveType Belt Belt No Speeds 1 1 m h 5000 8494 6650 11297 No Motors 1 1 Motor HP Standard Oversized 2 0 3 0 1 49 2 24 3 0 5 0 2 24 3 72 Motor RPM Standard 1425 1425 Motor Frame Size Standard 145T 184T Filters Type Throwaway Throwaway Furnished Yes Yes No 8 4 4 Recommended Size in mm 15x20x2 16x20x2 16x25x2 381x508x50 8 406 4x508x50 8 406 4x635x50 8 Notes 1 ARI certified with various condensing units per ARI Standard 210 240 or 340 360 or 36
148. ne voltage for 3 phase 2 wires for single phase 3 power wires Line voltage for 3 phase 2 wires for single phase Cooling only thermostat 3 wires 24 volts One stage electric heat add 1 additional wire 24 volts Two stage electric heat add 2 additional wires 24 volts D 2wires 24 volts 2 TTA050 TWE100B Field Wiring A power wires Line voltage for 3 phase 2 wires for single phase 3 power wires Line voltage for 3 phase 2 wires for single phase Cooling only thermostat 5 wires 24 volts One stage electric heat add 1 additional wire 24 volts Two stage electric heat add 2 additional wires 24 volts 2 wires 24 volts to outdoor section A 2wires 24 volts to outdoor section B B CG B C SS PRC003 EN Jobsite Connections e TRANE DISCONNECT DISCONNECT SWITCH SWITCH BY OTHERS gt BY OTHERS l ELECTRIC HEATER AIR HANDLER C iu ale ACCESSORY THERMOSTAT uM BY HERS TTA075A TWEO075A D 5wires 24 volts TTAOSS TWE075 TTA125B TWE155B BA TWE 100A TTA155B TWE155B TTA200B TWE200B Fiela Wing NR TTA155C TWE155B A 3 power wires lin
149. nits surface shall be tested 500 hours in salt spray test Units shall have removable end panels which allow access to all major components and controls Refrigeration System Single Compressor TTAO75A TTA100A units shall have a single refrigeration circuit Each refrigeration circuit has an integral subcooling circuit A refrigeration filter drier shall be provided as standard The TTA075A TTA100A units shall have both a liquid line and suction gas line service valve with gauge port TTAO75A TTA100A units shall have one direct drive hermetic scroll compressor with centrifugal oil pump providing positive lubrication to moving parts Motor shall be suction gas cooled and shall have a voltage utilization range of plus or minus 10 percent of unit nameplate voltage Crankcase heater internal temperature and current sensitive motor overloads shall be included for maximum protection Scroll type compressor shall provide inherently low vibration and noise by having no suction and discharge valves External high and low pressure cutout devices shall be provided Evaporator defrost control provided in indoor blower coil shall prevent compressor slugging by temporarily interrupting compressor operation when low evaporator coil temperatures are encountered 76 Mechanical Specifications Refrigeration System Dual Compressor TTA100B TTA125B TTA155B TTA200B units shall have two separate and independent refrigeration circuits E
