York UL R134A User's Manual
Contents
1. CONS NIUNU 1 3 408 251 ni CONS ET EEF E ex 75 d3N ZI EEP 3048 2510 IAM 2 ON 7645 CONS NIUNG 6 4 1X3 408 251 C n COND HT 8 EU e A8 d3N L EEP 110 CIndNI 9 ON SAS UND Niwa 4 COND 918 TAS 03 2 LI 01121 UNNI IHM TSEF DN 9 310N 335 NTUSU 6 0 2 ong s 0002 198535 A0E 038 LOEF EM Nel HSA CIndNIJ IHM 9 05 2 ON SAS CONS NIUNG 2 ge 108 251 TAS 038 2 2 2 ON SAS CIMANTY 1 2 COND NIUNG 61 4 1X3 108 252 TAS 03 01 p z ON SAS INdNT WTB S EE NU 1 ALON 335 CONS NIUNG p TAS G3A 2 LI 1X3 198 22 El NOSN3S dil NOT120 WTB ON SAS COND NIUNG yi 6er 1 3 408 151 ni CONS ET 82r 75 038 21 627 m CIndNI2. LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 525 0 123 1 3 9 515 6 139 0 34 503 3 156 2 3 0 487 8 176 4 26 4490 192 6 22 4411 196 0 2 1 6 0 539 7 124 0 3 9 530 4 140 2 3 5 518 1 1574 3 0 500 9 177 3 26 460 8 193 4 22 4527 196 7 2 2 7 0 5547 1250 40 5454 141 3 3 5 533 0 158 5 3 1 514 0 178 2 2 7 4728 194 1 23 464 5 197 5 2 2 8 0 569 9 126 1 4 1 560 7 1424 3 6 548 1 159 7 3 2 527 2 179 1 27 4849 195 0 23 4765 1982 2 3 9 0 585 2 127 1 4 2 576 2 143 5 3 7 563 5 161 0 3 2 540 5 180 0 28 497 0 195 9 24 4884 199 1 2 3 10 0 600 7 1282 42 591 8 144 7 3 7 579 1 1622 3 3 554 0 180 9 29 5095 196 8 24 500 6 200 0 24 11 0 6164 129 2 43 607 7 145 8 3 8 594 9 163 5 3 4 567 6 181 9 29 522 3 1977 25 5132 200 9 24 12 0 632 2 130 3 44 6238 147 0 3 9 610 9 164 8 34 5812 182 9 3 0 535 2 198 6 25 5259 201 8 24 13 0 648 3 1313 45 640 1 1483 40 6272 166 2 35 595 0 183 8 3 0 548 3 199 5 2 6 5388 2027 2 5 MODEL YCIV0630E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi
3. MODEL Isolator Locations x y mm and Point Loads kg 60 Hz 50 Hz 1 2 3 4 5 6 7 LEFT L 230 2204 1510 2204 2470 2204 4100 2204 5350 2204 7820 2204 AI Fin Coils 784 743 566 526 572 435 Cu Fin Coils 784 784 675 651 730 544 RS8LS1 Al Fin Coils 865 824 566 526 572 435 RS amp LS1 Cu Fin Coils 865 865 675 651 730 544 YCIV0247SIP 0920 RIGHT R 230 32 1510 32 2470 32 4100 32 5350 32 7820 32 Al Fin Coils 780 737 562 523 561 433 Cu Fin Coils 780 778 671 648 719 542 RS8LS1 Fin Coils 861 818 562 523 561 433 RS amp LS1 Cu Fin Coils 861 859 671 648 721 542 LEFT L 230 2204 1510 2204 2470 2204 4100 2204 5350 2204 7820 2204 Al Fin Coils 784 743 566 526 574 456 Cu Fin Coils 784 784 675 651 732 565 RS8LS1 Al Fin Coils 865 824 566 526 574 456 RS amp LS1 Cu Fin Coils 865 865 675 651 732 565 YCIV0267SIP YCIV1000S P RIGHT R 230 32 1510 32 2470 32 4100 32 5350 32 7820 32 Fin Coils 784 743 566 526 574 456 Cu Fin Coils 784 784 675 651 732 565 RS8LS1 Al Fin Coils 865 824 566 526 574 456 RS amp LS1 Cu Fin Coils 865 865 675 651 734 565 LEFT L 230 2204 1475 2204 2823 2204 5199 2204 7236 2204 9346 2204 Al Fin Coils 795 719 826 821 963 533 Cu Fin Coils 805 797 982 978 1119 e RS8LS1 Fin Coils 875 799 826 821 993 663 RS amp LS1 Cu
4. 60Hz 0157 0177 0187 0197 0207 0227 0247 50Hz 0590 0630 0700 0760 0800 0830 0930 Number of Independent Refrigerant Circuits 2 2 2 2 2 2 2 Refrigerant Charge R 134a Ckt 1 Ckt 2 Ibs 170 170 185 170 185 185 192 192 225 192 225 225 230 230 Oil Charge Ckt 1 Ckt 2 gal 5 5 5 5 5 5 5 5 5 5 5 5 5 5 Compressors Semihermetic Screw Qty per Chiller 2 2 2 2 2 2 2 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area ft2 235 264 293 293 323 352 352 Number of Rows 3 3 3 3 3 3 3 Fins per Inch 17 17 17 17 17 17 17 Condenser Fans Number Ckt 1 Ckt 2 4 4 5 4 5 5 5 5 6 5 6 6 6 6 Low Noise Fans Fan Motor HP 2 2 2 2 2 2 2 Total Chiller Airflow cfm 104000 117000 130000 130000 143000 156000 156000 Ultra Quiet Fans Fan Motor HP 2 2 2 2 2 2 2 Total Chiller Airflow cfm 104000 117000 130000 130000 143000 156000 156000 Dual Speed Fans Normal Speed Fan Motor hp 2 2 2 2 2 2 2 Total Chiller CFM 88000 99000 110000 110000 121000 132000 132000 Dual Speed Fans Lower Speed Fan Motor hp 2 2 2 2 2 2 2 Total Chiller CFM 67200 75600 84000 84000 92400 100800 100800 High Static Fans Fan Motor hp 5 5 5 5 5 5 5 Total Chiller CFM 104000 117000 130000 130000 143000 156000 156000 Evaporator Direct Expansion Water Volume gals 95 0 95 0 95 0 110 0 110 0 110 0 140 0 Maximum Water Side Pressure PSIG 150 150 150 150 150 150 150 Maximum Refrigerant Side Pressure PSIG 235 235 23
5. LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 209 5 167 1 13 4 207 179 8 12 5 1206 1193 41 11 6 204 2 208 1 10 7 202 1 223 5 10 0 199 8 241 0 9 2 197 2 259 1 8 5 190 9 269 7 7 9 183 3 277 2 7 4 42 0 1216 1 168 5 13 7 214 5 181 0 12 8 212 6 194 6 11 9 210 6 209 1 11 0 208 41224 5 10 2 205 9 242 0 9 4 1203 2260 3 8 7 196 1269 8 8 1 188 3 277 4 7 6 44 0 222 9 170 1 14 1 221 2 182 3 13 1 219 21195 8 12 2 217 1 210 2 11 3 214 9 225 6 10 5 212 2 243 1 9 7 1209 42614 8 9 201 5 269 9 8 3 193 4 277 4 7 8 45 0 226 41171 0 14 2 224 6 183 1 13 3 222 6 196 4 12 3 220 41210 8 11 5 218 1 226 1 10 6 215 4 243 7 9 8 2124261 7 9 0 204 2269 8 8 4 196 0 277 5 7 9 46 0 229 8 171 9 14 4 228 0 183 9 13 4 226 0 197 1 12 5 223 8 211 4 11 6 221 4 226 8 10 8 218 6 244 2 9 9 1215 2261 7 9 2 206 9 269 8 8 6 1198 6 277 5 8 0 48 0 236 9 173 9 14 7 235 0 185 6 13 7 232 9 198 7 12 8 230 6 212 8 11 9 228 1 228 0 11 0 225 2 245 5 10 2 221 0 261 7 9 4 212 5 269 8 8 8 1203 9 27741 82 50 0 244 0176 0 14 9 242 1 187 5 14 0 239 9 200 3 13 1 237 6 214 2 12 2 235 0 229 3 11 3 232 0 246 8 10 4 226 9261 7 9 7 218 1 269 7 9 0 209 3 277 4 8 4 52 0 251 1 178 3 15 2 249 21189 51 14 3 247 0 202 1 13 3 244 6 2
6. CONTROL PANEL STANDARD EFFICIENCY SI MODEL Isolator Locations y mm and Point Loads kg 60 Hz 50 Hz 1 2 3 4 5 LEFT L 230 2204 1510 2204 2780 2204 5360 2204 AI Fin Coils 772 722 633 608 Cu Fin Coils 772 773 789 763 RS8LS1 Fin Coils 853 803 633 608 RS amp LS1 Cu Fin Coils 853 854 789 763 01578 06005 RIGHT R 230 32 1510 32 2780 32 5360 32 Al Fin Coils 772 722 633 608 Cu Fin Coils 772 773 789 763 RS8LS1 Fin Coils 853 803 633 608 RS amp LS1 Cu Fin Coils 853 854 789 763 LEFT L 230 2204 1510 2204 2780 2204 5360 2204 Al Fin Coils 780 732 756 730 Cu Fin Coils 780 783 912 885 RS8LS1 Fin Coils 861 813 756 730 RS amp LS1 Cu Fin Coils 861 864 912 885 YCIV0177SIP 0650 RIGHT R 230 32 1510 32 2780 32 5360 32 Fin Coils 772 723 756 730 Cu Fin Coils 772 774 912 885 RS8LS1 Fin Coils 853 804 756 730 RS amp LS1 Cu Fin Coils 853 855 912 885 LEFT L 230 2204 1510 2204 2780 2204 4970 2204 6740 2204 AI Fin Coils 778 716 707 578 351 Cu Fin Coils 778 771 861 750 424 RS8LS1 Al Fin Coils 859 797 707 578 351 RS amp
7. CONTROL PANEL 15 16 TYP 14 1 8 a 60 49 3 16 64 3 16 50 5 16 9 1 8 VIEW D D M A 7 D D 93 15 16 45 5 16 3 10 WATER INLET 4 RIGGING HOLES 10 WATER OUTLET 5 A EACH SIDE 3 X 2 9 8 112 58 284 7 8 180 11 16 92 11 16 33 5 16 318 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 73 Dimensions English continued Models YCIV0267E V and YCIV0287S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH 1 1 2 FE NI VIEW B B 13 4 3 L 2 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 88 1 8 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent uni
8. Electrical Data 3 Comp Standard Efficiency Electrical Data 3 Comp High Efficiency a i aib aaa dake wau pe avarus eaa Renan agat a Ryu ssa Pega apap wi WAY Iz eui Power Wiring ess Typical Control Wiring 50 ai sean a gea epa www ida awf YA san nca Ya Sys Neon E pus eame gea Eoo sa eade Typical Control Wiring Three CompresSOr zaw Ea KAYE dean PGE aa same reae S eaae oa san e paa ad e gau aba puta amm gea Eom Application Data ges Guide Speciticatl Ons uu ERROR RE 2 JOHNSON CONTROLS FORM 201 23 EG1 1007 Introduction YORK YCIV Air Cooled Screw Liquid Chillers YORK has a proud history of innovation in both compressor design and variable speed drive VSD technology The Latitude air cooled chiller uses the best of modern screw compressor design and manufacturing techniques and combines them with the latest in a long line of chiller variable speed drives The result is superior control and industry leading efficiency at real world conditions In addition by slowing the speed of the chiller to match system requirements at off design condi tions the chiller sound output is reduced when it is the most sensitive to neighbors evenings and weekends With the introduction of the YCIV model air cooled chiller system design
9. 1 6 ger e ger 1 3 dHJ I7 H4 1 I TOULNOS I Em a m z I Ge d HV LAG TI Ir 124 O _ON9 138288 014 0 2 24 5 4 1 NIUNG 28 181 NOI 140 ___0 NOHHOJ Nag wsn 2 GSA Nbd y siri Ndg NI8 1 Ed 2 33SN30N02 01 ETSL 134 40 IHM 1 24 229171 03346 Z 525 1 1 03345 Nbd SAS 1 SH 1 ABM31U90321H He A ONS Na9 1140 13N2U8 782 NIGWO0 2 SAS IHM SLL 340 NS y NOIL Ld0 0333 Z 545 033 2242 f OND Na9 V IIVLAG 282 NIENG SAS IHM OND ANO SLINN UO u dbA3 310434 0334 515 TES 33S NO 03511035 WS 1 3 d1dA 12 21 827 THK THM de 17 827 eq WT SAS aaa 2 82 Niasa OTS ES nas 2 na z00 59881 se0 LEE Ter s zir 8 21801 asa 01 ua 1X3 014A 121 8 82 1HM aas 121 21 JAWA Miesa WTB zd wa 2 17 536 5827 ms 039 al Nad Nad 000 2 20 0 a Saz 9857 3i 1 3 3144 251 THM TAM 0333 o Q 3l AWA 450 11287 wig 18 YNHL HSH14 o iz gion Xt Z SAS 2 038 394315 338 axa 5 2 Nua naa Xs 41 OND 8142 15 1X3 0124 25
10. 0590 and YCIV0600S P CONTROL ENTRY 76 WIDE X 343 HIGH 38 POWER ENTRY 105 254 WIDE X 330 HIGH VIEW B B POWER ENTRY IS ON BOTTOM OF PANEL A p B EDGE OF UNIT TO COOLER CONNECTION P 2238 VIEW A A YCIV A B C D 0590E V 485 714 2146 2865 0600S P 442 739 2286 2797 Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 84 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING G HOLES TYP e ORIGIN m 33 TYP 1 I 231 2581 1270 1278 VIEW D D 2387 L9 N 9 WATER INLET D 846 5842 EJ
11. 11 6 273 9 286 0 10 7 265 7 298 6 10 0 256 7 309 9 9 3 225 0272 3 9 2 E_IPLV 13 3 V_IPLV 14 9 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS EER ONS KW EER TONS KW EER 13 5 261 9 228 6 12 5 259 3 246 9 11 5 256 4 266 4 10 6 253 3 286 8 9 8 249 7 309 7 9 0 244 9 8 3 234 7 343 0 7 7 224 5 353 9 7 1 13 8 270 3 229 9 12 8 267 6 248 0 11 8 264 6 267 4 10 9 261 3 287 9 10 1 257 6 310 9 9 2 251 8 8 5 241 3 343 4 7 9 230 7 354 6 7 3 14 1 278 8 231 4 13 1 276 0 249 2 12 1 272 9 268 5 11 2 269 5 288 9 104 265 6 3122 9 5 258 9 8 8 247 9 343 6 8 1 237 1 355 1 7 5 14 3 283 1 232 3 13 3 280 3 249 9 12 3 277 2 269 1 11 4 273 7 289 5 10 5 269 7 312 7 9 6 262 4 8 9 251 3 343 7 8 2 240 3 355 3 7 6 14 4 287 4 233 2 13 4 284 6 250 7 12 5 281 4 269 8 11 5 277 9 290 1 10 6 273 8 313 4 9 8 266 0 9 0 254 7 343 8 8 3 243 5 355 5 7 7 14 7 296 3 235 3 13 7 293 4 252 4 12 8 290 1
12. 187 0 12 0 196 2 196 4 11 2 190 7 205 7 10 4 182 9 213 5 9 7 167 5 204 9 9 2 141 5 174 7 9 0 MODEL YCIV0187S P AIR TEMPERATURE ON CONDENSER F S IPLV 13 3 IPLV 15 1 LCWT CF 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS KW EER TONS KW EER TONS KW EER IONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 180 3 153 0 12 9 178 8 164 8 11 9 177 1 177 5 11 0 175 3 190 8 10 2 1734 204 7 9 5 171 1 2204 8 7 166 1 231 6 8 1 159 41240 4 75 152 8 248 8 6 9 42 0 185 9 154 3 13 2 184 4 166 1 12 2 182 6 178 6 11 3 180 7 191 9 10 5 178 7 205 9 9 7 1764 221 7 8 9 170 5 232 1 8 3 163 7 240 9 7 7 156 9 249 4 7 1 44 0 191 7 155 7 13 5 190 0 167 3 12 5 188 2 179 9 11 6 186 3 193 1 10 7 184 2 207 1 9 9 181 7 222 9 9 2 175 1 232 5 8 5 168 0 241 4 7 9 160 9 250 0 7 3 45 0 194 6 156 4 13 6 192 9 168 0 12 6 191 1 180 5 11 7 189 1 193 8 10 9 186 9 207 7 10 1 184 3 2234 9 3 1774 232 7 8 6 170 2 241 6 8 0 163 01250 3 7 4 46 0 197 5 157 2 13 8 195
13. 88 1 8 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 82 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP 15 16 CONTROL PANEL t t i 19 dl 112 11 16 76 VIEW D D 93 15 16 10 WATER OUTLET 10 WATER INLET 5 RIGGING HOLI EACH SIDE 3 X2 15 l 445 328 1 8 197 13 16 1 217 13 16 120 11 16 T 465 3 16 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 83 Dimensions SI
14. 900 8 TISANA 9 5066 5 0 335 5 6 5 s r T poser 01 ART 3 gt Y H 610 Gw QB TO3INOJ D gz L LI HNUTU Z ON SAS 5 G GEf ser BAN 24 1 NnN OSA Z ON SAS i 200 60661 660 ais _ zy Di 1 1281402 dhd tt 5 010 E pr NU OSA RETE 1081N0J 200 62 20 Te0 27087546 FA 01 ED m e 9 103 Ra Ne AV 138 530 52 6 108LN09 2 24 105 II 0349 gt J 03345 2 705 2 ON SAS 2 ON SAS 612 5 e zit ELM a Taf ov orz ane of NOLLdO G 5 M 5 H s rc 03345 HOIH TOMLNOO 7 ON SAS 03345 G e os 2 ele soki m sc n Ex om 5 1 SI0T 3 ONE e 9j u H 1 SAS Teer 21111 yer GRO es 4831154 1 SE 2 0131 44 83183H 3066384402 sg I ON SAS d T M san 122 ser 8 8Er rta 78 Jeu H03 17 s 22 e i ain 819183 55 Nua Sas 155501912 SIT Ler cir 9 i ___ znano j d SIS S3 SS 3 I ON SAS 0426 124y SIT sa 4 T EDS TGBULNOJ 5 PT e pr ON SAS 5484 095 OML y10 v z 0 ori 121 et BNO Lathe BM O T D T 7105 1023 UN SAS 4
15. AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 935 9 2143 3 9 919 5 2460 34 900 1 2813 30 875 5 321 9 25 811 1 3429 2 2 798 1 3467 22 6 0 962 5 215 7 40 945 8 247 0 35 925 6 2823 3 0 898 2 3222 26 831 3 3433 23 817 8 347 2 22 7 0 989 5 217 3 4 1 972 5 248 1 36 951 7 2833 3 1 921 3 3223 27 851 9 3436 23 838 0 3476 23 8 0 1017 1 219 1 42 999 6 2494 37 978 3 2843 32 9441 3223 27 8727 343 8 24 8587 347 9 23 9 0 1045 2 221 1 43 1027 4 2509 37 10054 285 5 33 967 3 3223 28 894 2 343 9 24 879 6 348 1 24 10 0 1073 8 2234 44 1055 6 2525 3 8 1033 0 286 9 3 3 991 0 3222 2 9 915 8 344 0 25 901 0 3482 24 11 0 1102 8 225 9 44 1084 4 254 3 3 9 10612 2883 34 10150 322 2 29 9380 3440 26 9226 348 2 25 12 0 1132 3 228 7 45 1113 6 2564 4 0 1089 8 289 9 3 5 1039 3 3222 30 960 5 344 0 26 9448 348 2 25 13 0 1162 3 231 7 46 1143 3 2587 4 1 1119 1 2917 3 6 1063 8 3223 3 1 983 3 3440 27 967 4 348 1 2 6 MODEL YCIV0287E V AIR TEMPERATURE ON CONDENSER C LCW
16. Fin Coils 780 730 734 614 390 Cu Fin 780 785 888 786 463 RS amp LS1 Al Fin Coils 861 811 734 614 390 RS8LS1 Cu Fin Coils 861 866 888 786 463 LEFT L 230 2204 1510 2204 2470 2204 4100 2204 5350 2204 7820 2204 Al Fin Coils 780 732 491 481 496 432 Cu Fin Coils 780 773 600 576 654 541 RS amp LS1 Al Fin Coils 861 813 491 451 496 432 RS8LS1 Cu Fin Coils 861 854 600 576 654 541 YCIV0207EV YCIVO800E V RIGHT R 230 32 1510 32 2470 32 4100 32 5350 32 7820 32 Fin Coils 780 732 491 451 489 433 Cu Fin Coils 780 773 600 576 647 542 RS amp LS1 Al Fin Coils 861 813 491 451 489 433 RS8LS1 Cu Fin Coils 861 854 600 576 649 542 110 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL Isolator Locations x y mm and Point Loads kg 1 2 3 4 5 6 7 LEFT L 230 2204 1510 2204 2470 2204 4100 2204 5350 2204 7820 2204 Al Fin Coils 780 733 492 453 500 455 Cu Fin Coils 780 774 601 578 658 564 RS8LS1 Al Fin Coils 861 814 492 453 500 455 RS8LS1 Cu Fin Coils 861 855 601 578 658 564 YCIV0227EIV YCIVO830E V RIGHT R 230 32 1510 32 2470 32 4100 32 5350 32 7820 32 Al Fin Coils 780 733 492 453 500 455 Cu Fin Coils 780 774 601 578 658 564 RS8LS1
17. SUPPLY en Eis FIG 3 THREE COMPRESSOR WIRING DIAGRAM WITH CIRCUIT BREAKER SINGLE POINT 3 COMPRESSOR POWER WIRING CONNECTIONS VSD CONTROL PANEL VSD VSD kc STANDARD UNIT CONTROLS TRANSFORMER EVAPORATOR HEATER 1 FAN CONTACTORS GRDQ See Note 3 1 1 FIELD PROVIDED UNIT POWER SUPPLY FIG 4 THREE COMPRESSOR WIRING DIAGRAM WITH TERMINAL BLOCK SINGLE POINT 126 JOHNSON CONTROLS FORM 201 23 EG1 1007 INTENTIONALLY LEFT BLANK JOHNSON CONTROLS 127 Typical Control Wiring Two Compressor SNU3 14100 BAL IN SLINA 33 803 50187 1 t 3 UNUJ UN 545 ANVA313H JHL 39NVQHOOOV NI 38 OL ONIMIM 07315 S3LON 3513 71031N02 10381N03 ONU 015 AIJA 600 3 116130 335 ree 3 015
18. 3 RIGGING HOLES EACH SIDE 76 X 51 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 85 Dimensions SI continued YCIV0630E V YCIV0650S P YCIVO700E V and YCIV0720S P CONTROL ENTRY 76 WIDE X 343 HIGH 1 38 i POWER ENTRY 102 254 WIDE X 330 HIGH VIEW B B 44 L aoe POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 485 714 EDGE OF UNIT TO COOLER CONNECTION YCIV A B 06307E V 2238 6960 0650S P 2032 5842 0700E V 2238 6960 0720S P 2238 6960 Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 86 JOHNSON CONTROLS FORM 201 23 EG1 1007 DIMENSIONS mm
19. 271 2 11 8 286 5 291 4 10 9 282 2 314 7 10 0 273 3 9 2 261 7 343 8 8 5 250 2 355 6 7 9 15 0 305 3 237 6 14 0 302 3 254 4 13 1 299 0 273 0 12 1 295 2 293 0 11 2 290 8 316 1 10 3 280 7 9 5 268 8 343 8 8 8 256 9 355 8 8 1 15 3 314 5 240 3 14 3 311 5 256 6 13 3 308 0 274 9 12 4 304 2 294 7 11 5 299 6 317 8 10 5 288 2 9 7 276 0 343 8 9 0 263 8 355 8 8 3 15 6 328 5 244 8 14 7 3254 260 5 13 8 321 9 278 2 12 8 317 9 297 6 11 9 312 4 319 0 10 9 299 8 10 1 287 1 343 7 9 4 274 4 355 8 8 7 E IPLV 12 9 IPLV 14 8 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER ONS KW EER TONS KW EER 2 222 4 13 6 278 8 240 6 12 6 276 1 260 6 11 6 273 1 282 2 10 7 270 0 304 7 9 8 266 3 330 2 9 0 261 8 354 9 8 3 251 2 365 8 7 7 240 7 375 4 7 2 1 024 2 14 0 287 6 241 7 12 9 284 8 261 4 11 9 281 7 282 7 11 0 278 4 305 4 10 1 274 6 331 0 9 3 269 1
20. F TONS KW EER TONS KW EER TONS KW EER TONS KW EER KW EER KW EER TONS KW EER 5 KW EER TONS KW EER 40 0 157 1 131 4 13 0 156 3 137 3 12 3 155 0 147 6 11 4 153 5 158 6 10 6 1151 91170 1 9 8 150 0183 2 9 1 147 0 195 7 8 4 142 2 207 3 7 7 136 2 217 9 7 0 42 0 162 5 128 7 13 6 161 3 138 3 12 6 159 9 148 5 11 7 158 3 159 4 10 9 156 6 171 0 10 1 154 7 184 1 9 3 151 21196 5 8 6 146 1 207 9 7 9 139 91218 6 7 2 44 0 167 6 129 9 13 9 166 3 139 3 12 9 164 8 149 5 12 0 163 2 160 4 11 2 161 5 171 9 10 4 159 4 185 0 9 6 155 6197 2 8 8 150 1 208 5 8 1 143 6 219 3 7 4 45 0 170 2 130 5 14 0 168 9 139 9 13 1 167 4 150 1 12 2 1165 7 160 9 11 3 163 9 172 4 10 5 161 8 185 5 9 7 157 8 197 6 8 9 152 1 208 8 8 2 145 5 219 6 7 4 46 0 172 8 131 2 14 2 171 41140 5 13 2 169 9 150 6 12 3 168 2 161 4 11 4 166 4 172 9 10 6 164 31186 0 9 8 1160 0 198 0 9 0 154 1 209 1 8 3 147 5 219 9 75 48 0 178 0132 6 14 5 176 7 141 8 13 5 175 1 151 8 12 6 173 4 162 5 11 7 171 5 174 0 10 9 169 1 186 9 10 0 164 6 198 7 9 2 158 3 209 7 8 4 151 4 220 5 7 7 50 0 183 4 134 1 14 8 182 0 143 1 13 8 180 4 153 0 12 9 178 6 163 7 12 0 1176 6 175 1 11 1 173 9 187 8 10 3 169 2 199 6 9 5 162 5 210 3 8 7 154 4218 2 7 9 52 0 188 9 135 7 15 0 187 5 144 6 14 1 185 8 154 4 13 2 183 9 165 0 12 3 181 9 176 3 11 4 178 7 188 7 10 5 173 9 200 5 9 7 166 8 210 9 8
21. G Exposed compressor and fan motor power wiring shall be routed through liquid tight conduit 2 06 CONTROLS A General 1 Provide automatic control of chiller operation including compressor start stop and load un load anti recycle timers condenser fans evaporator pump evaporator heater unit alarm contacts and run signal contacts 2 Chiller shall automatically reset to normal chiller operation after power failure 3 Unit operating software shall be stored in non volatile memory Field programmed set points shall be retained in lithium battery backed regulated time clock RTC memory for minimum 5 years 4 Alarm contacts shall be provided to remote alert for any unit or system safety fault B Display and Keypad 1 Provide minimum 80 character liquid crystal display that is both viewable in direct sunlight and has LED backlighting for nighttime view ing Provide one keypad and display panel per chiller 2 Display and keypad shall be accessible through display access door without opening main control electrical cabinet doors 3 Display shall provide a minimum of unit Setpoints status electrical data temperature data pressures safety lockouts and diagnos tics without the use of a coded display 4 Descriptions in English or available language options numeric data in English or Metric units 5 Sealed keypad shall include unit On Off switch C Programmable Setpoints within Manufacturer limi
22. 1276 7 346 4 3 4 1249 8 392 3 3 0 1193 1 431 5 26 1115 8 458 4 2 3 1087 6 455 1 2 3 90 1335 7 3083 40 1311 6 348 9 3 5 1283 5 394 8 3 0 1221 8 432 2 2 7 1142 3 459 1 2 4 1099 0 446 1 2 3 10 0 1372 1 311 4 4 1 1347 0 351 7 3 6 1317 8 397 4 3 1 1250 7 432 9 2 7 1169 1 459 8 24 1109 6 4362 24 11 0 1409 1 3146 4 1 1383 1 354 6 3 6 1352 9 400 1 3 2 1280 3 433 5 28 1182 0 450 6 25 1119 3 425 5 25 12 0 1446 3 3182 42 1419 9 357 8 3 7 1388 6 403 1 3 2 13104 4342 2 8 1193 1 439 9 2 6 1128 3 4144 26 13 0 14844 3214 43 1456 9 361 0 3 8 1425 0 406 2 3 3 1340 9 434 9 2 9 1203 2 4285 2 6 11364 403 3 2 6 MODEL YCIV0397S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 1343 1 335 5 3 7 1321 0 381 2 3 2 1295 4 431 2 2 8 12548 483 3 2 4 1192 2 523 5 2 2 1179 6 5314 2 1 6 0 1380 7 338 2 3 8 1357 6 383 8 3 3 1330 9 434 0 2 9 1286 2 485 1 2 5 1221 4 525 5 2 2 1208 2 533 5 2 1 7 0 1419 0 341 1 3 8 1395 0 386 6 3 4 1367 0 437 0 2 9 1318 4 486 8 2 6 1251 4 527 3 2 2 1237 8 5354 22 8 0 1458 1 344 2 3 9 1433 1 389 7 3 4 1403 9 439 9 3 0 1351 3 488 5 2 6 1282 0 529 1 2 3 1250 9 524
23. 13 3 186 0 163 6 12 4 184 2 175 8 11 5 182 1 188 8 10 6 179 7 203 5 9 8 175 2 214 5 9 1 169 2 223 8 8 4 162 1 232 1 7 8 46 0 191 8 142 3 14 5 190 4 152 7 13 5 188 8 164 1 12 5 187 0 176 3 11 6 184 9 189 2 10 8 182 5 204 0 9 9 177 7 214 6 92 171 5 223 9 8 5 164 3 232 3 7 9 48 0 197 5 143 8 14 8 196 2 154 0 13 8 194 5 165 2 12 8 192 6 177 3 11 9 190 5 190 3 11 0 188 0 204 9 10 2 182 8 215 0 9 5 176 21224 2 8 8 168 7 232 5 8 1 50 0 2034 145 3 15 1 202 0 155 4 14 1 200 3 166 4 13 1 198 4 178 4 12 2 196 2 191 3 11 3 193 3 205 3 10 4 188 0 215 3 9 7 181 0 224 4 9 0 173 3 232 8 8 3 52 0 209 3 147 0 15 3 207 9 156 9 144 206 2 167 8 13 4 204 2 179 7 12 5 202 0 192 4 11 6 198 6 205 8 10 7 193 2 215 7 10 0 185 8 224 5 9 2 177 4 231 9 8 6 55 0 218 4 149 9 15 7 217 0 159 4 14 8 215 3 170 1 13 8 213 2 181 8 12 9 210 9 194 4 12 0 206 8 206 5 11 1 201 2 216 3 10 4 193 2 224 8 9 6 180 3 223 0 9 0 NOTES EE mo gt N gt kW R LCWT Ratings based on 2 4 GPM cooler water per ton Rat
24. 165 9 132 5 13 6 164 4 141 7 12 7 162 6 151 2 11 9 160 4 161 0 11 0 157 9 172 1 10 2 152 5 181 8 94 145 7 190 6 8 6 138 9 199 6 7 8 50 0 171 9 124 8 14 9 170 8 133 7 13 9 169 3 143 0 13 0 167 5 152 5 12 1 1654 162 5 11 3 162 7 173 6 10 4 156 7 182 8 9 6 149 8 191 6 8 8 142 7 200 6 8 0 52 0 176 8 125 9 15 2 175 8 134 9 142 174 4 144 3 13 3 172 6 153 9 124 170 4 163 9 11 5 167 7 175 1 10 7 161 0 183 8 9 8 153 9 192 6 9 0 146 7 201 5 8 2 55 0 184 4 127 6 15 7 183 5 136 8 14 7 182 1 146 3 13 7 180 3 156 0 12 8 178 1 166 1 11 9 174 8 177 0 11 0 167 5 185 5 10 1 160 21194 1 9 3 152 8 203 1 8 5 MODEL YCIV0177E V E_IPLV 13 7 V_IPLV 14 9 AIR TEMPERATURE ON CONDENSER F LCWT CF 40 0 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS 157 1 KW 128 7 EER 13 3 TONS 156 3 KW 134 6 EER 12 5 KW 155 0 144 6 11 6 TONS 153 5 KW 155 4 EER 10 8 TONS 151 9 KW 166 7 EER TONS 10 0 150 0 KW 179 5 EER 9 3 TONS 147 0 KW 191 8 EER 8 5 TONS 142 2 KW EER 203 1 7 8 TONS
25. 257 2 24 6 0 694 6 159 5 3 9 683 0 183 1 34 669 6 210 7 29 649 6 241 0 25 603 0 2548 22 593 6 257 3 22 7 0 7141 160 7 4 0 702 0 183 8 35 688 0 211 1 3 0 665 3 240 6 2 6 617 6 254 6 2 3 608 0 257 2 22 8 0 733 9 162 2 4 1 721 3 184 7 3 6 706 8 211 7 3 1 681 5 240 0 2 7 632 4 254 4 2 3 622 7 256 9 2 3 9 0 754 1 163 9 4 2 741 1 185 7 3 7 726 0 212 3 3 2 697 9 239 5 2 7 647 7 2540 24 6375 2566 23 10 0 7746 165 9 42 761 2 186 9 3 7 745 5 213 1 3 2 714 6 239 0 2 8 663 1 2535 25 6528 256 2 24 11 0 795 6 168 1 4 3 781 7 188 3 3 8 765 5 214 0 3 3 731 5 238 5 2 9 678 8 253 0 25 668 2 255 7 25 12 0 816 9 170 6 44 802 5 190 1 3 9 785 8 215 1 3 4 748 7 238 0 2 9 694 6 252 5 2 6 683 9 255 2 2 5 13 0 838 5 1734 44 823 7 191 9 4 0 806 5 216 4 3 5 765 9 237 7 3 0 710 7 251 9 2 6 699 7 254 7 2 6 MODEL YCIV0207E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 718 2 166 7 3 9 706 8 191 3 34 693 9 219 3 29 675 0 250 0 25 6329 267 0 22 6234 269 5 22 6 0 7385 1679 40 726 6 192 0 3 5 7131 219 9 3 0 6924 2502 2 6 648 1 267 0 23 6384 269 5 22 7 0 759 2 169 2 4 0 746 8 192 9 3 5 732 7 220 5 3 1 710 1 250 3 2 6 663 8 266 8
26. 281 7 12 4 314 3 303 0 11 5 309 8 327 9 10 5 299 7 344 4 9 7 287 3 356 1 9 0 274 9 367 1 8 4 52 0 337 8 234 2 15 6 334 8 248 1 14 7 331 5 264 5 13 7 327 8 283 6 12 7 323 8 304 4 11 8 319 1 329 1 10 8 307 7 343 7 10 0 295 0 355 3 9 3 282 2 1366 4 8 6 55 0 353 0 240 9 15 9 349 9 253 4 15 1 346 51268 9 14 1 342 7 286 9 13 2 338 4 307 1 12 2 333 2 3312 112 320 0 342 8 10 4 306 7 354 4 9 7 293 5 365 2 9 0 NOTES 1 kW EE 46 LCWT Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0327E V E IPLV 14 1 V IPLV 15 0 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 305 7 240 0 13 7 303 0 259 0 12 7 300 21279 9 11 7 297 2 302 4 10 8 2
27. 285 9 232 8 13 6 282 8 248 1 12 7 279 5 2644 11 8 273 9 280 3 10 9 265 7 292 6 10 2 256 7 303 7 9 5 225 0 266 8 9 4 MODEL YCIV0267E V E IPLV 13 5 V 152 AIR TEMPERATURE ON CONDENSER F LCWT CF 40 0 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS 264 2 KW 207 4 EER 13 7 TONS 261 9 KW 224 0 EER 12 7 TONS KW 259 3 242 0 EER 11 7 IONS 256 4 KW 261 1 EER 10 8 TONS 253 3 KW 281 0 EER TONS 10 0 249 7 KW 303 5 EER 9 2 TONS 244 9 KW 324 5 EER 8 4 TONS 234 7 KW EER 336 1 7 8 TONS 224 5 KW 346 9 EER 7 3 42 0 272 6 209 1 14 1 270 3 225 3 13 0 267 6 243 0 12 0 264 6 262 0 11 1 261 3 282 1 10 3 257 6 304 7 9 4 251 8 324 8 8 7 241 3 336 5 8 0 230 7 347 6 7 5 44 0 281 2 210 9 144 278 8 226 8 134 276 0 244 2 12 4 272 9 263 1 11 4 269 5 283 1 10 5 265 6 305 9 9 7 258 9 324 8 8 9 247 9 336 7 8 3 237 1 348 0 7 7 45 0 285 5 211 9 14 6 283 1 227 6 13 5 280 3 244 9 12 5 277 2 263 7 11 6 273 7 283 7 10 7 269 7 306 5 9 8 262 4 324 8 9 0 251 3 336 8 8 4 240 3 348 2 7 8 46 0 289 9 213 1
28. 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 94 JOHNSON CONTROLS FORM 201 23 EG1 1007 33 TYP 16 MOUNTING HOLES TYP 1778 CONTROL PANEL o 2387 r 447 1 1151 TIT LH IP 759 4 RIGGING HOLES 10 WATER OUTLET 10 WATER INLET gt SIDE 76 X 51 371 1 NN x 9068 6060 KN ____ 3584 343 8565 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 95 Dimensions SI continued YCIV1120E V CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 102 254 WIDE X 330 HIGH VIEW B B 44 3 L 305 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 2238 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than
29. 310 9 13 1 360 8 332 0 12 2 353 5 350 8 11 3 343 0 368 4 10 5 329 2 380 5 9 8 294 2 349 6 9 5 248 8 300 0 9 2 NOTES 1 kW LCWT m 18 Compressor Input Power EER Chiller EER includes power from compressors fans and control panels 0 8 Leaving Chilled Water Temperature Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0357S P S IPLV 13 5 P_IPLV 15 1 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER IONS KW EER TONS KW EER TONS KW EER 12 8 333 4 309 9 11 9 330 1 333 5 11 0 326 6 358 2 10 2 322 9 384 1 9 4 318 6 413 2 8 7 309 3 432 1 8 1 298 3446 9 7 6 287 4460 8 7 1 13 1 343 8 3124 12 2 340 4 335 8 11 3 336 7 360 5 10 4 332 8 386 5 9 7 328 3 415 8 8 9 317 7 433 0 8 3 306 3447 8 7 7 295 0462 0 7 2 134 354 5 315 0 124 350 9 338 3 11 5 347 1 363 1 10 7 342 9 389 0 9 9 338 1 418 1 9 1 326 3 433 8 8 5 314 6448 7 7 9 302 8463 1 7
30. 454 9 25 1183 0 461 2 2 4 10 0 1409 1 301 3 4 3 1384 9 338 3 3 8 1355 0 380 2 3 3 1306 1 424 0 2 9 1228 4 456 0 2 5 1205 0 457 4 2 5 11 0 1447 1 304 6 43 1422 5 341 3 3 8 1391 8 383 1 3 4 1339 8 425 7 29 1258 9 457 1 26 1215 9 446 2 2 6 12 0 1485 7 3083 44 1460 6 344 7 3 9 1429 2 386 1 3 4 1372 9 427 0 3 0 1290 1 458 2 2 6 1226 3 435 1 2 6 13 0 1525 2 311 0 45 1499 4 348 1 40 1467 3 389 3 3 5 1406 5 428 4 3 1 1308 1 450 8 2 7 1236 0 4243 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity JOHNSON CONTROLS 39 Standard Efficiency Ratings English 380V 60Hz MODEL YCIV0157S P S IPLV 13 4 P_IPLV 14 7 AIR TEMPERATURE ON CONDENSER F LCWT CF 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS KW EER TONS KW EER TONS KW EER TONS
31. 467 3 223 8 2 0 7 0 560 0 1377 37 551 5 157 0 32 5415 178 2 28 5234 201 5 24 4859 220 6 2 1 478 5 2244 20 8 0 575 0 138 7 38 566 2 157 9 3 3 555 8 179 1 2 9 535 6 202 1 25 4972 2214 2 1 489 4 2253 2 1 9 0 590 3 139 8 3 9 581 1 158 9 34 570 3 180 1 3 0 548 1 202 7 25 508 9 222 0 22 500 9 225 9 24 10 0 6057 1409 39 596 3 159 9 34 5852 181 0 3 0 560 7 203 3 2 6 520 8 2227 22 5125 2266 24 11 0 621 5 142 1 4 0 611 8 161 0 35 6002 1822 3 1 573 5 203 9 2 6 532 7 2233 2 3 5244 227 2 2 2 120 6374 1433 4 1 627 5 162 1 3 6 6155 183 2 3 1 586 4 204 6 27 544 7 2239 23 532 9 2248 22 13 0 653 6 1447 441 643 4 1633 3 6 631 1 1844 3 2 599 5 205 2 2 7 556 9 2245 23 5383 219 6 23 MODEL YCIV0177S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 589 6 149 7 3 6 578 8 171 5 3 1 565 6 195 0 2 7 538 2 213 3 24 4924 2228 2 1 463 3 2106 2 1 6 0 606 1 150 7 37 595 1 172 5 3 2 5815 196 0 2 8 552 4 213 9 24 497 6 218 6 2 1 469 4 2070 2 1 7 0 6229 1518 3 8 611 6 173 5 3 3 597 7 197 2 28 566 1 2143 25 503 6 214 6 22 4751 203 1 2 2 8 0 639 9 1529 3 9 6285 174 5 33 6135 1979 29 579 9 214 7 25 510 0 210 8 2 3 480 5 199 1
32. 543 2 227 2 2 2 8 0 752 9 178 3 3 9 738 1 203 7 34 7186 2315 29 6784 2524 25 583 6 2364 2 3 5488 2223 23 9 0 773 6 180 1 4 0 758 3 205 0 3 5 736 7 231 8 3 0 6944 252 0 2 6 589 7 231 1 24 554 1 2176 24 10 0 794 6 182 1 4 0 778 7 206 4 3 5 755 2 232 1 3 1 710 5 251 6 2 7 595 5 226 1 25 559 1 213 0 25 11 0 816 1 184 3 4 1 799 6 208 0 3 6 773 9 232 5 3 1 726 8 251 2 2 7 601 1 221 2 2 5 563 9 208 4 2 5 12 0 838 1 186 7 4 2 820 9 209 8 3 7 792 9 233 0 3 2 743 5 250 9 2 8 606 2 216 5 2 6 568 7 204 0 2 6 13 0 860 4 189 5 4 2 842 6 211 8 3 7 812 3 233 7 3 3 760 5 250 5 2 9 611 2 211 9 27 573 4 199 6 27 MODEL YCIV0227S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 752 2 186 5 3 7 738 8 212 9 3 2 723 6 2420 28 693 5 268 4 24 643 3 2814 22 6335 2837 24 6 0 7734 188 0 38 759 5 2142 3 3 743 6 243 3 29 7102 268 5 25 658 6 281 7 22 648 3 284 1 2 2 7 0 795 1 189 5 3 9 780 6 215 6 3 4 763 9 244 8 2 9 727 2 268 6 2 6 674 1 281 9 2 3 663 6 284 3 2 2 8 0 817 1 191 3 3 9 802 1 217 0 3 4 784 7 246 2 3 0 744 5 268 7 2 6 690 0 282 0 23 679 1 284 4 23 9 0 839 7 1932 40 824 0 218 7 3 5 805 9 247 7 3 1 762 0 268 7 2 7 706 0 282 1 24