150. ns Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity 28 SS PRC003 EN Performance Data Table PD 16 Gross Cooling Capacities kW TTA200F w TWE200E SI e TRANE Enter Ambient Temperature C Dry 30 35 40 45 Bulb Entering Wet Bulb Temperature C n h Temp 16 19 16 19 22 16 19 16 19 22 Airflow C MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC 35 8 46 0 56 3 66 8 37 5 48 8 60 4 69 2 39 1 51 6 64 3 70 6 40 7 54 4 68 2 71 5 61 0 57 9 66 2 62 0 61 8 66 8 65 4 65 4 67 6 68 9 68 6 68 9 39 5 72 0 20 0 57 7 56 5 62 6 53 3 72 5 34 0 59 1 58 9 63 2 67 0 72 9 47 9 62 4 62 4 64 0 68 9 73 5 62 0 65 8 65 6 65 8 38 2 52 1 63 9 65 6 51 1 45 9 55 8 31 8 60 8 16 8 52 0 51 9 56 2 42 2 61 2 27 7 54 3 54 2 56 7 52 7 61 6 37 8 57 2 57 1 57 5 57 4 62 0 48 6 52 3 49 0 56 9 33 4 61 8 17 3 53 2 53 0 57 3 45 0 62 2 28 9 56 1 56 0 57 9 56 6 62 7 40 5 59 1 58 9 59 2 58 9 63 2 52 3 53 3 52 0 57 7 34 6 62 7 17 3 54 6 54 5 58 3 47 9 63 1 30 0 57 7 57 4 59 1 58 9 63 6 43 1 60 8 60 7 60 9 60 7 64 2 56 1 54 2 53 9 58 5 36 7 63 5 17 5 56 0 55 7 59 2 50 8 63 9 31 5 59 1 58 9 60 2 60 1 64 5 45 6 62 3
151. nstitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 13 Gross Cooling Capacities kW Both Compressors TTA155C Condensing Unit With TWE155B Air Handler SI AmbientTemperature C 29 4 35 0 40 6 46 1 Enter Dry Entering Wet Bulb C m h Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 45 0 35 3 49 7 29 6 54 6 20 2 43 5 34 5 47 9 28 9 52 6 19 5 41 6 33 5 45 9 28 1 50 2 18 7 0396 32 5 43 6 27 2 47 6 17 8 7646 27 45 2 41 1 49 8 34 0 54 8 26 5 43 7 40 3 48 0 33 2 52 8 25 7 41 9 39 4 46 0 32 3 50 5 24 9 39 9 38 3 43 7 31 2 48 0 24 0 29 461 46 1 50 0 39 8 55 0 32 6 44 9 44 9 48 3 39 0 53 0 31 8 43 3 43 3 46 3 38 0 50 8 31 0 416 41 6 44 0 37 0 48 3 30 0 32 48 5 48 5 50 3 45 6 55 1 38 3 47 2 47 2 48 6 44 8 53 1 37 5 45 6 45 6 46 6 43 9 50 9 36 6 43 8 43 8 44 4 42 9 48 4 35 6 24 45 9 369 50 6 29 2 555 20 6 443 360 48 8 28 4 53 3 19 8 42 4 35 1 46 6 27 5 50 9 1901403 34 0 44 3 26 5 48 2 18 1 8495 27 46 3 43 2 50 8 35 5 55 7 27 4 447 42 4 48 9 34 6 53 7 26 6 42 9 41 5 46 8 3
152. ntering dry bulb 67 F 19 4 C entering wet bulb and nominal cfm listed ARI rating cfm is 350 cfm ton for this product Gross capacity does not include the effect of fan motor heat ARI capacity is net and includes the effect of fan motor heat Units are suitable for operation to 20 of nominal cfm Certified in accordance with the Unitary Large Equipment certification program which is based on ARI Standard 340 360 or 365 00 WN Condensing Unit Only Gross Cooling Capacity rated at 45 F 7 2 C saturated suction temperature and at 95 F 35 C ambient ARI Net Cooling Capacity is calculated with matched blower coil and 25 ft 7 2 m of 1 375 0 500 OD interconnecting tubing 1 5 8 suction and 5 8 liquid for TTA200F EER and or SEER are rated at ARI conditions and in accordance with DOE test procedures Integrated Part Load Value is based on ARI Standard 340 360 or 365 00 Units are rated at 80 F 26 7 C ambient 80 F 26 7 C entering dry bulb and 67 F 19 4 C entering wet bulb at ARI rated cfm 4 Sound Rating shown is tested in accordance with ARI Standard 270 5 System Data based on maximum linear length 80 ft 26 7 m Maximum lift suction 60 ft 18 3 m liquid 60 ft 18 3 m For greater lengths refer to refrigerant piping applications manual 12 Outdoor Fan cfm is rated with standard air dry coil outdoor Refrigerant operating charge is for condensing unit all circuits with matching blower coils and 2
153. ntrols These controls are factory tested to assure proper operation Requires no special tools to run the unit through its paces during testing Simply place a jumper between Test 1 and Test 2 terminals on the Low Voltage Terminal Board and the unit will walk through its operational steps The unit automatically returns control to the zone sensor after stepping through the test mode a single time even if the jumper is left on the unit As long as the unit has power and the LED is lit the Micro is operational The light indicates that the Micro is functioning properly Features expanded diagnostic capabilities when used with Trane s Integrated Comfort Systems As an energy benefit softens electrical spikes by staging on fans compressors and heaters The Intelligent Fallback or Adaptive Control is a benefit to the building occupant If a component goes astray the unit will continue to operate at predetermined temperature set points e Intelligent Anticipation is a standard feature of the Micro Functioning constantly the Micro and zone sensors work together in harmony to provide tight comfort control Electromechanical Controls Forthe simpler job that does not require a building automation system or expanded diagnostics capabilities the unit offers electromechanical controls This 24 volt control includes the control transformer contactor pressure lugs for power wiring SS PRC003 EN Quality And Relia
154. o A B TWE050 BAYBASEO001 38 22 B 965 2 _ 558 8 See TWE075 BAYBASE002 471 25 1206 5 635 TWE100 BAYBASE003 631 2 25 1612 9 635 TWE155 BAYBASEO004 7912 275 2019 3 701 7 TWE200 BAYBASE005 9215 303 s 2349 5 771 5 SS PRC003 EN 73 e TRANE 74 TTA075 100 125 Weights Table W 1 Unit and Comer Weights Net Lbs kg Unit Shipping Net Corner Weights Model No Maximum Ibs Maximum Ibs 1 2 3 4 TTA075A 370 1678 326 1479 105 476 83 376 61 277 77 34 9 TTAO85A 100A 443 200 9 399 181 0 149 676 116 52 6 78 35 4 100 45 4 TTA100B 481 218 2 427 193 7 133 60 3 135 612 87 39 5 85 38 6 TTA100C 492 223 2 437 198 2 139 63 1 122 55 3 87 39 5 95 43 1 TTA125B 481 218 2 427 193 7 133 60 3 135 61 2 87 39 5 85 38 6 TTA155B 764 346 6 679 308 0 196 88 9 193 875 144 65 3 146 66 2 TTA155C 764 346 6 679 308 0 196 88 9 193 875 144 65 3 146 66 2 TTA200B 948 430 0 863 391 5 247 112 0 244 110 7 185 83 9 187 84 8 TTA200F 920 418 835 379 292 133 181 83 222 101 140 64 Table W 2 Accessory Weights Net Lbs kg Unit RIS Steel Spring Anti Short Coil Low Model No Isolators Isolators CycleTimer Guard Thermostats Ambient TTA075A 2 9 12 5 4 1 5 8 3 6 1 5 23 10 4 TTA100A TTA100B 2 9 12 5 4 1 5 11 5 0 1 5 23 10 4 TTA100C TTA125B 2 9 12