33. 8553 1804 43 842 2 203 0 3 8 826 4 229 3 3 3 804 2 260 0 2 9 748 4 274 3 25 737 2 277 1 2 5 11 0 877 9 1824 43 8644 204 6 3 9 848 4 230 6 34 823 1 260 1 29 766 1 2742 26 7546 277 0 25 120 9009 1845 44 887 0 206 2 3 9 870 4 232 1 3 5 842 6 260 1 3 0 784 0 274 2 27 7724 2768 26 13 0 9242 1868 45 909 9 208 1 4 0 892 9 233 6 35 861 9 2602 3 1 802 3 274 1 27 7903 2768 27 NOTES kw Compressor Input Power EER Chiller EER includes power from compressors fans and control panels 0 8 KW LCWT Leaving Chilled Water Temperature gum oues Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity JOHNSON CONTROLS 29 High Efficiency Ratings SI 460V 60Hz MODEL YCIV0247E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP
34. 9956 219 9 42 977 6 247 0 3 7 956 3 278 0 3 2 904 8 300 1 2 8 821 5 301 3 26 776 6 283 5 26 13 0 1021 7 221 9 43 1002 9 249 3 3 7 981 2 280 2 3 3 925 9 300 8 2 9 828 3 293 5 27 7821 2762 27 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 25 Standard Efficiency Ratings SI 460V 60Hz MODEL YCIV0267S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 898 1 2244 3 7 883 4 254 8 3 2 866 4 288 2 28 8384 3228 24 796 3 349 6 22 787 8 3549 24 6 0 923 0 226 2 38 907 7 256 6 3 3 889 9 290 2 2 9 859 6 323 9 25 816 0 350 8 2 2 807 2 356 2 2 1 7 0 948 4 228 2 3 8 932 5 258 5 3 4 913 9 292 1 2 9 881 1 325 0 2 6 836 1 352 0 2 3 823 0 3545 22 8 0 974 1 230 3 3 9 957 7 260 5 3 4 938 4 294 1 3 0 902 9 326
35. Al Fin Coils 861 814 492 453 500 455 RS8LS1 Cu Fin Coils 861 855 601 578 660 564 LEFT L 230 2204 1510 2204 2470 2204 4100 2204 5350 2204 7820 2204 Al Fin Coils 784 743 566 526 574 456 Cu Fin Coils 784 784 675 651 732 565 RS8LS1 Al Fin Coils 865 824 566 526 574 456 RS amp LS1 Cu Fin Coils 865 865 675 651 732 565 024 YCIVO930EIV RIGHT R 230 32 1510 32 2470 32 4100 32 5350 32 7820 32 Fin Coils 780 739 566 526 574 456 Cu Fin Coils 780 780 675 651 732 565 RS8LS1 Al Fin Coils 861 820 566 526 574 456 RS8LS1 Cu Fin Coils 861 861 675 651 734 565 LEFT L 230 2204 1475 2204 2823 2204 5199 2204 7236 2204 9346 2204 Al Fin Coils 795 719 826 834 981 533 Cu Fin Coils 805 797 982 991 1137 611 RS8LS1 Al Fin Coils 875 799 826 834 1011 633 RS amp LS1 Cu Fin Coils 885 877 982 991 1167 741 YCIV0267E V YCIV1050E V RIGHT R 230 32 1475 32 2823 32 5199 32 7236 32 9346 32 Fin Coils 795 724 1092 1131 1250 535 Cu Fin Coils 805 802 1248 1288 1406 613 RS8LS1 Al Fin Coils 875 804 1092 1131 1280 665 RS amp LS1 Cu Fin Coils 885 882 1248 1288 1436 743 LEFT L 230 2204 1510 2204 2780 2204 4710 2204 7225 2204 9105 2204 10463 2204 Al Fin Coils 795 719 838 848 714 476 421 Cu Fin Coils 805 786 967 1023 889 605 475 RS8LS1 Al Fin Coils 875 799 838 848 714 556 501 RS amp LS1 Cu Fin Coils 855
36. Al Fin Coils 881 814 1152 1194 1192 722 551 RS8LS1 Cu Fin Coils 891 868 1281 1369 1367 851 605 NOTES 1 RS Reduced Sound Option LS Low Sound Option JOHNSON CONTROLS 111 Isolator Details ONE INCH DEFLECTION SPRING ISOLATOR CROSS REFERENCE Illustration shows single spring CIP B or CIP C mount EQUIPMENT BASE Dowel Pin is 3 8 dia for CIP A amp 1 2 thereafter A gt FERROUS HOUSING S ZEN SIDE ACCESS INTERNAL D ETAT ADJUSTMENT BOLT QS Turn clockwise to load spring and maintain Free amp Operating Height VA M 7 NON SKID NEOPRENE ACOUSTICAL ISOLATION PAD Bolting to floor is not necessary for indoor applications Slot Width SW BASE PLATE DIMENSIONS 2 HCW MAX BOLT DIA MBD CIP X Mounting may be operated 1 2 above Free amp Operating Height NOTE CIP Mounts are not to be used in seismic or wind load applications CIP DIMENSIONS inches t L T OPERATING HEIGHT TCasting dimensions may vary 1 8 All springs have additional travel to solid equal to 5096 of the rated deflection W SW HCL HCW SBC Ht 534 81 4 1 2 234 61 2 11 2 38 71 4 61 8 51 4 Free Min Ht 658 87 8 916 31 2 716 714 134 3 8 77 8 63 4 63 4 FOR UNITS WITH ALL POINT LOADS LESS THATN 1404 LBS 637 KG Weight Range Ibs Weight Range
37. COP KWo KWi COP 5 0 527 1 125 7 38 517 8 142 0 3 3 505 5 159 6 2 9 490 0 180 2 25 451 1 196 7 2 2 443 3 200 1 2 1 6 0 5420 126 7 3 9 532 6 1432 34 520 3 160 8 3 0 503 0 181 1 26 4629 197 4 22 454 9 200 9 2 1 7 0 5570 1277 4 0 547 7 144 3 3 5 535 2 162 0 3 1 516 0 182 0 26 4750 1982 22 4667 201 6 22 8 0 572 2 1288 40 563 0 145 5 3 5 5504 163 2 3 1 529 3 182 9 27 487 0 1992 23 4787 2024 22 9 0 587 6 129 9 4 1 578 6 146 6 3 6 565 9 164 4 3 2 542 6 183 8 2 8 499 2 200 1 23 490 5 203 4 23 10 0 603 1 130 9 42 594 3 147 8 3 7 581 5 165 8 3 2 556 1 184 8 2 8 511 8 201 0 24 503 0 2043 23 11 0 618 9 1320 43 610 2 149 0 3 8 5974 167 1 3 3 569 7 185 7 29 5246 2019 24 515 5 205 2 24 12 0 6348 133 1 43 626 4 1502 3 8 6135 168 4 34 583 4 186 7 29 5375 202 8 25 5283 206 1 24 13 0 650 9 1342 44 6427 151 5 3 9 6299 169 8 34 597 3 187 7 3 0 550 6 203 7 2 5 5412 207 0 25 MODEL YCIV0177E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 561 0 1319 38 552 5 1502 3 3 5425 1705 2 9 527 1 193 7 25 494 1 213 9 22 4862 217 8 24 6 0 5769 1329 3 9 568 1 151 1 34 557 6 171 3 3 0 540 8 1944 2 6 505 9 214 6 22 498 0 2
38. EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER ONS KW EER TONS KW EER 8 153 1 13 4 188 2 165 6 12 4 186 4 179 5 11 4 184 5 194 4 10 5 182 5 210 2 9 6 180 1 227 8 8 8 176 4 243 2 8 1 169 4 250 7 7 6 162 4257 3 7 1 8 154 3 13 7 194 1 166 4 12 7 192 2 180 0 11 7 190 3 194 8 10 8 188 1 210 6 9 9 185 6 228 4 9 1 181 3 242 8 8 4 174 0 250 6 7 8 166 7 257 5 7 3 9 155 8 14 0 200 1 167 5 13 0 198 2 180 8 12 0 196 1 195 4 11 1 193 9 211 0 10 2 191 3 228 9 9 3 186 2 242 3 8 6 178 7 250 3 8 0 171 2 257 5 7 5 01156 6 142 203 2 168 2 13 2 201 3 181 3 122 199 1 195 7 11 2 196 8 211 2 10 4 1942 229 1 9 5 188 7 242 1 8 7 181 1250 1 8 1 173 5 257 4 7 6 1 157 6 14 3 206 3 168 8 13 3 204 3 181 8 12 3 202 2 196 0 114 199 8 211 5 10 5 197 1 2294 9 6 191 2 241 8 8 9 183 6 249 9 8 3 175 8 257 3 7 7 5159 6 14 6 212 6 170 4 13 6 210 6 182 9 12 7 208 3 196 9 11 7 205 8 2122 10 8 203 0 230 0 9 9 196 4 241 2 9 1 188 5 249 4 8 5 180 5 256 9 7 9 0 162 1 14 8 219 1 172 3 13 9 216 9 184 3 12 9 214 5 198 1 12 0
39. KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 949 5 2810 38 9321 2654 32 911 8 303 1 28 873 5 336 2 24 791 6 3448 22 7431 3252 2 1 6 0 976 3 2325 3 8 958 3 266 7 33 937 2 3044 2 9 895 5 336 6 25 7997 3383 22 752 1 3194 22 7 0 1003 6 234 1 3 9 985 0 268 0 34 962 8 305 6 29 917 2 3369 26 8080 331 5 23 7615 3137 23 8 0 10314 2358 40 1012 3 269 5 35 988 1 3063 3 0 9394 337 1 26 818 0 32554 24 7703 3075 23 9 0 1059 7 237 8 4 1 1040 1 2710 36 1013 9 3070 3 1 962 0 337 2 27 8274 319 0 24 7787 3013 24 10 0 1088 5 240 0 42 1068 4 272 8 36 1040 2 307 9 3 2 985 0 337 2 27 8366 312 5 25 7864 295 0 25 11 0 1117 8 2425 42 1097 2 2747 37 1066 9 3089 32 1008 2 337 3 28 8453 306 1 26 7934 2888 2 6 12 0 1147 6 245 2 43 1126 5 2769 3 8 1094 0 309 9 3 3 1031 7 3374 29 8534 299 8 27 8002 2827 2 6 13 0 1177 9 2480 44 1156 3 279 2 38 1121 6 311 1 34 1055 6 3376 29 860 6 2935 27 8068 2766 27 MODEL YCIV307S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KW
40. kW EER LCWT Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature which is based on ARI Standard 550 590 JOHNSON CONTROLS Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program 41 Standard Efficiency Ratings English 380V 60Hz MODEL YCIV0267S P S IPLV 12 5 P_IPLV 15 2 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 252 3 212 7 13 0 250 2 228 4 12 1 247 9 245 3 11 2 245 4 262 9 10 4 242 7 281 5 9 7 239 6 302 4 8 9 233 9 318 6 8 3 227 3 333 2 7 7 220 8 347 6 7 2 42 0 260 2 214 7 13 3 258 0 230 5 12 4 255 6 247 2 11 5 252 9 265 0 10 6 250 1 283 5 9 9 246 8 304 5 9 1 2404 319 9 8 5 233 6 334 5 7 9 226 8 349 1 7 4 44 0 268 2 216 8 13 6 265 9 232 5 12 6 263 3 249 2 11 7 260 6 267 0 10 9 257 6 285 6 10 1 254 0 306 3 9 3 241 1 321 1 8 7 240
41. provide oil flow through service replaceable 0 5 micron full flow cartridge type oil filter internal to compressor Filter bypass less restrictive media or oil pump not ac ceptable D Capacity Control Compressors shall start at minimum load Provide Microprocessor control to command com pressor capacity to balance compressor capacity with cooling load When required to meet minimum load hot gas bypass shall be factory installed and integrated into standard control system 2 03 REFRIGERANT CIRCUIT COMPONENTS A Each independent refrigerant circuit shall include liquid line shutoff valve with charging port low side pressure relief device removable core filter drier sight glass with moisture indicator and electronic expansion valve B Chiller manufacturer shall provide independent circuit for each compressor to provide maximum redundancy If equipment does not have independent circuits per compressor manufacturer shall provide owner one spare compressor of each unique size C Discharge lines shall be provided with manual compres sor shutoff service valves Suction line shall be covered with closed cell foam insulation 2 04 HEAT EXCHANGERS A Evaporator 1 Direct expansion type or flooded type shell and tube evaporator with high efficiency copper tubes Independent refrigerant circuits shall be provided per compressor 2 Constructed tested and stamped IAW applicable sections of ASME pressure vessel code for min
42. 14 9 257 8 201 0 14 0 255 3 214 2 13 1 252 5 228 6 12 2 249 2 245 5 11 3 242 1 256 6 10 5 232 7 264 2 9 8 223 2 271 5 9 2 NOTES kW EER LCWT Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature which is based on ARI Standard 550 590 JOHNSON CONTROLS Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program 45 High Efficiency Ratings English 380V 60Hz MODEL YCIV0247E V E IPLV 13 0 V 152 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 CF TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 232 7 188 7 13 4 230 8 202 8 12 4 228 7 217 8 11 5 226 4 233 8 10 7 223 9 250 7 9 9 221 1 269 7 9 2 216 9 286 7 8 5 210 2 299 0 7 9 202 9 309 9 7 4 42 0 240 0 190 5 13 7 238 0 204 4 12 7 235 8 219 4 11 8 233 4 235 4 11 0 230 8 252 2 10 2 227 9 271 2 9 4
43. 199 1 191 8 11 5 196 8 207 0 10 6 194 2 224 6 9 7 188 7 237 3 8 9 181 11245 1 8 3 173 51252 2 7 7 46 0 208 1 154 4 14 6 206 3 165 5 13 6 204 3 178 1 12 6 202 2 192 1 11 6 199 8 207 3 10 7 197 1 224 8 9 8 191 2 237 0 9 0 183 6 244 9 8 4 175 8 252 1 7 8 48 0 214 5 156 4 14 9 212 6 167 0 13 9 210 6 1179 3 12 9 208 3 193 0 11 9 205 8 208 0 11 0 203 0 2254 10 1 196 4 236 4 9 3 188 5 244 4 8 7 180 5251 8 8 1 50 0 221 0 158 8 15 1 219 1 168 8 142 216 9 180 6 13 2 214 5 194 2 12 2 212 0 208 9 11 3 209 0 226 2 10 3 201 6 235 8 9 6 193 51243 8 8 9 185 31251 3 8 3 52 0 227 7 161 5 15 3 225 7 171 0 14 4 223 4 182 4 13 5 221 0 195 4 12 5 218 3 209 9 11 6 215 2 227 1 10 6 206 9 235 3 9 8 198 5243 3 9 2 190 2 250 8 8 5 55 0 237 9 166 2 15 6 235 8 174 7 14 8 233 4 185 3 13 9 230 8 197 8 12 9 228 0 211 8 12 0 223 7 226 6 11 0 214 9 234 6 10 3 206 3 242 4 9 5 197 7249 9 8 9 MODEL YCIV0207 E V E IPLV 13 6 V IPLV 152 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105
44. 212 0 213 1 11 1 209 0 230 9 10 1 201 6 240 6 94 193 5 248 8 8 7 185 3 256 5 8 1 71164 8 15 0 225 7 174 5 14 2 223 4 186 1 132 221 0 199 4 12 3 218 3 2142 11 3 215 2 231 7 10 4 206 9 240 1 9 7 198 5 248 2 9 0 190 2 255 9 8 4 9 169 6 15 3 235 8 178 3 14 5 2334 189 1 13 6 230 8 201 8 12 7 228 0 216 1 11 7 223 7 231 3 10 8 214 9 2394 10 1 206 3 247 4 9 4 197 7 255 0 8 7 E_IPLV 13 4 V_IPLV 15 0 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER ONS KW EER TONS KW EER 13 5 200 1 173 9 12 5 198 3 187 9 11 5 196 4 203 1 10 6 194 4 219 0 9 8 192 0 237 1 9 0 188 3 252 6 8 3 182 0 262 6 7 8 174 6 269 6 7 3 13 8 206 4 175 0 12 8 204 5 188 7 11 8 202 5 203 7 10 9 200 4 219 6 10 1 197 9 237 7 9 3 193 7 252 8 8 6 186 9 262 5 8 0 179 3269 8 7 5 14 1 212 8 176 2 13 1 210 9 189 7 12 2 208 8 204 4 11 2 206 5 220 3 10 4 203 9 238 4 9 5 199 2
45. 281 7 9 3 225 3 293 1 8 7 217 6 304 1 8 1 208 9 312 4 7 6 45 0 250 2 199 6 13 8 248 0 214 0 12 8 245 5 229 6 11 9 242 8 246 2 11 0 239 9 263 6 10 2 236 1 282 1 9 4 228 3 293 4 8 8 220 5 304 5 8 2 210 1 309 1 7 7 46 0 254 0 200 7 13 9 251 7 215 0 12 9 249 2 230 5 12 0 246 5 247 1 11 1 243 5 264 5 10 3 239 2 282 4 9 5 231 4 293 7 8 9 223 4 304 8 8 3 211 3 305 6 7 8 48 0 261 7 202 9 142 2594 2172 13 2 256 7 232 5 12 3 253 9 249 0 114 250 8 266 5 10 6 245 7 283 1 9 8 237 6 2944 9 1 229 4 305 5 8 5 213 6 298 3 8 1 50 0 269 6 205 3 14 5 267 1 219 4 13 5 264 4 234 7 12 5 261 4 251 1 11 6 258 2 268 5 10 8 252 2 283 8 10 0 243 9 295 1 9 3 235 5 306 1 8 7 215 8 290 5 8 4 52 0 277 6 208 0 14 7 275 1 221 8 13 7 272 2 237 0 12 8 269 1 253 3 11 9 265 8 270 7 11 0 258 9 284 6 10 3 250 3 295 8 9 6 241 7 306 7 8 9 217 8 282 3 8 7 55 0 1289 9 211 6 15 1 287 2 225 7 14 1 284 2 240 8 13 2 281 0 256 9 12 2 277 4 274 1 11 4 269 0 285 9 10 6 260 2 296 8 9 9 251 2 307 8 9 2 220 5 270 4 9 2 NOTES
46. 364 0 273 3 14 6 360 3 291 5 13 6 356 2 311 9 12 6 351 9 334 3 11 7 345 0 357 3 10 8 333 5 373 2 10 0 319 9 385 3 9 3 304 61393 2 8 7 55 0 384 2 264 6 15 8 380 5 279 0 14 9 376 6 296 2 14 0 372 3 315 9 13 0 367 7 337 8 12 1 359 2 357 9 11 2 346 6 372 5 10 4 332 4 384 3 9 7 309 41377 3 9 2 MODEL YCIV0357E V E_IPLV 12 4 V_IPLV 15 6 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 CF 40 0 TONS 346 6 KW 278 3 EER 13 5 TONS 343 6 KW 298 4 EER 12 5 TONS KW 340 1 320 0 EER 11 7 336 3 KW 342 9 EER 10 8 TONS 332 2 KW 367 0 EER TONS 10 0 327 5 KW 394 3 EER 9 3 TONS 321 2 KW 419 8 EER 8 6 TONS 311 7 KW EER 439 6 8 0 TONS 301 2 KW 457 0 EER 74 42 0 357 6 281 0 13 8 354 5 301 0 12 8 351 0 322 5 11 9 347 0 3454 11 1 342 7 369 4 10 3 337 8 396 8 9 5 330 8 421 5 8 8 320 6440 8 8 2 309 7 458 3 7 6 44 0 368 9 284 0 14 1 365 6 303 9 13 1 362 0 325 2 122 357 9 347 9 114 353 5 371 9 10 5 348 3 399 3 9 7 340 5 423 3 9 0 329 7 442 0 8 4 318
47. 3753 23 8 0 1088 2 235 5 42 10694 268 2 3 7 1047 0 307 0 3 2 1012 6 350 5 2 7 9383 371 3 24 9235 375 1 2 3 9 0 1118 3 237 9 43 1099 0 269 6 3 7 1075 9 307 9 3 2 1037 5 349 7 2 8 960 9 370 8 24 9459 3747 24 10 0 1149 0 240 7 43 1129 2 271 3 3 8 1105 3 3092 33 1062 7 349 0 2 8 984 1 3702 25 9684 374 2 24 11 0 1180 1 243 9 44 1159 9 2733 3 9 1135 3 310 5 3 4 1088 2 348 4 29 1007 7 369 5 26 991 7 3735 25 12 0 1212 1 247 5 44 1191 2 275 8 40 1165 9 312 0 35 1114 2 347 8 3 0 1031 8 368 8 2 6 1015 3 372 8 2 6 13 0 1244 5 2514 4 5 1223 0 2785 40 1197 1 313 8 35 1140 4 347 3 3 1 1056 2 368 1 2 7 1039 4 372 1 2 6 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0327E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP K
48. 4 0 500 KC 1000 1000 857 1000 1000 1000 4 2 600 KCM 4 4 0 500 KC JOHNSON CONTROLS 121 Electrical Data 3 Comp High Efficiency System 1 System 2 Model No Nam eplat Std amp Ultra Quiet Cond Fans High Head Static Cond Fans Two Speed Cond Fans Std amp Ultra Quiet Cond Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans jv input Volts Freq 9 RLA 5 Qty FLA EA 5 Qty FLA 5 Qty FLA EA RLA 5 Qty wer 460 60 142 5 2 8 142 5 2 8 380 60 179 5 3 5 179 5 9 3 179 4 3 5 1050 400 50 170 5 3 1 170 5 9 3 180 5 3 8 170 5 3 1 Got 460 60 137 5 2 8 137 5 2 8 380 60 173 5 3 5 173 5 9 3 173 5 3 5 1120 400 50 164 5 3 1 164 5 9 3 173 5 3 8 164 5 3 1 0897 460 60 152 5 2 8 152 5 2 8 380 60 193 5 3 5 193 5 9 3 193 5 3 5 1220 400 50 183 5 3 1 183 5 9 3 194 5 3 8 183 5 3 1 0357 460 60 181 6 2 8 181 6 2 8 380 60 229 6 3 5 229 6 9 3 229 6 3 5 1380 400 50 218 6 3 1 218 6 9 3 229 6 3 8 218 6 3 1 Unit Short Circuit Field Wiring amp Protection Withstand KA Std amp Ultra Quiet Cond Fans High Head High Static Fans ee KIA Terminal Block Circuit Breaker Minimum et NOR Max Inverse Max Dual Minimum Ckt SU STD OPT Ampacity MCA Breaker Rating Time Ckt Brkr Element Fuse Ampacity MCA Breaker Rat
49. 44 0 357 7 287 5 13 7 354 5 308 7 12 7 350 91331 5 11 7 347 1 355 8 10 9 342 9 381 2 10 1 338 1 409 8 9 3 326 3 425 1 8 7 314 6 439 7 8 1 302 8453 8 7 6 45 0 363 2 288 9 13 8 359 9 310 1 12 8 356 3 332 9 11 9 352 3 357 1 11 0 348 1 382 6 10 2 342 7 410 2 94 330 7 4254 8 8 318 7 440 1 82 304 8449 8 7 7 46 0 368 8 290 5 13 9 3654 3114 13 0 361 7 334 2 12 0 357 6 358 4 11 1 353 3 383 9 10 3 347 2 410 5 9 5 335 1 425 8 8 9 322 9440 5 8 3 306 7 445 3 7 8 48 0 380 1 293 7 142 376 6 314 5 132 372 7 337 0 12 3 368 5 361 1 11 4 363 9 386 6 10 6 356 5 411 3 9 8 344 0 426 5 9 1 331 5441 3 8 5 310 2435 5 8 1 50 0 391 6 297 1 14 5 387 9 317 7 13 5 383 9 340 0 12 6 379 5 364 0 11 7 374 8 389 5 10 8 366 0 412 1 10 0 353 1 427 2 9 3 340 2441 9 8 7 313 5424 6 8 3 52 0 403 4 300 9 14 8 399 6 321 1 13 8 395 41343 3 12 8 390 8 367 0 11 9 385 9 3924 11 0 375 7 412 9 10 3 3624 427 9 9 6 349 2442 5 8 9 316 5412 9 8 6 55 0 421 3 306 4 15 2 417 2 326 8 14 2 412 9 348 5 13 2 408 1 372 3 12 3 402
50. 459 9 2 2 1075 4 466 3 22 6 0 1269 1 295 9 3 9 1246 9 334 7 34 1220 2 377 9 3 0 1182 6 426 2 2 6 1116 8 461 0 2 3 1102 7 467 4 22 7 0 1304 7 298 6 4 0 1282 0 3372 3 5 1254 5 380 3 3 1 1214 1 427 8 2 7 1145 1 462 2 2 3 1130 7 468 5 2 3 8 0 1341 0 301 5 4 0 1317 7 339 9 3 6 1289 3 383 0 3 1 1246 2 429 4 2 7 1174 2 463 3 2 4 1159 1 469 7 2 3 9 0 1377 9 3047 4 1 1354 1 342 7 3 6 1325 0 385 6 3 2 12789 431 1 28 1203 7 464 4 2 4 1188 4 470 8 24 10 0 1415 4 3080 42 1391 2 345 7 3 7 1361 2 388 4 3 3 1312 0 432 9 28 1234 0 465 5 2 5 1207 1 464 6 24 11 0 1453 6 311 5 4 3 1428 9 348 9 3 8 1398 1 391 4 3 3 1345 4 4346 2 9 1264 5 466 7 2 5 1218 0 453 2 25 12 0 1492 3 315 3 43 1467 2 3523 3 8 1435 7 394 5 3 4 1378 7 436 0 3 0 12958 467 8 2 6 1228 2 4419 26 13 0 1531 8 318 0 4 4 1506 1 355 8 3 9 1473 9 397 8 34 1412 4 4374 3 0 1310 2 457 9 27 1237 8 4310 27 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 31 Standard Efficiency Ratings SI 400V 50Hz MODEL YCIV0600S P AIR TEMPERATURE
51. C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 743 0 169 0 3 9 731 8 192 7 3 4 718 8 219 4 3 0 703 0 250 7 2 6 661 8 268 9 23 6520 2714 2 2 6 0 764 0 170 2 40 752 3 193 7 3 5 738 8 220 3 3 1 7222 251 7 2 7 678 0 268 9 23 667 8 271 6 2 3 7 0 785 4 1717 4 1 773 3 194 8 3 6 759 2 221 2 3 2 741 8 252 8 2 7 694 3 269 0 24 684 1 271 6 2 3 8 0 807 2 173 1 42 794 7 196 0 3 7 780 0 222 3 3 2 761 9 253 8 2 8 711 1 269 0 25 7006 271 6 24 9 0 829 4 1748 43 816 5 197 2 3 8 801 2 2234 3 3 782 3 2548 2 9 728 2 268 9 25 717 3 271 6 2 5 10 0 8517 1765 43 838 7 198 7 3 8 822 9 224 6 3 4 801 1 254 8 2 9 745 6 268 9 26 7344 271 5 2 5 11 0 874 2 1784 44 860 8 200 2 3 9 844 9 225 8 3 4 820 0 254 9 3 0 763 3 268 8 26 7518 2714 2 6 12 0 897 1 1805 45 8832 201 8 40 866 8 227 3 3 5 8393 2549 3 1 781 0 268 7 27 769 5 271 3 2 6 13 0 920 3 1826 4 5 906 1 203 6 4 1 889 1 228 7 3 6 858 7 255 0 3 1 799 3 268 6 28 787 3 271 3 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 53 High Efficiency Ratings
52. Fin Coils 1698 1559 1559 1241 664 Cu Fin Coils 1698 1680 1898 1620 825 RS8LS1 Fin Coils 1876 1737 1559 1241 664 RS amp LS1 Cu Fin Coils 1876 1858 1898 1620 825 LEFT L 91 868 594 86 8 1094 868 1957 868 2054 86 8 Al Fin Coils 1715 1581 1676 1287 820 Cu Fin Coils 1715 1702 2015 1667 981 RS amp LS1 AI Fin Coils 1894 1759 1676 1287 820 RS amp LS1 Cu Fin Coils 1894 1881 2015 1667 981 YCIVOT87EN 0700 RIGHT R 91 13 584 13 1094 13 1957 13 2654 13 Al Fin Coils 1698 1564 1561 1287 820 Cu Fin Coils 1698 1682 1900 1667 981 RS8LS1 Al Fin Coils 1876 1739 1561 1287 820 RS amp LS1 Cu Fin Coils 1876 1861 1900 1667 981 LEFT L 91 868 594 86 8 109 4 86 8 195 7 86 8 2654 86 8 Al Fin Coils 1720 1609 1618 1354 860 Cu Fin Coils 1720 1731 1958 1733 1021 RS8LS1 JAI Fin Coils 1898 1788 1618 1354 860 RS amp LS1 Cu Fin Coils 1898 1909 1958 1733 1021 0760 RIGHT R 91 13 594 13 1094 13 1957 13 2654 13 Al Fin Coils 1720 1609 1618 1354 860 Cu Fin Coils 1720 1731 1958 1733 1021 RS8LS1 AI Fin Coils 1898 1788 1618 1354 860 RS8LS1 Cu Fin Coils 1898 1909 1958 1733 1021 LEFT L 91 868 594 868 972 868 1614 86 8 2106 86 8 307 9 86 8 Al Fin Coils 1720 1614 1082 994 1093 952 Cu Fin Coils 1720 1704 1323 1270 1442 1193 RS8LS1 Fin Coils 1898 1792 1082 994 1093 952 RS8LS1 Cu Fin Coils 1898 1883 1323 1270 1442 1193 YCIV0207
53. KW EER TONS KW EER TONS KW EER TONS KW EER 13 2 343 6 304 5 12 3 340 1 326 6 114 336 3 349 9 10 6 3322 374 5 9 9 327 5 4024 9 1 321 2 428 4 84 311 7 448 5 78 301 2466 3 7 3 13 5 354 5 307 2 12 6 351 0 329 1 11 7 347 0 3524 10 9 342 7 376 9 10 1 337 8 404 9 9 3 330 8 430 1 8 6 320 6 449 8 8 0 309 7 467 6 7 5 13 8 365 6 310 1 12 9 362 0 331 8 12 0 357 9 355 0 11 1 353 5 379 5 10 4 348 3 407 5 9 5 340 5 431 9 8 8 329 7 451 1 82 318 4468 9 7 7 14 0 371 3 311 6 13 0 367 6 333 3 12 1 363 5 3564 11 3 358 9 380 9 10 5 353 7 408 8 9 7 345 5 432 8 9 0 334 4 451 7 8 3 322 9469 5 7 8 14 1 377 0 313 1 13 2 373 3 334 8 12 3 369 0 358 0 114 3644 3824 10 6 1359 1 410 3 9 8 350 5 433 7 9 1 339 1 452 3 84 327 3470 2 7 8 14 4 388 6 316 4 13 5 384 7 337 9 12 5 380 4 361 0 11 7 375 7 385 3 10 8 369 9 412 9 10 0 360 8 435 5 9 3 348 7 453 5 8 6 336 5 471 4 8 0 14 7 400 4 320 0 13 7 396 5 341 3 12 8 392 0 364 1 11 9 387 1 388 4 11 1 380 7 415 0 10 3 370 9 436 8 9 5 3584 454 8 8 9 341 0461 4 8 3 14 9 412 4 323 7 14 0 408 4
54. KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 149 1 128 9 12 6 148 0 138 9 11 7 146 7 149 6 10 8 1454 160 8 10 0 143 9 172 5 9 3 1422 185 6 8 6 138 9 197 9 7 9 133 5 208 0 7 2 127 9 218 6 6 6 42 0 153 7 129 8 12 9 152 5 139 8 11 9 151 2 150 4 11 1 149 8 161 7 10 3 148 2 1734 9 5 146 5 186 7 8 8 142 7 198 6 8 1 137 0 208 9 7 4 131 3 219 4 6 8 44 0 158 3 130 8 13 2 157 1 140 7 122 155 7 151 3 11 3 154 3 162 6 10 5 152 6 174 4 9 8 150 8 187 7 9 0 146 5 199 3 8 3 140 6 209 7 7 6 134 71220 2 6 9 45 0 160 7 131 3 13 3 159 4 141 2 124 158 1 151 8 11 5 156 5 163 1 10 6 154 9 174 8 9 9 153 0 188 2 9 1 148 4 199 6 84 142 51210 1 7 7 136 5 220 5 7 0 46 0 163 1 131 9 13 5 161 8 141 7 12 5 160 4 152 3 11 6 158 8 163 6 10 8 157 1 175 3 10 0 155 2 188 7 9 2 150 4 200 0 8 5 144 3 210 4 7 7 138 3 220 9 7 1 48 0 167 9 133 0 13 8 166 6 142 8 12 8 165 1 153 4 11 9 163 5 164 6 11 0 161 7 176 4 10 2 159 7 189 7 9 4 154 3 200 6 8 6 148 1 211 1 7 9 141 8 221 8 7 2 50 0 172 8 134 3 14 0 1714
55. ONY 015 AIJA 600 8 13NBd 1 WIIB3H 055389403 ON SKS Sot 015 A834 900 09 38105 1081N03 0SA 6LY20 TE0 ODJ 114100 UNOJ 7 ON 50661 560 335 Us 63 1 2 INdino 0802 1 ON Sis 5 imi auyoa 84 1 T 1 41 0 3 ONOJ ON SAS Gw 08 1041N03 SEINN 22 404 Avi DET 03345 Wes WOTA T UN Si 01 99 1 03345 Z ON SAS E G3SNNN 200 5088 338 Ge p ver M Now OSA 1010 DH 1 Wave ON SAS 2 1 ON 7545 31901 2 S p r p er 24 Nna OSA ON SAS sr GSA 01 Wi TW U3IG3H UOLGUOdUAJ anv ie Lyr 00 8 720 0 sa EL G 6969 RIO zr 101409 x S310N 335 1 1031009 Sz zin e 3103H 1281 A 52 LIB TH Z1 LZ r 1 96 IHE I ON Sas IX3 H33 LH Joe ON 335 hi p3rON UA z 1 9n 08 1031N02 01 2 2 I 2 08 1031N03 OL erbe 5 434404685841 SLINn dVA3 3LOW3H NO SH3HLO ONIHIM 69 01 03808 d3sn SI 1N3WdinO3 1vNOILdO N3HM 32NVN3LNIVA NOILVH3dO NOILVTIVISNI 338 4350 AG 007 Lv 03565344415 38 LSNW ANY HOT T oF A NO JAILSIS3H AGI LV Q31VH SLOVLNOO 9 n4611 28 3 50661 5 0 335 01 08 21001 OSA YW S LV OVAGII ONIHOLIMS 318 1106 38 LSNW SLOVLNOO z SNOILVDI4103dS_G
56. TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER IONS KW EER TONS KW EER TONS KW EER 40 0 268 2 228 0 12 9 265 7 246 5 11 9 262 9 266 4 10 9 259 9 287 2 10 1 256 7 308 8 9 3 251 3 328 6 8 6 244 3 345 3 8 0 234 1 356 5 7 4 209 5 332 8 7 1 42 0 276 6 229 7 13 2 274 1 248 0 12 2 271 2 267 7 11 2 268 0 288 6 10 4 264 6 310 3 9 6 258 7 329 7 8 8 250 9 345 8 8 2 240 4 357 3 7 6 211 9 3254 73 44 0 285 2231 6 13 5 282 6 249 6 12 5 279 6 269 2 11 5 276 3 290 0 10 6 272 7 311 7 9 8 266 3 330 6 9 1 257 7 346 2 8 4 246 8 357 8 7 8 214 8 318 9 7 6 45 0 289 6 232 6 13 7 286 9 250 5 12 6 283 9 270 0 11 7 280 6 290 8 10 8 276 7 312 1 9 9 270 2 331 0 92 261 2 346 3 8 5 250 0 358 2 7 9 216 1 3154 77 46 0 294 0233 7 13 8 291 3 251 4 12 8 288 3 270 8 11 8 284 9 291 6 10 9 280 7 312 5 10 1 274 1 331 5 9 3 264 7 346 4 8 6 253 4 358 4 8 0 217 5 311 9 7 8 48 0 303 0 236 11 14 1 300 2 253 5 13 1 297 1 272 7 12 1 293 5 293 3 11 2 288 9 3134 10 3 282 0 332 3 9 6 271 7 346 6 8 9 258 9 355 8 82 220 1 304
57. and control panels 0 8 KWi which is based on ARI Standard 550 590 40 Leaving Chilled Water Temperature JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0207S P S IPLV 13 5 P IPLV 14 9 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 CF KW EER TONS KW EER KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 194 8 164 9 13 0 192 9 178 5 12 0 190 9 193 4 11 0 188 7 209 2 10 1 186 4 225 7 9 3 181 9 239 3 8 6 176 0 249 7 8 0 168 7 256 4 7 5 149 21233 3 7 2 42 0 200 9 166 2 13 3 199 0 179 6 12 3 196 8 194 3 11 3 194 6 210 0 10 4 192 1 226 6 9 5 187 1 239 5 8 8 180 7 249 6 82 173 2 256 6 7 6 151 0 228 1 7 5 44 0 207 2 167 7 13 6 205 2 180 8 12 6 202 9 195 3 11 6 200 5 210 9 10 6 197 6 226 7 9 8 1924 239 7 9 1 185 4 249 4 84 177 7 256 6 7 8 152 8 222 7 7 7 45 0 210 41168 6 13 7 208 3 181 5 12 7 206 0 195 8 11 7 203 6 211 4 10 8 200 4 226 8 9 9 195 0 239 8 9 2 187 9 249 2 8 5 180 0 256 5 8 0 153 7 220 0 7 8 46 0 213 6 169 5 13 9 211 5 182 2 12 9 209 1 196 4
58. however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 102 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES TYP ORIGIN CONTROL PANEL VIEW D D 5 RIGGING HOLE amp EACH SIDE 76 X 51 1303 POWER SINGLE POINT WITH TERMINAL BLOCK 6 JOHNSON CONTROLS 103 Isolator Locations English CONTROL PANEL STANDARD EFFICIENCY ENGLISH MODEL Isolator Locations x y in and Point Loads Ibs 60 Hz 50 Hz 1 2 3 4 5 6 LEFT L 91 868 594 868 1094 868 211 868 Al Fin Coils 1702 1592 1396 1340 Cu Fin Coils 1702 1704 1739 1682 RS8LS1 AI Fin Coils 1881 1770 1396 1340 RS amp LS1 Fin Coils 1881 1883 1739 1682 01575 YCIVO600S P RIGHT R 91 13 594 13 1094 13 211 13 Al Fin Co
59. kg Model Number Color 239 to 384 Ibs 108 to 174 kg CIP B Red 384 to 639 Ibs 174 to 290 kg CIP B White 639 to 851 Ibs 290 to 386 kg CIP B Blue 851 to 1064 105 386 to 483 kg CIP B Gray 1064 to 1404 Ibs 483 to 637 kg CIP B Black FOR UNITS WITH ANY POINT LOAD ABOVE 1404 LBS 637 KG Weight Range Ibs Weight Range kg Model Number Color Up to 851 Ibs Up to 386 kg CIP C Black 851 to 1149 Ibs 386 to 521 kg CIP C Yellow 1149 to 1489 Ibs 521 to 675 kg CIP C Black 1489 to 1786 Ibs 675 to 910 kg CIP C Yellow w Red 1786 to 2028 Ibs 910 to 920 kg CIP C Yellow w Green 2028 to 2254 Ibs 920 to 1022 kg CIP C Red w Red 2254 to 2936 Ibs 1022 to 1332 kg CIP C Red w Green 112 JOHNSON CONTROLS FORM 201 23 EG1 1007 NEOPRENE ISOLATOR CROSS REFERENCE ND X CS Cap Screw D tro Steel Plate Top 4 _ gt MBD Max Bolt Dia Bottom Neoprene covered to prevent corrosion H 4 ENGLISH Size D H L T W BC CS MBD ND C 2 9 16 2 34 5 1 2 1 4 2 5 16 4 1 80 1 2 13x 1 1 2 ND D 338 2 34 6 1 4 5 16 4 5 1 2 13 x 1 1 2 ND DS 3 3 8 2 3 4 6 1 4 2116 4 5 1 2 13 x 1 1 2 ND C 65 1 69 9 139 7 6 4 58 7 101 9 1 2 13x 1 1 2 ND D 85 7 69 9 158 8 7 9 101 6 127 0 1 2 13 x 1 1 2 ND DS 85 7 69 9 158 8 7 9 101 6 127 0 1 2 13x 1 1 2 Weight Range Weight Range
60. 0 2184 12 6 245 5 234 3 11 7 242 8 251 2 10 8 239 9 268 9 10 0 236 1 287 8 92 228 3 299 4 220 5 310 7 8 0 210 1 315 4 7 6 46 0 254 0 204 8 13 7 251 7 2194 12 7 249 2 235 2 11 8 246 5 252 1 10 9 243 5 269 9 10 1 2392 288 2 94 2314 299 7 2234 311 1 8 1 211 3 311 8 7 7 48 0 261 7 207 1 13 9 2594 221 6 13 0 256 7 237 3 12 0 253 9 254 1 11 2 250 8 271 9 10 4 245 7 288 9 9 6 237 6 300 4 2294 311 7 8 3 213 6 304 4 7 9 50 0 269 6 209 5 142 267 1 223 9 13 2 2644 239 5 12 3 2614 256 2 114 258 2 274 0 10 6 2522 289 6 9 8 243 9 301 1 235 5 312 4 8 5 215 8 296 4 8 2 52 0 277 6 2122 144 275 1 226 4 13 5 272 2 241 9 12 5 269 1 258 5 11 7 265 8 276 2 10 8 258 9 290 4 10 1 250 3 301 8 241 7 313 0 8 8 217 8 288 1 8 5 55 0 289 9 215 9 14 8 287 2 230 3 13 9 284 2 245 7 12 9 281 0 262 2 12 0 277 4 279 7 11 2 269 0 291 7 10 4 260 2 302 9 251 2 314 1 9 1 220 5 275 9 9 0 NOTES kWi EER LCWT gt N gt Compressor Input Power Chiller EER includes power from compressors fans and con
61. 1 422 2 2 6 1085 1 448 4 23 1070 0 453 4 2 2 8 0 1294 0 298 7 40 1270 8 339 0 3 5 1244 0 384 0 3 0 1188 2 422 8 2 6 1111 1 449 1 2 3 1085 2 447 5 2 3 9 0 1329 5 301 6 4 1 1305 4 341 5 3 5 1277 5 386 5 3 1 1216 8 4234 2 1 11374 449 8 24 1096 7 438 8 24 10 0 1365 7 304 6 4 1 1340 7 3442 3 6 1311 7 389 0 3 2 1245 7 424 1 2 8 1164 1 4505 24 1107 5 429 2 24 11 0 1402 6 307 8 42 1376 7 347 0 3 7 1346 7 391 6 3 2 1275 0 4248 28 1179 6 4432 25 1117 3 418 9 2 5 12 0 1439 8 311 3 43 1413 4 350 1 3 8 13822 394 5 3 3 1305 0 4254 2 9 1190 8 432 9 2 6 1126 4 408 1 2 6 13 0 1477 6 314 5 4 3 1450 3 353 2 3 8 1418 5 397 5 3 3 1335 5 426 1 3 0 1201 1 421 9 2 7 1134 7 3972 27 MODEL YCIV1500S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1337 3 3284 3 7 1315 3 373 1 3 3 1289 8 422 2 29 1249 5 4734 25 1187 1 512 7 22 1174 5 520 5 2 1 6 0 13747 3310 38 1351 8 375 7 3 3 1325 2 424 9 29 1280 8 475 2 25 1216 1 514 6 2 2 1203 0 5225 2 2 7 0 1412 9 3338 3 9 13890 3784 3 4 1361 1 427 8 3 0 1312 9 476 8 2 6 1246 0 516 4 23 1232 4 5243 2 2 8 0 1451 9 3368 40 1426 9 3814 3 5 1397 9 430 7 3 0 1345 7 478
62. 1 335 8 8 1 231 8 347 4 7 6 45 0 272 2 218 0 13 7 269 9 233 6 12 8 267 3 250 4 11 9 264 5 268 1 11 0 261 4 286 7 10 2 257 5 306 9 9 4 250 5 321 7 8 8 243 4 336 4 8 2 233 0 343 2 7 7 46 0 276 3 219 2 13 9 273 9 234 7 12 9 271 3 251 4 12 0 268 4 269 2 11 1 265 3 287 8 10 3 261 0 307 6 9 6 253 9 322 3 8 9 246 7 337 1 8 3 234 21338 8 7 8 48 0 284 6 221 6 14 1 282 1 237 1 132 219 4 253 7 12 2 276 4 2714 114 273 1 290 1 10 6 268 2 308 8 9 8 260 9 323 5 9 1 253 4 338 3 8 5 236 7 330 1 8 1 50 0 293 1 224 1 144 290 5 239 6 134 287 7 256 1 12 5 284 6 273 7 11 6 281 1 292 4 10 8 275 5 310 1 10 0 267 9 324 9 9 3 260 2 339 6 8 7 239 1 321 4 8 4 52 0 301 7 227 0 14 7 299 1 242 2 13 7 296 1 258 7 12 7 292 9 276 2 11 9 289 3 294 9 11 0 282 9 311 5 10 2 275 1 326 1 9 5 267 2 340 8 8 9 241 5 312 8 8 7 55 0 315 0 230 2 15 1 312 1 246 1 14 1 309 01262 7 13 1 1305 6 280 2 122 301 9 298 7 11 4 294 2 313 7 10 6 286 1 328 1 9 9 277 9 342 8 9 2 244 8 300 9 9 1 MODEL YCIV0287S P S IPLV 13 2 IP
63. 10 4 205 9 237 1 9 6 203 2 255 1 8 9 196 1 264 5 8 3 188 3 271 8 7 7 44 0 222 9 166 7 14 3 221 2 178 7 13 3 219 2 191 9 12 4 217 1 206 0 11 5 214 9 221 0 10 7 212 2 238 3 9 9 209 4 256 2 9 1 201 5 264 5 8 5 193 4 271 9 7 9 45 0 226 4 167 6 14 5 224 6 179 4 13 5 222 6 192 5 12 6 220 4 206 6 11 7 218 1 221 6 10 8 215 4 238 8 10 0 2124 256 5 92 204 2 264 5 8 6 196 0 271 9 8 1 46 0 229 8 168 5 14 6 228 0 180 3 13 7 226 0 193 2 12 7 223 8 207 2 11 8 221 4 222 2 11 0 218 6 239 4 10 1 215 2 256 5 9 3 206 9 264 4 8 7 198 61271 9 8 2 48 0 236 9 170 4 14 9 235 0 181 9 14 0 232 9 194 7 13 0 230 6 208 5 12 1 228 1 223 4 11 2 225 2 240 6 10 4 221 0 256 5 9 6 212 5 264 4 9 0 203 9 271 9 8 4 50 0 244 0 172 5 15 2 242 1 183 7 14 2 239 9 196 3 13 3 237 6 210 0 12 4 235 0 224 8 11 5 232 0 241 9 10 6 226 9 256 4 9 8 218 1 264 3 9 2 209 3 271 8 8 6 52 0 251 1 174 8 15 5 249 2 185 7 14 5 247 0 198 0 13 6 244 6 211 6 12 7 242 0 226 2 11 8 238 9 243 2 10 9 232 9 256 4 10 1 223 9 264 3 9 4 214 8 271 7 8 8 55 0 262 1 178 5 15 8 260 1 189 1
64. 11 9 206 6 211 9 10 9 203 2 226 8 10 1 197 8 239 9 9 3 190 3 249 0 8 6 182 0 255 7 8 1 154 6 217 4 8 0 48 0 220 2 171 6 142 218 0 183 8 13 1 215 5 197 8 12 1 212 9 213 1 11 2 208 9 227 1 10 4 203 3 240 1 9 6 195 3 248 6 8 9 184 0 249 3 8 4 156 2 212 3 8 2 50 0 226 9 173 9 144 224 5 185 8 134 222 0 199 4 12 4 219 2 214 5 11 5 214 8 2214 10 6 208 8 240 1 9 8 200 4 248 2 9 1 186 1 242 8 8 7 157 8 207 3 8 5 52 0 233 7 176 5 14 6 231 3 187 9 13 7 228 6 201 2 12 7 225 7 216 0 11 7 220 7 227 9 10 9 214 2 239 7 10 1 205 5 247 7 9 4 188 1 236 5 9 0 159 3 202 4 8 8 55 0 244 3181 1 14 9 241 7 191 7 14 0 238 8 204 4 13 1 2354 218 1 12 1 229 8 228 9 11 3 222 4 239 3 10 5 2134 247 1 9 8 191 0 227 9 9 4 161 6 195 2 9 2 MODEL YCIV0227S P S_IPLV 13 2 P_IPLV 15 0 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 CF TONS KW EER TONS KW EER KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0
65. 13 8 1714 146 9 12 8 169 9 157 7 11 9 168 2 169 0 11 1 166 4 181 1 10 3 164 3 194 7 9 5 158 2 2054 8 7 151 9 216 1 79 145 5 227 0 7 3 52 0 177 81138 4 14 0 176 4 148 2 13 1 174 8 158 9 122 173 1 170 2 11 3 171 2 182 3 10 5 168 6 195 6 9 7 162 2 206 1 8 9 155 8 216 8 8 1 149 2 227 6 74 55 0 185 4140 6 14 4 184 0 150 3 13 5 182 3 160 8 12 6 180 5 172 1 11 7 178 5 184 1 10 8 175 0 196 8 10 0 168 3 207 2 9 2 161 7 217 8 8 4 151 7 218 9 78 S_IPLV 13 0 P_IPLV 14 8 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER IONS KW EER ONS KW EER TONS KW EER 40 0 165 7 144 7 12 6 164 2 156 2 11 6 162 4 168 5 10 7 160 5 181 2 9 9 158 4 194 4 9 1 154 6 205 6 8 5 149 9 214 6 7 9 143 5 222 1 73 130 1 211 5 6 9 42 0 170 9 145 7 12 9 169 3 157 3 11 9 167 5 169 5 11 0 165 5 182 3 10 1 163 3 195 6 94 159 1 206
66. 136 2 KW 213 6 EER 7 1 42 0 162 5 126 2 13 8 161 3 135 5 12 8 159 9 145 6 11 9 158 3 156 2 11 1 456 6 167 5 10 3 154 7 180 4 9 5 1512 192 5 8 7 146 1 203 7 8 0 139 91214 2 7 3 44 0 167 6 127 3 14 1 166 3 136 5 13 2 164 8 146 6 122 163 2 1572 11 4 461 5 168 4 10 6 159 4 181 3 9 7 155 6 193 3 9 0 150 1 204 3 8 2 143 6 214 9 7 5 45 0 170 2 127 9 14 3 168 9 137 1 13 3 167 4 147 1 12 4 165 7 157 7 11 5 163 9 168 9 10 7 161 8 181 8 9 9 157 8 193 6 9 1 152 11204 6 8 3 145 5 215 2 7 6 46 0 172 8 128 6 14 4 171 4 137 7 13 5 169 9 147 6 12 5 168 2 158 2 11 7 166 4 169 4 10 8 164 3 182 2 10 0 160 0 194 0 92 154 1 204 9 8 4 147 5 215 5 7 7 48 0 178 0 129 9 147 176 7 138 9 13 8 175 1 148 7 12 8 173 4 159 2 11 9 471 5 170 5 11 1 169 1 183 2 10 2 164 6 194 8 94 158 3 205 5 8 6 151 4 216 1 7 9 50 0 183 4 1314 15 0 182 0 140 3 14 1 180 4 150 0 13 1 178 6 160 4 12 2 176 6 171 6 11 4 173 9 184 0 10 5 169 2 195 6 9 6 162 5 206 1 8 8 154 4213 8 8 1 52 0 188 9 133 0 15 3 187 5 141 7 14 3 185 8 151 3 134 183 9 161 7 12 5 181 9 172 8 11 6
67. 144 0 13 1 169 9 154 5 12 1 168 2 165 6 11 3 166 4 1774 10 5 164 3 190 8 9 7 158 2 201 3 8 8 151 9 211 8 8 1 145 5 222 5 7 4 52 0 177 8 135 6 14 3 176 4 145 3 13 3 174 8 155 7 124 173 1 166 8 11 5 171 2 178 6 10 7 168 6 191 7 9 9 162 2 202 0 9 0 155 8 212 5 8 3 149 21223 0 7 6 55 0 185 4 137 8 14 7 184 0 147 3 13 7 182 3 157 6 12 8 180 5 168 7 11 9 178 5 180 4 11 0 175 0 192 8 10 2 168 3 203 1 9 3 161 7 213 5 8 5 151 7 214 5 8 0 MODEL YCIV0177S P S IPLV 13 3 IPLV 15 0 AIR TEMPERATURE ON CONDENSER F LCWT CF 40 0 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS 165 7 KW 141 8 EER 12 8 TONS 164 2 KW 153 1 EER 11 8 TONS KW 162 4 165 1 EER 10 9 TONS 160 5 KW 177 6 EER 10 1 TONS 158 4 KW 190 5 EER TONS 9 3 154 6 KW 201 5 EER 8 6 TONS 149 9 KW 210 4 EER 8 0 TONS 143 5 KW EER 217 6 7 5 TONS 130 1 KW 207 3 EER 74 42 0 170 9 142 8 13 1 169 3 154 1 12 1 167 5 166 1 112 165 5 178 7 10 3 163 3 191 6 9 6 159 1 202 1 8 9 154 0 211 0 82 147 5 218 3 7 6 131
68. 16 A 33 5 16 348 Z POWER SINGLE POINT WITH TERMINAL BLOCK x JOHNSON CONTROLS 71 Dimensions English continued Models YCIV0247S P YCIV0247E V and YCIV0267S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH 11 2 e POWER ENTRY 4 10 WIDE X 13 HIGH VIEW VIEW B B 3 L 12 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 22 3 16 1 26 EDGE OF UNIT TO COOLER CONNECTION VIEWA A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 72 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP Y ORIGIN APPROX OPERATING WEIGHT DISTRIBUTING LB
69. 2 2 9 1381 2 487 7 2 7 1306 2 458 5 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 51 High Efficiency Ratings SI 380V 60Hz MODEL YCIV0157E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 525 0 123 1 3 9 515 6 139 0 34 503 3 156 2 3 0 487 8 176 4 26 4490 192 6 22 4411 196 0 2 1 6 0 539 7 124 0 3 9 530 4 140 2 3 5 518 1 1574 3 0 500 9 177 3 26 460 8 193 4 22 4527 196 7 2 2 7 0 5547 1250 40 5454 141 3 3 5 533 0 158 5 3 1 514 0 178 2 2 7 4728 194 1 23 464 5 197 5 2 2 8 0 569 9 126 1 4 1 560 7 1424 3 6 548 1 159 7 3 2 527 2 179 1 27 4849 195 0 23 4765 1982 2 3 9 0 585 2 127 1 4 2 576 2 143 5 3 7 563 5 161 0 3 2 540 5 180 0 28 497 0 195 9 24 4884 199 1 2 3 10 0 600 7 1282 42 591 8 144 7 3 7
70. 2 9 5347 186 7 27 5015 175 7 2 7 MODEL YCIV0187S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 639 4 158 1 3 7 628 8 180 6 32 6167 205 2 28 594 6 230 0 24 551 9 245 6 21 543 3 248 7 2 1 6 0 657 2 159 2 3 8 6463 181 6 3 3 633 7 206 2 2 9 608 9 230 4 2 5 564 8 246 2 2 2 556 2 249 2 2 1 7 0 675 3 160 5 3 9 664 0 182 7 34 651 0 207 3 2 9 623 5 230 8 25 5782 246 7 2 2 569 2 249 7 2 2 8 0 693 7 161 8 3 9 682 0 183 9 3 4 668 4 208 5 3 0 638 4 231 1 2 6 591 9 247 1 23 5826 2502 2 2 9 0 7125 1632 40 700 4 185 1 35 6862 209 8 3 1 653 5 231 5 27 6058 2474 23 5962 250 6 2 2 10 0 731 6 1647 44 719 0 186 5 3 6 704 3 211 0 3 1 668 7 231 8 2 1 619 9 247 8 24 6056 247 6 2 3 11 0 751 0 166 3 4 1 738 0 187 9 3 6 7228 2123 3 2 683 9 2322 2 8 634 3 248 1 24 6108 2414 24 12 0 770 7 1680 42 757 3 189 4 3 7 741 6 213 7 3 2 699 5 232 6 2 8 648 9 248 4 25 6164 235 6 2 5 13 0 790 7 169 9 43 776 9 191 0 3 8 760 7 215 3 3 3 715 3 233 0 29 6602 2462 25 621 8 229 7 2 5 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings b
71. 242 3 251 2 10 8 234 9 262 7 10 1 225 6 270 4 9 4 216 3 277 8 8 8 199 3 267 5 8 4 9 196 7 14 9 2624 209 2 13 9 259 5 223 0 13 0 256 4 238 2 12 1 253 1 254 3 11 2 243 9 263 0 10 5 234 3 270 6 9 8 224 6 277 9 9 1 202 2 256 3 8 9 MODEL YCIV0247S P AIR TEMPERATURE ON CONDENSER F S IPLV 12 7 P IPLV 14 8 LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 231 8 198 8 12 8 229 8 213 8 11 9 227 6 229 8 11 0 225 2 246 7 10 2 222 7 264 4 9 4 219 7 284 3 8 7 213 4 297 6 8 1 206 3 308 8 7 6 199 1 319 5 7 1 42 0 239 1 200 6 13 1 236 9 215 6 12 1 234 6 231 5 11 3 232 1 2484 10 4 229 5 266 1 9 7 2264 286 1 8 9 219 3 2984 211 9 309 5 78 204 4 320 4 7 2 44 0 246 5 202 6 134 244 3 2174 124 241 9 233 3 11 5 239 2 250 2 10 7 236 4 268 0 9 9 232 9 287 5 9 1 225 3 299 1 217 6 310 3 79 208 9 318 7 7 4 45 0 250 2 203 7 13 5 248
72. 253 0 8 8 191 9 262 3 8 2 184 1 269 8 7 7 14 3 216 1 176 9 13 3 214 1 190 2 12 3 211 9 204 8 114 209 6 220 6 10 5 206 9 238 8 9 7 202 0 253 0 8 9 194 5262 2 8 3 186 6 269 7 7 8 14 4 219 4 177 6 13 4 2174 190 8 12 5 215 1 2054 11 5 212 8 221 1 10 7 210 0 239 2 9 8 204 8 253 1 9 1 197 1 262 0 8 4 189 0 269 7 7 9 14 7 226 1 179 3 13 7 224 0 192 2 12 8 221 7 206 5 11 8 2192 222 0 10 9 2162 239 8 10 0 210 6 253 2 9 3 202 3 261 6 8 7 194 0 269 4 8 1 14 9 233 0 181 3 14 0 230 8 193 8 13 0 2284 207 7 12 1 225 8 223 0 11 2 2223 240 0 10 3 216 2 252 8 9 6 207 7 261 1 8 9 199 1269 0 8 3 152 240 0 183 4 14 3 237 7 195 6 13 3 2352 209 2 124 232 5 224 3 11 5 228 5 240 3 10 6 221 8 2524 9 8 213 1 260 7 9 2 203 0 265 7 8 6 15 5 250 6 187 2 14 6 248 2 198 7 13 7 245 6 211 9 12 8 242 7 226 5 11 9 238 0 241 0 11 0 230 5 251 9 10 2 221 4 260 0 9 5 206 3 254 8 9 1 E IPLV 13 1 V_IPLV 15 0 AIR TEMPERATURE ON CONDENSER F
73. 273 6 10 8 261 4 292 5 10 0 2575 313 2 9 3 250 5 328 3 8 6 243 4 343 2 8 0 233 0 350 2 75 46 0 276 3 223 6 13 6 273 9 239 5 12 7 271 3 256 6 11 8 268 4 274 7 10 9 265 3 293 6 10 1 261 0 313 9 9 4 253 9 328 9 8 7 246 7 344 0 8 1 234 2 345 8 T T 48 0 284 6 226 1 13 9 282 1 242 0 12 9 2794 258 9 12 0 276 4 276 9 11 2 273 1 296 0 10 4 268 2 315 2 9 6 260 9 330 1 8 9 253 4 345 2 8 3 236 7 336 8 8 0 50 0 293 1 228 7 14 1 290 5 244 5 13 2 287 7 261 3 12 3 284 6 279 3 114 281 1 2984 10 6 2755 316 5 9 8 267 9 331 5 9 1 260 2 346 5 8 5 239 1 327 9 82 52 0 301 7 231 6 14 4 299 1 247 1 13 4 296 1 264 0 12 5 292 9 281 8 11 6 289 3 300 9 10 8 282 9 317 8 10 0 275 1 332 8 9 4 267 2 347 8 8 7 241 5 319 2 8 5 55 0 315 0 234 9 14 8 312 1 251 1 13 8 309 0 268 1 12 9 305 6 286 0 12 0 301 9 304 8 11 1 294 2 320 1 10 4 286 1 334 8 9 7 277 9 349 8 9 0 244 8 307 1 9 0 87S P S_IPLV 13 0 P_IPLV 14 7 80 0 85 0 90 0 95 0 F 100 0 105 0 110 0 115 0 F TONS KW EER
74. 310 3 3 7 1189 3 348 6 3 2 1121 1 379 1 2 8 9254 333 0 2 6 8684 313 9 2 6 12 0 1282 9 2784 43 1257 3 312 9 3 7 12194 349 7 33 1147 0 378 5 2 9 933 7 326 0 2 7 875 7 307 2 27 13 0 1317 1 2824 43 1290 6 315 7 3 8 1249 9 351 1 3 3 1173 3 378 0 29 9413 3192 28 8830 3007 27 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0357S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 1197 0 297 9 37 1176 3 339 5 3 2 1152 8 385 3 2 8 1110 2 429 5 24 1039 5 455 9 2 2 1025 5 460 9 2 1 6 0 1230 7 300 2 3 8 1209 2 341 6 3 3 1184 5 387 4 2 9 1137 3 4302 2 5 1064 3 456 9 2 2 1049 7 461 9 22 7 0 1265 0 302 6 3 8 1242 6 343 9 3 4 1216 8 389 8 29 1165 0 430 9 25 1089 8 457 7 2 3 1074 7 462 8 22 8 0 1300 0 305 4 3 9
75. 344 9 13 1 403 8 367 5 12 2 398 8 391 7 11 3 391 6 417 1 10 5 381 1 438 3 9 8 368 3 456 1 9 1 344 4448 8 8 6 15 3 431 1 328 9 144 426 7 350 6 134 422 0 373 0 12 6 416 7 397 1 11 7 408 3 420 6 10 9 396 9 440 6 10 1 383 6 458 1 94 349 0 430 4 9 1 NOTES 1 kW EER LCWT orum H H e Rated IAW ARI Standard 550 590 98 JOHNSON CONTROLS Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature Ratings based on 2 4 GPM cooler water per ton 23 Standard Efficiency Ratings SI 460V 60Hz MODEL YCIV0157S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 530 8 136 0 3 6 522 8 155 4 3 1 513 7 1765 27 499 1 200 2 23 463 8 219 1 2 0 456 5 223 0 1 9 6 0 545 3 136 8 3 6 537 0 156 2 3 2 5274 1773 28 511 2 200 8 24 4748 219 8 20
76. 354 4 8 5 258 1365 7 7 9 247 2 375 7 7 4 3 226 2 14 3 296 7 243 2 13 3 293 8 2624 12 3 290 5 283 5 11 3 287 1 306 0 104 283 1 331 8 9 5 216 5 353 7 8 8 265 1365 4 8 1 253 9 375 8 7 6 9227 4 14 4 301 3 2442 13 4 298 3 263 1 12 4 295 0 284 0 11 5 291 5 306 4 10 5 287 4 332 2 9 6 280 3 353 4 8 9 268 7 365 1 8 3 257 3 375 7 7 7 6 228 7 14 6 305 9 245 2 13 6 302 9 263 9 12 6 299 6 284 5 11 6 296 0 306 8 10 7 291 8 332 6 9 8 284 1 353 0 9 0 272 4 364 8 8 4 260 8 375 6 7 8 1 031 7 14 9 3154 2474 13 9 3122 265 5 12 9 308 8 285 7 11 9 305 0 307 8 11 0 300 7 333 6 10 1 291 8 352 3 9 3 279 8 364 2 8 6 267 8 375 1 8 0 8 235 1 15 1 325 0 250 0 14 2 321 8 267 5 13 2 318 2 287 4 12 2 314 3 309 2 11 3 309 8 334 6 10 3 299 7 351 5 9 5 287 3 363 4 8 9 274 9 374 6 8 3 8 239 0 15 3 334 8 253 2 14 4 331 5 269 9 13 5 327 8 289 4 12 5 323 8 310 7 11 6 319 1 335 8 10 6 307 7 350 8 9 8 295 0 362 6 9 1 282 2 373 9 8 5 0 245 8 15 6 349 9 258 6 14 8 346 5 274 4 13 9 342 7 292 8 12 9 338 4 313 4
77. 4 13 6 359 9 316 4 12 6 356 3 339 6 11 7 352 3 364 3 10 8 348 1 390 4 10 0 342 7 418 5 9 2 330 7 434 1 8 6 318 7 449 1 8 0 304 8459 0 7 5 13 7 3654 317 8 12 7 361 7 341 0 11 8 357 6 365 7 10 9 353 3 391 7 10 1 3472 418 9 9 3 335 1 434 5 8 7 322 91449 5 8 1 306 7 454 4 7 6 14 0 376 6 320 9 13 0 372 7 343 8 12 1 368 5 368 5 11 2 363 9 394 5 104 356 5 419 7 9 6 344 0 4352 8 9 331 5450 3 8 3 310 2444 4 7 9 142 387 9 324 2 13 3 383 9 347 0 12 3 379 5 3714 114 374 8 3974 10 6 366 0 420 5 9 8 353 1 435 9 92 340 2450 9 8 5 313 5433 3 8 2 14 5 399 6 327 7 13 5 395 4 350 3 12 6 390 8 374 5 11 7 385 9 400 4 10 8 375 7 421 3 10 1 362 4 436 7 9 4 349 2451 6 8 8 316 51421 3 8 5 14 9 417 2 333 5 13 9 412 9 355 6 13 0 408 1 379 9 12 0 402 9 405 5 11 2 390 4 422 8 10 4 376 6 437 8 9 7 362 8452 6 9 1 320 4402 9 8 9 S_IPLV 13 2 P_IPLV 15 2 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TO
78. 401 6 402 7 11 1 396 9 430 5 10 3 390 7 460 7 9 5 380 0 482 8 8 9 369 2 504 8 8 3 352 7 513 1 7 8 48 0 426 1 331 2 14 1 4224 3544 132 418 2 379 4 12 3 413 7 406 0 11 4 408 7 434 0 10 6 401 5 462 6 9 8 390 5 484 6 9 1 379 2 506 8 8 5 356 3 500 1 8 1 50 0 439 0 335 0 14 4 435 1 358 2 13 4 430 8 382 9 12 5 426 0 409 4 11 6 420 9 437 5 10 8 412 6 464 5 10 0 401 1 486 6 9 3 389 5 508 7 8 7 360 0487 0 8 4 52 0 452 0 339 1 14 7 448 0 362 0 13 7 443 5 386 8 12 8 438 6 413 1 11 9 433 2 441 1 11 0 423 8 466 5 10 2 411 9 488 5 9 5 400 0 510 5 8 9 363 7 474 1 8 7 55 0 471 7 343 8 15 1 467 3 368 2 14 1 462 8 392 7 13 1 457 8 419 1 12 2 452 3 446 8 11 4 441 0 469 8 10 6 428 7 491 5 9 9 416 1 513 5 9 2 368 8455 8 9 1 NOTES 1 kW eu d ps du EER LCWT Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 JOHNSON CONTROLS Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature 43 High Efficiency Ratings English 380V 60Hz MODEL YCIV0157E
79. 4459 5 7 8 45 0 374 5 285 5 142 371 3 3054 13 3 367 6 326 6 12 4 363 5 349 3 11 5 358 9 373 2 10 7 353 7 400 6 98 345 5 424 1 9 1 334 4442 6 8 5 322 9460 1 7 9 46 0 380 3 287 3 144 377 0 306 9 134 373 3 328 1 12 5 369 0 350 8 11 6 364 4 374 8 10 8 359 1 402 0 10 0 350 5 425 0 9 2 339 1443 2 8 6 327 3460 8 8 0 48 0 391 9 290 7 147 388 6 310 1 13 7 384 7 331 2 12 8 380 4 353 7 11 9 375 7 377 6 11 1 369 9 404 7 10 2 360 8 426 8 9 5 348 7 444 4 8 8 336 5 462 0 8 2 50 0 403 8 294 3 14 9 400 4 313 6 14 0 396 5 334 4 13 0 392 0 356 8 122 387 1 380 6 11 3 380 7 406 7 10 5 370 9 428 1 9 7 358 4445 7 9 0 341 0452 1 8 5 52 0 415 9 298 3 152 4124 3173 142 408 4 338 0 13 3 403 8 360 2 124 398 8 383 9 11 6 391 6 408 8 10 7 381 1 429 5 9 9 368 3447 0 9 3 344 4439 8 8 8 55 0 4344 303 6 15 6 431 1 322 3 14 7 426 7 343 6 13 7 422 0 365 5 12 8 416 7 389 1 11 9 408 3 412 2 11 1 396 9 431 8 10 3 383 6 449 0 9 6 349 01421 8 9 3 NOTES 1 kW eu d ps du EER LCWT Ratings based o
80. 458 2 2 6 1226 3 435 1 2 6 13 0 1525 2 311 0 45 1499 4 348 1 40 1467 3 389 3 3 5 1406 5 428 4 3 1 1308 1 450 8 2 7 1236 0 4243 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 55 Physical Data English Standard Efficiency STANDARD EFFICIENCY Refrigerant R 134a MODEL NUMBER 60Hz 0157 0177 0187 0207 0227 0247 0267 50Hz 0600 0650 0720 0770 0840 0920 1000 Number of Independent Refrigerant Circuits 2 2 2 2 2 2 2 Refrigerant Charge R 134a Ckt 1 Ckt 2 Ibs 162 162 170 170 185 170 192 175 192 192 230 195 230 230 Oil Charge Ckt 1 Ckt 2 gal 5 5 5 5 5 5 5 5 5 5 5 5 5 5 Compressors Semi hermetic Screw Qty per Chiller 2 2 2 2 2 2 2 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area ft 235 235 264 264 293 323 352 Number of Rows 3 3 3 3 3 3 3 Fins per Inch 17 17 17 17 17 17 17 Condenser Fans Number Ckt 1 Ckt 2 4 4 4 4 5 4 5 4 5 5 6 5 6 6 Low Noise Fans Fan Motor HP 2 2 2 2 2 2 2 Total Chiller Airflow cfm 104000 104000 117000 117000 130000 143000 156000 Ultra Quiet Fans Fan Moto
81. 5 3925 2 6 1071 6 396 5 2 5 12 0 1311 9 266 1 45 1288 1 297 2 40 1260 7 335 7 3 5 1201 8 370 4 3 0 1114 1 391 9 2 7 1085 7 389 4 2 6 13 0 1347 3 270 1 45 1322 6 3000 4 1 1294 1 337 9 3 6 1229 8 370 1 3 1 1139 9 391 3 2 7 1095 0 379 4 2 7 MODEL YCIV0357E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1228 4 287 0 3 9 1206 7 3254 3 4 1181 0 367 8 3 0 1146 5 415 9 2 6 1083 9 450 5 23 10704 456 8 2 2 6 0 1263 2 289 6 40 1241 1 327 6 3 5 1214 5 370 0 3 0 1177 1 417 5 26 1111 7 451 6 23 1097 6 457 9 2 3 7 0 1298 8 292 2 40 1276 1 330 0 3 5 1248 7 372 3 3 1 1208 5 419 0 2 1 1139 9 452 8 24 1125 5 459 0 2 3 8 0 1334 9 295 0 41 1311 8 332 6 3 6 1283 4 374 9 3 2 1240 5 420 6 28 1168 8 453 8 24 1153 8 460 1 24 9 0 1371 6 298 1 42 13480 3354 3 7 1318 9 377 4 3 2 1273 1 422 2 28 1198 3 454 9 25 1183 0 461 2 2 4 10 0 1409 1 301 3 4 3 1384 9 338 3 3 8 1355 0 380 2 3 3 1306 1 424 0 2 9 1228 4 456 0 2 5 1205 0 457 4 2 5 11 0 1447 1 304 6 43 1422 5 341 3 3 8 1391 8 383 1 3 4 1339 8 425 7 29 1258 9 457 1 26 1215 9 446 2 2 6 12 0 1485 7 3083 44 1460 6 344 7 3 9 1429 2 386 1 3 4 1372 9 427 0 3 0 1290 1
82. 5 3 3 1305 0 4254 2 9 1190 8 432 9 2 6 1126 4 408 1 2 6 13 0 1477 6 314 5 43 1450 3 353 2 3 8 1418 5 397 5 3 3 1335 5 426 1 3 0 1201 1 421 9 2 7 1134 7 3972 27 MODEL YCIV397S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1337 3 3284 3 7 1315 3 373 1 3 3 1289 8 422 2 29 1249 5 4734 25 1187 1 512 7 22 1174 5 520 5 2 1 6 0 13747 3310 38 1351 8 375 7 3 3 1325 2 424 9 29 1280 8 475 2 25 1216 1 514 6 2 2 1203 0 5225 2 2 7 0 1412 9 3338 3 9 13890 3784 3 4 1361 1 427 8 3 0 1312 9 476 8 2 6 1246 0 516 4 23 1232 4 5243 2 2 8 0 1451 9 3368 40 1426 9 3814 3 5 1397 9 430 7 3 0 1345 7 478 4 2 7 1276 5 518 2 2 3 1248 8 516 4 2 3 9 0 1491 4 340 1 40 1465 7 384 4 3 5 1435 3 433 8 3 1 1379 2 480 1 2 7 1307 7 519 9 24 1260 5 504 6 24 10 0 1531 8 3435 4 1 1505 1 387 5 3 6 1473 6 436 9 3 2 14128 481 9 2 8 1339 2 521 7 24 1272 3 492 8 2 4 11 0 1572 9 347 0 4 2 1545 3 390 8 3 7 15127 440 1 3 2 14474 483 6 28 1356 6 5127 25 1283 9 481 0 2 5 12 0 1613 6 350 8 42 1586 1 394 5 3 7 15524 443 5 3 3 14824 4854 2 9 1369 0 500 1 2 6 1295 3 469 5 2 6 13 0 0 0 0 0 0 0 1626 5 398 0 3 8 1593 0 447 0 3 3 1518 1 487
83. 6 9 2 245 3 304 8 9 0 55 0 373 9 269 8 15 3 370 0 285 8 144 365 8 304 7 13 4 360 8 325 3 12 4 353 5 343 8 11 5 343 0 361 0 10 7 329 2 372 9 10 0 294 2 342 6 9 6 248 8 294 0 9 4 NOTES 1 kW EE gt 42 R LCWT Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0357S P S IPLV 13 7 P_IPLV 15 4 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER KW EER TONS KW EER 40 0 336 3 282 3 13 1 333 4 303 7 12 1 330 1 326 9 112 326 6 351 0 10 4 322 9 376 4 9 6 318 6 404 9 8 9 309 3 4234 82 298 3437 9 7 7 287 4451 6 7 2 42 0 346 9 284 7 13 4 343 8 306 1 12 4 340 41329 1 15 336 7 353 3 10 6 332 8 378 7 9 8 328 3 4074 9 1 317 7 424 3 84 306 3438 9 7 9 295 0452 8 7 4
84. 606 6 251 7 23 11 0 753 9 170 0 4 1 740 8 191 9 3 6 725 6 216 9 3 1 686 2 237 0 2 7 636 6 253 2 2 4 611 8 2454 24 120 773 7 171 7 44 760 2 193 5 3 6 7444 2184 3 2 701 9 2374 2 8 651 2 2535 24 6175 2395 24 13 0 793 8 173 7 42 780 0 195 2 3 7 763 6 219 9 3 3 717 8 237 8 2 8 661 2 2502 2 5 623 0 2336 25 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0207S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 693 1 1743 37 680 1 201 0 3 2 665 5 230 8 27 632 2 253 2 24 557 5 252 1 2 1 5313 236 9 2 1 6 0 7126 1754 37 699 0 201 8 3 2 683 3 231 2 2 8 647 3 253 1 2 4 570 9 246 7 2 2 5374 232 2 22 7 0 732 5 176 7 3 8 718 4 202 7 3 3 700 8 231 3 2 8 662 7 252 8 25 5774 2417 2 3
85. 627 ON SAS CONS NIUNG 5 627 1 3 9085153 CONS 318 8 627 75 138 LBT 110 TINdNI IHM 9 627 gt V CON SAS 1 3 dS8 7 CONS NIUNG y 62r W3JNOSNUWL COND 18 62 f1 34165344 AS 039 2 62 m PUE LHM 1 620 335 UNS NIUNG 6 927 1X3 1138 1 1 CONS 18 8 920 24421 306 035 1 92 IHM 8 827 T UN sas CONS NIUNG 82 1534 1085153 75 038 2 827 used ION SAS TINaNT I WTB 1 827 COND NIUNG SI 6zr 1X3 108 17 AS 038 01 627 las 1 ON SAS TINaNT 5 627 1 310N 338 UNS NIUNG Ler 4 6 038 Ler 1X3 158 1 ante g 0535 Ig 1 TINaNT WTB ar JON SAS COND NIUNG 5 0 NOHNOJ IHM y Oer lndNI 1X3 148 221 5406836 dli3l 5 30104 49403 Z ON 7546 iagram d iring thout a proper wi Iring WI For informational purposes only Do not attempt to tie into w JOHNSON CONTROLS 129 Typical Control Wiring Three Compressor 130 JOHNSON CONTROLS FORM 201 23 EG1 1007 For informational purposes only Do not attempt to tie into wiring without a proper wiring diagram JOHNSON CONTROLS 131 Application Data UNIT LOCATION The YCIV chillers are designed for outdoor installation When selecting a site for installation be guided by the following requirements 1 Installation sites may be ei
86. 661 8 268 9 23 6520 2714 2 2 6 0 764 0 170 2 40 752 3 193 7 3 5 738 8 220 3 3 1 7222 251 7 2 7 678 0 268 9 23 667 8 271 6 2 3 7 0 785 4 1717 4 1 773 3 194 8 3 6 759 2 221 2 3 2 741 8 252 8 2 7 694 3 269 0 24 684 1 271 6 2 3 8 0 807 2 173 1 42 794 7 196 0 3 7 780 0 222 3 3 2 761 9 253 8 2 8 711 1 269 0 25 7006 271 6 24 9 0 829 4 1748 43 816 5 197 2 3 8 801 2 2234 3 3 782 3 2548 2 9 728 2 268 9 25 717 3 271 6 2 5 10 0 8517 1765 43 838 7 198 7 3 8 822 9 224 6 3 4 801 1 254 8 2 9 745 6 268 9 26 7344 271 5 2 5 11 0 874 2 1784 44 860 8 200 2 3 9 844 9 225 8 3 4 820 0 254 9 3 0 763 3 268 8 26 7518 2714 2 6 12 0 897 1 1805 45 8832 201 8 40 866 8 227 3 3 5 8393 2549 3 1 781 0 268 7 27 769 5 271 3 2 6 13 0 920 3 1826 4 5 906 1 203 6 4 1 889 1 228 7 3 6 858 7 255 0 3 1 799 3 268 6 28 787 3 271 3 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60
87. 692 1 2027 23 10 0 8626 1952 4 1 846 3 2204 3 6 827 6 249 2 3 1 779 7 268 8 2 7 722 5 282 1 24 6984 2765 24 11 0 8860 1973 41 869 1 2223 3 6 849 6 251 0 3 2 797 8 268 9 2 8 739 2 282 1 25 7048 270 1 2 5 12 0 9095 199 6 42 892 3 2242 3 7 872 1 252 8 3 2 816 2 269 0 2 9 753 8 2805 25 7107 263 3 25 13 0 933 5 202 1 43 915 7 226 3 3 8 895 1 254 7 3 3 834 8 269 1 2 9 760 7 273 7 26 7174 2568 26 MODEL YCIV0247S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 825 0 205 6 3 7 811 0 234 0 3 2 794 9 265 2 28 765 8 295 7 24 719 7 315 7 22 7105 319 5 2 1 6 0 848 1 2072 38 833 5 235 5 3 3 816 6 266 8 29 7848 2964 25 737 1 316 5 22 727 6 320 3 22 7 0 871 6 209 0 38 856 4 237 1 34 838 7 268 6 2 9 8040 297 0 2 6 755 0 317 1 23 7416 318 7 22 8 0 895 5 211 0 3 9 879 7 238 9 34 861 4 270 3 3 0 823 6 297 6 2 6 773 2 317 8 23 7494 3124 23 9 0 919 9 2130 40 903 5 240 8 3 5 8844 272 1 3 0 843 3 298 2 2 7 791 6 3184 24 7569 3056 23 10 0 9448 215 1 4 0 927 8 242 7 3 6 908 0 273 9 3 1 863 4 298 8 2 7 806 3 3162 24 7639 2984 24 11 0 970 0 2174 4 1 9524 244 9 3 6 931 9 276 0 3 2 883 9 299 5 2 8 814 2 308 9 25 770 5 2810 25 12 0
88. 8 168 7 12 8 193 9 181 2 11 9 191 9 194 4 11 0 189 7 208 4 10 2 186 9 223 7 94 179 7 232 9 8 7 172 5 241 8 8 1 165 1 250 5 7 5 48 0 203 5 158 8 14 0 201 7 170 2 13 1 199 8 182 6 12 1 197 6 195 8 11 2 195 3 209 8 10 4 191 9 224 3 9 6 184 5 233 3 8 9 177 01242 2 8 3 169 5 250 9 7 6 50 0 209 5 160 6 14 3 207 7 171 8 13 3 205 7 184 1 12 4 203 5 197 2 11 5 201 1 211 2 10 7 196 8 2247 9 8 189 3 233 7 9 1 181 6 242 6 8 5 171 2 244 6 7 9 52 0 215 7 162 4 14 6 213 8 173 6 13 6 211 7 185 7 127 209 4 198 8 11 7 206 9 212 7 10 9 201 9 225 2 10 1 194 1 234 1 9 3 186 3 242 9 8 7 172 9 237 9 8 2 55 0 225 2 165 6 15 0 2232 176 4 14 0 221 0 188 4 13 0 218 6 201 3 12 1 215 9 215 2 11 3 209 6 225 9 10 4 201 5 234 7 9 7 193 4 243 5 9 0 175 7 228 6 8 7 NOTES EE mo gt N gt kW R LCWT Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program Compressor Input Power Chiller EER includes power from compressors fans
89. 8 8 1 50 0 312 1238 8 14 4 309 3 255 8 134 306 0 274 7 12 4 302 4 295 2 11 4 297 2 314 4 10 6 290 1 333 3 9 8 278 9 346 7 9 1 261 9 347 2 8 5 2224 297 7 84 52 0 321 4 241 7 14 6 318 5 258 5 13 6 3152 277 1 12 7 311 4 297 4 11 7 305 7 315 5 10 9 298 2 334 0 10 1 286 2 346 8 9 3 264 9 338 8 8 8 224 6 290 7 8 6 55 0 335 7 246 8 15 0 332 7 262 8 14 0 329 2 280 9 13 0 325 3 300 9 12 1 318 6 3174 11 3 310 1 334 5 10 4 297 4 346 9 9 7 269 4 327 1 9 3 227 7 280 5 9 0 S_IPLV 12 6 P_IPLV 14 6 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 298 0 251 5 13 0 295 2 272 2 12 0 292 2 294 8 11 0 289 0 318 9 10 1 285 6 344 0 9 3 279 8 366 7 8 6 271 4 384 3 8 0 260 3 394 8 7 5 229 5 358 3 7 2 42 0 307 4253 3 13 3 304 5 273 7 12 3 301 3 296 0 11 3 297 9 320 0 10 4 294 3 345 1 9 6 287 9 367 5 8 8 278 6 38
90. 8 2 3 9 0 1497 8 347 6 40 1472 0 392 8 3 5 1441 5 443 2 3 0 1384 7 490 2 2 7 1313 2 530 8 2 3 1262 6 512 7 23 10 0 1538 4 351 0 40 1511 6 396 0 3 6 1479 9 446 4 3 1 1418 5 492 0 27 1344 9 5327 2 4 12744 500 6 24 110 1579 6 3547 41 1551 9 399 4 3 6 1519 1 449 7 3 2 1453 1 493 8 2 8 1358 8 520 8 2 5 1286 1 488 6 25 12 0 1620 2 358 5 42 1592 8 403 1 3 7 1559 0 453 1 3 2 1488 3 495 6 28 1371 2 508 0 2 6 1297 4 477 0 26 13 0 1662 5 360 8 4 3 1633 1 406 7 3 7 1599 6 456 7 3 3 1524 1 497 4 2 9 1383 3 495 4 2 6 1308 1 465 9 26 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 27 High Efficiency Ratings SI 460V 60Hz MODEL YCIV0157E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi
91. 8 203 1 7 3 44 0 176 1 143 9 134 174 6 155 2 124 172 8 167 2 11 5 170 7 179 8 10 6 168 4 19219 9 8 163 8 202 6 9 1 158 3 211 5 84 151 5218 9 7 8 133 6 199 1 7 5 45 0 178 8 144 5 13 6 177 2 155 7 12 6 175 4 167 7 11 6 173 3 180 4 10 7 171 0 193 5 9 9 166 1 202 9 92 160 5 211 7 8 6 153 5 219 3 7 9 134 5 196 9 7 7 46 0 181 5 145 2 13 7 179 9 156 3 12 7 178 1 168 3 11 8 175 9 180 9 10 9 173 5 193 9 10 0 168 5 203 2 9 3 162 6 211 9 8 7 155 6 219 5 8 0 135 3 194 7 7 8 48 0 186 9 146 5 14 0 185 4 157 6 13 0 183 5 169 5 12 0 181 3 182 1 11 1 178 4 194 4 10 3 173 3 203 7 9 6 167 0 212 3 8 9 159 81220 0 8 2 137 0 190 4 8 1 50 0 192 4 148 0 14 3 190 8 158 9 13 3 189 0 170 8 12 3 186 7 183 4 114 183 4 194 9 10 6 178 2 204 3 9 8 171 5 212 6 9 1 162 8 217 2 8 5 138 3 185 7 8 3 52 0 198 0 149 5 14 6 196 4 160 4 13 6 194 5 172 2 12 6 192 2 184 9 11 6 188 5 195 4 10 8 183 1 204 8 10 1 176 0 213 0 9 3 164 7 212 2 8 8 139 61181 2 8 6 55 0 206 4 152 1 15 0 204 9 162 8 13 9 202 9 174 5 13 0 200 6
92. 9 2 6 13 0 856 2 185 1 43 838 5 207 2 3 8 808 6 228 9 3 3 757 1 245 6 2 9 610 1 208 7 27 5725 196 6 27 MODEL YCIV0227S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 748 4 182 6 3 8 735 1 208 5 3 3 720 1 236 9 2 8 690 4 263 0 25 6403 275 7 22 6305 278 0 2 1 6 0 769 6 1840 38 755 7 209 7 3 3 739 9 238 2 2 9 707 1 263 1 25 6555 276 0 22 6452 278 3 2 2 7 0 7911 1855 3 9 776 7 211 0 34 760 1 239 6 3 0 724 0 2632 2 6 671 0 276 2 23 6604 278 6 2 2 8 0 813 1 1872 40 798 1 2124 3 5 780 9 241 0 3 0 7412 263 3 2 7 686 8 276 3 23 676 0 278 7 2 3 9 0 835 5 189 0 4 1 819 9 214 1 3 6 802 0 2424 3 1 758 8 263 3 2 7 702 9 276 4 24 690 9 278 2 2 3 10 0 8584 190 9 4 1 842 2 215 7 3 6 823 6 244 0 3 2 TI6 3 2634 2 8 719 2 2765 2 5 697 1 2722 24 11 0 8817 1930 42 864 9 217 5 3 7 845 6 245 6 3 2 7944 263 5 2 8 735 9 276 4 25 703 5 266 0 2 5 12 0 905 3 1952 43 888 1 219 4 3 8 867 9 2474 3 3 8127 263 6 2 9 752 5 276 2 26 710 1 259 7 2 6 13 0 929 1 1976 43 911 5 2214 3 8 890 8 249 3 34 831 3 263 7 3 0 759 3 269 5 27 716 0 253 0 2 7 MODEL YCIV0247S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP K
93. COOLER FLOW TEMPERATURE F GPM AIR ON CONDENSER F YCIV MIN MAX MIN MAX MIN MAX 50 Hz 60 Hz 0600 S P 0157 S P 40 60 140 675 0 125 0590 E V 0157 E V 40 60 160 750 0 125 0650 S P 0177 S P 40 60 160 750 0 125 0630 E V 0177 E V 40 60 160 750 0 125 0720 S P 0187 S P 40 60 160 750 0 125 0700 E V 0187 E V 40 60 160 750 0 125 0760 E V 0197 E V 40 60 180 750 0 125 0770 S P 0207 S P 40 60 180 800 0 125 0800 E V 0207 E V 40 60 180 750 0 125 0840 S P 0227 S P 40 60 180 800 0 125 0830 E V 0227 E V 40 60 180 750 0 125 0920 S P 0247 S P 40 60 180 800 0 125 0930 E V 0247 E V 40 60 180 800 0 125 1000 S P 0267 S P 40 60 180 800 0 125 1050 E V 0267 E V 40 60 250 1200 0 125 1070 S P 0287 S P 40 60 250 1200 0 125 1120 E V 0287 E V 40 60 250 1200 0 125 1180 S P 0307 S P 40 60 300 1200 0 125 1220 E V 0327 E V 40 60 300 1200 0 125 1340 S P 0357 S P 40 60 300 1200 0 125 1380 E V 0357 E V 40 60 300 1200 0 125 1500 S P 0397 S P 40 60 300 1200 0 125 NOTES 1 For leaving brine temperature below 40 F 4 4 C contact your nearest Johnson Controls office for application requirements 2 For leaving water temperature higher than 60 F 15 6 C contact the nearest Johnson Controls office for application guidelines 3 The evaporator is protected against freezing to 20 F 28 8 C with an electric heater as standard 10 JOHNSON CONTROLS FORM 201 23 EG1 1007 TEMPERATURE A