155. omatic programmable electronic with night setback shall also be available LonTalk Communication Interface This factory or field installed option shall be provided to allow the unit to communi cate as aTracer LCI R device or directly with generic LonTalk Network Building Automation System Controls Low Ambient Operation Standard units shall start and operate to approximately 50 F when matched with air handlers and coils Optional head pressure control accessory permits operation to 0 F e TRANE FACTORY INSTALLED ACCESSORIES Black Epoxy Coated Condenser Coil This option is designed to provide corrosion protection of air cooled condenser coils for seacoast application The black epoxy coil protection is a factory applied thermoset vinyl coating bonded to normal aluminum fin stock The uniform thickness of the bonded vinyl layer exhibits excellent corrosion protection in salt spray tests performed in accordance with ASTM B177 ACCESSORIES Low Ambient Head Pressure Control Shall control fan motor in response to outdoor ambient temperature and liquid line temperature Accessory provides unit cooling operation to outdoor temperatures of Vibration Isolation Packages Shall reduce transmission of noise and vibration to building structures equipment and adjacent spaces Packages shall be available in either neoprene in shear or spring flex types Hot Gas Bypass Kit Shall be available to provi
156. re jobs with it s smaller more manageable cabinet This lighter compact design will save time and money for rigging and installation And the compactness will permitTrane s unit to replace almost any unit effortlessly Low Ambient Cooling Operation Each condensing unit can operate to 50 F 10 C as standard An accessory Head Pressure Control gives you the capability to operate to 0 F 178 C All condensing units offer these accessories Head Pressure Control Coil Guard Kits Isolators both Rubberin Shear and Spring Type Anti Short Cycle Kit Time Delay Relay Black Epoxy Coated Coil Air Handlers Offer More Flexibility Flexibility is a key to meeting changing market requirements Odyssey split systems offer not only various compressor options but also convertible air handlers The air handlers can be installed either vertically in a mechanical room or horizontally above a ceiling And it doesn t require any removal of panels to make either airflow application work These air handlers have a double sloped condensate drain pan that allows for either airflow configuration And the drain pan can easily be removed for cleaning All the air handlers feature factory installed belt drive and ball bearing evaporator fans with adjustable sheaves for maximum airflow performance SS PRC003 EN Odyssey air handler versatility is further increased by a complete line of accessories designed to match and
157. ro now BLACK BK RDCNOTE 13 PURPLE 6 20 e INSERT B 3E 8K COM HECRD 230v 208 TNS A Fu CN 5 BLACK ae BLACK 350080 24 v 25 AA ae z 21 36C BL as 1004t80 5 lae gt 35A RD 30 32 33 101881 100C D E RO 1I6ACGLO 11 35 LTB R YELLOW YELLOW 100F 8D LTB EF Wan CPS A 21 veto rira PR 100G RD CN 22 CS 1 T 1 1AC0R Y O 100J RD H 2 _15 RTRM 117ACPRY 116ACBL 130ACPRY DISABLE 1000tRD EMeRGtmcy pe a uc HPCO B cca CN 23 23 BLACK BLACK 132ACYL 134ACYL Y 101J 8L 100CtRD ewan 100ECRD 11 1ACPRY DISABLE out 10 ci PROVING 9 Faw our cout 16 508500 weis _ CN725 gi 118ACYL 115A BK fg 1010 6 JtBL 110ACBR 3 1st m DIE common 5 2 s 101681 5 101ECBL s coon MODE MEAT ENG SETPOINT 55