94. Fin Coils 855 877 982 978 1149 741 YCIV0287SIP YCIV1070SIP RIGHT R 280 32 1475 32 2823 32 5199 32 7236 32 9346 32 Fin Coils 795 724 1092 1095 1195 535 Cu Fin Coils 805 802 1248 1252 1351 613 RS8LS1 Fin Coils 875 804 1092 1095 1225 665 RS amp LS1 Cu Fin Coils 885 882 1248 1252 1381 743 LEFT L 230 2204 1475 2204 2823 2204 5199 2204 7236 2204 9346 2204 Al Fin Coils 795 719 886 897 1045 537 Cu Fin Coils 805 797 1042 1054 1201 615 RS8LS1 Fin Coils 875 799 886 897 1075 667 RS amp LS1 Cu Fin Coils 885 877 1042 1054 1231 745 YCIVO307S P YCIV1180SIP RIGHT R 230 32 1475 32 2823 32 5199 32 7236 32 9346 32 Fin Coils 795 724 1152 1194 1314 539 Cu Fin Coils 805 802 1308 1351 1470 607 RS8LS1 Fin Coils 875 804 1152 1194 1344 669 RS amp LS1 Cu Fin Coils 885 882 1308 1351 1500 747 LEFT L 230 2204 1510 2204 2780 2204 4710 2204 7225 2204 9105 2204 10463 2204 Al Fin Coils 795 719 886 897 886 517 429 Cu Fin Coils 805 786 1015 1072 1061 646 483 RS8LS1 Al Fin Coils 875 799 886 897 886 597 509 RS amp LS1 Cu Fin Coils 885 866 1015 1072 1061 726 563 03575 13405 RIGHT R 280 32 1510 32 2780 32 4710 32 7225 32 9105 32 10463 32 Fin Coils 795 724 1152 1194 1152 522 429 Cu Fin Coils 805 778 1281 1369 1327 651 483 RS8LS1 Fin Coils 875 804 1152 1194 1152 602 509 RS am
95. High Static Fans Fan Motor hp 5 5 5 5 Total Chiller CFM 195000 247000 247000 273000 Evaporator Direct Expansion Water Volume gals 202 0 202 0 236 0 236 0 Maximum Water Side Pressure PSIG 150 150 150 150 Maximum Refrigerant Side Pressure PSIG 235 235 235 235 Minimum Chilled Water Flow Rate gpm 250 250 300 300 Maximum Chilled Water Flow Rate gpm 1200 1200 1200 1200 Water Connections inches 10 10 10 10 Contact your nearest Johnson Controls Sales Office for weight data JOHNSON CONTROLS 59 Physical Data SI Standard Efficiency Refrigerant R 134a STANDARD EFFICIENCY MODEL NUMBER GW 60Hz 0157 0177 0187 0207 0227 0247 0267 50Hz 0600 0650 0720 0770 0840 0920 1000 Number of Independent Refrigerant Circuits 2 2 2 2 2 2 2 Refrigerant Charge R 134a Ckt 1 Ckt 2 kg 74 74 7777 84 77 87 80 87 87 105 89 105 105 Oil Charge Ckt 1 Ckt 2 liters 19 19 19 19 19 19 19 19 19 19 19 19 19 19 Compressors Semihermetic Screw Qty per Chiller 2 2 2 2 2 2 2 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area m2 21 8 21 8 24 5 24 5 27 2 30 0 32 7 Number of Rows 3 3 3 3 3 3 3 Fins per meter 669 669 669 669 669 669 669 Condenser Fans Number Ckt 1 Ckt 2 4 4 4 4 5 4 5 4 5 5 6 5 6 6 Low Noise Fans Fan Motor HP kWi 2 1 50 2 1 50 21 50 21 50 21 50 21 50 21 50 Total Chiller Airflow l sec 49082 49082
96. KWi COP KWi KWi COP KWi KWi COP 5 0 821 2 201 2 37 807 2 229 1 3 3 7912 259 7 28 762 5 289 7 25 716 5 309 3 22 7074 313 0 2 1 6 0 844 2 202 8 3 8 829 7 230 5 3 3 8129 261 2 29 7814 290 3 25 7339 310 0 22 7243 313 8 2 2 7 0 867 7 2045 3 9 852 5 232 1 3 4 834 9 262 9 3 0 800 6 290 9 2 6 751 6 310 7 23 7400 313 3 2 2 8 0 8915 2064 40 875 8 233 9 3 5 857 5 264 6 3 0 820 1 291 5 2 7 769 8 311 3 23 747 8 3072 2 3 9 0 915 8 2084 40 899 5 235 7 3 5 880 5 266 3 3 1 839 9 292 1 2 7 788 2 311 9 24 7553 300 7 24 10 0 9405 210 4 44 923 7 237 6 3 6 904 0 268 2 3 2 859 8 292 8 2 8 804 7 311 1 24 7624 293 8 24 11 0 965 7 2127 42 948 2 239 6 3 7 927 8 270 0 3 2 880 3 2934 2 8 812 6 304 1 25 769 0 286 5 2 5 12 0 991 2 215 1 4 2 973 3 241 7 3 7 952 1 272 1 3 3 901 1 294 0 2 9 820 0 296 6 26 7752 279 1 2 6 13 0 1017 2 217 0 43 998 6 243 9 3 8 976 9 274 2 3 3 922 2 294 7 2 9 826 9 289 0 27 780 9 272 0 2 7 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at t
97. KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 828 3 199 0 3 8 815 0 226 2 3 3 799 5 2566 2 9 777 0 289 8 25 733 7 3122 22 7243 3162 22 6 0 8515 2006 39 837 7 227 7 34 821 5 258 0 3 0 797 5 290 9 2 6 751 7 3129 23 7421 3169 22 7 0 875 2 2024 3 9 860 9 229 2 3 5 844 0 259 5 3 0 818 3 292 0 2 6 770 1 3135 23 7565 315 1 2 3 8 0 899 4 2043 4 0 884 5 230 9 3 5 867 0 261 1 3 1 839 6 293 1 2 7 789 0 314 1 24 7646 3086 23 9 0 924 0 2063 4 1 908 5 232 7 3 6 890 3 262 7 3 2 860 3 293 9 2 7 808 2 314 6 24 772 2 301 7 24 10 0 949 1 2085 42 933 1 234 6 3 7 9142 264 5 3 2 881 2 294 5 2 8 823 3 3122 25 TI94 2044 25 11 0 9745 210 8 42 958 0 236 7 3 7 938 5 266 3 3 3 902 3 295 1 29 8313 3048 26 786 1 20870 26 12 0 1000 3 213 3 43 983 4 238 8 3 8 963 3 268 3 3 3 923 9 295 7 29 838 8 297 0 2 6 7924 279 5 26 13 0 1026 6 215 3 44 10090 241 1 3 9 988 4 270 3 3 4 945 7 296 4 3 0 845 6 289 2 27 798 0 2726 27 MODEL YCIV0267E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 940 7 2189 3 9 924 4 251 2 3 4 904 8 2874 29 879 7 328 6 25 8149 350 0 22 801 9 353 9 2 1 6 0 9674 2204 40 950 7 2522 3 5
98. LS1 Cu Fin Coils 859 852 861 750 424 YCIV0187SIP YCIVOT20SIP RIGHT R 230 32 1510 32 2780 32 4970 32 6740 32 Al Fin Coils 770 707 707 563 301 Cu Fin Coils 770 762 861 735 374 RS8LS1 Fin Coils 851 788 707 563 301 838151 Cu Fin Coils 851 843 861 735 374 LEFT L 230 2204 1510 2204 2780 2204 4970 2204 6740 2204 Al Fin Coils 784 762 802 686 415 Cu Fin Coils 784 817 056 858 488 RS8LS1 Al Fin Coils 865 843 802 686 415 RS amp LS1 Cu Fin Coils 865 808 056 858 488 02075 YCIVOTTOSIP RIGHT R 230 32 1510 32 2780 32 4970 32 6740 32 Fin Coils 784 760 800 669 363 Cu Fin Coils 784 815 956 841 436 RS8LS1 AI Fin Coils 865 841 800 669 363 RS amp LS1 Cu Fin Coils 865 896 954 841 436 LEFT L 230 2204 1510 2204 2780 2204 4970 2204 6740 2204 Al Fin Coils 784 762 802 691 435 Cu Fin Coils 784 817 056 863 508 RS8LS1 Al Fin Coils 865 843 802 691 435 RS amp LS1 Cu Fin Coils 865 898 956 863 508 YCIVO2TTSIP 08405 RIGHT R 230 32 1510 32 2780 32 4970 32 6740 32 Fin Coils 784 760 800 689 433 Cu Fin Coils 784 815 054 861 506 RS8LS1 Fin Coils 865 841 800 689 433 RS amp LS1 Cu Fin Coils 865 896 954 861 506 108 JOHNSON CONTROLS FORM 201 23 EG1 1007
99. ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 528 8 133 1 3 6 520 9 1522 3 2 511 8 1728 2 8 4974 196 1 24 4622 2146 20 4550 218 5 2 0 6 0 543 2 1340 37 535 0 152 9 3 2 5255 1737 2 8 509 5 196 7 24 473 3 215 3 2 1 465 8 219 2 2 0 7 0 5579 1349 38 5494 153 8 33 539 5 1745 2 9 521 7 197 3 25 4845 216 0 2 1 476 8 219 9 2 0 8 0 572 9 135 8 3 8 564 1 154 6 3 4 553 7 1754 2 9 533 9 197 9 25 495 5 216 9 22 4879 220 6 2 1 9 0 588 0 1368 3 9 578 9 155 6 34 568 2 176 3 3 0 546 3 198 5 2 6 507 2 217 5 2 2 4992 2213 2 1 10 0 603 4 137 9 4 0 594 1 156 6 3 5 583 0 177 3 3 1 558 9 199 1 2 6 519 0 218 1 2 2 5108 222 0 2 2 11 0 619 1 139 1 4 1 609 5 157 6 3 6 598 0 178 4 3 1 571 6 199 7 2 7 531 0 2187 23 5226 2226 2 2 12 0 635 0 1403 44 625 1 158 7 36 6132 179 4 3 2 584 5 200 3 2 7 542 9 219 3 23 5321 221 1 2 3 13 0 651 2 141 6 42 641 0 159 8 3 7 628 7 180 5 3 2 597 5 201 0 2 8 555 1 219 9 2 4 537 5 215 9 2 3 MODEL YCIV0
100. PY WWI W A WYGASA Standard Efficiency Ratings English 380V 60Hz High Efficiency Ratings English 380V 60Hz ricette teer sende suite aee Dna uaa bao pao ERR PY naar Standard Efficiency Ratings Sl 380V GOHZ cccsesscssccsocssosessessacessscsecsoctsaeacsasosesssbscasoseesacssadsssbecasssesstacbasoaedsecesssosersacsadssesesessea sszsaedsosesscezassase High Efficiency Ratings SI 380V 60Hz Physical Data English Standard Eff ciency iride niet a OE A WAWA a ankn NaNe kaphi arap aane P Soa eR Pad ga Physical Data English High Efficiency asc sir pone E sae OR ab Physical Data SI Standard Efficiency Physical Data SI High Efficlency Ya Et gas ara ER aa kid OR Ease AVNA E riaria Dimensions English sss Dimensions SI Isolator Locations English A Isolator For n Isolator Details ia Electrical Data 2 Comp Standard 33 castecessbagidszeastshd scdascbvasedversvsbiedesohissesaesiedsbetasabicbesseatevshicedssseiearesiess Electrical Data 2 Comp High Efficiency aa y eaa uma ya das era pa E Cua nas ors naa ga anra e vata sas sS E Fan sa EE aaa
101. SI 380v 60Hz MODEL YCIV0247E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 8245 1948 38 8112 2215 34 795 7 2512 29 773 5 283 8 25 7304 3059 22 7212 3097 22 6 0 8477 1964 3 9 8338 2229 34 817 7 2526 3 0 793 8 2009 26 7484 3065 23 7388 3105 22 7 0 8713 198 1 40 856 9 2244 35 840 1 254 0 341 814 6 286 0 27 766 7 307 1 23 7549 3098 23 8 0 8953 199 9 4 1 880 5 226 0 36 8630 2556 3 1 835 8 287 1 27 785 5 307 7 24 7630 303 6 24 9 0 919 9 2019 4 1 904 5 227 8 3 7 886 3 257 2 3 2 856 8 287 9 2 8 804 7 308 2 2 5 770 6 296 9 2 4 10 0 944 8 204 0 4 2 928 9 229 6 37 910 1 258 9 33 877 5 2885 28 821 6 307 2 2 5 777 9 289 9 25 11 0 970 3 2062 4 3 953 8 2816 3 8 934 4 260 7 3 3 898 6 289 1 2 9 829 7 300 0 2 6 784 7 2826 26 12 0 995 9 208 6 44 979 1 233 6 3 9 959 0 2626 3 4 920 1 2897 3 0 837 3 292 4 27 7910 2753 27 13 0 1022 2 210 5 44 10047 235 9 39 984 2 264 6 3 5 941 9 2904 30 844 2 2848 28 796 8 2683 2 8 MODEL YCIV0267E V
102. UNLESS OTHERWISE NOTED 16 MOUNTING HOLES TYP 1 71 L 1770 2192 1270 1278 231 VIEW D D 2387 10 WATER INLET 2865 10 WATER OUTLET 2146 3 RIGGING HOLES EACH SIDE 76 X 51 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 87 Dimensions SI continued 0760 YCIV0770S P YCIV0890S P CONTROL ENTRY 76 WIDE X 343 HIGH VIEW B B 44 L aoe POWER ENTRY IS ON BOTTOM OF PANEL B EDGE OF UNIT TO COOLER CONNECTION VIEW A A YCIV A B D 0760E V 518 714 2174 2852 0770S P 564 660 2009 2878 0890S P 564 660 2009 2878 Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance betw
103. YCIV0760E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 672 7 155 1 3 9 661 6 178 9 34 6487 206 1 29 6314 236 7 25 586 1 249 7 22 577 1 2520 2 2 6 0 691 7 156 1 40 680 1 1794 35 666 7 206 4 3 0 647 0 236 3 2 6 600 4 249 7 23 591 1 252 1 2 2 7 0 711 0 1573 44 699 0 180 0 3 6 685 1 206 8 3 1 662 9 235 8 2 6 614 9 249 6 23 6054 252 0 2 3 8 0 730 8 158 7 42 718 3 180 9 3 6 703 9 207 3 3 1 678 8 2353 27 629 7 249 3 24 6200 251 8 2 3 9 0 750 9 1604 42 T37 9 181 8 3 7 723 0 207 9 3 2 695 2 2348 2 8 645 0 249 0 24 634 8 251 6 24 10 0 771 3 1623 43 758 0 183 0 3 8 7424 208 8 3 3 711 9 234 3 2 8 660 3 2485 25 650 0 251 1 24 11 0 7921 1644 44 778 4 184 3 3 9 762 2 209 6 3 4 728 8 233 8 2 9 675 9 248 0 26 6654 250 7 2 5 12 0 8133 1668 44 799 1 186 0 3 9 7824 210 6 34 7459 2333 3 0 691 8 2475 2 6 681 0 2502 2 6 13 0 8349 169 5 45 820 2 187 8 40 803 0 211 8 35 763 0 233 0 3 1 707 8 247 0 2 7 696 9 249 6 2 6 MOD
104. compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 80 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP x ORIGIN 70 u PANEL 15 16 TYP s EN i i EN T 9 1 8 VIEW D D 9 T A J 1 D D 93 15 16 18 3 16 45 5 16 25 1 8 1 5 RIGGING HOLES 10 WATER OUTLET EACH SIDE3X2 10 WATER INLET 197 13 16 z 216 11 16 120 11 16 33 3 16 x 401 320 1 2 421 1 4 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 81 Dimensions English continued Models YCIV0357E V and YCIV0397S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH 1 1 2 21 POWER ENTRY 4 4 10 WIDE X 13 HIGH VIEW B B naw I m POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C ES
105. high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 78 JOHNSON CONTROLS FORM 201 23 EG1 1007 15 16 TYP 5 8 MOUNTING HOLES TYP ORIGIN CONTROL PANEL x 758 __ 83 1 8 80 3 16 93 5 8 53 49 93 15 16 4 RIGGING HOLES EACH SIDE3X2 10 WATER OUTLET 33 3 16 197 13 16 238 5 8 141 1 8 357 337 3 16 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 45 5 16 x e 79 Dimensions English continued Models YCIV0327E V and YCIV0357S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH POWER ENTRY 4 10 WIDE X 13 HIGH 13 4 L VIEW POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C rc 88 1 8 sm VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may
106. higher than 15 6 C contact the nearest Johnson Controls office for application guidelines 3 The evaporator is protected against freezing to 28 8 C with an electric heater as standard JOHNSON CONTROLS 11 Water Pressure Drop ENGLISH UNITS Pressure Drop Through Two Circuit YCIV Evaporators 60 B 50 x 40 C a 9 30 a 2 D 20 x 10 0 0 100 200 300 400 500 600 700 800 900 1000 Water Flow Rate GPM MODEL NUMBER YCIV COOLER 60Hz 50Hz A 0157 S P 0600 S P 0157 E V 0590 E V B 0177 S P E V 0630 E V 0650 S P 0187 S P E V 0700 E V 0720 S P 0197 E V 0760 E V C 0207 E V 0800 E V 0227 E V 0830 E V 0207 S P 0770 5 0227 S P 0840 S P 0247 S P E V 0920 S P 0930 E V 0267 S P 1000 S P 12 JOHNSON CONTROLS FORM 201 23 EG1 1007 SI UNITS Pressure Drop Through Two Circuit YCIV Evaporators 200 180 160 140 120 100 80 Pressure Drop kPa 60 40 20 0 5 10 15 20 Water Flow Rate 1 5 25 30 40 45 50 icu MODEL NUMBER YCIV 60Hz 50Hz A 0157 S P 0600 S P 0157 E V 0590 E V B 0177 S P E V 0630 E V 0650 S P 0187 S P E V 0700 E V 0720 S P 0197 E V 0760 E V 0207 E V 0800 E V 0227 E V 0830 E V 0207 S P 0770 S P 0227 S P 0840 S P 0247 S P EIV 0920 S P 093
107. higher than the unit 90 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES TYP ORIGIN 33 TYP 1 1 1 i i T ooo 1524 1250 l 1631 2 1278 n 231 VIEW D D gt P gt P gt D 2387 i A A 9 9 10 WATER OUTLET 10 WATER INLET 4 RIGGING HOLES 2174 EACH SIDE 76 X 51 2852 A 7236 4590 2355 846 8077 Z POWER SINGLE POINT WITH TERMINAL BLOCK x JOHNSON CONTROLS 91 Dimensions SI continued YCIV0920S P YCIVO930E V and YCIV1000S P CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 102 1 WIDE X 330 HIGH VIEW B B M L 305 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 564 1 660 EDGE OF UNIT TO COOLER CONNECTION 2238 VIEWA A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended mi
108. includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 52 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0197E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 672 7 155 1 3 9 661 6 178 9 34 6487 206 1 29 6314 236 7 25 586 1 249 7 22 577 1 2520 2 2 6 0 691 7 156 1 40 680 1 1794 35 666 7 206 4 3 0 647 0 236 3 2 6 600 4 249 7 23 591 1 252 1 2 2 7 0 711 0 1573 44 699 0 180 0 3 6 685 1 206 8 3 1 662 9 235 8 2 6 614 9 249 6 23 6054 252 0 2 3 8 0 730 8 158 7 42 718 3 180 9 3 6 703 9 207 3 3 1 678 8 2353 27 629 7 249 3 24 6200 251 8 2 3 9 0 750 9 1604 42 T37 9 181 8 3 7 723 0 207 9 3 2 695 2 2348 2 8 645 0 249 0 24 634 8 251 6 24 10 0 771 3 1623 43 758 0 183 0 3 8 7424 208 8 3 3 711 9 234 3 2 8 660 3 2485 25 650 0 251 1 24 11 0 7921 1644 44 778 4 184 3 3 9 762 2 209 6 3 4 728 8 233 8 2 9 675 9 248 0 26 6654 250 7 2 5 12 0 813 3 16
109. m Max Inverse Time Max Dual Element pacity MCA 3 Rating 4 Ckt Brkr Rating 2 Fuse Size 2 Ampacity MCA 3 Rating 4 Ckt Brkr Rating 2 Fuse Size 2 388 450 500 500 372 450 500 500 342 400 450 450 417 500 500 500 400 450 500 500 366 450 500 500 469 600 600 600 450 500 600 600 414 500 600 600 495 600 600 600 474 600 600 600 442 500 600 600 522 600 700 700 501 600 600 600 463 600 600 600 539 600 700 700 517 600 700 700 472 600 600 600 606 700 800 800 581 700 800 800 541 700 700 700 JOHNSON CONTROLS 119 Electrical Data 3 Comp Standard Efficiency System 1 System 2 Model No Nameplate Std amp Ultra Quiet Cond Fans High Head Static Cond Fans Two Speed Cond Fans Std amp Ultra Quiet Cond Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans sip Input Volts t Freq 9 RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 460 60 146 5 2 8 164 4 2 8 0281 380 60 184 5 3 5 184 5 9 3 207 4 3 5 1070 400 50 175 5 3 1 175 5 9 3 186 5 3 8 196 4 3 1 460 60 147 5 2 8 147 5 2 8 p 380 60 186 5 3 5 186 5 9 3 186 5 3 5 1180 400 50 177 5 3 1 177 5 9 3 188 5 3 8 177 5 3 1 460 60 160 5 2 8 160 5 2 8 0397 380 60 202 5 3 5 202 5 9 3 202 5 3 5 1340 400 50 192 5 3 1 192 5 9 3 204 5 3 8 192 5 3 1 4
110. parallel based on mixed liquid temperature Vibration Isolation Field Mounted 1 Neoprene Isolators 2 1 Inch Deflection Spring Isolators Level ad justable spring and cage type isolators for mounting under the unit base rails 3 2 Inch Deflection Seismic Isolators Level JOHNSON CONTROLS adjustable restrained mounts in rugged welded steel housing with vertical and horizontal limit stops Housings shall be designed to withstand a minimum 1 0g accelerated force in all directions to 2 50 8 mm J Service Shut Off Valve Provide suction service shut off valve for each compressor Factory Mounted PART 3 EXECUTION 3 01 INSTALLATION A General Rig and Install in full accordance with Manu facturer s requirements Project drawings and Contract documents Location Locate chiller as indicated on drawings includ ing cleaning and service maintenance clearance per Manufacturer instructions Adjust and level chiller on support structure C Components Installing Contractor shall provide and install all auxiliary devices and accessories for fully operational chiller Electrical Coordinate electrical requirements and con nections for all power feeds with Electrical Contractor Division 16 Controls Coordinate all control requirements and con nections with Controls Contractor Finish Installing Contractor shall paint damaged and abraded factory finish with touch up paint matc
111. to 1 Chiller package 2 Charge of refrigerant and oil 3 Electrical power and control connections 4 Chilled water connections 5 Factory start up 1 02 QUALITY ASSURANCE A Products shall be Designed Tested Rated and Certi fied IAW and installed in compliance with applicable sections of the following Standards and Codes 1 ARI 550 590 Water Chilling Packages Using the Vapor Compression Cycle 2 ARI 70 Sound Rating of Large Outdoor Refrig erating and Air Conditioning Equipment 3 ANSI ASHRAE Standard 15 Safety Code for Mechanical Refrigeration 4 ASHRAE 34 Number Designation and Safety Classification of Refrigerants 5 ASHRAE 90 1 Energy Standard for Buildings Except Low Rise Residential Buildings 6 ANSI NFPA Standard 70 National Electrical Code N E C 7 ASME Boiler and Pressure Vessel Code Section VIII Division 1 8 ASTM A48 Gray Iron Castings 9 OSHA Occupational Safety and Health Act 10 Manufactured in facility registered to ISO 9001 11 Conform to Underwriters Laboratories U L for construction of chillers and provide U L cU L listing label B Factory Test Chiller shall be pressure tested evacu ated and fully charged with refrigerant and oil and shall be factory operational run tested with water flowing through the vessel C Chiller manufacturer shall have a factory trained and supported service organization JOHNSON CONTROLS D Warranty Manufacturer shall Warrant al
112. 0 110 0 115 0 CF TONS KW EER TONS KW EER TONS KW EER IONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 201 7 158 0 13 7 200 1 170 5 12 7 198 3 184 2 11 7 196 4 199 0 10 8 1944 214 7 10 0 192 0 232 3 9 2 188 3 247 5 8 5 182 0 257 3 7 9 174 6 264 2 7 4 42 0 208 1 159 3 14 0 206 4 171 5 13 0 204 5 184 9 12 1 202 5 199 6 11 1 200 4 215 2 10 3 197 9 233 0 94 193 7 247 7 8 7 186 9 257 3 8 1 179 3 264 4 7 6 44 0 214 6 160 8 14 4 212 8 172 7 13 4 210 9 185 9 12 4 208 8 200 3 114 206 5 215 9 10 6 203 9 233 7 9 7 199 2 247 9 9 0 191 9257 1 8 4 184 1 264 4 7 8 45 0 217 9 161 7 14 5 216 1 173 3 13 5 214 1 186 4 12 5 211 9 200 7 11 6 209 6 216 2 10 7 206 9 234 0 98 202 0 248 0 9 1 194 5 256 9 8 5 186 6 264 4 7 9 46 0 221 3 162 6 14 7 219 4 174 1 13 7 217 4 187 0 12 7 215 1 201 3 11 7 212 8 216 6 10 9 210 0 234 4 10 0 204 8 248 1 9 2 197 1 256 7 8 6 189 0 264 3 8 0 48 0 228 1 164 7 14 9 226 1 175 7 14 0 224 0 188 3 13 0 221 7 202 3 12 0 219 2 217 6 11 1 216 2 235 0 10 2 210 6 248 2 9 5 202 3 25
113. 0 0496 9 8 2 0 346 1 14 4 448 0 369 4 13 5 443 5 394 7 12 5 438 6 421 5 11 7 433 2 450 1 10 8 423 8 476 0 10 0 411 9 498 5 01521 0 8 7 363 7 483 8 8 5 7 950 8 14 9 467 3 375 7 13 8 462 8 400 7 12 9 457 8 427 6 12 0 452 3 455 9 11 2 441 0 479 4 10 4 428 7 501 5 1 524 0 9 0 368 8 465 1 8 9 MODEL YCIV0157E V E IPLV 13 5 V_IPLV 14 6 NOTES 1 kW EER LCWT orum H H e JOHNSON CONTROLS Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 19 High Efficiency Ratings English 460V 60Hz AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F IONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 5 KW EER TONS KW EER 40 0 148 11121 7 13 1 146 8 130 5 12 2 145 2 139 6 11 4 1143 4 149 1 10 6 141 4 158 9 9 8 139 11170 1 9 1 136 1 181 5 8 4 130 1 190 6 7 7 124 0 200 1 7 0 42 0 152 7 122 8 13 4 151 5 131 6 12 5 149 9 140 8 11 7 148 1 150 3 10 9 146 1 160 2 10 1 143 7 171 4 9 3 140 1 182 5 8 6 1133 9 191 5 7
114. 0 E V 0267 S P 1000 S P JOHNSON CONTROLS 13 Water Pressure Drop continued ENGLISH UNITS Pressure Drop Through Three Circuit YCIV Evaporators 100 gt amp 10 2 o o 2 1 100 1000 2000 Water Flow MODELS 60Hz 50Hz 0267EA VA 1050 E V A 0287SA PA 1070 S P 0287EA VA 1120 E V 0307SA PA 1180 S P 0327EA VA 1220 E V B 0357SA PA 1340 S P 0357EA VA 1380 E V 0397SA PA 1500 S P 14 JOHNSON CONTROLS FORM 201 23 EG1 1007 SI UNITS Pressure Drop Through Three Circuit YCIV Evaporators 1000 100 Pressure Drop kPa 10 0 Water Flow Rate 1 5 EVAR YCIV MODELS 60Hz 50Hz 0267EA VA 1050 E V A 0287SA PA 1070 S P 0287EA VA 1120 E V 0307SA PA 1180 S P 0327EA VA 1220 E V B 0357SA PA 1340 S P 0357EA VA 1380 E V 0397SA PA 1500 S P JOHNSON CONTROLS 100 0 Standard Efficiency Ratings English 460V 60Hz MODEL YCIV0157S P AIR TEMPERATURE ON CONDENSER F S IPLV 13 2 P IPLV 14 5 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW E
115. 00 1175 RS8LS1 AI Fin Coils 1942 1795 2540 2632 2628 1592 1232 RS amp LS1 Cu Fin Coils 1964 1914 2824 3018 3014 1876 1351 NOTES 1 RS Reduced Sound Option LS Low Sound Option JOHNSON CONTROLS 105 Isolator Locations English continued CONTROL PANEL HIGH EFFICIENCY ENGLISH MODEL Isolator Locations x y in and Point Loads Ibs 60 Hz 50 Hz 1 2 3 4 5 6 LEFT L 91 868 594 868 1094 868 211 868 Al Fin Coils 1702 1594 1667 1609 Cu Fin Coils 1702 1706 2011 1951 RS amp LS1 AI Fin Coils 1881 1773 1667 1609 RS amp LS1 Cu Fin Coils 1881 1885 2011 1951 0157 0590 RIGHT R 91 13 594 13 1094 13 21 13 Fin Coils 1702 1594 1667 1609 Cu Fin Coils 1702 1706 2011 1951 RS8LS1 Fin Coils 1881 1773 1667 1609 RS8LS1 Cu Fin Coils 1881 1885 2011 1951 LEFT L 91 868 594 868 109 4 868 195 7 86 8 2654 86 8 Al Fin Coils 1698 1559 1559 1274 774 Cu Fin Coils 1698 1680 1898 1653 935 RS8LS1 Al Fin Coils 1876 1737 1559 1274 774 RS amp LS1 Cu Fin Coils 1876 1858 1898 1653 935 YCIVO177ENV RIGHT R 91 13 594 13 1094 13 1957 13 2654 13
116. 006 maximum mesh screen with inherent internal thermal overload protection and external cur rent overload on all three phases Suction gas screen and serviceable 0 5 micron full flow oil filter within the compressor housing Cast iron compressor housing precisely machined for optimal clearances and superb efficiency Entire compressor from suction to discharge has a Design Working Pressure of 350 PSIG 24 bar or higher REFRIGERANT CIRCUIT Independent refrigerant circuits per compressor each using copper refrigerant pipe formed on computer controlled bending machines This eliminates over 60 of system piping brazed joints as compared to designs that use fittings resulting in a highly reliable and leak resistant system Liquid line components include liquid line shut off valve with charging port low side pressure relief de vice high adsorption removable core filter drier sight glass with moisture indicator and electronic expansion valve JOHNSON CONTROLS FORM 201 23 EG1 1007 Discharge line provided with manual compressor shutoff service valve See Options and Accessories for suction line valve Suction line equipped with closed cell insulation Insulated external oil separators with no moving parts 450 PSIG 31 bar design working pressure and UL listing Refrigerant system differential pressure pro vides oil flow through service replaceable 0 5 micron full flow cartridge type oil filter internal to co
117. 02 7 241 3 94 199 9 259 8 8 7 193 1 269 8 8 1 185 3 277 1 7 6 177 51283 81 7 1 0 182 0 132 216 0 195 7 12 2 213 8 210 5 11 3 2114 226 2 10 4 208 9 242 7 9 7 206 0 261 3 8 9 198 2 270 0 8 3 1902 2714 7 8 182 1 284 2 7 3 9 183 7 13 5 222 7 197 3 12 5 220 4 212 0 11 6 218 0 227 7 10 7 215 3 244 2 9 9 211 9 262 1 9 1 203 5 270 1 8 5 1052 277 6 8 0 186 9 284 5 7 4 31184 7 13 6 226 2 198 2 12 6 223 8 212 8 11 7 221 3 228 5 10 8 218 5 245 1 10 0 214 7 262 2 9 2 206 2 270 2 8 6 197 7 277 7 8 1 189 3 284 6 7 5 8 185 7 13 7 229 6 199 1 12 8 221 2 213 7 11 8 224 6 229 3 11 0 221 8 245 9 10 1 217 5 262 2 94 208 9 270 2 8 7 200 3 277 7 8 2 191 8 284 7 7 6 9 187 8 14 0 236 7 201 1 13 0 234 2 215 4 12 1 231 4 231 0 11 2 228 5 247 5 10 4 2232 262 4 9 6 214 4 270 3 9 0 205 6 277 8 8 4 195 3281 4 7 9 2 190 1 14 3 243 8 203 1 13 3 241 2 2174 124 238 4 232 8 11 5 235 3 249 2 10 6 229 0 262 5 9 8 219 9 2704 9 2 210 9 277 8 8 6 197 2 274 6 8 1 6 192 7 14 5 251 2 205 4 13 6 248 5 219 5 12 6 245 5 234 9 11 7
118. 0KA 65KA 388 450 500 500 0197 1 8 30KA 65KA 345 400 450 450 1 8 30KA 65KA 437 500 600 600 0760 1 8 30KA 65KA 412 500 500 500 0207 1 8 30KA 65KA 362 450 500 500 1 8 30KA 65KA 458 600 600 600 0800 1 8 30KA 65KA 433 500 600 600 0227 1 8 30KA 65KA 371 450 500 500 1 8 30KA 65KA 469 600 600 600 0830 1 8 30KA 65KA 443 500 600 600 0247 1 8 30KA 65KA 424 500 600 600 1 8 30KA 65KA 536 700 700 700 0930 1 8 30KA 65KA 506 600 700 700 118 JOHNSON CONTROLS FORM 201 23 EG1 1007 High Efficiency YCIV____ EV System 2 Std amp Ultra Quiet Cond Fans High Head Static Cond Fans Two Speed Cond Fans Compressor Condenser Fans Compressor Condenser Fans Compressor Condenser Fans RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 110 4 2 8 139 4 3 5 139 4 9 3 132 4 3 1 132 4 9 3 138 4 3 8 122 4 2 8 154 4 3 5 154 4 9 3 146 4 3 1 146 4 9 3 154 4 3 8 105 5 2 8 132 5 3 5 132 5 9 3 126 5 3 1 126 5 9 3 131 5 3 8 141 5 2 8 179 5 3 5 179 5 9 3 170 5 3 1 170 5 9 3 180 5 3 8 152 5 2 8 193 5 3 5 193 5 9 3 183 5 3 1 183 5 9 3 195 5 3 8 150 6 2 8 190 6 3 5 190 6 9 3 180 6 3 1 180 6 9 3 189 6 3 8 149 6 2 8 188 6 3 5 188 6 9 3 178 6 34 178 6 9 3 187 6 3 8 High Head High Static Fans Two Speed Cond Fans Minimum Ckt Am 4 d Max Inverse Time Max Dual Element Minimum Ckt
119. 1 2 6 856 7 3532 23 8307 3465 23 9 0 10004 2325 4 0 983 4 262 6 3 5 963 2 296 3 3 0 9249 3273 2 7 877 6 3544 23 8385 3384 23 10 0 1027 2 234 8 40 1009 5 264 8 3 5 988 6 298 4 3 1 947 5 328 5 2 7 894 1 352 2 2 4 846 3 330 4 2 4 11 0 1054 4 237 3 4 1 1036 0 2672 3 6 1014 5 300 6 3 2 970 4 329 6 2 8 902 4 343 6 25 854 0 322 4 25 12 0 1081 9 240 0 4 2 1063 1 269 6 3 7 1040 8 302 9 3 2 993 6 330 9 2 8 910 6 335 1 2 6 861 4 314 7 26 13 0 1110 1 241 5 4 2 1090 4 272 1 3 7 1067 6 305 4 3 3 1017 3 332 1 29 918 5 326 8 2 7 868 2 307 6 27 MODEL YCIV0287S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 954 4 236 0 3 7 936 9 271 1 3 2 916 5 309 6 28 877 6 343 2 24 793 2 350 5 2 1 746 0 3312 2 1 6 0 9813 237 5 3 8 963 2 2724 3 3 942 0 311 0 2 8 899 5 343 6 25 800 8 343 6 2 2 754 0 324 7 2 2 7 0 1008 7 239 2 3 9 990 1 273 8 3 4 967 5 312 0 2 9 921 4 343 8 2 5 809 9 337 1 2 3 763 4 318 9 2 2 8 0 1036 6 241 0 39 1017 4 2752 3 4 992 9 312 7 3 0 943 6 344 0 2 6 820 0 330 9 23 7721 3125 23 9 0 1065 0 243 1 40 1045 3 276 9 3 5 1018 8 313 5 3 0 966 3 344 1 2 6 829 3 324 3 2 4 780 4 306 1 24 10 0 1093 8 2454
120. 1014 9 393 9 24 999 0 397 7 2 4 9 0 1209 8 2565 4 3 1188 4 2903 3 8 1164 0 330 7 3 3 1118 6 370 9 2 8 1039 0 3935 2 5 1022 8 397 4 24 10 0 1243 2 259 3 4 3 1221 0 2923 3 8 1195 5 332 2 3 3 1146 4 370 9 2 9 1063 6 393 0 2 5 1047 0 397 0 2 5 11 0 1277 2 262 6 44 1254 2 294 7 3 9 1227 8 333 8 34 1174 3 370 9 3 0 1088 5 3925 2 6 1071 6 396 5 2 5 12 0 1311 9 266 1 45 1288 1 297 2 40 1260 7 335 7 3 5 1201 8 370 4 3 0 1114 1 391 9 2 7 1085 7 389 4 2 6 13 0 1347 3 270 1 45 1322 6 3000 41 1294 1 337 9 3 6 1229 8 370 1 3 1 1139 9 391 3 2 7 1095 0 379 4 2 7 MODEL YCIV1380E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1228 4 287 0 3 9 1206 7 3254 3 4 1181 0 367 8 3 0 1146 5 415 9 2 6 1083 9 450 5 23 10704 456 8 2 2 6 0 1263 2 289 6 40 1241 1 327 6 3 5 1214 5 370 0 3 0 1177 1 417 5 26 1111 7 451 6 23 1097 6 457 9 2 3 7 0 1298 8 2922 40 1276 1 330 0 3 5 1248 7 372 3 3 1 1208 5 419 0 27 1139 9 452 8 24 1125 5 459 0 2 3 8 0 1334 9 295 0 41 1311 8 332 6 3 6 12834 374 9 3 2 12405 420 6 28 1168 8 453 8 24 1153 8 460 1 24 9 0 1371 6 298 1 42 13480 3354 3 7 1318 9 377 4 3 2 1273 1 422 2 28 1198 3
121. 114 Maximum Chilled Water Flow Rate l sec 47 3 47 3 47 3 47 3 47 3 47 3 50 5 Water Connections inches 10 10 10 10 10 10 10 Contact your nearest Johnson Controls Sales Office for weight data 62 JOHNSON CONTROLS FORM 201 23 EG1 1007 Refrigerant R 134a HIGH EFFICIENCY MODEL NUMBER YCIV E V 60Hz 0267 0287 0327 0357 50Hz 1550 1120 1220 1380 Number of Independent Refrigerant Circuits 3 3 3 3 Refrigerant Charge R 134a Ckt 1 Ckt 2 kg 84 84 77 84 841 105 84 841 105 105 105 105 Oil Charge Ckt 1 Ckt 2 liters 19 19 15 19 19 19 19 19 19 19 19 19 Glycol Charge 43 concentration liters 0 0 0 0 Compressors Semihermetic Screw Quantity per Chiller 3 3 3 3 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area m 38 44 44 49 Number of Rows 3 3 3 3 Fins per meter 669 669 669 669 Condenser Fans Number Ckt 1 Ckt 2 05 05 04 05 05 06 05 05 06 06 06 06 Low Noise Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow l sec 85904 98176 98176 110448 Ultra Quiet Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow l sec 85904 98176 98176 110448 Dual Speed Fans Normal Speed Fan KWi 1 5 15 1 5 15 Total Chiller m3 s 73 83 83 93 Dual Speed Fans Lower Speed Fan KWi 1 5 15 15 1 5 Total Chiller m3 s 56 63 63 71 High Static Fans Fa
122. 12 0 333 2 337 9 11 0 320 0 349 8 10 2 306 7 361 6 9 5 293 5 372 7 8 9 MODEL YCIV0327E V E_IPLV 13 8 V_IPLV 14 8 NOTES 1 oP ON 22 kW EER LCWT Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 JOHNSON CONTROLS FORM 201 23 EG1 1007 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER KW EER 7 244 9 13 5 303 0264 3 12 5 300 2 285 6 11 5 297 2 308 6 10 6 293 9 332 8 9 8 290 2 360 1 9 0 283 6 382 0 8 3 273 3 395 7 78 262 0405 9 7 3 41246 9 13 8 312 6 265 9 12 8 309 7 286 8 11 8 306 4 309 5 10 9 303 0 333 8 10 1 299 1 361 2 92 291 6 382 1 8 6 280 6 395 6 8 0 269 0406 3 7 5 4 249 3 14 1 322 5 267 8 13 1 319 3 288 4 122 315 9 310 7 11 2 312 3 334 8 10 4 308 2 362 3 9 5 299 7 3822 8 8 288 1 3954 82 276 1406 4 7 6 41250 7 14 3 327 5268 8 13 3 324 3 289 2 12 3 320 8 311
123. 14 7 287 4 228 5 13 7 284 6 245 7 12 7 281 4 264 4 11 7 277 9 284 3 10 8 273 8 307 1 9 9 266 0 324 8 9 2 254 7 336 9 8 5 243 5 348 4 7 9 48 0 298 8 215 5 15 0 296 3 230 5 14 0 293 4 247 4 13 0 290 1 265 8 12 0 286 5 285 6 11 1 282 2 308 4 10 2 273 3 324 8 94 261 7 337 0 8 7 250 2 348 5 8 1 50 0 307 8 218 3 15 3 305 3 232 8 14 3 302 3 249 3 13 3 299 0 267 6 12 3 295 2 287 1 11 4 290 8 309 8 10 5 280 7 324 7 9 7 268 8 336 9 8 9 256 9 348 7 8 3 52 0 317 0 221 3 15 5 314 5 235 4 14 6 311 5 251 5 13 6 308 0 269 4 12 6 304 2 288 8 11 7 299 6 3114 10 7 288 2 324 7 9 9 276 0 336 9 9 2 263 8 348 7 8 5 55 0 331 1 226 5 15 9 328 5 239 9 15 0 325 4 255 3 14 0 321 9 272 6 13 0 317 9 291 6 12 1 312 4 312 6 11 2 299 8 324 7 10 3 287 1 336 8 9 6 274 4 348 6 8 8 MODEL YCIV0287E V AIR TEMPERATURE ON CONDENSER F E IPLV 13 2 V IPLV 15 1 LCWT CF 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER
124. 15 9 12 4 242 0230 8 11 6 238 9 248 2 10 7 232 9 261 7 9 9 223 9 269 6 9 3 214 8 277 2 8 7 55 0 262 1 182 1 15 6 260 11192 91 14 6 1257 8 205 1 13 7 255 3 218 6 12 8 252 5 233 3 12 0 249 2 250 5 11 0 242 11261 8 10 3 232 7 269 6 9 6 223 2 277 1 9 0 MODEL YCIV0247E V E 12 8 14 9 NOTES 1 kW Compressor Input Power 2 EER Chiller EER includes power from compressors fans and control panels 0 8 3 LOWT Leaving Chilled Water Temperature 4 Ratings based on 2 4 GPM cooler water per ton 5 Rated IAW ARI Standard 550 590 98 6 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program which is based on ARI Standard 550 590 JOHNSON CONTROLS 21 High Efficiency Ratings English 460V 60Hz AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER ONS KW EER TONS KW EER 1192 6 13 1 230 8 206 9 12 2 228 7 222 3 11 3 226 4 238 6 10 5 223 9 255 8 9 7 221 1 275 2 9 0 216 9 292 5 8 3 210 2 305 1 7 8 202 9 316 2 7 2 011944 134 238 0 208 6 12 5 235 8 223 9 11 6 2334 240 2 10 8 230 8 257 3 10 0 227 9 276 8 9 2 223 2 293 8 8 5 21
125. 155 2 14 7 204 9 166 1 13 7 202 9 178 1 12 7 200 6 190 9 11 8 196 2 200 4 11 0 190 7 209 9 10 2 182 9 217 9 9 5 167 5 209 1 9 0 141 5 178 2 8 9 S IPLV 13 1 IPLV 14 9 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER ONS KW EER TONS KW EER 40 0 180 3 156 2 12 6 178 8 168 2 11 7 177 1 181 1 10 8 175 3 194 7 10 0 173 4 208 9 9 3 171 1 224 9 8 6 166 1 236 3 7 9 159 4 245 3 73 152 8 253 9 6 8 42 0 185 9 157 4 12 9 1844 169 4 12 0 182 6 182 3 444 180 7 195 8 10 3 178 7 210 1 9 5 176 4 226 2 8 8 170 5 236 8 8 1 163 7 245 8 75 156 9 254 5 7 0 44 0 191 7 158 8 13 2 190 0 170 7 12 3 188 2 183 5 114 186 3 197 1 10 5 184 2 211 3 9 8 181 7 221 5 9 0 175 1 237 3 8 3 168 0 246 3 7 7 160 9 255 1 7 1 45 0 194 6 159 6 13 4 192 9 1714 124 191 1 184 2 11 5 189 1 197 7 10 7 186 9 212 0 9 9 184 3
126. 178 4 3 1 571 6 199 7 2 7 531 0 2187 23 5226 2226 2 2 12 0 635 0 1403 44 625 1 1587 36 6132 1794 3 2 584 5 200 3 27 5429 219 3 23 5321 221 1 2 3 13 0 651 2 1416 42 641 0 159 8 3 7 6287 180 5 3 2 597 5 201 0 2 8 555 1 219 9 24 5375 215 9 2 3 MODEL YCIV0177S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 587 3 146 6 3 7 576 4 167 9 3 2 5632 190 9 28 536 0 208 9 24 4914 2189 241 462 3 206 9 2 1 6 0 603 7 1476 38 592 6 168 9 3 3 579 1 1920 2 8 550 1 209 5 25 496 5 2148 22 4679 203 3 2 2 7 0 6204 1486 3 8 609 2 169 9 3 3 595 2 193 1 2 9 563 9 210 0 2 5 502 4 210 9 22 4740 199 7 2 2 8 0 637 4 1497 3 9 6260 170 9 3 4 611 2 193 9 3 0 577 7 210 4 2 6 508 8 207 2 23 4794 195 7 2 3 9 0 654 7 1508 40 6430 171 9 3 5 6268 194 3 3 0 591 8 210 7 2 6 514 8 203 2 24 4844 191 6 24 10 0 6720 1520 44 660 4 173 1 35 6426 194 8 3 1 605 9 211 0 2 7 520 5 199 0 25 4889 187 6 24 11 0 6894 1534 4 1 677 8 1744 3 6 658 6 195 3 3 2 620 3 211 4 2 8 525 7 1949 25 4932 183 6 2 5 12 0 707 1 1549 42 6954 175 6 3 7 674 7 195 8 3 2 6348 211 7 2 8 530 6 190 8 26 4974 179 6 2 6 13 0 725 1 1564 43 713 3 177 0 3 7 6910 196 4 3 3 649 5 212 0
127. 178 7 184 9 10 7 173 9 196 4 9 9 166 8 206 7 9 0 156 21208 5 8 4 55 0 197 4 135 6 15 7 195 8 144 1 14 8 194 1 153 5 13 8 192 2 163 7 12 9 190 0 174 7 12 0 186 2 186 4 11 1 180 8 197 5 10 2 173 3 207 7 9 3 158 81200 7 8 8 MODEL YCIV0187E V AIR TEMPERATURE ON CONDENSER F E_IPLV 13 5 V_IPLV 15 3 LCWT CF 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 174 7 142 1 13 3 173 7 149 6 12 5 172 2 161 3 11 6 170 5 173 7 10 7 168 7 186 7 9 9 166 5 201 2 92 163 0 213 5 8 5 158 0 223 0 7 9 151 4 231 0 7 3 42 0 180 2 143 2 13 7 179 2 150 5 12 9 177 7 162 1 11 9 175 9 174 5 11 0 174 0 187 5 10 2 1171 7 202 1 9 4 167 8 213 9 8 7 162 4 223 4 8 1 155 61231 5 7 5 44 0 185 8 144 5 14 0 184 8 151 6 132 183 2163 0 12 2 181 4 175 3 11 3 479 4 188 3 10 5 177 0 203 0 9 7 172 7 214 3 9 0 166 91223 7 8 3 159 9 231 9 7 7 45 0 189 0 141 6 14 3 187 6 152 1
128. 18 236 7 23 9 0 6949 150 9 4 1 684 8 171 1 3 6 671 9 1942 3 2 648 3 217 3 2 8 605 5 2339 24 596 0 237 0 24 10 0 7134 1523 42 703 1 1722 37 6900 1952 3 3 664 8 217 7 2 8 620 2 234 1 25 6104 237 2 24 11 0 7322 1537 43 721 7 173 5 3 8 708 3 196 2 3 3 681 4 218 0 29 6350 2343 25 625 1 2374 25 120 7513 155 3 44 740 7 174 8 3 9 727 0 1974 34 698 3 218 4 3 0 650 2 2345 2 6 6337 2334 25 13 0 770 6 157 1 44 759 9 176 2 3 9 745 9 198 7 35 7155 218 8 3 0 665 6 234 6 2 7 639 4 2278 2 6 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based 0 15 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0197E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 675 6 1584 3 9 6644 182 6 33 651 5 2104 29 6340 2414 25 588 6 2549 22 579 6
129. 184 2 1 7 0 593 0 133 9 4 0 583 9 152 0 3 5 573 0 172 2 3 1 5548 195 0 2 6 518 3 215 1 23 5100 219 0 22 8 0 609 4 135 1 4 1 600 0 1529 3 6 588 7 173 1 3 1 569 0 195 7 2 7 530 8 2157 23 522 3 2196 22 9 0 626 1 1363 4 1 616 5 154 0 3 7 6047 174 1 3 2 583 5 196 4 2 8 543 5 2162 24 534 8 220 2 23 10 0 643 1 1376 42 6332 155 1 3 7 621 1 175 1 3 3 598 3 197 2 2 8 556 5 216 8 24 5465 2198 23 11 0 660 4 1390 43 6502 1563 38 6377 1762 3 3 613 3 198 0 2 9 5697 217 3 25 552 4 2149 24 12 0 678 1 1405 44 667 6 157 6 3 9 6547 177 3 34 628 6 198 8 29 583 1 217 9 25 558 1 2100 25 13 0 696 0 142 1 44 6852 159 0 3 9 6720 178 5 3 55 644 1 199 6 3 0 596 6 2184 26 563 6 2053 26 MODEL YCIV0187E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 623 4 146 4 3 8 6140 167 5 3 3 602 4 190 9 2 9 585 1 216 1 25 549 2 232 7 22 540 6 235 6 24 6 0 640 9 147 4 3 9 631 3 168 3 34 6194 191 6 3 0 600 4 216 4 2 6 562 9 233 1 23 5541 236 1 2 2 7 0 658 7 1485 40 648 9 169 1 35 6366 1924 3 0 616 1 216 7 2 6 576 8 2334 23 567 8 2364 22 8 0 676 6 149 6 4 1 666 7 170 1 3 6 6542 193 3 3 1 632 0 217 0 27 591 0 2337 24 58
130. 2 87 154 0 215 3 8 1 147 5 222 8 75 131 8 207 2 7 2 44 0 176 1 146 8 13 2 174 6 158 3 12 2 172 8 170 6 11 3 170 7 183 5 10 4 168 4 196 8 9 6 163 8 206 8 8 9 158 3 215 8 8 3 151 5 223 4 7 7 133 6 203 1 7 4 45 0 178 8 147 5 13 3 177 2 158 9 12 3 175 4 171 1 11 4 173 3 184 0 10 5 171 0 197 5 9 7 166 1 207 1 9 0 160 5 216 0 8 4 153 5 223 7 78 134 5 200 9 75 46 0 181 5 148 2 13 5 179 9 159 5 12 5 178 1 171 7 11 5 175 9 184 6 10 7 173 5 197 8 9 9 168 5 207 3 92 162 6 216 2 8 5 155 6 224 0 79 135 3 198 6 48 0 186 9 149 5 13 8 185 4 160 8 12 8 183 5 173 0 11 8 181 3 185 9 10 9 178 4 198 3 10 1 173 3 207 9 9 4 167 0 216 6 8 7 159 8 224 5 8 1 137 0 194 3 79 50 0 192 4 151 0 14 0 190 8 162 2 13 0 189 0 174 3 12 1 186 7 187 2 11 2 183 4 198 8 104 178 2 2084 9 6 171 5 217 0 8 9 162 8 221 6 8 3 138 3 189 5 82 52 0 198 0 152 6 14 3 196 4 163 7 13 3 194 5 175 8 12 3 192 2 188 6 11 4 188 5 199 4 10 6 183 1 209 0 9 9 176 0 217 4 9 1 164 7 216 6 8 6 139 6 184 9 8 4 55 0 206 4
131. 2 0 2 6 560 8 2284 23 552 0 231 3 2 2 7 0 656 2 1453 4 1 646 4 165 6 3 5 6342 188 4 3 1 613 8 212 3 2 7 574 6 228 7 23 5656 231 6 2 3 8 0 6741 1464 4 1 664 2 166 5 3 6 651 7 189 3 3 2 629 7 212 6 2 7 588 8 229 0 24 5795 2320 2 3 9 0 692 3 1477 42 6822 167 5 3 7 6694 1902 3 2 645 8 212 9 2 8 603 2 2292 25 5937 2322 24 10 0 710 7 1490 43 700 4 168 6 3 8 687 3 191 1 3 3 662 3 213 3 29 617 8 2294 25 608 1 2324 24 11 0 7294 1505 44 719 0 169 8 3 9 705 6 1922 34 678 9 213 6 3 0 632 7 229 6 26 6228 2326 2 5 12 0 7484 1520 44 737 8 171 1 3 9 7241 193 3 3 5 6957 214 0 3 0 647 8 229 7 2 6 6327 229 6 2 6 13 0 767 7 1537 45 756 9 1724 40 742 9 194 5 35 7128 2144 3 1 663 1 229 9 27 6384 2240 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity 36 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL
132. 2 3 8 8 197 2 269 1 8 3 52 0 253 6 188 8 14 8 2512 201 3 13 8 248 5 215 1 12 9 245 5 230 2 11 9 242 3 246 2 11 1 234 9 257 4 10 3 225 6 265 0 9 6 216 3 272 3 9 0 199 3 262 1 8 6 55 0 264 9 192 8 15 2 262 4 205 0 14 2 259 5 218 6 13 2 256 4 233 4 12 3 253 1 249 2 11 4 243 9 257 8 10 7 234 3 265 1 10 0 224 6 272 3 9 3 202 2 251 2 9 1 MODEL YCIV0247S P AIR TEMPERATURE ON CONDENSER F S IPLV 13 0 P_IPLV 15 1 LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 231 8 194 8 13 0 229 8 209 5 12 1 227 6 225 2 112 225 2 2417 10 4 222 7 259 1 9 6 219 7 278 6 8 9 213 4 291 6 8 3 206 3 302 6 7 7 199 1 313 1 7 2 42 0 239 1 196 6 13 3 236 9 211 3 124 234 6 226 9 11 5 232 1 2434 10 6 229 5 260 8 9 9 2264 280 4 9 1 219 3 2924 8 5 211 9 303 4 7 9 204 41314 0 7 4 44 0 246 5 198 5 13 6 244 3 213 1 12 7 241 9 228 6 11 7 239 2 245 2 10 9 236 4 262 6 10 1 232 9
133. 2 3 9 0 657 2 154 0 39 6456 175 6 34 6292 198 4 3 0 594 0 215 1 2 6 516 0 206 7 23 4854 1949 23 10 0 6746 155 3 40 663 0 176 8 35 645 1 198 8 3 0 608 1 215 4 2 7 521 6 2025 24 489 9 1908 24 11 0 692 1 1568 4 1 680 4 178 1 3 6 661 1 199 4 3 1 622 6 215 7 2 7 5268 1982 25 494 2 1867 25 120 709 9 1583 4 1 698 1 1794 3 6 677 3 199 9 3 2 637 2 216 0 2 8 531 5 194 0 26 4983 1826 25 13 0 727 9 159 9 42 716 1 180 9 3 7 693 6 200 5 3 2 651 9 216 4 2 8 535 66 189 9 26 5024 1786 26 MODEL YCIV0187S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 641 8 161 5 3 6 631 1 1844 32 6190 209 5 2 8 596 6 2348 24 553 9 2507 2 4 5454 253 9 20 6 0 659 7 1627 37 6487 185 5 32 636 0 2106 2 8 610 9 2352 24 566 9 2513 2 1 558 2 2544 2 1 7 0 677 8 163 9 3 8 666 5 186 6 33 653 4 2117 2 9 625 6 235 5 25 5804 251 8 22 571 3 2549 24 8 0 696 4 165 3 3 9 6846 187 8 34 6709 2130 29 640 5 235 9 2 6 594 1 2522 2 2 584 8 2554 22 9 0 715 2 166 8 3 9 703 0 189 1 3 4 688 8 214 2 3 0 655 7 236 3 2 6 608 1 252 5 2 3 598 5 255 7 2 2 10 0 7344 168 3 4 0 721 8 190 5 3 5 707 0 215 5 3 1 670 9 236 6 2 7 622 1 252 9 2 3
134. 2 6 13 0 856 2 185 1 4 3 838 5 207 2 3 8 808 6 228 9 3 3 757 1 245 6 2 9 610 1 208 7 27 5725 196 6 27 MODEL YCIV0840S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 748 4 182 6 3 8 735 1 208 5 3 3 720 1 236 9 2 8 690 4 263 0 25 6403 275 7 22 6305 278 0 2 1 6 0 769 6 1840 38 755 7 209 7 3 3 739 9 238 2 2 9 707 1 263 1 25 6555 276 0 22 6452 278 3 2 2 7 0 7911 1855 3 9 776 7 211 0 34 760 1 239 6 3 0 724 0 2632 2 6 671 0 276 2 23 6604 278 6 2 2 8 0 813 1 1872 40 798 1 2124 3 5 780 9 241 0 3 0 7412 263 3 2 7 686 8 276 3 23 676 0 278 7 2 3 9 0 835 5 189 0 4 1 819 9 214 1 3 6 802 0 2424 3 1 758 8 263 3 2 7 702 9 276 4 24 690 9 278 2 2 3 10 0 8584 190 9 4 1 842 2 215 7 3 6 823 6 244 0 3 2 TI6 3 2634 2 8 719 2 2765 2 5 697 1 2722 24 11 0 8817 1930 42 864 9 217 5 3 7 845 6 245 6 3 2 7944 263 5 2 8 735 9 276 4 25 703 5 266 0 2 5 12 0 905 3 1952 43 888 1 219 4 3 8 867 9 2474 3 3 8127 263 6 2 9 752 5 276 2 26 710 1 259 7 2 6 13 0 929 1 1976 43 911 5 2214 3 8 890 8 249 3 34 831 3 263 7 3 0 759 3 269 5 27 716 0 253 0 2 7 MODEL YCIV0920S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi
135. 21 6 311 1 34 1055 6 3376 29 860 6 2935 27 8068 2766 27 MODEL YCIV1180S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1055 2 254 8 3 8 1036 1 2040 3 3 1014 7 337 5 28 970 6 3 43 24 868 6 3733 22 8154 3510 22 6 0 1084 9 2565 3 9 1064 9 295 1 3 3 1042 0 3383 29 9937 374 1 25 8765 365 3 23 824 1 343 8 22 7 0 1115 3 2583 4 0 1094 4 296 3 34 1069 2 338 7 3 0 1017 4 3737 26 8857 3576 23 833 7 3369 23 8 0 1146 3 2604 40 1124 5 297 7 3 5 1097 1 339 2 3 0 1041 6 373 3 26 896 0 350 3 24 8426 3297 24 9 0 1178 0 2628 41 1155 3 299 4 36 11254 339 9 3 1 1066 2 3727 27 905 5 3426 25 851 2 3226 25 10 0 1210 2 265 6 42 11866 3014 37 1154 3 3406 32 1091 1 372 1 28 914 9 335 1 26 859 2 315 8 25 11 0 1243 0 268 7 4 3 1218 5 3037 37 1183 7 3415 32 1116 3 371 6 28 923 7 3279 26 8668 309 2 26 12 0 1276 6 272 1 43 1251 1 306 1 3 8 1213 7 3425 3 3 1142 1 371 0 29 9322 321 0 27 874 2 3026 27 13 0 1310 6 2760 44 1284 3 3089 39 1244 1 343 9 34 1168 3 3705 30 939 9 31
136. 2108 1854 961 RS amp LS1 AI Fin Coils 1907 1854 1764 1475 800 RS8LS1 Cu Fin Coils 1907 1975 2103 1854 961 LEFT L 91 868 594 86 8 109 4 868 195 7 86 8 2054 86 8 Al Fin Coils 1728 1680 1768 1523 959 Cu Fin Coils 1728 1801 2108 1903 1120 RS amp LS1 AI Fin Coils 1907 1858 1768 1523 959 RS amp LS1 Cu Fin Coils 1907 1980 2108 1903 1120 YCIV0277SIP YCIVOB40S P RIGHT R 91 13 594 13 1094 13 1957 13 2654 13 Fin Coils 1728 1676 1764 1519 955 Cu Fin Coils 1728 1797 2103 1898 1116 RS8LS1 Al Fin Coils 1907 1854 1764 1519 955 RS8LS1 Cu Fin Coils 1907 1975 2103 1898 1116 LEFT L 91 868 594 868 972 868 1614 86 8 2106 86 8 307 9 868 Fin Coils 1728 1638 1248 1160 1261 959 Cu Fin Coils 1728 1728 1488 1435 1609 1199 RS8LS1 Al Fin Coils 1907 1817 1248 1160 1261 959 RS amp LS1 Cu Fin Coils 1907 1907 1488 1435 1609 1199 YCIVO24TSIP YCIV0920S P RIGHT R 91 13 594 13 972 13 1614 13 2106 13 3079 13 Al Fin Coils 1720 1625 1239 1153 1237 955 Cu Fin Coils 1720 1715 1479 1429 1585 1195 RS8LS1 Fin Coils 1898 1803 1239 1153 1237 955 RS8LS1 Cu Fin Coils 1898 1894 1479 1429 1590 1195 104 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL Isolator Locations x y in and Poi
137. 211 3 176 8 13 1 209 4 190 4 12 1 207 3 205 0 11 2 205 1 220 3 10 4 202 7 236 5 9 6 199 9 254 6 8 8 193 1 264 4 8 2 185 3 271 6 7 7 177 5 278 1 7 2 42 0 218 0 178 3 134 216 0 191 8 124 213 8 206 3 11 5 211 4 221 7 10 6 208 9 237 9 9 8 206 0 256 1 9 1 198 2 264 6 8 5 190 2271 9 7 9 182 1 278 5 7 4 44 0 224 9 180 0 13 7 222 7 193 4 12 7 220 4 207 8 11 8 218 0 223 2 10 9 215 3 239 3 10 1 211 9 256 9 9 3 203 5 264 7 8 7 195 2 272 0 8 1 186 91278 8 7 6 45 0 228 3 181 0 13 9 226 2 194 2 12 9 223 8 208 6 11 9 221 3 223 9 11 0 218 5 240 2 10 2 214 7 256 9 94 206 2 264 8 8 8 197 7 272 1 82 189 31278 9 7 7 46 0 231 8 182 0 14 0 229 6 195 1 13 0 227 2 209 4 12 1 224 6 224 7 112 221 8 240 9 10 3 217 5 257 0 9 5 208 9 264 8 8 9 200 3 272 2 8 3 191 8 279 0 7 8 48 0 238 9 184 1 14 3 236 7 197 0 13 3 234 2 211 1 12 3 231 4 226 4 11 4 228 5 242 5 10 6 223 2 257 1 9 8 214 4 264 9 9 1 205 6 272 2 8 5 195 3 275 8 8 0 50 0 246 2 186 3 14 5 243 8 199 1 13 6 241 2 213 1 12 6 238 4 228 2 11 7 235 3 244 3 10 8 229 0 257 3 10 0 219 9 265 0 9 4 210 9 27
138. 223 2 287 9 8 7 216 0 299 7 8 1 208 5 310 7 7 6 44 0 247 4 192 4 14 0 245 4 206 2 13 0 243 1 221 0 12 1 240 6 237 0 112 237 9 253 8 10 4 234 7 272 7 9 6 229 7 289 0 8 9 221 9 300 3 8 3 213 0 308 9 7 8 45 0 251 2 193 5 14 1 249 1 207 1 132 246 8 222 0 122 244 2 237 9 114 2414 254 7 10 5 238 1 273 3 9 7 232 8 289 3 9 0 225 0 300 6 8 4 214 3 305 5 7 9 46 0 255 1 194 5 14 3 252 9 208 1 13 3 250 5 222 9 12 4 247 9 238 7 11 5 245 1 255 5 10 7 241 5 274 0 9 9 236 0 289 6 9 1 228 0 301 0 8 5 215 6 302 0 8 0 48 0 262 8 196 7 14 5 260 6 210 2 13 6 258 1 224 8 12 6 255 4 240 5 11 8 252 4 257 3 10 9 248 4 275 2 10 1 242 4 290 2 9 4 234 2 301 6 8 7 218 0 294 5 8 3 50 0 270 8 199 2 14 8 268 5 2124 13 9 265 9 226 9 12 9 263 1 242 5 12 0 260 0 259 2 11 2 255 5 276 5 10 3 248 9 290 9 9 6 240 5 302 2 9 0 220 2 286 6 8 6 52 0 278 9 201 8 15 1 276 5 214 8 14 1 273 8 229 1 13 2 270 9 244 6 12 3 267 7 261 2 11 4 262 8 277 9 10 6 255 5 291 5 9 8 246 9 302 8 9 2 222 2 278 4 8 9 55 0 291 2 205 5 15 5 288 7 218 6 14 5
139. 228 0 9 1 1774 237 5 84 170 2 246 5 78 163 0 255 4 1 2 46 0 197 5 160 4 13 5 195 8 172 1 12 5 193 9 184 9 11 6 191 9 198 4 10 8 189 7 212 7 10 0 186 9 228 3 92 179 7 237 7 8 5 172 5 246 7 79 165 1 255 6 7 3 48 0 203 5162 1 13 8 201 7 173 7 12 8 199 8 186 3 11 9 197 6 199 8 11 0 195 3 214 1 10 2 191 9 228 9 94 184 5 238 1 8 7 177 0 247 1 8 1 169 5 256 1 7 5 50 0 209 5 163 8 14 1 207 7 175 3 13 1 205 7 187 8 122 203 5 201 3 11 3 201 1 215 5 10 5 196 8 229 3 9 7 189 3 238 4 9 0 181 6 247 5 8 3 171 2 249 6 78 52 0 215 7 165 8 14 3 213 8 177 1 13 3 211 7 189 5 124 209 4 202 8 11 5 206 9 217 0 10 7 201 9 229 8 9 9 194 1 238 9 92 186 3 247 9 8 5 172 9 242 8 8 0 55 0 225 2 169 0 14 7 223 2 180 0 13 7 221 0 192 2 12 8 218 6 205 4 11 9 215 9 219 6 11 0 209 6 230 6 10 2 201 5 239 5 9 5 193 4 248 5 8 8 175 7 233 3 8 5 NOTES 1 Compressor Input Power 2 EER 3 LOWT Leaving Chilled Water Temperature 4 Ratings based on 2 4 GPM cooler water per ton 5
140. 23 653 8 269 5 23 8 0 780 3 170 8 4 1 767 4 193 9 3 6 752 7 221 3 3 1 728 2 2504 2 7 679 7 266 6 24 6694 269 3 23 9 0 801 8 1726 42 788 5 195 0 3 7 773 1 222 1 3 2 746 7 250 5 2 8 695 8 266 3 24 685 3 269 0 24 10 0 823 7 1745 43 809 9 196 4 3 8 793 9 223 0 3 3 765 5 250 6 2 8 712 3 265 9 25 7015 2687 24 11 0 8460 1767 43 831 6 198 0 3 8 815 1 224 1 34 784 3 250 7 2 9 728 9 265 5 26 7180 268 3 2 5 12 0 8682 179 1 44 853 7 199 7 3 9 836 7 2254 34 802 6 250 5 3 0 746 0 265 1 26 7250 2618 26 13 0 890 8 1818 45 875 8 201 6 40 8584 226 9 35 8212 2502 3 1 763 2 264 7 27 731 2 2550 27 MODEL YCIV0227E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 746 1 1727 3 9 734 9 196 8 34 721 8 224 0 3 0 705 9 256 0 2 6 664 2 2744 23 6545 277 0 22 6 0 767 2 1739 40 755 5 197 9 3 5 741 9 224 9 3 0 725 2 257 0 2 6 680 5 2744 23 6704 277 1 23 7 0 788 7 175 4 4 0 776 6 199 0 3 5 762 4 225 9 3 1 744 9 258 1 2 7 696 9 2745 24 686 7 277 2 23 8 0 810 6 1769 4 1 798 1 200 2 3 6 783 3 227 0 3 2 765 1 259 1 21 713 7 2745 24 703 2 277 2 24 9 0 833 0 1786 42 820 0 201 5 3 7 804 6 228 1 3 2 785 3 260 0 2 8 730 9 2744 25 7200 277 1 24 10 0
141. 245 6 2 1 543 3 248 7 2 1 6 0 657 2 159 2 3 8 646 3 181 6 3 3 633 7 206 2 2 9 608 9 230 4 2 5 564 8 246 2 2 2 556 2 249 2 2 1 7 0 675 3 160 5 3 9 664 0 182 7 34 651 0 207 3 2 9 623 5 230 8 2 5 578 2 246 7 2 2 569 2 249 7 2 2 8 0 693 7 161 8 3 9 682 0 183 9 3 4 668 4 208 5 3 0 638 4 231 1 2 6 591 9 247 1 23 5826 2502 2 2 9 0 7125 1632 40 700 4 185 1 35 6862 209 8 3 1 653 5 231 5 2 7 6058 2474 23 5962 250 6 22 10 0 731 6 1647 44 719 0 186 5 3 6 704 3 211 0 3 1 668 7 231 8 2 7 619 9 247 8 24 605 6 247 6 2 3 11 0 751 0 166 3 4 1 738 0 187 9 3 6 7228 2123 3 2 683 9 2322 2 8 634 3 248 1 24 6108 2414 24 12 0 770 7 1680 42 757 3 189 4 3 7 741 6 213 7 3 2 699 5 232 6 2 8 648 9 2484 2 5 616 4 235 6 2 5 13 0 790 7 169 9 43 776 9 191 0 3 8 760 7 215 3 3 3 715 3 233 0 2 9 660 2 246 2 25 621 8 229 7 2 5 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configura
142. 287 4 114 288 9 307 1 10 5 282 0 325 7 9 7 271 7 339 6 9 0 258 9 348 7 84 220 1 298 7 8 2 50 0 312 1 234 0 14 6 309 3 250 7 13 6 306 0 269 2 12 6 3024 289 3 11 7 297 2 308 1 10 8 290 1 326 7 10 0 278 9 339 7 9 3 261 9 340 2 8 7 222 4 291 8 8 5 52 0 321 4 236 9 14 9 318 5 253 3 13 9 315 2 271 5 12 9 311 4 291 4 11 9 305 7 309 2 11 1 298 2 327 3 10 2 286 2 339 8 9 5 264 9 332 1 9 0 224 6 284 9 8 8 55 0 335 7 241 8 15 3 332 7 257 6 14 3 329 2 275 3 13 3 325 3 294 8 12 3 318 6 311 0 11 5 310 1 327 8 10 6 297 4 340 0 9 9 269 4 320 5 9 4 227 1 214 9 9 2 MODEL YCIV0307S P AIR TEMPERATURE ON CONDENSER F S IPLV 12 9 IPLV 14 9 LCWT CF 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 298 0 246 4 13 2 295 2 266 7 12 2 292 2 288 9 11 2 289 0 312 5 10 3 285 6 337 1 9 5 279 8 359 4 8 8 271 4 376 6 8 1 260 3 386 9 7 6 229 5 351 1 7 4 42 0 307 4 248
143. 3 13 6 304 5 268 2 12 5 301 31290 1 11 5 297 9 313 6 10 6 294 3 338 2 9 8 287 9 360 2 9 0 278 6 376 5 84 267 2 387 2 7 8 232 1 342 9 7 6 44 0 317 0 250 5 13 9 314 0 270 0 12 8 310 61291 6 11 8 307 1 314 8 10 9 302 9 338 6 10 0 296 2 360 8 92 286 0 376 2 8 6 274 2 387 2 8 0 235 1 335 3 7 9 45 0 321 9 251 7 14 0 318 8 270 9 13 0 315 41292 4 12 0 311 7 315 5 11 0 307 3 338 9 10 2 300 4 361 1 94 289 7 375 9 8 7 277 7 387 1 8 1 236 5 331 3 8 0 46 0 326 9 253 1 142 323 7 272 0 13 1 320 21293 2 12 1 3164 316 3 112 311 7 339 2 10 3 304 7 3614 9 5 293 5 375 7 8 8 280 1 384 3 8 2 237 9 327 3 8 1 48 0 336 9 256 1 14 5 333 6 274 4 13 4 329 9 295 1 12 4 326 0 318 0 11 5 320 6 339 9 10 6 313 4 362 0 9 8 301 2 375 1 9 1 283 2 374 7 8 5 240 71319 9 8 4 50 0 347 2 259 4 14 7 343 7 277 2 13 7 339 91297 5 12 7 335 8 320 0 11 7 329 8 340 7 10 9 322 0 362 2 10 0 309 0 3744 9 3 286 4 365 0 8 8 243 0 312 2 8 7 52 0 357 7 263 2 15 0 354 1 280 3 14 0 350 1 300 1 13 0 345 8 3222 12 0 339 1 341 8 11 1 330 3 361 6 10 3 317 0 373 8 9 6 289 6 355
144. 3 0 580 9 2134 25 5572 206 6 2 5 13 0 693 1 139 0 45 6823 1556 40 6692 1748 35 641 6 195 5 3 1 5944 214 0 2 6 562 8 202 0 2 6 MODEL YCIV0187E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 621 1 1434 3 9 611 6 164 1 34 600 1 187 0 3 0 5828 211 7 2 6 547 1 228 0 22 5386 230 9 2 2 6 0 638 5 1443 40 6289 1648 35 6170 187 7 3 0 598 1 212 0 2 6 560 8 2284 23 5520 231 3 2 2 7 0 656 2 1453 4 1 646 4 165 6 35 634 2 188 4 3 1 613 8 212 3 2 7 574 6 228 7 23 5656 231 6 2 3 8 0 6741 1464 4 1 664 2 166 5 3 6 6517 189 3 3 2 629 7 212 6 2 7 588 8 229 0 24 5795 2320 2 3 9 0 692 3 1477 42 6822 167 5 3 7 669 4 190 2 3 2 645 8 212 9 2 8 603 2 2292 25 5937 2322 24 10 0 710 7 1490 43 700 4 168 6 3 8 687 3 191 1 3 3 662 3 213 3 29 617 8 2294 25 608 1 2324 24 11 0 7294 1505 44 719 0 169 8 3 9 705 6 1922 34 678 9 213 6 3 0 632 7 229 6 26 6228 2326 2 5 12 0 7484 1520 44 737 8 171 1 3 9 724 1 193 3 3 5 6957 214 0 3 0 647 8 229 7 2 6 6327 229 6 2 6 13 0 767 7 1537 45 756 9 1724 40 742 9 194 5 35 7128 2144 3 1 663 1 229 9 27 6384 2240 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance
145. 4 114 317 1 3354 10 5 312 8 362 9 9 6 303 9 382 1 8 9 292 0 395 2 8 3 279 7 406 4 7 7 9 1252 1 14 4 332 5270 0 13 4 329 2 290 1 12 5 325 7 312 3 11 5 321 9 336 1 10 6 317 5 363 6 9 8 308 1 382 2 9 0 295 9 395 0 8 4 283 4406 3 7 9 9 255 3 14 7 342 8 272 5 13 7 339 4 292 2 12 8 335 6 313 9 11 8 331 6 337 6 10 9 326 7 3644 10 0 316 6 382 0 9 3 303 7 394 5 8 6 290 9 406 0 8 1 6 258 9 15 0 353 3275 5 14 0 349 7 294 7 13 1 345 8 315 9 12 1 341 7 339 2 11 2 335 8 364 4 10 3 325 0 381 4 9 6 311 7 393 8 8 9 298 5 405 5 8 3 5 262 9 15 2 364 0278 9 14 3 360 3 297 4 13 3 356 2 318 2 12 4 351 9 341 2 11 5 345 0 364 6 10 6 333 5 380 8 9 8 319 9 393 2 9 1 304 6401 2 8 5 2 1270 0 15 5 380 5284 7 14 7 376 6 302 2 13 7 372 3 322 4 12 8 367 7 344 7 11 9 3592 365 2 11 0 346 6 380 1 10 2 332 4 392 2 9 5 309 4 385 0 9 0 E IPLV 12 2 IPLV 15 3 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER KW EER TONS KW EER TONS KW EER TONS KW EER TONS
146. 4 1 8 2 267 2 395 1 7 7 232 1 349 9 75 44 0 317 0 255 6 13 6 314 0 275 5 12 6 310 6 297 5 11 6 307 1 321 3 10 7 302 9 345 6 9 8 296 2 368 1 9 1 286 0 383 8 8 4 274 2 395 1 7 9 235 1 342 1 45 0 321 9 256 9 13 8 318 8 276 5 12 8 315 4 298 3 11 8 311 7 322 0 10 8 307 3 345 8 10 0 300 4 368 5 9 2 289 7 383 6 8 5 277 7 395 0 8 0 236 5 338 1 7 8 46 0 326 9 258 2 13 9 323 7 277 6 12 9 320 2 299 2 11 9 316 4 322 7 11 0 311 7 346 1 10 1 304 7 368 8 9 3 293 5 383 3 8 7 280 1 392 1 8 1 237 9 334 0 8 0 48 0 336 9 261 3 14 2 333 6 280 0 13 2 329 9 301 2 12 2 326 0 324 5 11 2 320 6 346 9 10 4 313 4 369 4 9 6 301 2 382 7 8 9 283 2 382 4 8 4 240 7 326 4 8 3 50 0 347 21264 7 14 5 343 7 282 9 13 5 339 9 303 5 12 5 335 8 326 6 11 5 329 8 347 7 10 7 322 0 369 6 9 8 309 0 382 1 9 1 286 4 372 5 8 7 243 0 318 5 8 5 52 0 357 7 268 6 14 7 354 1 286 1 13 7 350 1 306 2 12 7 345 8 328 8 11 8 339 1 348 7 10 9 330 3 369 0 10 1 317 0 3814 9 4 289 6 362 8 9 0 245 3 311 0 8 8 55 0 373 9 275 3 15 0 370 0 291 6 14 1 365 8
147. 4 1642 YCIV0307S P YCIV1180S P RIGHT R 94 43 581 13 114 13 2047 13 2849 13 368 13 Al Fin Coils 1753 1596 2540 2632 2897 1188 Cu Fin Coils 1775 1768 2884 2978 3241 1338 RS8LS1 Fin Coils 1929 1773 2540 2632 2963 1475 RS amp LS1 Cu Fin Coils 1951 1944 2884 2978 3307 1647 LEFT L 91 868 594 868 1094 86 8 1854 86 8 284 4 86 8 358 5 868 411 9 86 8 Al Fin Coils 1753 1585 1953 1978 1953 1140 946 Cu Fin Coils 1775 1733 2238 2363 2339 1424 1065 RS8LS1 AI Fin Coils 1929 1761 1953 1978 1953 1316 1122 RS amp LS1 Cu Fin Coils 1951 1909 2238 2363 2339 1601 1241 03575 YCIV1340S P RIGHT R 91 13 594 13 1094 13 1854 13 2844 13 3585 13 4119 13 Fin Coils 1753 1596 2540 2632 2540 1151 946 Cu Fin Coils 1775 1715 2824 3018 2926 1435 1065 RS amp LS1 Al Fin Coils 1929 1773 2540 2632 2540 1327 1122 RS amp LS1 Fin Coils 1951 1892 2824 3018 2926 1612 1241 LEFT L 91 868 594 868 1094 868 185 4 86 8 298 1 86 8 3752 86 8 456 868 Al Fin Coils 1766 1607 1953 1978 2041 1404 1056 Cu Fin Coils 1788 1755 2238 2363 2427 1689 1175 858151 Fin Coils 1942 1784 1953 1978 2041 1581 1232 RS amp LS1 Cu Fin Coils 1964 1931 2238 2363 2427 1865 1351 03975 YCIV1500S P RIGHT R 91 13 584 13 1094 13 1854 13 208 1 13 3752 1 3 456 13 Al Fin Coils 1766 1618 2540 2632 2628 1415 1056 Cu Fin Coils 1788 1737 2824 3018 3014 17
148. 4 2 7 1276 5 518 2 2 3 1248 8 516 4 2 3 9 0 1491 4 340 1 40 1465 7 384 4 3 5 1435 3 433 8 3 1 1379 2 480 1 2 7 1307 7 519 9 24 1260 5 504 6 24 10 0 1531 8 3435 4 1 1505 1 387 5 3 6 1473 6 436 9 3 2 14128 481 9 2 8 1339 2 521 7 24 1272 3 492 8 2 4 11 0 1572 9 347 0 4 2 1545 3 390 8 3 7 15127 440 1 3 2 14474 483 6 28 1356 6 5127 25 1283 9 481 0 2 5 12 0 1613 6 350 8 42 1586 1 394 5 3 7 15524 443 5 3 3 14824 4854 2 9 1369 0 500 1 2 6 1295 3 469 5 2 6 13 0 0 0 0 0 0 0 1626 5 398 0 3 8 1593 0 447 0 3 3 1518 1 487 2 2 9 1381 2 487 7 2 7 1306 2 458 5 2 7 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 l scooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity JOHNSON CONTROLS 35 High Efficiency Ratings SI 400V 50Hz MODEL YCIV0590E V AIR TEMPERATURE ON CONDENSER C
149. 41 1073 7 278 7 3 6 1045 2 314 4 3 1 989 4 344 2 2 7 838 5 317 7 25 787 8 299 7 25 110 1123 1 2480 42 11025 280 7 3 6 1071 9 3154 3 2 1012 6 344 3 2 8 847 0 311 1 25 7049 293 5 25 12 0 1152 9 2507 42 1131 8 282 9 3 7 1099 0 316 5 3 3 1036 2 3444 2 8 855 1 3047 26 801 6 287 2 2 6 13 0 1183 2 253 6 43 1161 7 285 3 3 8 1126 6 317 6 3 3 1060 1 344 5 2 9 862 0 298 3 2 7 808 3 281 1 2 7 MODEL YCIV0307S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 1060 5 2602 3 7 1041 2 300 1 3 2 1019 7 3445 2 8 975 0 381 9 2 4 870 2 379 2 2 2 817 1 356 4 2 2 6 0 1090 3 2620 3 8 1070 2 301 3 3 3 1046 9 345 3 2 8 998 2 381 7 25 878 4 371 1 22 826 0 3492 22 7 0 1120 9 263 9 3 9 1099 9 302 6 3 4 1074 3 345 7 29 1022 0 381 3 2 5 888 4 363 6 2 3 835 5 342 1 2 3 8 0 1152 1 266 2 40 1130 1 304 1 35 1102 2 346 2 3 0 1046 2 380 8 2 6 897 9 355 6 24 8445 3347 24 9 0 1183 8 268 8 4 1 1161 0 305 9 3 5 1130 7 346 9 3 1 1070 9 380 2 2 7 907 5 347 9 2 4 853 1 327 6 2 4 10 0 1216 2 271 7 4 1 11925 307 9 3 6 1159 8 347 7 3 1 1095 9 379 6 2 7 916 7 340 3 25 860 8 320 7 25 11 0 12492 2748 4 2 1224 5
150. 43 28 8814 296 1 2 8 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 6 ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity 34 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV1340S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1191 3 291 5 37 1170 8 3324 33 1147 5 377 2 28 1105 5 420 8 25 1034 8 446 6 22 1020 8 451 5 24 6 0 1224 9 2938 38 1203 5 3344 3 3 1179 0 379 3 29 1132 5 421 5 2 5 1059 6 447 6 2 2 1045 0 452 5 2 2 7 0 1259 1 296 1 3 9 1236 8 336 6 3 4 1211 2 381 6 3 0 1160
151. 5 235 235 235 235 Minimum Chilled Water Flow Rate gpm 160 160 160 180 180 180 180 Maximum Chilled Water Flow Rate gpm 750 750 750 750 750 750 800 Water Connections inches 10 10 10 10 10 10 10 58 JOHNSON CONTROLS FORM 201 23 EG1 1007 Refrigerant R 134a HIGH EFFICIENCY MODEL NUMBER E V Tie 60Hz 0267 0287 0327 0357 50Hz 1550 1120 1220 1380 Number of Independent Refrigerant Circuits 3 3 3 3 Refrigerant Charge R 134a Ckt 1 Ckt 2 Ibs 185 185 170 185 185 230 185 185 230 230 230 230 Oil Charge Ckt 1 Ckt 2 gal 5 5 4 5 5 5 5 5 5 5 5 5 Glycol Charge 4390 concentration 5 5 5 7 6 0 6 3 Comp s Semihermetic Screw Quantity per Chiller 3 3 3 3 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area ft2 41 469 469 528 Number of Rows 3 3 3 3 Fins per Inch 17 17 17 17 Condenser Fans Number Ckt 1 Ckt 2 5 5 4 5 5 6 5 5 6 6 6 6 Low Noise Fans Fan Motor HP kWi 2 1 8 21 8 21 8 2 1 8 Total Chiller Airflow cfm 182000 208000 208000 234000 Ultra Quiet Fans Fan Motor HP kWi 21 50 2 1 50 21 50 21 50 Total Chiller Airflow cfm 182000 208000 208000 234000 Dual Speed Fans Normal Speed Fan Motor hp 2 2 2 2 Total Chiller CFM 154000 176000 176000 198000 Dual Speed Fans Lower Speed Fan Motor hp 2 2 2 2 Total Chiller CFM 117600 134400 134400 151200