158. s constitute dry coil conditions Total Gross Cooling TGC shown to the left is not applicable In this case the Sensible Heat Capacity SHC is the total capacity All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 14 Gross Cooling Capacities kW Single Compressor TTA155C Condensing Unit with TWE155B Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C m3 h Bulb 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 16 1 19 4 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 27 6 27 0 30 2 19 9 33 0 12 8 268 26 7 29 2 19 5 31 8 12 4 25 8 25 8 28 1 19 0 30 5 12 0 24 8 248 26 8 18 4 29 1 11 6 7646 27 29 1 29 1 30 3 25 7 33 2 18 5 284 28 4 29 4 25 3 32 1 18 1 27 4 27 4 28 3 24 8 30 8 17 6 26 3 26 3 27 0 24 3 29 4 17 1 29 30 8 30 8 30 9 30 9 33 4 24 3 30 0 30 0 30 1 30 1 32 3 23 9 29 1 29 1 29 1 29 1 31 1 23 4 27 9 27 9 28 0 28 0 29 7 22 9 32 32 6 32 6 32 6 32 6 33 6 30 2 317 31 7 31 8 31 8 32 6 29 8 30 7 30 7 30 7 30 7 31 3 29 4 29 6 29 6 29 6 29 6 30 0 28 9 24 28 0 28 0 30 5 21 1 333 12 9 273 27 3 29 6 20 7 32 1 12 5 26 4 26 4 28 4 20 3 30 8 12 0 25 3 25 3 27 1 19 2 29 3 11 6 8495 27 29 8 29 8 30 7 27 1 33 6 19 5 29 0 29 0 29 8 26 7 32 5 19 1 28
159. sign Sequence n Current Design Sequence 20 Digit 12 Service Digit Digit 7 Refrigerant Circuit A Hirst 1 Refrigerant Circuit R22 2 Refrigerant Circuits R22 1 Refrigerant Circuit R410A 2 Refrigerant Circuits R410A mou SS PRC003 EN Table GD 1 General Data General Data e TRANE TTA075A TTA085A TTA100A TTA100B Cooling Performance Gross Cooling Capacity btu kW Matched Air Handler kW 84 000 24 60 90 000 26 35 114 000 33 38 112 000 32 79 Condensing Unit Only2 kW 84 000 24 60 93 000 2723 114 000 33 38 112 000 32 79 ARI Net Cooling Capacity kW 81 000 23 72 88 000 25 77 110 000 32 21 108 000 31 62 System Power kW 781 7867 10 27 10 06 Condensing Unit Power KW 705 707 9 26 9 13 Compressor Number 1 1 1 2 Type Trane 3 D Scroll Trane 3 D Scroll Trane 3 D Scroll Trane Climatuff Scroll No Motors each 1 1 1 1 Motor HP kW 6 25 4 7 6 91 5 15 8 33 6 21 4 15 3 1 Motor RPM 2875 2875 2875 2875 ARI Sound Rating Bels 8 8 8 8 8 8 8 8 System Data No Refrigerant Circuits 1 1 1 2 Suction Line in mm OD 1 375 34 9 1 375 34 9 1 375 34 9 1 125 28 58 Liquid Line in mm OD 0 500 12 7 0 500 12 7 0 500 12 7 0 375 9 53 Outdoor Coil Type Plate Fin Plate Fin Plate Fin Plate Fin Tube Size in mm OD 0 375 9 5 0 375 9 5 0 375 9 5 0 375 9 53 Face Area sq ft m 19 25 1 79 24 0 2 23 24 0 2 23 24 0 2 23 Rows 2 2 2 2 Fins Per Inch 18
160. ulb and 67 F 19 4 C entering wet bulb at ARI rated cfm 4 Sound Rating shown is tested in accordance with ARI Standard 270 oa manual 6 Outdoor Fan cfm is rated with standard air dry coil outdoor 7 Refrigerant operating charge is for condensing unit all circuits with matching blower coils and 25 ft 7 6 m of interconnecting refrigerant lines SS PRC003 EN System Data based on maximum linear length 80 ft 26 7 m Maximum lift suction 60 ft 18 3 m liquid 60 ft 18 3 m For greater lengths refer to refrigerant piping applications 11 e TRANE Table GD 2 General Data Cooling