152. 50Hz 0590 0630 0700 0760 0800 0830 0930 Number of Independent Refrigerant Circuits 2 2 2 2 2 2 2 Refrigerant Charge R 134a Ckt 1 Ckt 2 kg 77177 84 77 84 84 87 87 102 87 102 102 105 105 Oil Charge Ckt 1 Ckt 2 liters 19 19 19 19 19 19 19 19 19 19 19 19 19 19 Compressors Semihermetic Screw Qty per Chiller 2 2 2 2 2 2 2 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area m2 21 8 24 5 27 2 27 2 30 0 32 7 32 7 Number of Rows 3 3 3 3 3 3 3 Fins per meter 669 669 669 669 669 669 669 Condenser Fans Number Ckt 1 Ckt 2 4 4 5 4 5 5 5 5 6 5 6 6 6 6 Low Sound Fans Fan Motor HP kWi 21 50 21 50 21 50 211 50 2 1 50 21 50 21 50 Total Chiller Airflow l sec 49082 55218 61353 61353 67488 73624 73624 Ultra Quiet Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow l sec 49082 55218 61353 61353 67488 73624 73624 Dual Speed Fans Normal Speed Fan KWi 15 15 15 15 1 5 15 1 5 Total Chiller m3 s 42 47 52 52 57 62 62 Dual Speed Fans Lower Speed Fan KWi 1 5 15 15 1 5 1 5 15 1 5 Total Chiller m3 s 32 36 40 40 44 48 48 High Static Fans Fan KWi 37 37 37 37 37 37 37 Total Chiller m3 s 49 55 61 61 67 74 74 Evaporator Direct Expansion Water Volume liters 359 6 359 6 359 6 416 4 4164 416 4 529 9 Maximum Water Side Pressure Bar 10 10 10 10 10 10 10 Maximum Refrigerant Side Pressure Bar 16 16 16 16 16 16 16 Minimum Chilled Water Flow Rate I sec 10 1 10 1 10 1 114 114 114
153. 55218 55218 61353 67488 73624 Ultra Quiet Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow l sec 49082 49082 55218 55218 61353 67488 73624 Dual Speed Fans Normal Speed Fan KWi 1 5 15 1 5 1 5 15 15 15 Total Chiller m3 s 42 42 47 47 52 57 62 Dual Speed Fans Lower Speed Fan KWi 15 1 5 1 5 15 1 5 1 5 1 5 Total Chiller m3 s 32 32 36 36 40 44 48 High Static Fans Fan KWi 37 37 37 37 37 37 37 Total Chiller m3 s 49 49 55 55 61 67 74 Evaporator Direct Expansion Water Volume liters 253 6 359 6 359 6 529 9 529 9 529 9 529 9 Maximum Water Side Pressure Bar 10 10 10 10 10 10 10 Maximum Refrigerant Side Pressure Bar 16 16 16 16 16 16 16 Minimum Chilled Water Flow Rate I sec 8 8 10 1 10 1 114 114 114 114 Maximum Chilled Water Flow Rate l sec 42 6 47 3 47 3 50 5 50 5 50 5 50 5 Water Connections inches 8 10 10 10 10 10 10 60 JOHNSON CONTROLS FORM 201 23 EG1 1007 STANDARD EFFICIENCY Refrigerant R 134a MODEL NUMBER YCIV____S P Garrats 60Hz 0287 0307 0357 0397 50Hz 1070 1180 1340 1500 Number of Independent Refrigerant Circuits 3 3 3 3 Refrigerant Charge R 134a Ckt 1 Ckt 2 kg 84 77 77 84 84 77 84 841 105 105 105 105 Oil Charge Ckt 1 Ckt 2 liters 19 15 15 19 19 15 19 19 19 19 19 19 Glycol Charge 43 concentration liters 0 0 0 0 C
154. 579 1 1622 3 3 554 0 180 9 29 5095 196 8 24 500 6 200 0 24 11 0 6164 129 2 43 607 7 145 8 3 8 594 9 163 5 3 4 567 6 181 9 29 522 3 1977 25 5132 200 9 24 12 0 6322 1303 44 6238 147 0 3 9 610 9 164 8 34 5812 182 9 3 0 535 2 198 6 25 5259 201 8 24 13 0 648 3 131 3 45 640 1 1483 40 6272 166 2 35 595 0 183 8 3 0 548 3 199 5 2 6 5388 2027 2 5 MODEL YCIV0177E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 558 7 1292 3 9 550 3 147 1 34 540 3 167 0 3 0 525 1 189 7 26 4922 209 6 2 2 484 3 2134 2 1 6 0 574 5 130 1 4 0 565 7 147 9 3 5 555 3 167 8 3 0 538 7 190 4 2 6 504 1 210 2 22 4962 213 9 2 2 7 0 590 5 131 1 4 0 581 5 148 8 3 6 570 6 168 6 3 1 552 7 191 0 2 7 516 4 210 7 23 508 1 214 6 2 2 8 0 606 9 1322 4 1 597 5 149 7 3 6 586 3 169 5 3 2 566 8 191 7 2 7 5288 211 3 23 5203 215 1 2 3 9 0 623 5 1334 42 613 9 150 7 37 6023 1704 3 3 581 3 1924 2 8 541 5 211 8 24 5328 2157 2 3 10 0 6404 1346 43 630 5 151 8 38 6185 171 4 3 3 596 0 193 1 29 5544 2123 24 5455 2162 24 11 0 6577 136 0 44 647 5 153 0 3 9 635 1 172 5 34 610 9 193 9 29 567 6 212 9 25 5515 2114 24 12 0 675 2 1374 44 664 8 1543 39 6520 173 6 35 626 1 1947
155. 6 236 2 4 3 1086 0 266 3 3 8 1063 2 298 9 3 3 1013 3 3253 29 917 1 3217 2 7 867 0 3027 27 MODEL YCIV1070S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 949 5 2810 38 9321 2654 32 911 8 303 1 28 873 5 336 2 24 791 6 3448 22 7431 3252 2 1 6 0 976 3 2325 3 8 958 3 266 7 33 937 2 3044 2 9 895 5 336 6 25 7997 3383 22 752 1 3194 22 7 0 1003 6 234 1 3 9 985 0 268 0 34 962 8 305 6 29 917 2 3369 26 8080 331 5 23 7615 3137 23 8 0 10314 2358 40 1012 3 269 5 35 988 1 3063 3 0 9394 337 1 26 818 0 32554 24 7703 3075 23 9 0 1059 7 237 8 4 1 1040 1 2710 36 1013 9 3070 3 1 962 0 337 2 27 8274 319 0 24 7787 3013 24 10 0 1088 5 240 0 42 1068 4 272 8 36 1040 2 307 9 3 2 985 0 337 2 27 8366 312 5 25 7864 295 0 25 11 0 1117 8 2425 42 1097 2 2747 37 1066 9 3089 32 1008 2 337 3 28 8453 306 1 26 7934 2888 2 6 12 0 1147 6 245 2 43 1126 5 2769 3 8 1094 0 309 9 3 3 1031 7 3374 29 8534 2998 27 8002 2827 2 6 13 0 1177 9 2480 44 1156 3 279 2 38 11
156. 6 0 305 8 8 0 208 5 317 0 7 4 41196 3 13 7 245 4 210 4 12 8 243 1 225 6 11 9 240 6 241 8 11 0 237 9 259 0 10 2 234 7 278 3 9 4 229 7 294 9 8 7 221 9 306 4 8 2 213 0 315 2 7 6 2 197 4 13 9 249 1 211 4 12 9 246 8 226 5 12 0 244 2 242 7 11 1 2414 259 9 10 3 238 1 278 9 9 6 232 8 295 2 8 9 225 0 306 8 8 3 214 3 311 7 7 7 1 198 5 14 0 252 9 212 3 13 1 250 5 227 4 12 1 247 9 243 6 11 3 245 1 260 7 10 5 241 5 279 6 9 7 236 0 295 5 9 0 228 0 307 1 84 215 6 308 1 7 9 8 200 8 14 3 260 6 214 5 13 3 258 1 229 4 12 4 255 4 245 4 11 5 252 4 262 6 10 7 248 4 280 9 9 9 242 4 296 1 9 2 234 2 307 7 8 6 218 0 300 5 8 2 8 203 3 14 5 268 5 216 8 13 6 265 9 231 5 12 7 263 1 247 5 11 8 260 0 264 5 11 0 255 5 282 2 10 1 248 9 296 8 94 240 5 308 3 8 8 220 2 292 4 8 5 9 205 9 14 8 276 5 219 2 13 9 273 8 233 8 12 9 270 9 249 6 12 0 267 7 266 6 11 2 262 8 283 6 10 4 255 5 297 5 9 7 246 9 308 9 9 0 222 2 284 1 8 8 2 209 7 15 2 288 7 223 1 14 2 285 9 237 5 13 3 282 8 253 1 12 4 279 5 269 8
157. 6 4 8 8 194 0 264 0 8 2 50 0 235 0 167 0 15 2 233 0 177 7 14 3 230 8 189 9 13 3 228 4 203 6 12 3 225 8 218 6 11 4 222 3 235 2 10 5 216 2 247 7 9 7 207 7 255 9 9 1 199 11263 6 8 5 52 0 242 11169 6 154 240 0 179 8 14 5 237 7 191 7 13 6 235 2 205 0 12 6 232 5 219 8 11 7 228 5 235 5 10 8 221 8 247 3 10 0 213 1 255 5 9 3 203 0 260 4 8 7 55 0 252 7 174 0 15 8 250 6 183 4 14 9 248 2 194 7 14 0 245 6 207 6 13 0 242 7 222 0 12 1 238 0 236 2 11 2 230 5 246 9 10 4 221 4 254 8 9 7 206 3 249 7 9 2 MODEL YCIV0227E V AIR TEMPERATURE ON CONDENSER F E_IPLV 13 3 V_IPLV 15 3 LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 1209 5 163 7 13 7 207 9 176 2 12 7 206 1 189 6 11 8 204 2 203 9 10 9 202 1 219 1 10 1 199 8 236 1 94 197 2 254 0 8 6 190 9 264 3 8 1 183 3 271 6 7 5 42 0 216 1165 1 14 0 214 5 1774 13 0 212 6 1190 7 12 1 210 6 204 9 112 2084 220 0
158. 6 7 14 5 196 21157 1 13 5 194 5 168 6 12 6 1192 6 180 9 11 7 190 5 194 1 10 8 188 0 209 1 10 0 182 8 219 4 9 3 176 2 228 7 8 6 168 7 237 3 8 0 50 0 203 4 148 3 14 8 202 0 158 6 13 8 200 3 169 8 12 9 198 4 182 1 12 0 196 2 195 2 11 1 193 3 209 5 10 2 188 0 219 7 9 5 181 0 228 9 8 8 173 3 237 5 8 2 52 0 209 3 150 0 15 1 207 9 160 1 14 1 1206 2171 3 13 2 204 2 183 4 12 2 202 0 196 4 11 4 198 6 210 0 10 5 193 2 220 1 9 8 185 8 229 1 9 1 177 4 236 6 8 4 55 0 218 4 153 0 15 4 217 0 162 7 14 5 215 3 173 6 13 6 213 2 185 5 12 6 210 9 198 4 11 8 206 8 210 7 10 9 201 2 220 7 10 2 193 2 229 4 9 4 180 3 227 5 8 9 MODEL YCIV0197E V 12 9 V IPLV 15 0 NOTES kW EER LCWT Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program which is based on ARI Standard 550 590 Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature mo gt N gt 20 JOHNSON CONTROLS FORM 201 23 EG1 1007 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW
159. 6 7 H3IIMS 287 01 61200 118 N04 0310038 10N x TONLNOD FHL 01 7TUNN31X3 SI SNHL IN3NOdHOJ U 1X3 113 310N SH3HLO AG SIN3NOdHO3 N0 0NU ONINIM 1N3HdIn03 18NOILdO X404 A8 SIN3NOdHO3 ONY ONIYIM SNOI123NNO2 303 420718 1BNIH331 8111 SNOILJ3NNO2 43401902 404 42018 THNIWYSL 015534406 398110A LNJISNHHL S3 0N3931 JOHNSON CONTROLS 128 FORM 201 23 EG1 1007 AY r r 7 V C f 1 d YATHHO HOSSAHdWOJ Z oll ey jp NVHOVIG TIOHLNOO EU DUE dHd Z 2 lt d 1 5 5 I f 1 e d EN 1
160. 60 60 191 6 2 8 191 6 2 8 0997 380 60 241 6 3 5 241 6 9 3 241 6 9 5 1500 400 50 229 6 3 1 229 6 9 3 243 6 3 8 229 6 3 1 Unit Short Circuit Field Wiring amp Protection Withstand KA Std amp Ultra Quiet Cond Fans High Head High Static Fans Control bud KVA 7 Minimum Ckt Recommended Max Inverse Dual Minimum Recommended Terminal Block Circuit Breaker Ampacity MCAJ FuselCkt Time Ckt Brkr Element Fuse Ampacity _ 59 CK STD OPT 3 ihe Rating 2 Size 2 3 0287 2 4 65KA 494 600 600 600 24 30KA 65KA 624 700 800 800 676 800 1070 24 30KA 65KA 590 700 700 700 671 800 0307 24 30KA 65KA 540 600 700 700 24 30KA 65KA 682 800 800 800 731 800 1180 24 65 644 700 800 800 731 800 0357 24 65 607 700 800 800 24 65 766 1000 1000 1000 827 1000 1340 24 65 724 800 800 800 824 1000 0397 24 65 671 800 800 800 24 65 847 1000 1000 1000 911 1000 1500 24 65 801 1000 1000 1000 913 1000 See 192 for Electrical Data footnotes 120 JOHNSON CONTROLS FORM 201 23 EG1 1007 System 2 System 3 High Head Static Cond Fans Two Speed Cond Fans Std amp Ultra Quiet Cond Fans Hi
161. 62 4 2 8 206 4 3 5 206 9 3 195 4 3 1 195 9 3 201 4 3 8 162 5 2 8 205 5 3 5 205 9 3 194 5 3 1 194 9 3 206 5 3 8 160 5 2 8 203 5 3 5 203 9 3 192 5 3 1 192 9 3 204 5 3 8 191 6 2 8 242 6 3 5 242 9 3 230 6 3 1 230 9 3 243 6 3 8 High Head High Static Fans Two Speed Cond Fans Minimum Ckt Am pacity MCA 3 417 373 459 410 492 445 525 471 554 502 610 553 657 593 Recommended Fuse Ckt Breaker 500 450 600 500 600 500 600 600 700 600 700 700 800 700 JOHNSON CONTROLS Max Inverse Time Ckt Brkr Rating 2 500 500 600 600 700 600 700 600 700 700 800 800 800 800 Max Dual Element Fuse Size 2 500 500 600 600 700 600 700 600 700 700 800 800 800 800 Minimum Ckt Am pacity MCA 3 399 440 472 502 530 585 629 Recommended Fuse Ckt Breaker 450 500 600 600 600 700 700 Max Inverse Time Ckt Brkr Rating 2 500 600 600 700 700 800 800 Max Dual Element Fuse Size 2 500 600 600 700 700 800 800 117 Electrical Data 2 Comp High Efficiency High Efficiency YCIV EN Model No Nameplate SIN Std amp Ultra Quiet Cond Fans High Head Static Cond Fan
162. 650S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 5873 1466 37 576 4 167 9 32 5632 190 9 2 8 536 0 208 9 24 4914 2189 2 1 462 3 206 9 2 1 6 0 603 7 1476 38 592 6 168 9 3 3 579 1 1920 28 550 1 209 5 25 496 5 2148 22 4679 203 3 2 2 7 0 6204 1486 3 8 609 2 169 9 3 3 595 2 193 1 2 9 563 9 210 0 25 502 4 210 9 22 4740 199 7 2 2 8 0 6374 1497 39 6260 170 9 34 611 2 193 9 3 0 577 7 2104 2 6 508 8 207 2 23 4794 195 7 2 3 9 0 654 7 1508 40 6430 171 9 3 5 626 8 194 3 3 0 591 8 210 7 2 6 514 8 203 2 24 4844 191 6 24 10 0 6720 1520 44 660 4 173 1 35 6426 194 8 3 1 605 9 211 0 2 7 520 5 199 0 25 4889 187 6 24 11 0 6894 1534 441 677 8 1744 3 6 658 6 195 3 3 2 620 3 211 4 2 8 525 7 1949 25 4932 183 6 2 5 12 0 707 1 1549 42 6954 175 6 3 7 6747 195 8 3 2 6348 211 7 2 8 530 6 190 8 26 4974 179 6 2 6 13 0 725 1 1564 43 713 3 177 0 37 6910 196 4 3 3 649 5 212 0 29 5347 186 7 27 5015 175 7 2 7 MODEL YCIV0720S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 639 4 158 1 3 7 628 8 180 6 3 2 616 7 205 2 28 594 6 230 0 2 4 551 9
163. 68 44 799 1 186 0 3 9 7824 210 6 34 7459 2333 3 0 691 8 2475 2 6 681 0 2502 2 6 13 0 8349 169 5 45 820 2 187 8 40 803 0 211 8 35 763 0 233 0 3 1 707 8 247 0 2 7 696 9 249 6 2 6 MODEL YCIV0207E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 715 1 163 2 3 9 703 9 187 3 34 691 1 2148 3 0 6724 245 0 2 6 630 3 261 6 23 6208 264 1 2 2 6 0 735 3 1643 40 723 6 188 0 3 5 7102 2154 3 0 689 7 2452 2 6 645 5 261 6 23 6359 264 1 2 3 7 0 755 9 1656 4 1 743 7 188 9 3 6 729 7 216 0 3 1 707 4 2453 2 7 661 1 261 5 24 6512 264 1 2 3 8 0 776 9 167 1 4 2 764 2 189 8 3 7 749 5 216 7 3 2 7254 2454 2 8 677 0 261 3 24 666 7 264 0 24 9 0 798 4 168 8 43 785 1 191 0 3 8 769 8 217 5 3 3 743 7 245 5 2 8 693 1 261 0 25 682 6 263 7 24 10 0 8202 170 7 43 806 4 192 3 3 8 790 5 218 4 3 3 762 5 245 6 2 9 709 5 260 7 25 698 7 2634 2 5 11 0 8424 1729 44 828 1 193 8 3 9 811 6 219 5 3 4 781 3 245 8 3 0 726 1 260 3 26 7152 263 0 2 5 12 0 8645 175 1 4 5 850 1 1954 40 833 1 220 7 35 799 5 245 5 3 0 743 1 259 9 2 7 723 9 257 8 2 6 13 0 887 0 177 7 45 872 1 197 2 4 0 854 8 222 1 3 6 818 1 245 3 3 1 760 3 259 5 2 7 730 1 251 0 2 7 MODEL YCIV0227E V AIR TEMPERATURE ON CONDENSER
164. 7 30 837 3 2924 27 7910 275 3 27 13 0 1022 2 210 5 44 10047 235 9 39 984 2 264 6 35 941 9 2004 30 844 2 2848 28 7968 268 3 2 8 MODEL YCIV1050E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 935 9 2143 3 9 919 5 246 0 34 900 1 281 3 30 875 5 321 9 25 811 1 3429 22 798 1 3467 22 6 0 962 5 215 7 40 945 8 247 0 35 925 6 2823 30 898 2 3222 26 831 3 3433 23 817 8 347 2 22 7 0 9895 217 3 4 1 9725 248 1 36 951 7 2833 3 1 921 3 3223 27 851 9 3436 23 838 0 3476 23 8 0 1017 1 219 1 42 999 6 2494 37 978 3 2843 32 9441 3223 27 8727 343 8 24 8587 347 9 23 9 0 1045 2 221 1 43 1027 4 250 9 37 1005 4 285 5 33 967 3 3223 28 894 2 343 9 24 8796 348 1 24 10 0 1073 8 2234 44 1055 6 2525 3 8 1033 0 286 9 3 3 991 0 3222 29 915 8 344 0 25 901 0 348 2 24 11 0 1102 8 225 9 44 1084 4 2543 3 9 10612 2883 3 4 10150 322 2 29 938 0 344 0 26 9226 348 2 25 12 0 1132 3 228 7 45 1113 6 2564 40 1089 8 289 9 3 5 1039 3 3222 30 960 5 3440 26 9448 348 2 25 13 0 1162 3 231 7 46 1143 3 2587 4 1 1119 1 2917 3 6 1063 8 3223 3 1
165. 7 6 3 1 167 6 9 3 175 6 3 8 Field Wiring amp Protection Field Wiring Lugs High Head High Static Fans Two Speed Cond Fans ENT STD Terminal Block OPT Circuit Breaker Max Inverse Max Dual Minimum Ckt n Max Inverse Max Dual e m SUL Breaker Rating i 2 ab Lug Wire Range s ad Lug Wire Range 4 2 600 KC 4 400 500 800 800 4 2 600 KC 4 2 600 800 800 590 700 700 700 4 2 600 KC 4 2 600 4 2 600 KC 4 2 600 800 800 4 2 600 KC 4 2 600 800 800 621 700 700 700 4 2 600 KC 4 2 600 4 2 600 KC 4 2 600 800 800 4 2 600 KC 4 2 600 800 800 676 800 800 800 4 2 600 KC 4 2 600 4 2 600 KC 4 2 600 1000 1000 4 2 600 KC 4 2 600 1000 1000 760 800 800 800 4 2 600 KC 4 2 600 JOHNSON CONTROLS 123 Electrical Notes AS Standard all units have single point power connection Contact factory for Information regarding dua point power units 2 Maximum Inverse Time Circuit Breaker or Dual Element Fuse 225 of the largest compressor RLA plus the sum of all other loads per NEC 440 22 A 3 MCA Minimum Circuit Ampacity 125 of the largest compressor RLA plus 100 of the remaining compressor RLA s plus the sum of all condenser fan FLA s per NEC 440 33 4 Recommended time delay or dual element fuse size 150 of the largest compressor RL
166. 729 1581 1224 LEFT L 91 868 594 86 8 109 4 868 1854 86 8 2844 86 8 358 5 868 411 9 868 Fin Coils 1753 1585 1953 1978 1953 1140 928 Cu Fin Coils 1775 1733 2238 2363 2339 1424 1047 RS8LS1 AI Fin Coils 1929 1761 1953 1978 1953 1316 1105 RS amp LS1 Cu Fin Coils 1951 1931 2238 2363 2339 1601 1224 0327 YCIV1220EIV RIGHT R 91 13 584 13 1094 13 1854 13 2844 13 3585 13 4119 13 Fin Coils 1753 1596 2540 2632 2540 1151 928 Cu Fin Coils 1775 1715 2824 3018 2926 1435 1047 RS amp LS1 Al Fin Coils 1929 1773 2540 2632 2540 1327 1105 RS amp LS1 Cu Fin Coils 1951 1892 2824 3018 2926 1612 1224 LEFT L 91 868 594 868 1094 86 8 185 4 86 8 298 1 86 8 375 2 868 456 868 Al Fin Coils 1766 1607 1953 1978 2041 1404 1038 Cu Fin Coils 1788 1755 2238 2363 2427 1689 1157 RS8LS1 Fin Coils 1942 1784 1953 1978 2041 1581 1215 RS amp LS1 Cu Fin Coils 1964 1931 2238 2363 2427 1865 1334 57 YCIV1380E V RIGHT R 91 13 594 13 1094 13 1854 13 2981 13 3752 13 456 13 Al Fin Coils 1766 1618 2540 2632 2628 1415 1038 Cu Fin Coils 1788 1737 2824 3018 3014 1700 1157 RS8LS1 AI Fin Coils 1942 1795 2540 2632 2628 1592 1215 RS amp LS1 Cu Fin Coils 1964 1914 2824 3018 3014 1876 1334 NOTES 1 RS Reduced Sound Option LS Low Sound Option JOHNSON CONTROLS 107 Isolator Locations si
167. 8 127 6 200 9 7 1 44 0 157 4 123 9 13 8 156 2 132 8 12 8 154 7 142 0 11 9 152 8 151 6 11 1 150 8 161 6 10 3 1148 3172 8 9 6 144 21183 5 8 8 137 7 192 5 8 0 131 3 201 8 7 3 45 0 159 8 124 4 13 9 158 6 133 4 13 0 157 1 142 6 12 1 156 2 152 2 11 2 1153 2 162 2 10 5 150 7 173 5 9 7 146 3 184 0 8 9 139 7 193 0 8 1 133 2 202 2 7 4 46 0 162 2125 1 14 1 161 0 134 0 13 1 159 5 143 2 12 2 1157 7 152 9 11 4 155 6 162 9 10 6 153 0 174 2 9 8 148 3 184 5 9 0 141 7 193 5 8 2 135 1 202 6 75 48 0 167 0 126 2 14 4 165 9 135 2 13 4 164 4 144 6 12 5 1162 6 154 2 11 6 160 4 164 3 10 8 157 9 175 6 10 0 152 5 185 5 9 2 145 7 194 5 8 4 138 9 203 6 7 7 50 0 171 9 127 3 14 7 170 8 136 4 13 7 169 3 145 9 12 8 167 5 155 7 11 9 165 4 165 8 11 1 162 7 177 2 10 2 156 7 186 5 9 4 149 8 195 5 8 6 142 7 204 7 7 9 52 0 176 8 128 5 15 0 175 8 137 7 14 0 174 4 147 2 13 0 172 6 157 1 12 1 170 4 167 2 11 3 167 7 178 7 10 5 161 0 187 6 9 6 153 9 196 5 8 8 146 7 205 7 8 0 55 0 184 41130 2 15 4 183 5 139 6 14 4 182 1 149 2 13 4 180 3 159 2 12 5 178 1 169 5 11 7 174 8 180 6 10 8 167 5 189 3 9 9 160 2 198 1 9 1 152 8 207 2 8 3 MODEL YCIV0177E V E_IPLV 13 5 V_IPLV 14 7 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0
168. 8 2 o 92 p pz 18 pq ons 919 ZET uw das 2 ZET naa u uwal ili gt ft M XO INAC 9 9 5 1081402705 er lt 549 7106 dil aa 33Z1H0N033 D gt D HIE t 22 E amp ON 7845 1 5 ITEN asse nde 2 6er z ser s Hez 85 25 Pre 4 s 6 m C Et 4 6969 L SEr ger pae arti 1515 Hez QUEE 5 H23 2 S161S3 104100 L e 5 pepe Nu z ON 9 338 E3i 2 9 912 gt 1411 pu S18783 dufid 2 114110 222 02 EZ _ Nya ON SAS 33812344 2 9 512 I ED 214406 AZTY I lndlng 2 STA 7305 7N023 Z UN 7515 e 9 e ja ON SAS TAIL aA ZE 8y I N3IU3H 84055384402 Z ON SAS 1 1 41 0 3 ONOJ Z ON SAS R PR 012 S Z 114110 ONOJ Z UN SAS CNN mox 0 ser Sin oO wum ioro er Ox un S8y Sy OSA m 909999 a 0969606 1 x EI 1 T 01 eer Ter EZ H 21 rz 12 01 22 61 02 LI 91 rl SI EI 52 H 21 re 12 01 22 61 02 LI 91 rl SI
169. 866 967 1023 889 685 555 YCIVO287EIV YCIV1120E V RIGHT R 230 32 1510 32 2780 32 4710 32 7225 32 9105 32 10463 32 Fin Coils 795 724 1104 1145 1063 508 421 Cu Fin Coils 805 778 1233 1320 1238 637 475 RS8LS1 Al Fin Coils 875 804 1104 1145 1063 588 501 RS8LS1 Cu Fin Coils 885 858 1233 1320 1238 717 555 LEFT L 230 2204 1510 2204 2780 2204 4710 2204 7225 2204 9105 2204 10463 2204 Al Fin Coils 795 719 886 897 886 517 421 Cu Fin Coils 805 786 1015 1072 1061 646 475 RS8LS1 Al Fin Coils 875 799 886 897 886 597 501 RS amp LS1 Cu Fin Coils 885 876 1015 1072 1061 726 555 2 YCIV1220EIV RIGHT R 230 32 1510 32 2780 32 4710 32 7225 32 9105 32 10463 32 Fin Coils 795 724 1152 1194 1152 522 421 Cu Fin Coils 805 778 1281 1369 1327 651 475 RS8LS1 Al Fin Coils 875 804 1152 1194 1152 602 501 RS8LS1 Cu Fin Coils 885 858 1281 1369 1327 731 555 LEFT 230 2204 1510 2204 2780 2204 4710 2204 7572 2204 9530 2204 11582 2204 Al Fin Coils 801 729 886 897 926 637 471 Cu Fin Coils 811 796 1015 1072 1101 766 525 RS8LS1 Al Fin Coils 881 809 886 897 926 717 551 RS amp LS1 Cu Fin Coils 891 876 1015 1072 1101 846 605 0357 YCIV1380E V RIGHT R 230 32 1510 32 2780 32 4710 32 7572 32 9530 32 11582 32 Fin Coils 801 734 1152 1194 1192 642 471 Cu Fin Coils 81 788 1281 1369 1367 771 525 RS8LS1
170. 9 397 4 11 4 390 4 414 3 10 6 376 6 429 0 9 9 362 8443 6 9 3 320 4 394 8 9 1 MODEL YCIV0397S P S IPLV 134 IPLV 15 5 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 CF TONS KW EER TONS KW EER TONS KW EER IONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 377 3 318 0 13 0 374 2 341 7 12 1 370 7 366 9 112 366 9 393 4 10 4 362 9 421 2 9 6 3582 452 5 8 9 350 0 477 2 8 3 340 3499 0 7 7 330 61520 6 7 2 42 0 389 1 320 9 13 3 385 8 344 5 12 4 382 21369 8 15 378 2 396 4 10 6 374 0 424 1 9 9 369 0 455 5 9 1 359 8 479 0 8 5 349 7 501 0 7 9 339 51522 9 7 4 44 0 401 2 324 1 13 6 397 8 347 7 12 6 394 0 372 7 11 7 389 8 399 4 10 9 385 3 427 3 10 1 380 1 458 7 9 3 369 8 481 0 8 7 359 3 502 9 8 1 348 7 524 9 7 5 45 0 407 4 325 7 13 7 403 8 349 3 12 8 399 9 374 5 11 9 395 7 400 9 11 0 391 0 428 9 10 2 385 4 459 7 94 374 9 481 9 8 8 364 25503 9 8 2 350 8 519 5 7 7 46 0 413 5 327 6 13 9 410 0 350 9 12 9 406 0 376 1 12 0
171. 9 12 6 209 1 200 4 11 6 206 6 216 3 10 7 203 2 231 5 9 9 197 8 244 8 9 1 190 3 254 1 8 5 182 0 260 9 79 154 6 221 8 7 8 13 9 218 0 187 6 12 9 215 5 201 8 11 9 212 9 217 5 11 0 208 9 231 7 10 2 203 3 245 0 94 195 3 253 7 8 7 184 0 2544 82 156 2 216 6 8 1 14 1 224 5 189 6 13 2 222 0 2035 12 2 219 2 218 9 11 2 214 8 232 1 10 4 208 8 245 0 9 6 200 4 253 2 9 0 186 1 247 7 8 5 157 8 211 5 8 4 14 4 231 3 191 8 13 4 228 6 205 3 12 4 225 7 220 5 11 5 220 7 232 5 10 7 2142 244 6 9 9 205 5 252 8 9 2 188 1 241 3 8 8 159 3 206 5 8 6 14 7 241 7 195 6 13 8 238 8 208 5 12 8 2354 222 5 11 9 229 8 233 6 11 1 2224 244 2 10 3 213 4 252 2 9 6 191 0 232 5 9 3 161 6 199 2 9 0 S IPLV 12 9 P_IPLV 14 7 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER IONS KW EER TONS KW EER TONS KW EER 180 4 12 9 209 4 194 3 11 9 207 3 209 2 11 0 205 1 224 8 10 2 2
172. 9 156 2 212 7 8 2 55 0 197 4 138 4 15 4 195 81147 0 14 5 194 1 156 6 13 6 192 21167 0 12 7 190 0 178 3 11 8 186 2 190 2 10 9 180 8 201 5 10 0 173 3 211 9 9 2 158 8 204 8 8 7 MODEL YCIV0187E V E_IPLV 13 2 V IPLV 15 1 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER KW EER 5 KW EER 5 KW EER 5 KW EER TONS KW EER 40 0 174 7 145 0 13 1 173 7 152 7 12 3 172 2 164 6 11 4 1170 5 177 2 10 5 168 7 190 5 9 8 166 5 205 3 9 0 163 0 217 8 8 3 158 0 227 5 7 8 151 4235 7 7 2 42 0 180 21146 1 13 4 179 2 153 6 12 6 177 7 165 4 11 7 175 9 178 0 10 8 174 0 191 3 10 0 171 7 206 3 9 2 167 8 218 3 8 6 162 4 227 9 8 0 155 6 236 2 7 4 44 0 185 8 147 5 13 7 184 8 154 7 12 9 183 2 166 4 12 0 181 4 178 9 11 1 179 41192 1 10 3 177 01207 2 9 5 172 7218 7 8 8 166 9 228 3 8 2 1159 9 236 6 7 6 45 0 189 0 144 5 14 1 187 6 155 3 13 1 186 0 166 9 12 2 184 2 179 4 11 3 182 1 192 6 10 4 179 7 207 7 9 6 175 2 218 8 8 9 169 2 228 4 8 3 162 1 236 8 7 7 46 0 191 8 145 2 14 2 190 41155 8 13 2 188 8 167 4 12 3 187 0 179 9 11 4 184 9 193 1 10 6 182 5 208 1 9 7 177 7 219 0 9 0 171 5 228 5 8 4 164 3 237 0 7 8 48 0 197 5 14
173. 93 9 326 1 10 0 290 2 352 9 9 2 283 6 374 3 8 5 273 3 387 8 7 9 262 0 397 8 7 4 42 0 315 4 242 0 14 1 312 6 260 6 13 1 309 7 281 0 12 1 306 4 303 3 11 1 303 0 327 1 10 3 299 1 353 9 9 4 291 6 374 4 8 7 280 6 387 7 8 1 269 0 398 2 7 6 44 0 3254 244 3 144 322 5 2624 134 319 3 282 6 12 4 315 9 304 5 114 312 3 328 1 10 6 308 2 355 1 9 7 299 7 374 5 9 0 288 1 387 5 8 3 276 1 398 3 7 8 45 0 330 4 245 6 14 5 327 5 263 4 13 5 324 3 283 4 12 5 320 8 305 2 11 6 317 1 328 7 10 7 312 8 355 7 9 8 303 9 374 5 9 1 292 0 387 3 8 5 279 7 398 2 7 9 46 0 335 5 247 0 14 7 332 5 264 6 13 7 329 21284 3 12 7 325 7 306 0 11 7 321 9 329 3 10 8 317 5 356 3 9 9 308 1 374 5 92 295 9 387 1 8 6 283 4 398 2 8 0 48 0 345 9 250 2 15 0 342 8 267 1 14 0 339 4 286 3 13 0 335 6 307 7 12 0 331 6 330 8 11 1 326 7 357 1 10 2 316 6 374 4 9 5 303 7 386 6 8 8 290 9 397 8 8 2 50 0 356 6 253 7 15 2 353 3 270 0 14 3 349 7 288 8 13 3 345 8 309 6 12 3 341 7 332 5 11 4 335 8 357 1 10 5 325 0 373 7 9 7 311 7 386 0 9 1 298 5 397 4 8 4 52 0 367 5 257 7 15 5
174. 930 4 288 3 3 0 902 6 328 8 2 6 8352 3504 22 8217 3544 22 7 0 994 6 222 1 4 1 977 5 2534 3 5 956 6 289 3 3 1 925 6 328 9 2 6 855 8 350 7 23 842 0 3548 22 8 0 1022 3 2239 4 1 1004 8 2548 3 6 983 3 290 3 3 1 948 4 328 9 2 7 8768 3509 23 8627 355 1 2 3 9 0 1050 5 226 0 42 1032 6 2563 3 7 1010 5 291 5 3 2 971 8 328 9 2 8 898 2 351 0 24 8836 3552 23 10 0 1079 0 228 4 4 3 1060 9 258 0 3 8 1038 2 293 0 3 3 995 5 328 8 2 8 920 0 351 1 25 905 0 355 3 24 11 0 1108 1 231 0 44 1089 7 259 9 3 9 1066 5 294 5 3 4 1019 6 328 8 2 9 942 3 351 1 2 5 926 8 355 4 25 12 0 1137 7 233 9 44 1119 0 262 1 3 9 1095 2 296 1 3 4 10440 328 8 3 0 964 9 351 0 2 6 949 1 355 3 25 13 0 1167 7 237 0 45 11487 2644 40 1124 5 298 0 3 5 1068 4 329 0 3 0 987 7 351 0 26 971 7 355 3 26 MODEL YCIV0287E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 1001 1 230 1 3 9 984 0 265 1 34 964 1 304 9 2 9 940 0 351 6 25 8728 371 8 22 859 2 375 2 22 6 0 1029 6 2316 4 0 1011 9 265 9 3 5 991 2 305 6 3 0 964 6 351 7 2 6 894 2 371 8 23 880 2 375 4 22 7 0 1058 6 2334 4 1 10404 266 9 3 6 1018 8 306 3 3 1 988 5 351 1 2 6 916 0 371 7 23 9016
175. 983 3 3440 27 967 4 348 1 2 6 MODEL YCIV1120E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi COP COP COP COP KWi COP COP 5 0 996 2 2253 40 979 2 259 7 34 959 5 2988 3 0 935 5 3444 25 869 0 3644 22 8554 3677 22 6 0 1024 5 2267 4 1 1007 0 260 4 3 5 9864 299 5 3 0 9605 3448 26 890 3 3644 23 8763 3679 22 7 0 1053 4 2284 42 1035 3 261 3 3 6 1013 9 3000 3 1 984 3 3442 27 912 1 3643 23 8977 3679 23 8 0 1082 9 2304 42 1064 2 262 5 37 1042 0 300 7 3 2 10086 3435 27 9343 363 9 24 9195 3676 23 9 0 1112 9 2327 43 1093 7 263 9 3 8 1070 7 301 6 3 3 1033 1 3429 28 9567 363 5 25 9418 3672 24 10 0 1143 5 2354 44 11237 2656 3 9 1100 0 3028 3 4 1058 1 3422 29 979 9 3629 25 9643 3668 25 11 0 1174 4 2885 45 11544 2675 3 9 1129 9 3040 3 4 1083 6 3415 3 0 1003 4 362 3 26 9874 3662 25 12 0 1206 4 241 9 45 1185 5 269 8 40 1160 4 305 5 3 5 1109 5 3409 30 1027 4 361 6 2 7 1011 0 3655 2 6 13 0 1238 7 245 7 46 12173 2724 41 11914 307 2 3 6 1135 6 3404 3 1 1051 7 360 9 27 1034 9 3648 27 NOTES kWo kWi COP gt LCWT Compr
176. A plus 100 of the remaining compressor RLA s plus the sum of all condenser fan FLA s RLA Rated Load Amps rated in accordance with UL standard 1995 Local codes may take precedence Control KVA includes operational controls and evaporator heaters System inrush current is less than RLA due to the use of York Variable Speed Drive technology Typical Compressor Starting Current first four seconds of startup Rated Voltage Typical Starting Current per Compressor 380 400 50 3 28A 380 60 3 29A 460 60 3 23A 9 Voltage Utilization Range Rated Voltage Utilization Range 380 415 50 3 360 440 380 60 3 342 402 460 60 3 414 508 LEGEND C B CIRCUIT BREAKER D E DUAL ELEMENT FUSE DISC SW DISCONNECT SWITCH FACT CB FACTORY MOUNTED CIRCUIT BREAKER FLA FULL LOAD AMPS HZ HERTZ MAX MAXIMUM MCA MINIMUM CIRCUIT AMPACITY MIN MINIMUM MIN NF MINIMUM NON FUSED RLA RATED LOAD AMPS S P WIRE SINGLE POINT WIRING NOTES 1 U L Label is provided on 50 and 60 Hz units for these electrical wiring configurations 2 Dashed Line Field Provided Wiring 3 The above recommendations are based on the National Electric Code and using copper conductors only Field wiring must also comply with local codes Group Rated breaker must be HACR type for cUL machines 124 JOHNSON CONTROLS Power Wiring FORM 201 23 EG1 1007 2 COMPRESSOR POWER WIRING CONNECTIONS 2 COMPRESSOR POWER WIRING CON
177. COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 558 7 1292 3 9 550 3 147 1 34 540 3 167 0 3 0 525 1 189 7 26 4922 209 6 2 2 484 3 2134 2 1 6 0 574 5 130 1 4 0 565 7 147 9 3 5 555 3 167 8 3 0 538 7 190 4 2 6 504 1 210 2 22 4962 213 9 2 2 7 0 590 5 131 1 4 0 581 5 148 8 3 6 570 6 168 6 3 1 552 7 191 0 2 7 516 4 210 7 23 508 1 214 6 2 2 8 0 606 9 1322 4 1 597 5 149 7 3 6 586 3 169 5 3 2 566 8 191 7 2 7 5288 211 3 23 5203 215 1 2 3 9 0 623 5 1334 42 613 9 150 7 37 6023 1704 3 3 581 3 1924 2 8 541 5 211 8 24 5328 2157 2 3 10 0 6404 1346 43 630 5 151 8 38 6185 171 4 3 3 596 0 193 1 29 5544 2123 24 5455 2162 24 11 0 6577 136 0 44 647 5 153 0 3 9 635 1 172 5 34 610 9 193 9 29 567 6 212 9 25 5515 2114 24 12 0 675 2 1374 44 664 8 1543 39 6520 173 6 35 626 1 1947 3 0 580 9 2134 25 5572 206 6 2 5 13 0 693 1 139 0 45 6823 1556 40 6692 1748 35 641 6 195 5 3 1 5944 214 0 2 6 562 8 202 0 2 6 MODEL YCIV0700E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 621 1 143 4 3 9 611 6 164 1 34 600 1 187 0 3 0 582 8 211 7 2 6 547 1 228 0 2 2 538 6 230 9 2 2 6 0 638 5 1443 40 6289 1648 35 6170 187 7 3 0 598 1 21
178. CWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 8943 2196 3 7 879 6 2494 33 8626 2822 29 834 9 316 1 25 793 0 3424 22 7846 3475 2 1 6 0 919 1 221 4 38 903 8 251 2 3 3 886 1 2840 2 9 856 0 317 2 25 8126 3436 22 8038 3488 22 7 0 9445 2233 3 9 9286 253 0 34 909 9 286 0 30 8774 3183 26 832 6 344 8 2 3 8217 3488 22 80 970 2 2254 40 953 7 255 0 35 9344 287 9 3 0 899 1 3194 27 8530 3459 23 829 3 3410 23 9 0 996 3 2275 40 979 4 257 0 35 959 2 290 0 3 1 921 3 3205 27 8739 347 1 24 8371 333 1 24 10 0 1023 0 229 8 4 1 10054 259 2 3 6 9846 292 1 3 2 943 6 3217 28 8926 3467 24 8449 325 2 25 11 0 1050 0 232 2 42 1031 8 2615 37 10104 294 2 32 9665 3229 28 900 9 338 2 25 8526 3174 25 12 0 1077 5 2348 42 1058 8 263 8 37 1036 6 296 5 3 3 989 7 324 0 29 909 1 329 9 26 860 1 309 8 26 13 0 1105 6 236 2 4 3 1086 0 266 3 3 8 1063 2 298 9 3 3 1013 3 325 3 2 9 917 1 3217 2 7 867 0 3027 27 MODEL YCIV287S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi
179. Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 54 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0327E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1082 7 247 9 3 9 1064 7 284 7 34 1044 3 326 4 3 0 1013 0 371 0 2 6 945 2 394 1 2 3 930 6 397 6 2 2 6 0 1113 5 249 6 4 0 1094 7 285 8 3 5 1073 2 327 3 3 0 1038 5 371 1 2 6 967 8 394 2 2 3 953 0 397 8 2 2 7 0 1145 0 2516 4 1 1125 3 287 1 3 6 1102 8 328 3 3 1 10647 371 1 2 7 991 1 394 1 24 9758 397 9 2 3 8 0 1177 1 2539 42 1156 5 288 5 3 7 1133 0 329 5 3 2 1091 4 371 0 2 7 1014 9 393 9 24 999 0 397 7 2 4 9 0 1209 8 2565 4 3 1188 4 2903 3 8 1164 0 330 7 3 3 1118 6 370 9 2 8 1039 0 3935 2 5 1022 8 397 4 24 10 0 1243 2 259 3 4 3 1221 0 2923 3 8 1195 5 332 2 3 3 1146 4 370 9 2 9 1063 6 393 0 2 5 1047 0 397 0 2 5 11 0 1277 2 262 6 44 1254 2 294 7 3 9 1227 8 333 8 34 1174 3 370 9 3 0 1088
180. Contractor Subcontrac tors and Consultants to modify the building provisions to accept the furnished units B Description Install and commission as shown on the schedules and plans factory assembled charged and operational tested air cooled screw compressor chiller s as specified herein Chiller shall include but is not limited to a complete system with multiple independent refrigerant circuits semihermetic twin screw compressors shell and tube type evaporator air cooled condenser R134a refrigerant lubrication 133 Guide Specifications continued System interconnecting wiring safety and operating controls including capacity controller control center motor starting components and special features as specified herein or required for safe automatic operation C Operating Characteristics 1 Provide low ambient control and high ambient options as required to ensure unit is capable of operation from O F to 125 F 18 C to 52 C ambient 2 Provide capacity control system capable of reducing unit capacity to 1096 for 2 compres sor units and 7 596 for 3 compressor units of full load Compressor shall start in unloaded condition Application of factory installed hot gas bypass shall be acceptable as required to meet specified minimum load D Cabinet Unit panels structural elements control boxes and heavy gauge structural base shall be constructed of galvanized steel Unit panels control boxes a
181. EIV YCIVO800E V RIGHT R 91 13 594 13 972 13 1614 13 2106 13 3079 13 Al Fin Coils 1720 1614 1082 994 1078 955 Cu Fin Coils 1720 1704 1323 1270 1426 1195 RS amp LS1 Al Fin Coils 1898 1792 1082 994 1078 955 RS8LS1 Cu Fin Coils 1898 1883 1323 1270 1431 1195 106 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL Isolator Locations y in and Point Loads lbs 60 Hz 50 Hz 1 2 4 5 6 7 LEFT L 91 868 594 868 972 868 1614 86 8 2106 86 8 307 9 868 Fin Coils 1720 1616 1085 999 1102 1003 Cu Fin Coils 1720 1706 1325 1274 1451 1243 RS8LS1 Al Fin Coils 1898 1795 1085 999 1102 1003 RS amp LS1 Cu Fin Coils 1898 1885 1325 1274 1451 1243 YCIVO227EN 0830 RIGHT R 91 13 594 13 972 13 1614 13 2106 13 3079 13 Fin Coils 1720 1616 1085 999 1102 1003 Cu Fin Coils 1720 1706 1325 1274 1451 1243 RS8LS1 AI Fin Coils 1898 1795 1085 999 1102 1003 RS amp LS1 Cu Fin Coils 1898 1885 1325 1274 1455 1243 LEFT L 91 868 594 868 972 868 1614 868 2106 86 8 307 9 868 Al Fin Coils 1728 1638 1248 1160 1265 1005 Cu Fin Coils 1728 1728 1488 1435 1614 1246 RS8LS1 AI Fin Coils 1907 1817 1248 1160 1265 1005 RS amp LS1 Cu Fin Coils 1907 1907 1488 1435 1614 1246 YCIVO247ENV YC
182. EL YCIV0800E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 715 1 163 2 3 9 703 9 187 3 34 691 1 2148 3 0 6724 245 0 2 6 630 3 261 6 23 6208 264 1 2 2 6 0 735 3 1643 40 723 6 188 0 3 5 7102 2154 3 0 689 7 2452 2 6 645 5 261 6 23 6359 264 1 2 3 7 0 755 9 1656 4 1 743 7 188 9 3 6 729 7 216 0 3 1 707 4 2453 2 7 661 1 261 5 24 6512 264 1 2 3 8 0 776 9 167 1 4 2 764 2 189 8 3 7 749 5 216 7 3 2 7254 2454 2 8 677 0 261 3 24 666 7 264 0 24 9 0 798 4 168 8 43 785 1 191 0 3 8 769 8 217 5 3 3 743 7 245 5 2 8 693 1 261 0 25 682 6 263 7 24 10 0 8202 170 7 43 806 4 192 3 3 8 790 5 218 4 3 3 762 5 245 6 2 9 709 5 260 7 25 698 7 2634 2 5 11 0 8424 1729 44 828 1 193 8 3 9 811 6 219 5 3 4 781 3 245 8 3 0 726 1 260 3 26 7152 263 0 2 5 12 0 8645 175 1 4 5 850 1 1954 40 833 1 220 7 35 799 5 245 5 3 0 743 1 259 9 2 7 723 9 257 8 2 6 13 0 887 0 177 7 45 872 1 197 2 4 0 854 8 222 1 3 6 818 1 245 3 3 1 760 3 259 5 2 7 730 1 251 0 2 7 MODEL YCIV0830E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 743 0 169 0 3 9 731 8 192 7 3 4 718 8 219 4 3 0 703 0 250 7 2 6
183. ER TONS KW EER TONS KW EER ONS KW EER TONS KW EER 40 0 149 11131 5 12 3 148 0 141 8 114 146 7 152 6 10 6 145 4 164 1 9 8 143 9 176 0 9 1 142 2 189 4 84 138 9 202 0 Lf 133 5 212 3 74 127 9 223 1 6 5 42 0 153 7 132 5 12 6 152 5 142 6 11 7 151 2 153 5 10 9 149 8 165 0 10 1 148 2 177 0 9 3 146 5 190 5 8 6 142 7 202 7 1 9 137 0 2132 73 131 3 223 9 6 6 44 0 158 3 133 5 12 9 157 1 143 6 12 0 155 7 1544 11 1 154 3 165 9 10 3 152 6 9 6 150 8 191 5 8 8 146 5 203 4 8 1 140 6 214 0 74 134 7 224 7 6 8 45 0 160 7 134 0 13 1 159 4 144 1 12 1 158 1 154 9 11 3 156 5 166 4 10 4 154 9 178 4 9 7 153 0 192 0 8 9 148 4 203 7 8 2 142 5 214 3 75 136 5 225 0 6 9 46 0 163 1 134 6 13 2 161 8 144 6 12 3 160 4 155 4 11 4 158 8 166 9 10 6 157 1 178 9 9 8 155 2 192 5 9 0 150 4 204 0 8 3 144 3 214 7 76 138 3 225 4 6 9 48 0 167 9 135 7 13 5 166 6 145 7 12 6 165 1 156 5 11 7 163 5 167 9 10 8 161 7 180 0 10 0 159 7 193 6 9 3 154 3 204 7 8 5 148 1 2154 7 8 141 8 226 3 7 1 50 0 172 8 137 0
184. FORM 201 23 EG1 1007 al YORK LATITUDE Air Cooled Screw Liquid Chillers R134a 150 385 TONS 527 1354 kWi 2 and 3 Compressor U www rldireciary org 50 and 60 Hz amp L 140 200 Tons ASHRAE 90 1 Compliant 60Hz Table of Contents Introduction 3 koole oi 7 rm veneers 4 Accessories and Options ewy ze wri zy 7 Nomenclature RE Temperatures and FIOWS u roz a ala stawi wi aaa wys awf shades asscveessatevssishcgsssieesesibastvsneondshdcbesseutdvexselidessbissest Water Pressure Drop see one Standard Efficiency Ratings English 460V 60Hz High Efficiency Ratings English 460V 60Hz rsa ON EP AWA Ya PA rani Napa bapanira ey a a SEE sa GLAS apia Standard Efficiency Ratings SI 460V GOHZ cccsescssccsscssosessessscessscsccsocssacacsasosesscsscasosensacssadscsbecessscssescatosedseaesssonersacsad sestecsnoa sstsacasosesscezassaee High Efficiency Ratings SI 460V 60Hz Standard Efficiency Ratings SI 400V SOHZ cccsesscssscsscssescsssesaceasscscsssessacacsasosesssbscasosensacssadsssbneesstesseasoasoaebsecesosonersacsad sssdecsssa ssscaaasosesscezaasese High Efficiency Ratings SI 400V 50HZ uu aa O
185. GHT R 230 32 1510 32 2780 32 5360 32 Al Fin Coils 772 723 756 730 Cu Fin Coils 772 774 912 885 RS8LS1 Al Fin Coils 853 804 756 730 RS8LS1 Cu Fin Coils 853 855 912 885 LEFT L 230 2204 1510 2204 2780 2204 4970 2204 6740 2204 Fin Coils 770 707 707 578 351 Cu Fin Coils 770 762 861 750 424 RS8LS1 Al Fin Coils 851 788 707 578 351 RS8LS1 Cu Fin Coils 851 843 861 750 424 YCIN0177EIV YCIVO630E V RIGHT R 230 32 1510 32 2780 32 4970 32 6740 32 Fin Coils 770 707 707 563 301 Cu Fin Coils 770 762 861 735 374 RS amp LS1 Al Fin Coils 851 788 707 563 301 RS8LS1 Cu Fin Coils 851 843 861 735 374 LEFT L 230 2204 1510 2204 2780 2204 4970 2204 6740 2204 Al Fin Coils 778 717 760 584 372 Cu Fin Coils 778 772 914 756 445 RS amp LS1 Al Fin Coils 859 798 760 584 372 RS8LS1 Cu Fin Coils 859 853 914 756 445 YCIV0187E V YCIVOZ00E V RIGHT R 230 32 1510 32 2780 32 4970 32 6740 32 Al Fin Coils 770 708 708 584 372 Cu Fin Coils 770 763 862 756 445 RS amp LS1 Al Fin Coils 851 789 708 584 372 RS8LS1 Cu Fin Coils 851 844 862 756 445 LEFT L 230 2204 1510 2204 2780 2204 4970 2204 6740 2204 Al Fin Coils 780 730 734 614 390 Cu Fin Coils 780 785 888 786 463 RS amp LS1 Al Fin Coils 861 811 734 614 390 RS8LS1 Cu Fin Coils 861 866 888 786 463 YCIV0197EIV YCIVO760E V RIGHT R 230 32 1510 32 2780 32 4970 32 6740 32
186. Hz and 50Hz with closely matching capacity JOHNSON CONTROLS 37 High Efficiency Ratings SI 400V 50Hz MODEL YCIV0930E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 8245 1948 38 811 2 2215 34 795 7 2512 29 773 5 283 8 25 7304 3059 22 7212 3097 22 6 0 8477 1964 3 9 833 8 2229 34 817 7 2526 30 793 8 284 9 26 7484 3065 23 7388 3105 22 7 0 8713 198 1 40 856 9 2244 35 8401 254 0 3 1 814 6 286 0 27 766 7 307 1 23 754 9 3098 23 8 0 8953 199 9 4 1 880 5 226 0 36 8630 2556 3 1 835 8 287 1 2 7 785 5 307 7 24 7630 303 6 24 9 0 919 9 2019 41 9045 2278 37 886 3 257 2 32 856 8 287 9 28 804 7 3082 25 7706 2969 24 10 0 944 8 204 0 42 928 9 229 6 37 910 1 2589 33 877 5 2885 28 8216 307 2 25 7779 289 9 25 11 0 970 3 2062 4 3 953 8 2316 38 9344 260 7 3 3 898 6 289 1 29 8297 300 0 26 7847 2826 2 6 12 0 995 9 208 6 44 979 1 233 6 3 9 9590 2626 34 920 1 289
187. IVO930EJV RIGHT R 91 13 594 13 972 13 1614 13 2106 13 307 9 13 Fin Coils 1720 1629 1248 1160 1265 1005 Cu Fin Coils 1720 1720 1488 1435 1614 1246 RS8LS1 Fin Coils 1898 1808 1248 1160 1265 1005 RS8LS1 Cu Fin Coils 1898 1898 1488 1435 1618 1246 LEFT L 91 868 581 868 111 1 86 8 2047 86 8 284 9 86 8 368 86 8 Al Fin Coils 1753 1585 1821 1839 2163 1175 Cu Fin Coils 1775 1757 2165 2185 2507 1347 RS amp LS1 AI Fin Coils 1929 1761 1821 1839 2229 1396 838151 Cu Fin Coils 1951 1933 2165 2185 2573 1634 YCIVO267ENV 1050 RIGHT R 91 13 581 13 114 13 2047 13 2849 13 368 13 Al Fin Coils 1753 1596 2407 2493 2756 1179 Cu Fin Coils 1775 1768 2751 2840 3100 1351 RS8LS1 Fin Coils 1929 1773 2407 2493 2822 1466 RS amp LS1 Cu Fin Coils 1951 1944 2751 2840 3166 1638 LEFT L 91 868 594 868 1094 86 8 1854 86 8 2844 86 8 358 5 868 411 9 86 8 Al Fin Coils 1753 1585 1847 1870 1574 1049 928 Cu Fin Coils 1775 1733 2132 2255 1960 1334 1047 RS8LS1 AI Fin Coils 1929 1761 1847 1870 1574 1226 1105 RS amp LS1 Cu Fin Coils 1885 1909 2132 2255 1960 1510 1224 YCIVO287EN YCIV1120E V RIGHT R 91 13 594 13 1094 13 1654 13 2844 13 3585 13 4119 13 Fin Coils 1753 1596 2434 2524 2344 1120 928 Cu Fin Coils 1775 1715 2718 2910 2729 1404 1047 RS amp LS1 AI Fin Coils 1929 1773 2434 2524 2344 1296 1105 RS8LS1 Cu Fin Coils 1951 1892 2718 2910 2
188. LV 14 9 AIR TEMPERATURE ON CONDENSER F LCWT CF 40 0 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS 268 2 KW 223 5 EER 13 1 TONS 265 7 KW 241 6 EER 12 1 TONS KW 262 9 261 0 EER TONS 11 2 259 9 KW 281 5 EER 10 3 TONS 256 7 KW 302 7 EER TONS 9 5 251 3 KW 322 1 EER 8 8 TONS 244 3 KW 338 4 EER 8 1 TONS 234 1 KW EER 349 4 7 6 TONS 209 5 KW 326 1 EER 7 2 42 0 276 6 225 1 13 4 274 1 243 0 12 4 271 2 262 4 11 5 268 0 282 8 10 6 264 6 304 1 9 7 2587 323 1 9 0 250 9 338 9 8 3 240 4 350 1 7 8 211 9 318 9 7 5 44 0 285 2 226 9 13 8 282 6 244 6 12 7 279 6 263 8 11 7 276 3 284 2 10 8 272 7 305 5 10 0 266 3 324 0 9 2 257 7 339 3 8 6 246 8 350 7 8 0 214 8 312 5 7 7 45 0 289 6 228 0 13 9 286 9 245 5 12 9 283 9 264 6 11 9 280 6 285 0 11 0 276 7 305 9 10 1 270 2 324 4 9 4 261 2 339 4 8 7 250 0 351 0 8 0 216 1 309 1 7 8 46 0 294 0 229 0 14 1 291 3 246 4 13 0 288 3 265 4 12 0 284 9 285 7 11 1 280 7 306 3 10 3 274 1 324 8 9 5 264 7 339 5 8 8 253 4 351 2 82 217 5 305 6 8 0 48 0 303 0 231 4 14 4 300 2 248 5 13 3 297 1 267 2 12 3 293 5
189. Model Number Color Ibs kg Up to 751 Ibs Up to 341 kg ND C Yellow 751 to 1651 Ibs 341 to 749 kg ND D Yellow 1651 to 3226 Ibs 749 to 1463 kg ND DS Yellow JOHNSON CONTROLS 113 Isolator Details cont d TWO INCH DEFLECTION SEISMIC SPRING ISOLATOR CROSS REFERENCE SLRS SLRS 2 C2 has 2 springs D Tap 4 Holes unless otherwise requested Vertical Limit Stops Out of contact during normal operation MBD Max Bolt Diameter Adjustment Bolt Non Skid Neoprene Pad 114 Lower Enclosed Pad can be removed if Steel 2 mounts welded ut Housing Pad into position ENGLISH SIZE H T D E L HCL W HCW MBD 2 2 8 1 2 3 8 5 8 1 3 8 14 12 1 45 1 413 1 2 5 8 SI SIZE T D E L HCL W HCW 2 2 215 9 9 5 15 9 34 9 355 6 311 2 133 4 88 9 5 8 Weight Range Weight Range Ibs kg Model Number Color Up to 358 Ibs Up to 162 kg SLRS 2 C2 Red 358 to 443 Ibs 162 to 201 kg SLRS 2 C2 White 443 to 582 Ibs 201 to 264 kg SLRS 2 C2 Black 582 to 783 16 264 to 335 kg SLRS 2 C2 Blue 783 to 1038 Ibs 335 to 471 kg SLRS 2 C2 Green 1038 to 1497 Ibs 471 to 679 kg SLRS 2 C2 Gray 1497 to 2058 105 679 to 933 kg SLRS 2 C2 Silver 2058 to 2619 Ibs 933 to 1188 kg SLRS 2 C2 Gray w red 2619 to 3180 Ibs 1188 to 1442 kg SLRS 2 C2 Silver w red JOHNSON CON
190. ND FLOWS SI Units MODEL 3 NUMBER TEMPERATURE C Ts AIR ON CONDENSER C MIN MAX MIN MAX MIN MAX 50 Hz 60 Hz 0600 S P 0157 S P 44 15 6 8 8 42 6 17 8 51 7 0590 E V 0157 E V 44 15 6 10 1 47 3 17 8 51 7 0650 S P 0177 S P 44 15 6 10 1 47 3 17 8 51 7 0630 E V 0177 E V 44 15 6 10 1 47 3 17 8 51 7 0720 S P 0187 S P 4 4 15 6 10 1 47 3 17 8 51 7 0700 E V 0187 E V 4 4 15 6 10 1 47 3 17 8 51 7 0760 E V 0197 E V 44 15 6 11 4 47 3 17 8 51 7 0770 S P 0207 S P 44 15 6 11 4 50 5 17 8 51 7 0800 E V 0207 E V 44 15 6 11 4 47 3 17 8 51 7 0840 S P 0227 S P 4 4 15 6 11 4 50 5 17 8 51 7 0830 E V 0227 E V 44 15 6 11 4 47 3 17 8 51 7 0920 S P 0247 SIP 44 15 6 11 4 50 5 17 8 51 7 0930 E V 0247 E V 44 15 6 10 1 47 3 17 8 51 7 1000 S P 0267 S P 44 15 6 11 4 50 5 17 8 51 7 1050 E V 0267 E V 4 4 15 6 11 4 50 5 17 8 51 7 1070 S P 0287 5 44 15 6 15 8 75 7 17 8 51 7 1120 E V 0287 E V 44 15 6 15 8 75 7 17 8 51 7 1180 S P 0307 S P 44 15 6 18 9 75 7 17 8 51 7 1220 E V 0327 E V 44 15 6 18 9 75 7 17 8 51 7 1340 S P 0357 S P 4 4 15 6 18 9 75 7 17 8 51 7 1380 E V 0357 E V 4 4 15 6 18 9 75 7 17 8 51 7 1500 S P 0397 S P 44 15 6 18 9 75 7 17 8 51 7 NOTES 1 For leaving brine temperature below 4 4 C contact your nearest Johnson Controls office for application requirements 2 For leaving water temperature
191. NECTIONS ral 1 1 FIELD PROVIDED UNIT POWER SUPPLY VSD CONTROL PANEL STANDARD UNIT CONTROLS NTROL bw co TRANSFORMER EVAPORATOR HEATER Le FAN LINE CONTACTORS REACTOR CIRCUIT BREAKER S C 8 5 See Note 3 FIG 1 TWO COMPRESSOR WIRING DIAGRAM WITH CIRCUIT BREAKER 2 COMPRESSOR POWER WIRING CONNECTIONS SUPPLY VSD CONTROL PANEL STANDARD UNIT CONTROLS CONTROL ira wy TRANSFORMER EVAPORATOR HEATER CH FAN NTACTOR as CONTACTORS REACTOR TERMINAL S BLOCK 9 TT See Note 3 ooo FIELD PROVIDED UNIT POWER FIG 2 TWO COMPRESSOR WIRING DIAGRAM WITH TERMINAL BLOCK JOHNSON CONTROLS 125 Power Wiring continued 3 COMPRESSOR POWER WIRING CONNECTIONS VSD CONTROL PANEL VSD VSD VSD STANDARD UNIT CONTROLS 1 2 3 CONTROL TRANSFORMER EVAPORATOR HEATER FAN CONTACTORS LINE CIRCUIT BREAKER Q See Note 3 999 m Jt UNIT POWER
192. NS KW EER TONS KW EER TONS KW EER IONS KW KW EER TONS KW EER 3 324 5 12 8 374 2 348 7 11 9 370 7 374 4 11 0 366 9 401 4 10 2 362 9 429 8 9 5 358 2 461 7 8 7 350 0 486 9 3509 21 7 6 330 6 531 2 7 1 1 327 5 13 1 385 8 351 6 12 1 382 2 377 3 11 3 378 2 404 5 10 4 374 0 432 8 9 7 369 0 464 8 8 9 359 8 488 8 1511 2 7 8 339 5 533 5 7 2 2 330 7 13 3 397 8 354 8 124 394 0 380 3 11 5 389 8 407 5 10 7 385 3 436 0 9 9 380 1 468 1 92 369 8 490 8 513 2 7 9 348 7 535 6 7 4 413324 13 5 403 8 356 4 12 5 399 9 382 1 11 6 395 7 409 1 10 8 391 0 437 7 10 0 385 4 469 1 9 3 374 9 491 7 21514 2 8 0 350 8 530 1 7 5 5 334 3 13 6 410 0 358 1 12 7 406 0 383 7 11 8 401 6 410 9 10 9 396 9 439 3 10 1 390 7 470 2 9 4 380 0 492 6 2 515 1 8 1 352 7 523 5 7 6 1 937 9 13 9 4224 361 6 12 9 418 2 387 1 12 0 413 7 414 2 11 2 408 7 442 9 104 401 5 412 0 9 6 390 5 494 5 517 2 8 3 356 3 510 3 7 9 0341 8 14 2 435 1 365 5 13 2 430 8 390 7 12 3 426 0 417 8 11 4 420 9 446 4 10 6 412 6 414 0 9 8 401 1 496 5 5519 0 8 5 36
193. NV 53002 111 1 31 8vOllddV H3HLO 11 SV 173M SV 3002 1 21812313 43440455841 2 gt 5 Su 200 50661 5 0 335 YATIONLNOD JATHA M4010H 33dd3lS ZONE SARAD WIN CINNT NAD 0 sg COND NIUSO 5 92 NOHHOJ LHM y 92r lndNI 92r L1X3 148 151 5405835 dH31 0104 I SAS CNNI d38 2 92 INI 9 T 92n CONS NIdd0 6 52 1 3 8HU8 TAS 038 3015110 CINNT WTB 1 52 N N BD 1 1X3 11238 1 gl UND 8 szr 1739385 NOSN3S diii 6 038 S sen 10011 03311H2 ONIUBINA C UITdNT WTB y Ser 33s 0897 1950 76 03y 2 52 ovp 011811 0331iH3 TINaNT SNIAGZT TONS INANI 1889015 LIWIT GNNOS IMaNT 188015 or 310133 728 8310N TONS 188018 S1IND 118 01 InaNT TENOTS 61 3iouss 31882114489 LON 15301140 13844 LI 310438 4 200 50661 SEO 438 01 Tings 054 zr 08 21901 054 01 024 Z SKS 2122 024 545 elt 2 HJIIMS LINN 1122 THINS TINT iii 2 ead Z UN 515 59 2 ON 7515 55 2 9 TINA uL ALON 1x3 3
194. Rated IAW ARI Standard 550 590 98 6 which is based on ARI Standard 550 590 16 Chiller EER includes power from compressors fans and control panels 0 8 KWi Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0207S P S IPLV 13 2 P_IPLV 14 7 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 12 7 192 9 182 2 11 7 190 9 197 4 10 8 188 7 213 5 9 9 186 4 230 3 9 1 181 9 244 1 84 176 0 254 8 7 8 168 7 261 6 73 149 2 238 0 7 1 13 1 199 0 183 3 12 0 196 8 198 2 11 1 194 6 214 3 10 2 192 1 231 2 94 187 1 2444 87 180 7 254 7 8 0 1732 261 8 75 151 0 232 8 7 3 13 3 205 2 184 5 12 3 202 9 199 3 114 200 5 2152 10 4 197 6 231 3 9 6 192 4 244 6 8 9 185 4 254 4 8 3 177 7 261 8 77 152 8 227 3 7 6 13 5 208 3 185 2 12 5 206 0 199 8 11 5 203 6 215 7 10 6 200 4 231 4 9 8 195 0 244 7 9 0 187 9 254 3 8 4 180 0 261 8 78 153 7 224 5 7 7 13 6 211 5 185
195. S P 22 2 26 0 79 1 113 3 0227S P 22 2 26 0 79 1 113 3 Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 68 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP 15 16 TYP 14 1 8 p 41 16 86 RN 50 _ _ 50 9 1 8 VIEW D D kwa D 93 15 16 NIe m LAN N WATER j Ri GING HOLES 10 WATER OUTLET Asl EACH SIDE 3X 2 C D 88 33 5 16 T 1 2 POWER SINGLE POINT WITH TERMINAL BLOCK x JOHNSON CONTROLS 69 Dimensions English continued Models YCIV0207E V and YCIV0227E V ABY HIGH
196. STD OPT Ampacity MCA 3 Rating 4 Ckt Brkr Rating 2 Fuse Size 2 1 8 30KA 65KA 293 350 400 400 0197 1 8 30KA 65KA 370 450 500 500 0600 1 8 30KA 65KA 350 400 450 450 1 8 30KA 65KA 326 400 450 450 1 8 30KA 65KA 413 500 600 600 0650 1 8 30KA 65KA 390 450 500 500 1 8 30KA 65KA 348 400 500 500 0187 1 8 30KA 65KA 440 500 600 600 0720 1 8 30KA 65KA 416 500 600 600 1 8 30KA 65KA 373 450 500 500 0207 1 8 30KA 65KA 472 600 600 600 0770 1 8 30KA 65KA 446 500 600 600 1 8 30KA 65KA 392 450 500 500 0221 1 8 30KA 65KA 496 600 700 700 0840 1 8 30KA 65KA 468 600 600 600 1 8 30KA 65KA 433 500 600 600 0847 1 8 30KA 65KA 547 700 700 700 0920 1 8 30KA 65KA 517 600 700 700 1 8 30KA 65KA 464 600 600 600 247 1 8 30KA 65KA 587 700 800 800 1000 1 8 30KA 65KA 555 700 700 700 See page 192 for Electrical Data footnotes 116 JOHNSON CONTROLS FORM 201 23 EG1 1007 Standard Efficiency System 2 Std amp Ultra Quiet Cond Fans High Head Static Cond Fans Two Speed Cond Fans Condenser Fans Condenser Fans Condenser Fans Compressor Compressor Compressor RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 120 4 2 8 152 4 3 5 152 9 3 144 4 3 1 144 9 3 152 4 3 8 105 4 2 8 133 4 3 5 133 9 3 127 4 3 1 127 9 3 132 4 3 8 120 4 2 8 152 4 3 5 152 9 3 144 4 3 1 144 9 3 152 4 3 8 1
197. T 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 9962 225 3 40 979 2 259 7 3 4 959 5 2988 3 0 935 5 3444 25 869 0 3644 22 8554 3677 22 6 0 1024 5 2267 4 1 1007 0 260 4 3 5 9864 299 5 3 0 9605 3448 26 890 3 3644 23 8763 3679 22 7 0 1053 4 2284 42 1035 3 261 3 3 6 1013 9 3000 3 1 984 3 3442 27 912 1 3643 23 8977 3679 23 8 0 1082 9 2304 42 1064 2 262 5 37 1042 0 300 7 3 2 10086 3435 27 9343 363 9 24 919 5 3676 23 9 0 1112 9 2327 43 1093 7 263 9 3 8 1070 7 301 6 3 3 1033 1 3429 28 9567 363 5 25 9418 3672 24 10 0 1143 5 2354 44 11237 265 6 3 9 1100 0 302 8 3 4 1058 1 3422 29 979 9 3629 25 9643 3668 25 11 0 1174 4 2885 45 11544 2675 39 1129 9 3040 3 4 1083 6 3415 3 0 1003 4 362 3 26 9874 3662 25 12 0 1206 4 241 9 45 1185 5 269 8 40 1160 4 305 5 3 5 1109 5 3409 30 1027 4 3616 2 7 1011 0 3655 2 6 13 0 1238 7 245 7 46 12173 2724 41 11914 307 2 3 6 1135 6 3404 3 1 1051 7 360 9 2 7 1034 9 3648 27 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7
198. TONS KW EER TONS KW EER KW EER 40 0 281 2 217 9 13 9 278 8 235 8 12 8 276 1 255 4 11 8 273 1 276 5 10 9 270 0 298 6 10 0 266 3 323 6 92 261 8 347 8 84 251 2 358 5 7 9 240 7 367 9 7 3 42 0 290 1 219 7 14 2 287 6 236 9 13 2 284 8 256 2 12 1 281 7 277 1 11 2 278 4 299 3 10 3 274 6 324 3 9 4 269 1 347 3 8 7 258 1 358 4 8 1 247 2368 2 7 5 44 0 299 3 221 7 14 5 296 7 2384 13 5 293 8 257 2 12 5 290 5 277 8 11 5 287 1 299 9 10 6 283 1 325 2 94 276 5 346 7 8 9 265 1 358 1 8 3 253 9 368 3 7 7 45 0 303 9 222 9 147 301 3 239 3 13 7 298 3 257 8 12 6 295 0 278 3 11 7 291 5 300 3 10 7 287 4 325 6 9 8 280 3 346 3 9 1 268 7 357 8 84 257 3 368 2 7 8 46 0 308 6 2242 14 9 305 9 240 3 13 8 302 91258 6 12 8 299 6 278 8 11 8 296 0 300 7 10 9 291 8 326 0 10 0 284 1 345 9 92 272 4 357 5 8 5 260 8 368 0 8 0 48 0 318 1 227 0 15 1 315 4 242 4 14 1 312 21260 2 13 1 308 8 280 0 12 1 305 0 301 7 11 2 300 7 326 9 10 2 291 8 345 2 9 5 279 8 356 9 8 8 267 8 367 6 8 2 50 0 327 8 230 4 15 4 325 0 245 0 14 4 321 8 262 2 13 4 318 2
199. TROLS FORM 201 23 EG1 1007 INTENTIONALLY LEFT BLANK JOHNSON CONTROLS 115 Electrical Data 2 Comp Standard Efficiency Standard Efficiency YCIV____ SIP System 1 Model No Nameplate Std amp Ultra Quiet Cond Fans High Head Static Cond Fans Two Speed Cond Fans Condenser Fans Compressor Condenser Fans Condenser Fans Input Volts Compressor Compressor VEIN SIP 9 RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 460 60 120 4 2 8 380 60 152 4 3 5 152 4 9 3 0600 400 50 144 4 3 1 144 4 9 3 152 3 8 460 60 159 4 2 8 oirr 380 60 201 4 3 5 201 4 9 3 0650 400 50 191 4 3 1 191 4 9 3 198 3 8 460 60 162 5 2 8 380 60 205 5 3 5 205 5 9 3 0720 400 50 195 5 3 1 195 5 9 3 207 3 8 460 60 145 5 2 8 0207 380 60 184 5 3 5 184 5 9 3 0770 400 50 174 5 3 1 174 5 9 3 185 3 8 460 60 162 5 2 8 ozer 380 60 205 5 3 5 205 5 9 3 0840 400 50 194 5 3 1 194 5 9 3 206 3 8 460 60 193 6 2 8 0247 380 60 245 6 3 5 245 6 9 3 0920 400 50 232 6 3 1 232 6 9 3 246 3 8 460 60 191 6 2 8 0267 380 60 242 6 3 5 242 6 9 3 1000 400 50 230 6 3 1 230 6 9 3 243 3 8 Field Wiring amp Protection Unit Short Circuit Withstand KA Control Std amp Ultra Quiet Cond Fans YCIV SIP KVA 7 Termi Recommended erminal Block Circuit Breaker Minimum Ckt Fuse Ckt Breaker Max Inverse Time Max Dual Element
200. V E IPLV 13 8 V 14 9 AIR TEMPERATURE ON CONDENSER F LCWT CF 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 148 1 119 3 13 4 146 8 127 9 12 5 145 2 136 8 11 6 143 4 146 1 10 8 141 4 155 8 10 0 139 1 166 7 9 3 136 1 177 9 8 5 130 1 186 8 7 8 124 0 196 1 7 1 42 0 152 7 120 3 13 7 151 5 129 0 12 8 149 9 138 0 11 9 148 1 147 3 11 1 146 1 157 0 10 3 143 7 168 0 9 5 140 1 178 8 8 7 133 9 187 6 8 0 127 6196 9 7 3 44 0 157 4 121 4 14 0 156 2 130 1 13 1 154 7 139 2 12 2 152 8 148 6 11 3 150 8 158 3 10 5 148 3 169 3 9 7 144 2 179 8 9 0 137 7 188 7 8 2 131 3 197 7 7 5 45 0 159 8 122 0 142 158 6 130 7 132 157 1 139 8 12 3 155 2 149 2 11 5 153 2 159 0 10 7 150 7 170 0 9 9 146 3 180 3 9 1 139 71189 1 8 3 133 2 198 1 7 6 46 0 162 2 122 6 14 3 161 0 131 3 134 159 5 140 4 124 157 7 149 8 11 6 155 6 159 7 10 8 153 0 170 7 10 0 148 3 180 8 92 141 71189 6 8 4 135 1 198 6 7 6 48 0 167 0 123 7 14 6
201. VIEW B B 1 3 4 Le POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 20 3 8 28 1 8 EDGE OF UNIT TO COOLER CONNECTION 88 1 8 VIEWA A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 70 JOHNSON CONTROLS FORM 201 23 EG1 1007 x 5 8 MOUNTING HOLES TYP Y ORIGIN CONTROL PANEL n E 1 1 5 16 TYP 14 1 8 i 1 i i F 60 Ji 49 3 16 64 3 16 sk p ni 9 1 8 VIEW D D g A 7 D D 93 15 16 45 5 16 Ill 21 10 WATER INLET 4 RIGGING HOLES poe A _ EACH SIDE 3 X 2 85 5 8 284 7 8 180 11 16 92 11
202. Wi KWi COP KWi KWi COP KWi KWi COP 5 0 821 2 201 2 37 807 2 229 1 3 3 7912 259 7 28 762 5 289 7 25 716 5 309 3 22 7074 313 0 2 1 6 0 844 2 202 8 3 8 829 7 230 5 3 3 8129 261 2 29 7814 290 3 25 7339 310 0 22 7243 313 8 2 2 7 0 867 7 2045 3 9 852 5 232 1 3 4 834 9 262 9 3 0 800 6 290 9 2 6 751 6 310 7 23 7400 313 3 2 2 8 0 8915 2064 40 875 8 233 9 3 5 857 5 264 6 3 0 820 1 291 5 2 7 769 8 311 3 23 747 8 3072 2 3 9 0 915 8 2084 40 899 5 235 7 3 5 880 5 266 3 3 1 839 9 292 1 2 7 788 2 311 9 24 7553 300 7 24 10 0 9405 210 4 44 923 7 237 6 3 6 904 0 268 2 3 2 859 8 292 8 2 8 804 7 311 1 24 7624 293 8 24 11 0 965 7 2127 42 948 2 239 6 3 7 927 8 270 0 3 2 880 3 2934 2 8 812 6 304 1 25 769 0 286 5 2 5 12 0 991 2 215 1 4 2 973 3 241 7 3 7 952 1 272 1 3 3 901 1 294 0 2 9 820 0 296 6 26 7752 279 1 2 6 13 0 1017 2 217 0 43 998 6 243 9 3 8 976 9 274 2 3 3 922 2 294 7 2 9 826 9 289 0 27 780 9 272 0 2 7 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Temperature 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW JOHNSON CONTROLS 49 Standard Efficiency Ratings SI 380V 60Hz MODEL YCIV267S P AIR TEMPERATURE ON CONDENSER C L
203. Wo KWi COP 5 0 1088 2 2533 3 9 1070 0 290 7 34 1049 4 333 3 2 9 1017 6 378 6 2 5 949 6 402 1 2 2 935 1 405 8 2 2 6 0 1119 2 255 1 40 1100 1 291 8 3 5 1078 5 334 2 3 0 1043 2 378 7 2 6 972 3 402 2 23 957 5 406 0 22 7 0 1150 8 257 1 41 1130 9 293 2 3 5 1108 3 335 1 3 1 1069 5 378 6 2 6 995 6 402 1 23 9803 406 0 23 8 0 1183 0 259 5 4 1 1162 4 294 7 3 6 1138 6 336 4 3 1 1096 4 378 6 2 7 10194 401 8 24 1003 5 405 8 23 9 0 1215 9 262 2 4 2 11944 296 6 3 7 1169 7 337 7 3 2 11237 378 5 2 8 1043 6 401 4 24 1027 4 405 5 24 10 0 12494 265 2 4 3 1227 1 298 7 3 8 1201 5 339 2 3 3 1151 6 378 5 2 8 1068 3 400 9 25 1051 6 405 0 24 11 0 1283 6 268 6 43 1260 4 301 1 3 8 1233 9 341 0 3 4 1179 4 378 3 2 9 1093 3 400 4 2 6 1076 4 404 5 25 12 0 1318 5 2723 44 1294 4 303 8 3 9 1266 8 343 0 3 4 1207 0 377 9 3 0 1119 0 399 8 2 6 1087 7 3954 26 13 0 1353 8 2764 4 5 1329 1 306 7 4 0 1300 4 345 2 3 5 1235 1 377 6 3 1 1144 9 399 1 27 1096 9 3852 27 MODEL YCIV0357E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP KWo KWi COP 5 0 1234 1 293 3 3 8 1212 4 3324 3 3 1186 6 375 7 29 1151 9 4246 2 5 1089 0
204. ased on 0 168 1 5 cooler water per ton and 0 018 m C kW 48 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0207S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 689 5 1706 37 676 6 196 8 3 2 662 1 226 0 2 8 629 2 248 2 2 4 564 5 248 2 2 1 530 0 233 3 24 6 0 709 0 1717 3 8 6955 197 6 3 3 6800 2266 28 6442 248 0 25 5697 2429 22 5362 228 8 2 2 7 0 728 8 173 0 3 9 7148 198 5 34 6974 226 7 29 6596 247 8 25 5762 238 0 23 5420 223 9 2 3 8 0 749 1 1744 40 7344 199 5 34 7152 226 8 3 0 675 3 2474 2 6 582 3 232 8 24 547 6 219 0 2 3 9 0 769 7 176 1 4 0 754 5 200 6 3 5 733 3 227 1 3 0 691 2 247 0 2 6 588 4 227 7 24 553 1 214 3 24 10 0 790 7 178 1 4 1 774 9 202 0 3 6 751 7 2274 3 1 707 2 246 7 2 7 594 3 222 6 25 558 1 209 8 2 5 11 0 812 1 180 2 42 795 7 203 6 3 6 770 3 227 8 3 2 723 6 246 3 2 8 599 9 217 8 2 6 563 0 205 4 2 6 12 0 834 0 182 6 4 2 816 9 205 3 3 7 789 3 228 2 3 2 740 2 245 9 2 8 605 2 213 2 2 7 567 7 200
205. ating hours starts and anti recycle timer status Status Messages for manual override unit switch off compressor run run permissive remote controlled shut down no cooling load daily holiday shut down anti recycle timer During extreme or unusual conditions i e blocked condenser coils ambient above scheduled maximum etc the chiller control system will avoid safety shut down by varying the chiller controls and cooling load output to stay online and avoid safety limits being reached This allows maximum possible cooling ca pacity until the unusual condition is cleared and avoids costly shutdowns The system monitors the following parameters and maintain the maximum cooling output possible without shutdown of the equipment motor current suction pressure and discharge pressure System Safeties are provided for individual compres sor systems to perform auto reset shut down manual reset required after the third trip in 90 minutes Safe ties include high discharge pressure or temperature low suction pressure high low motor current high motor temperature high pressure switch high low differential oil pressure high oil temperature low suc tion superheat critical sensor malfunction low or high current phase loss single phase power overload of motor windings and low voltage Unit Safeties are provided for the chiller to perform auto reset shut down for the following conditions high or low ambient low leaving chi
206. by contrac tor Opposite Handed evaporator water connections for ease of installation Standard water connections are on the left hand side of the unit when viewed from the control panel end FLOW SWITCH ACCESSORY Vapor proof SPDT NEMA 3R switch 150 PSIG 10 3 bar DWP 20 F to 250 F 28 9 C to 121 1 C with 1 NPT IPS connection for upright mounting in horizontal pipe This flow switch or equivalent must be furnished with each unit Field Mounted DIFFERENTIAL PRESSURE SWITCH Alternative to the paddle type flow switch 3 45 PSIG 0 2 3 bar range with 1 4 NPTE pressure connections Field Mounted BUILDING AUTOMATION SYSTEM INTERFACE Chiller to accept 4 to 20mA or 0 to 10 VDC input to reset the leaving chilled liquid temperature Factory Mounted MULTI UNIT SEQUENCE CONTROL Separate sequencing control center provided to permit control of up to eight chillers in parallel based of mixed liquid temperature interconnecting wiring by others Field Mounted VIBRATION ISOLATION e Neoprene Isolation Recommended for normal in stallations Provides very good performance in most applications for the least cost Field mounted 1 Spring Isolators Level adjustable spring and cage type isolators for mounting under the unit base rails 1 nominal deflection may vary slightly by appli cation Field mounted 2 Seismic Spring Isolators Restrained Spring Flex Mountings incorpora