Performance Gross Cooling Capacity btu KW M atched Air Handler Condensing Unit Only ARINet Cooling Capacity System Power kW Condensing Unit Power kW Compressor Number Type No Motors each Motor HP kW Motor RPM ARI Sound Rating Bels 4 System 5 No Refrigerant Circuits Suction Line mm OD Liquid Line in mm OD Outdoor Coil Type Tube Size in mm OD Face Area sq ft m2 Rows Fins Per Inch Outdoor Fan Type No Used Diameter in mm Drive Type No Speeds CFM 6 m3 h No Motors Motor HP kW Motor RPM R 22 Refrigerant Charge Ib kg General Data TTA 100C 25B 113 000 33 09 184 000 39 24 113 000 33 09 130 000 38 06 110 000 32 21 130 000 38 06 10 34 12 63 9 31 1152 2 2 Copeland Scroll Climatuff Scrol 1 1 4 16 3 0 5 20 3 9 2875 2875 8 8
161. ve not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 8 Gross Cooling Capacities kW Single Compressor TTA100C Condensing Unit with TWE100A Air Handler SI AmbientTemperature C 29 4 35 0 40 6 46 1 Enter Dry Entering Wet Bulb C m h Bulb 16 1 19 4 22 8 16 1 194 22 8 16 1 194 22 8 16 1 194 22 8 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 18 7 183 204 13 5 223 87 180 180 197 132 215 84 173 17 3 189 128 206 81 167 167 18 1 125 197 7 8 5139 27 19 7 19 7 20 5 17 4 22 5 12 6 19 1 19 1 19 8 17 1 21 7 12 2 18 5 18 5 19 0 16 8 20 8 11 9 17 8 17 8 18 2 16 5 19 9 11 9 29 20 9 20 9 20 9 20 9 22 6 16 5 20 2 20 2 20 3 20 3 21 8 16 2 19 6 19 6 19 6 19 6 20 9 15 9 18 9 18 9 18 9 18 9 20 0 15 6 32 22 0 22 0 22 1 22 1 22 7 20 5 21 4 21 4 21 4 21 4 21 9 20 2 20 7 20 7 20 7 20 7 21 1 19 9 20 0 20 0 20 0 20 0 20 2 19 6 24 19 0 19 0 20 7 14 2 225 87 18 4 18 4 19 9 13 7 21 7 8 4 17 7 17 7 19 1 13 4 207 8 1 17 0 17 0 18 3 13 0 19 8 7 8 5692 27 20 2 20 2 20 8 18 3 22 7 13 2 19 5 195 20 0 18 0 21 9 12 9 18 9 18 9 19 3 17 7 21 1 12 6 18 2 18 2 18 4 17 4 20 1 12 3 29 21 3 21 3 21 4 21 4 22 8 17 3 20 7 20 7 20 7 20 7 22 0 17 0 20 0 20 0 20 0 20 0 21 1 16 7 19 3 19 3 19 3 19 3 20 2 16 4 32 22 6 22 6 22 6 226 23 0 21 7 21 9 21 9 2
162. voltage utilization range of plus or minus 10 percent of nameplate voltage Crankcase heater internal temperature and current sensitive motor overloads shall be included for maximum protection Scroll type compressor shall provide inherently low vibration and noise by having no suction and discharge valves External high and low pressure cutout devices shall be provided Evaporator defrost control provided in the indoor blower coil shall prevent compressor slugging by temporarily interrupting compressor operation when low evaporator coil temperatures are encountered Condenser Coil Coils shall be internally finned 3 8 copper tubes mechanically bonded to configured aluminum plate fin as standard Factory pressure and leak tested to 660 psig Metal grilles with PVC coating for coil protection are optional Condenser Fan And Motor s Direct drive statically and dynamically balanced 26 or 28 inch propeller fan s shall be used in draw through vertical discharge position Either permanently lubricated totally enclosed or open construction motors shall be provided and shall have built in current and thermal overload protection Motor s shall be either ball or sleeve bearing type SS PRCOOS EN Controls Condensing units shall be completely factory wired with necessary controls and contactor pressure lugs or terminal block for power wiring Unit shall provide an external location for mounting a fused disconnect device A
163. w Static Drive 4417 460 0 24 493 0 29 527 0 35 565 0 41 603 0 47 641 0 53 679 0 59 717 0 65 744 0 7 772 0 75 826 0 87 4715 473 0 28 506 0 34 540 0 4 576 0 45 613 0 51 649 0 57 686 0 63 723 0 69 748 0 75 775 0 8 830 0 89 5012 487 0 32 519 0 37 552 0 43 587 0 5 623 0 56 658 0 62 693 0 68 728 0 74 751 0 79 779 0 84 833 0 93 5309 501 0 37 532 0 42 565 0 48 599 0 54 632 0 6 666 0 66 700 0 72 734 0 78 755 0 83 783 0 88 737 0 97 5607 520 0 43 548 0 48 581 0 54 613 0 6 644 0 66 677 0 73 710 0 79 740 0 84 759 0 89 787 0 93 841 1 02 5904 541 0 51 568 0 57 600 0 63 631 0 69 658 0 75 691 0 8 721 0 87 746 0 9 764 0 95 793 1 846 1 1 6201 562 0 61 588 0 66 618 0 72 648 0 78 671 0 83 703 0 89 732 0 95 753 0 98 772 1 03 801 1 08 853 1 19 6499 582 0 72 608 0 77 637 0 83 666 0 89 685 0 94 711 0 98 739 1 03 763 1 07 787 1 13 815 1 18 862 1 3 6796 602 0 83 628 0 87 656 0 94 683 1 01 698 1 04 720 1 07 747 1 12 773 1 18 801 1 22 829 1 28 872 1 41 1 12 kW Standard Motor and Drive 1 49 kW Oversized Motor and High Static Drive Notes 1 Performance based on a wet coil and 1 inch 25 4 mm throwaway filters Table PD 33 Continued 2 Tabulated brake horsepower is the motor shaft output required 3 Factory setting of motor sheave is 3 0 turns open Adjustments are External Static Pressure Pascal made in 0 5 turn increments 4 Low Static Drive must be field supplied 349 398 m hr RPM kW RPM kW 1 49
164. y All capacities shown are gross and have not considered indoor fan heat To obtain net cooling capacities subtract indoor fan heat TGC Total Gross Cooling Capacity SHC Sensible Heat Capacity Table PD 11 Gross Cooling Capacities KW TTA155B Condensing Unit with TWE155B Air Handler SI AmbientTemperature C 294 350 40 6 46 1 Enter Dry Entering Wet Bulb C mih Bulb 16 1 194 228 16 1 194 228 16 1 194 228 16 1 194 228 Airflow C TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC 24 449 352 49 6 296 544 202 43 4 344 478 28 9 524 19 4 41 6 335 458 28 0 50 0 18 6 39 5 324 435 27 1 474 178 7646 27 452 41 0 49 7 340 546 26 4 437 40 2 47 9 33 1 52 6 25 7 41 9 39 3 45 9 32 2 50 4 24 8 39 9 38 3 43 6 31 2 47 9 23 9 29 46 1 46 1 49 9 39 7 54 9 32 5 44 8 448 48 2 38 9 52 9 31 7 43 2 43 2 46 2 38 0 50 6 30 9 41 5 41 5 43 9 36 9 48 0 29 8 32 48 4 484 50 2 45 6 54 9 38 3 47 1 47 1 48 5 44 8 53 0 37 4 45 5 45 5 46 5 43 8 50 8 36 5 43 7 43 7 44 3 42 8 48 3 35 5 8495 24 45 8 36 8 50 5 29 1 55 3 20 5 44 2 360 48 7 28 3 53 1 19 8 42 4 35 0 46 5 27 5 50 7 1891402 34 0 44 2 26 5 48 1 18 0 27 46 2 43 2 50 6 35 4 556 27 3 44 6 424 48 8 34 6 53 5 26 5 428 41 5 46 7 33 6 51 2 25 7 408 40 4 44 4 32 6 48 6 248 29 47 6 47 6 50 9 41 7 55 8 33 9 46 2 462 49 1 40 9 53 8 33 2 44 6 44 6 47 0 39 9 51 3 32 0 42 8 42 8 44 6 38 9 48 8 31 0 32 50 1 50 1 51 2 48 1 56 0 40 1 48 6 48
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