207. d performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 66 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP 14 1 8 i 1 11 16 86 EN 50 zz 50 dl 9 1 8 VIEW D D 15 16 TYP 93 15 16 10 WATER OUTLET 3 RIGGING HOLES EACH SIDE3X2 84 1 2 112 13 16 POWER SINGLE POINT WITH TERMINAL BLOCK x JOHNSON CONTROLS 67 Dimensions English continued Models YCIV0197E V YCIV0207S P and YCIV0227S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH l VIEW B B 4 3 L i POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C B EDGE OF UNIT TO COOLER CONNECTION 88 1 8 4 VIEW A A YCIV A B D 0197 20 4 28 1 85 6 112 3 0207
208. discharge pressure or temperature low suction pressure high low motor current high motor temperature high pressure switch high low differential oil pressure high oil temperature low suction superheat critical sensor malfunction low or high current phase loss single phase power overload of motor windings and low voltage G Unit Safeties Shall be automatic reset and cause compressors to shut down if high or low ambient low leaving chilled liquid temperature under voltage and flow switch operation Contractor shall provide flow switch and wiring per chiller manufacturer re quirements H Manufacturer shall provide any controls not listed above necessary for automatic chiller operation Mechanical Contractor shall provide field control wiring necessary to interface sensors to the chiller control system 2 07 ACCESSORIES AND OPTIONS Some accessories and options supersede standard product features Your Johnson Controls representative will be pleased to provide assistance A Sound Reduction 1 Provide the following options as required to 136 meet scheduled sound performance data at all load points a Normal speed fans and unlined compressor enclosure Factory Mounted b Two speed fans and acousticallly lined enclo sure Factory Mounted c Sound power octave band data dB per ARI standard 70 and IAW 1503744 at 35 C ambient and 7 C leaving chilled water 2 Provide optional control input to limit sou
209. e safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 98 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES TYP oj ORIGIN 33 T i i t 1 193 _ 2111 _ NM 2377 l 1346 BN 1245 231 CONTROL PANEL 1151 4 RIGGING HOLES EACH SIDE 76 X 51 10 WATER OUTLET 9068 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 99 Dimensions SI continued YCIV1220E V and YCIV1340S P CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 102 254 WIDE X 330 HIG VIEW B B 4 L sos POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 2238 VIEWA A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cu
210. ed IAW ARI Standard 550 590 98 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature which is based on ARI Standard 550 590 44 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0197E V E IPLV 13 1 V IPLV 152 AIR TEMPERATURE ON CONDENSER F LCWT 75 0 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 CF KW EER TONS KW EER KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 189 8 150 0 13 7 188 2 162 3 12 6 186 4 175 9 11 6 184 5 190 5 10 7 182 5 206 0 9 8 180 1 223 2 9 0 176 4 238 4 8 3 169 41245 7 7 7 162 4 252 2 7 2 42 0 195 8 151 2 14 0 194 1 163 1 12 9 192 21176 4 11 9 190 3 190 9 11 0 188 1 206 3 10 1 185 6 223 8 9 3 181 3 238 0 8 5 174 0 245 6 8 0 166 7 252 4 7 4 44 0 201 9 152 7 14 3 200 1 164 2 13 3 198 2 177 1 12 3 196 1 191 4 11 3 193 9 206 8 10 4 191 3 224 3 9 5 186 2 237 5 8 8 178 7 245 3 82 171 2252 3 7 6 45 0 205 0 153 5 14 4 203 2 164 8 13 4 201 3 177 6 12 4
211. een adjacent units 10 No more than one adjacent wall may be higher than the unit 88 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES x Y ORIGIN CONTROL PANEL 33 TYP 358 VIEW D D 3 RIGGING HOLES EACH SIDE 76 X 51 6960 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 89 Dimensions SI continued YCIVO800E V and YCIV0830E V CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 102 1 HI amp H VIEW B B 1 44 _ L 305 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 518 714 EDGE OF UNIT TO COOLER CONNECTION Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be
212. een adjacent units 10 No more than one adjacent wall may be higher than the unit 76 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP x 6 ORIGIN CONTROL PANEL A Q 15 16 TYP L L _ 91 8 T T T uL 4 53 3 8 19 99 76 50 50 5 16 9 1 8 VIEW D D A 1 r r r I 1 TJ LI Ej 7d 45 5 16 93 15 16 ZNAL 0 9 10 WATER OUTLET WATER INLET Al 14 5 8 197 13 16 U 29 7 8 N 401 320 1 2 216 11 16 123 11 16 37 3 16 x 421 1 4 H POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 77 Dimensions English continued Models YCIV0307S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH m POWER ENTRY 4 J 10 WIDE X 13 HIGH VIEW B B T 1 m POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 88 1 8 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance
213. er coil faces and prevents unauthorized ac cess to refrigerant components compressors pipes 7 Accessories and Options Continued cooler etc yet provides free air flow This can cut installation cost by eliminating the need for separate expensive fencing Factory mounted Louvered Panels condenser coils only Painted steel to match unit panels louvered panels are mounted over the exterior condenser coil faces on the sides of the unit to visually screen and protect coils Factory mounted Louvered Panels full unit Painted steel to match unit panels to protect condenser coils from incidental damage visually screen internal components and prevent unauthorized access to internal components Factory mounted Louvered Condensers Wire Panels Mechanical Louvered steel panels on external condenser coil faces painted to match unit panels Heavy gauge welded wire mesh coated to resist corrosion around base of machine to restrict unauthorized access Fac tory Mounted EVAPORATOR OPTIONS 1 1 2 Insulation Double thickness insulation pro vided Factory Mounted Raised Face Flange Accessory for cooler nozzles 150 PSIG 10 3 bar welded flanges field kit matching pipe flange by contractor 150 PSIG 10 3 bar companion weld flanges field kit Not available with 460V units 150 PSIG 10 3 bar ANSI AWWA 606 COU PLINGS field kit matching pipe flange
214. ers are given the Latitude to design around the traditional benefits of air cooled chillers and still offer building owners energy ef ficient system design In the past the choice to use an air cooled chiller came with the expectation of compromise where simplicity of design and maintenance were traded for performance and ef ficiency Now combining the best of both worlds can provide a design that truly delivers the lowest total cost of ownership JOHNSON CONTROLS 3 Specifications POWER AND ELECTRICAL Johnson Controls has over 25 years of experience designing variable speed drives specifically for chiller applications The result is an extremely reliable air cooled chiller system that offers industry leading ef ficiency at real world operating conditions valve less compressor loading unloading excellent capacity control high power factor and soft start All controls and motor starting equipment necessary for unit operation shall be factory wired and function tested VSD Power Control Panel includes main power connection s VSD and fan motor contactors cur rent overloads and factory wiring Standard design includes NEMA 3R IP55 rating powder painted steel cabinet with hinged latched and gasket sealed outer doors equipped with wind struts for safer servicing VSD section of power panel includes a dedicated inverter for each compressor The panel includes control display access door so display and control feature
215. essor kW Input Coefficient of Performance includes condenser fan power Leaving Chilled Water Temperature Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW ARI 550 590 does not provide certification for 50Hz ratings The unique use of the YCIV variable speed drive allows compressor operation at the output speed regardless of the input Unit KW Cooling Capacity Output power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity 38 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV1220E V AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1082 7 247 9 3 9 1064 7 284 7 34 1044 3 326 4 3 0 1013 0 371 0 2 6 945 2 394 1 2 3 930 6 397 6 2 2 6 0 1113 5 249 6 4 0 1094 7 285 8 3 5 1073 2 327 3 3 0 1038 5 371 1 2 6 967 8 394 2 2 3 953 0 397 8 2 2 7 0 1145 0 2516 4 1 1125 3 287 1 3 6 1102 8 328 3 3 1 10647 371 1 2 7 991 1 394 1 24 9758 397 9 2 3 8 0 1177 1 2539 42 1156 5 288 5 3 7 1133 0 329 5 3 2 1091 4 371 0 2 7
216. et sealed outer doors equipped with wind struts for safer servicing Provide main power connection s compressor starters and fan motor contactors current overloads and factory wiring 2 Panel shall include control display access door B Single Point Power As standard for 2 and 3 com pressor chillers 1 Provide single point power connection to chill er shall be 3 phase of scheduled voltage 2 Terminal Block connections shall be provided at the point of incoming single point connec tion C Control Transformer Power panel shall be supplied with a factory mounted and wired control transformer that will supply all unit control voltage from the main unit power supply Transformer shall utilize sched uled line voltage on the primary side and provide 115V 1 on secondary D Short Circuit Withstand Rating of the chiller electrical enclosure shall be 380 400 amp 460V 65 000 Amps Rating shall be IAW UL508 E Motor Starters Motors starters shall be reduced inrush type Wye Delta or Solid State for minimum electrical inrush Across the line type starters will not be acceptable F Power Factor 1 Provide equipment with power factor correc JOHNSON CONTROLS tion capacitors as required to maintain a power factor of 95 at all load conditions 2 The installing contractor is responsible for ad ditional cost to furnish and install power factor correction capacitors if they are not factory mounted and wired
217. gh Head Static Cond Fans Two Speed Cond Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 108 4 2 8 207 4 9 3 136 4 3 5 136 4 9 3 196 4 9 3 202 4 3 8 129 4 3 1 129 4 9 3 135 4 3 8 165 4 2 8 186 5 9 3 208 4 3 5 208 4 9 3 177 5 9 3 188 5 3 8 198 4 3 1 198 4 9 3 203 4 3 8 193 6 2 8 202 5 9 3 244 6 3 5 244 6 9 3 192 5 9 3 204 5 3 8 232 6 3 1 232 6 9 3 245 6 3 8 191 6 2 8 241 6 9 3 241 6 3 5 241 6 9 3 229 6 9 3 243 6 3 8 229 6 3 1 229 6 9 3 243 6 3 8 Field Wiring amp Protection Field Wiring Lugs High Head High Static Fans Two Speed Cond Fans Max Inverse MaxDual Minimum Ckt 2 Max Inverse Max Dual STD Terminal Block OPT Circuit Breaker Time Ckt Brkr Element Fuse Ampacity MCA Breaker Rating Time Ckt Brkr Element Fuse Rating 2 Size 2 3 4 Rating 2 Size 2 Lugs Phase 1 Wire Range Lugs Phase 1 Wire Range 4 2 600 KC 4 410 500 KC 800 800 4 2 600 KC 4 34 0 500 KC 800 800 623 700 800 800 4 2 600 KC 4 4 0 500 KC 4 2 600 KCM 4 4 0 500 KCM 800 800 4 2 600 KCM 4 4 0 500 KCM 800 800 683 800 800 800 4 2 600 KCM 4 4 0 500 KC 4 2 600 KCM 4 4 0 500 KCM 1000 1000 4 2 600 KCM 4 4 0 500 KC 1000 1000 776 1000 1000 1000 4 2 600 KCM 4 4 0 500 KCM 4 2 600 KCM 4 4 0 500 KC 1000 1000 4 2 600 KCM 4
218. he output speed regardless of the input power frequency This allows for common unit heat exchanger configurations between 60Hz and 50Hz with closely matching capacity JOHNSON CONTROLS 33 Standard Efficiency Ratings SI 400V 50Hz MODEL YCIV1000S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 8943 2196 3 7 879 6 2494 33 8626 2822 29 834 9 316 1 25 793 0 3424 22 7846 3475 2 1 6 0 919 1 221 4 38 903 8 251 2 3 3 886 1 2840 2 9 856 0 317 2 25 8126 3436 22 8038 3488 22 7 0 9445 2233 3 9 9286 253 0 34 909 9 286 0 30 8774 3183 26 832 6 344 8 2 3 8217 3488 22 80 970 2 2254 40 953 7 255 0 35 9344 287 9 3 0 899 1 3194 27 8530 3459 23 829 3 3410 23 9 0 996 3 2275 40 979 4 257 0 35 959 2 290 0 3 1 921 3 3205 27 8739 347 1 24 8371 333 1 24 10 0 1023 0 229 8 4 1 10054 259 2 3 6 9846 292 1 3 2 943 6 3217 28 8926 3467 24 8449 325 2 25 11 0 1050 0 232 2 42 1031 8 2615 37 10104 294 2 32 9665 3229 28 900 9 338 2 25 8526 3174 25 12 0 1077 5 234 8 42 1058 8 263 8 37 1036 6 296 5 3 3 989 7 324 0 29 909 1 329 9 26 860 1 309 8 2 6 13 0 1105
219. hing fac tory finish 137 138 JOHNSON CONTROLS FORM 201 23 EG1 1007 JOHNSON CONTROLS 139 a YORK P O Box 1592 York Pennsylvania USA 17504 1592 Tele 800 861 1001 by Johnson Controls 2006 www vork com Subject to change without notice Printed in USA ALL RIGHTS RESERVED Form 201 23 EG1 1007 Supersedes 201 23 EG1 607 File in ET2
220. i KWi COP KWi KWi COP KWi KWi COP 5 0 1055 2 254 8 3 8 1036 1 2040 3 3 1014 7 337 5 28 970 6 3 43 24 868 6 3733 22 8154 3510 22 6 0 1084 9 2565 3 9 1064 9 295 1 3 3 1042 0 3383 29 9937 374 1 25 8765 365 3 23 824 1 343 8 22 7 0 1115 3 2583 4 0 1094 4 296 3 34 1069 2 338 7 3 0 1017 4 3737 26 8857 3576 23 833 7 3369 23 8 0 1146 3 2604 40 1124 5 297 7 3 5 1097 1 339 2 3 0 1041 6 373 3 26 896 0 350 3 24 8426 3297 24 9 0 1178 0 2628 41 1155 3 299 4 36 11254 339 9 3 1 1066 2 3727 27 905 5 3426 25 851 2 3226 25 10 0 1210 2 265 6 42 11866 3014 37 1154 3 3406 32 1091 1 372 1 28 914 9 335 1 26 859 2 315 8 25 11 0 1243 0 268 7 4 3 1218 5 3037 37 1183 7 3415 32 1116 3 371 6 28 923 7 3279 26 8668 309 2 26 12 0 1276 6 272 1 43 1251 1 306 1 3 8 1213 7 3425 3 3 1142 1 371 0 29 9322 321 0 27 874 2 3026 27 13 0 1310 6 2760 44 1284 3 3089 39 1244 1 343 9 34 1168 3 3705 30 939 9 3143 28 8814 296 1 2 8 NOTES 1 kWo Unit kW Cooling Capacity Output 2 kWi Compressor kW Input 3 COP 7 Coefficient of Performance includes condenser fan power 4 LCWT Leaving Chilled Water Tempera
221. i mum 235 PSIG 16 bar refrigerant side design working pressure and 150 PSIG 10 bar water side design working pressure 3 Shell covered with 3 4 19mm flexible closed cell insulation thermal conductivity of 0 26k BTU HR Ft F in maximum Water nozzles with grooves for mechanical couplings and insulated by Contractor after pipe installation 4 Provide vent and drain fittings and thermostati cally controlled heaters to protect to 20 F 29 C ambient in off cycle B Air Cooled Condenser 1 Coils Internally enhanced seamless copper tubes mechanically expanded into aluminum alloy fins JOHNSON CONTROLS FORM 201 23 EG1 1007 with full height collars Subcooling coil an integral part of condenser Design working pressure shall be 450 PSIG 31 bar 2 Low Sound Fans Shall be dynamically and statically balanced direct drive corrosion re sistant glass fiber reinforced composite blades molded into low noise full airfoil cross section providing vertical air discharge from extended orifices Guards of heavy gauge PVC polyvi nyl chloride coated or galvanized steel 3 Fan Motors High efficiency direct drive 3 phase insulation class F current protected Totally Enclosed Air Over TEAO with double sealed permanently lubricated ball bear ings 2 05 POWER AND ELECTRICAL REQUIREMENTS A Power Control Panel 1 NEMA 3R IP55 powder painted steel cabi nets with hinged latched and gask
222. ils 1702 1592 1396 1340 Cu Fin Coils 1702 1704 1739 1682 RS8LS1 AI Fin Coils 1881 1770 1396 1340 RS amp LS1 Fin Coils 1881 1883 1739 1682 LEFT L 91 868 594 868 109 4 868 211 868 Al Fin Coils 1720 1614 1667 1609 Cu Fin Coils 1720 1726 2011 1951 RS8LS1 Fin Coils 1898 1792 1667 1609 RS8LS1 Cu Fin Coils 1898 1905 2011 1951 YCIV0177SIP YCIVO650S P RIGHT R 91 13 594 13 1094 13 211 13 Al Fin Coils 1702 1594 1667 1609 Cu Coils 1702 1706 2011 1951 RS8LS1 AI Fin Coils 1881 1773 1667 1609 838151 Fin Coils 1881 1885 2011 1951 LEFT L 91 868 594 86 8 109 4 86 8 195 7 868 2054 86 8 AI Fin Coils 1715 1579 1559 1274 774 Cu Fin Coils 1715 1700 1898 1653 935 RS8LS1 Fin Coils 1894 1757 1559 1274 774 RS8LS1 Cu Fin Coils 1894 1878 1898 1653 935 YCIV0187S P YCIV0720S P RIGHT R 91 13 594 13 1094 13 1957 13 2654 13 Al Fin Coils 1698 1559 1559 1241 664 Cu Fin Coils 1698 1680 1898 1620 825 RS8LS1 AI Fin Coils 1876 1737 1559 1241 664 RS amp LS1 Cu Fin Coils 1876 1858 1898 1620 825 LEFT L 91 868 594 86 8 109 4 86 8 195 7 86 8 2054 86 8 Al Fin Coils 1728 1680 1768 1512 915 Cu Fin Coils 1728 1801 2108 1892 1076 RS8LS1 Al Fin Coils 1907 1858 1768 1512 915 RS amp LS1 Cu Fin Coils 1907 1980 2108 1892 1076 YCIV0207SIP YCIVO770S P RIGHT R 91 13 584 13 1094 13 1957 13 2654 13 Al Fin Coils 1728 1676 1764 1475 800 Cu Fin Coils 1728 1797
223. ing 3 4 Rating 2 Size 2 3 4 24 30KA 65KA 463 600 600 600 24 65 581 700 700 700 632 800 1070 24 65 552 600 700 700 639 700 24 65 486 600 600 600 TM 24 30KA 65KA 610 700 700 700 659 800 1180 24 30KA 65KA 580 700 700 700 673 800 24 30KA 65KA 528 600 600 600 PR 24 30KA 65KA 667 800 800 800 728 800 1340 24 30KA 65KA 631 700 800 800 730 800 24 30KA 65KA 598 700 700 700 24 30KA 65KA 755 800 800 800 818 1000 1500 24 30KA 65KA 713 800 800 800 824 1000 See page 192 for Electrical Data footnotes 122 JOHNSON CONTROLS FORM 201 23 EG1 1007 System 2 System 3 High Head Static Cond Fans Two Speed Cond Fans Std amp Ultra Quiet Cond Fans High Head Static Cond Fans Two Speed Cond Fans Comp Condenser Fans Comp Condenser Fans Comp Condenser Fans RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 105 4 2 8 179 4 9 3 133 4 3 5 133 4 9 3 170 5 9 3 180 5 3 8 126 4 3 1 126 4 9 3 132 4 3 8 137 5 2 8 173 5 9 3 173 4 3 5 173 4 9 3 164 5 9 3 173 5 3 8 164 5 3 1 164 5 9 3 173 5 3 8 141 6 2 8 193 5 9 3 178 6 3 5 178 6 9 3 183 5 9 3 194 5 3 8 169 6 3 1 169 6 9 3 178 6 3 8 139 6 2 8 229 6 9 3 176 6 3 5 176 6 9 3 218 6 9 3 229 6 3 8 16
224. is reduced to a maximum of two minutes Many utility companies charge an additional fee if power factor is below 0 95 These power factor adjustments penalties can affect both regular tariff rates as well as demand charges All YCIV models have a full load power factor of 95 and maintain this level throughout the operating range Specifications should always require the installing contractor to be responsible for additional cost to furnish and install power factor correction capacitors if they are not fac tory mounted and wired SEMI HERMETIC YORK TWIN SCREW COMPRESSORS Johnson Controls Engineered Systems Chiller Design Team has developed a world class compressor with un equaled performance Continuous function microprocessor controlled VSD provides valveless smooth capacity control from 100 down to 10 of chiller capacity for two compressor chillers and 100 down to 7 5 for three compressor chillers In addition elimination of the slide valve and associated unloading components resulted in a 50 reduction in compressor moving parts Compressors are direct drive semihermetic rotary twin screw type including muffler temperature ac tuated off cycle heater rain tight IP55 terminal box discharge shut off service valve and precision machined cast iron housing mounted on neoprene isolators Reliable suction gas cooled high efficiency acces sible hermetic compressor motor full suction gas flow through 0
225. it is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 64 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP T c e ORIGIN 60 15 16 J 931 3 RIGGING HOLES EACH SIDE 3 X 2 CONTROL PANEL n MN 101 5 8 VIEW D D 50 50 5 16 9 1 8 5 16 WATER OUTLET C F 80 GEM MEC 103 3 8 WATER INLET D 230 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 45 5 16 33 5 16 65 Dimensions English continued Models YCIV0177E V YCIV0177S P YCIV0187E V and YCIV0187S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH 1 1112 i POWER ENTRY 3 Bs 10 WIDE X 13 HIGH VIEW B B 134 W a POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 19 1 8 28 1 8 EDGE ok UNE TO COOLER CONNECTION 88 1 8 VIEW A A YCIV A B 0177 88 1 214 0 0177S P 80 0 230 0 0187E V 88 1 274 0 0187S P 88 1 274 0 Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rate
226. l equipment and material of its manufacture against defects in workmanship and material for a period of eighteen 18 months from date of initial start up or date of availability 1 03 DELIVERY AND HANDLING A Unit shall be delivered to job site fully assembled and charged with refrigerant and oil by the Manufacturer During shipment provide protective covering over vulnerable components Fit nozzles and open ends with plastic enclosures Unit shall be stored and handled per Manufacturer s instructions PART 2 PRODUCTS 2 01 GENERAL A Manufacturers The design shown on the drawings is based on Johnson Controls Alternate equipment will be acceptable if their equipment meets the scheduled performance and complies with these specifications If equipment manufactured by a manufacturer other than that scheduled is utilized then the Mechanical Contractor shall be responsible for coordinating with the General Contractor and all affected Subcontrac tors to insure proper provisions for installation of the furnished unit This coordination shall include but not be limited to the following 1 Structural supports for units 2 Piping size and connection header locations 3 Electrical power requirements and wire conduit and overcurrent protection sizes 4 Chiller physical size on plant layout 5 Site noise considerations The Mechanical Contractor shall be responsible for all costs incurred by the General
227. ld be laid out so that the circulating pump discharges into the cooler The inlet and outlet cooler liquid connections are given in DIMEN SIONS Hand stop valves are recommended for use in all lines to facilitate servicing Drain connections should be provided at all low points to permit complete drainage of the cooler and system piping Astrainer 40 mesh is recommended for use on the INLET line to the cooler and must be in place at initial operation of the water pumps Pressure gauge connections are recommended for instal lation in the inlet and outlet water lines Gauges are not provided with the unit and are to be furnished by others Chilled liquid lines exposed to the weather should be wrapped with a supplemental heater cable and insulated or glycol should be added to the chilled liquid to protect against freezing if low ambient periods are expected A flow switch is available as an accessory on all units A flow switch must be installed in the leaving water piping of the cooler and must not be used to start and stop the unit JOHNSON CONTROLS Guide Specifications FORM 201 23 EG1 1007 PART 1 GENERAL 1 01 SCOPE A The requirements of the General Conditions Supple mentary Conditions and Drawings apply to all work herein B Provide Microprocessor controlled twin screw com pressor air cooled liquid chillers of the scheduled capacities as shown and indicated on the Drawings including but not limited
228. lled liquid temperature under voltage and flow switch operation COMPLETE FACTORY PACKAGE These air cooled chillers are shipped as a complete factory package Each unit is completely assembled with all interconnecting refrigerant piping and internal wiring ready for field installation Each compressor is installed on its own independent refrigerant circuit which is factory pressure tested evacuated then fully charged with R134a refrigerant and oil After assembly an operational test is performed with water flowing through the cooler to ensure each circuit operates correctly Unit panels structural elements control boxes and heavy gauge structural base shall be constructed of galvanized steel Unit panels control boxes and structural base are finished with a baked on powder paint All painted surfaces shall be coated with baked on powder paint which when subject to ASTMB117 1 000 hour 5 salt spray test yields minimum ASTM 1654 rating of 6 Design is IAW applicable sections of ASME Pressure Vessel Code NFPA 70 National Electrical Code U L and cU L Standards and ASHRAE ANSI 15 Safety Code for Mechanical Refrigeration Units are Rated all and Certified 140 200 tons IAW ARI Standard 550 590 98 Design is IAW ASHRAE 90 1 Energy Standard for Building Except Low Rise Residential Buildings and ARI 70 Sound Rating of Large Outdoor Refrigeration and Air Conditioning Equipment YCIV chillers are designed wi
229. lude aluminum fins copper tubes and galvanized tube supports for generally good corrosion resistance However these materials are not adequate for all environments The system designer can take steps to inhibit coil corrosion in harsh applica tions and enhance equipment life by choosing from these options based on project design parameters and related environmental factors Factory Mounted PRE COATED FIN CONDENSER COILS The air cooled condenser coils are constructed of epoxy coated aluminum fins This can provide corrosion resistance comparable to copper fin coils in typical seashore locations Either these or the post coated coils below are recommended for units being in stalled at the seashore or where salt spray may hit the unit POST COATED EPOXY DIPPED CONDENSER COILS The unit is built with dipped cured epoxy condenser coils This is another choice for seashore and other corrosive applications with the exception of strong alkalies oxidizers and wet bromine chlo rine and fluorine in concentrations greater than 100 ppm COPPER FIN CONDENSER COILS The unit con structed with copper tube condenser coils which have copper fins This is not recommended for units in areas where they may be exposed to acid rain PROTECTIVE CHILLER PANELS Wire Panels full unit UV stabilized black polyvi nyl chloride coated heavy gauge welded wire mesh guards mounted on the exterior of the unit Protects condens
230. ly bal anced direct drive corrosion resistant glass fiber reinforced composite blades molded into low noise full airfoil cross section providing vertical air discharge from extended orifices Guards of heavy gauge PVC polyvinyl chloride coated Standard and reduced sound level models have JOHNSON CONTROLS condensers fitted with single speed fans Low sound models have two speed fans fitted The fan motors are the high efficiency direct drive 6 pole on standard sound models and 8 pole on reduced and low sound models 3 phase Class F current overload protected totally enclosed TEAO type with double sealed permanently lubricated ball bearings Fin and tube condenser coils of seamless internally enhanced high condensing coefficient corrosion re sistant copper tubes arranged in staggered rows and mechanically bonded to corrosion resistant aluminum alloy fins with full height fin collars Design working pressure is 450 PSIG 31 bar MICROPROCESSOR CONTROLS Microprocessor control system provides automatic control of chiller operation including compressor start stop and load unload anti recycle timers condenser fans evaporator pump evaporator heater unit alarm contacts and run signal contacts Chiller automatically resets to normal chiller operation after power failure Unit operating software is stored in non volatile memory Field programmed set points are retained in lithium battery backed regulated
231. mpres SOr Oil cooling provided by dedicated air cooled finned tube type heat exchanger located in the condenser section of the machine A flash tank is located in each refrigerant circuit to increase the system efficiency The design working pressure is 450 PSIG 31 bar Suction lines oil separators and flash tanks are cov ered with closed cell insulation EVAPORATOR High efficiency direct expansion type cooler with re frigerant in tubes and chilled liquid through the baffled shell Independent circuits provided for each compres sor Design working pressure of the shell waterside is 150 PSIG 10 3 bar and 235 PSIG 16 bar for the refrig erant side Constructed and tested IAW applicable sections of ASME Pressure Vessel Code Section VIII Division 1 Water side exempt per paragraph U 1 6 Removable heads allow access to internally en hanced seamless copper tubes Water vent and drain connections included The evaporator is equipped with a thermostatically controlled heater for protection to 20 F 29 C am bient and shell is covered with 3 4 19mm flexible closed cell insulation thermal conductivity of 0 26k BTU HR Ft F in maximum Water nozzles have grooves for mechanical ANSI AWWA C 606 couplings and shall be insulated by Contractor after pipe installation See the Accessories and Options section for flange options CONDENSER SECTION Condenser fans are dynamically and statical
232. n KWi 37 37 37 37 Total Chiller m3 s 92 117 117 129 Evaporator Direct Expansion Water Volume liters 764 6 764 6 893 3 893 3 Maximum Water Side Pressure Bar 10 10 10 10 Maximum Refrigerant Side Pressure Bar 16 16 16 16 Minimum Chilled Water Flow Rate l sec 16 16 19 19 Maximum Chilled Water Flow Rate l sec 76 76 76 76 Water Connections mm 245 245 245 245 Contact your nearest Johnson Controls Sales Office for weight data JOHNSON CONTROLS 63 Dimensions English Models YCIV0157E V and YCIV0157S P CONTROL ENTRY 3 WIDE X 13 1 2 HIGH I POWER ENTRY 10 WIDE X 13 HIGH VIEW B B 134 La VIEW C C POWER ENTRY IS ON BOTTOM OF PANEL A B EDGE OF UNIT TO COOLER CONNECTION 8818 VIEW A A YCIV A B D 0157 19 1 28 1 84 5 112 8 01575 174 29 1 90 0 110 1 Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the un
233. n 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 JOHNSON CONTROLS Compressor Input Power Chiller EER includes power from compressors fans and control panels 0 8 KWi Leaving Chilled Water Temperature 47 Standard Efficiency Ratings SI 380V 60Hz MODEL YCIV0157S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 528 8 133 1 3 6 520 9 1522 3 2 511 8 1728 28 4974 196 1 24 4622 2146 20 4550 218 5 2 0 6 0 543 2 1340 37 535 0 152 9 3 2 5255 1737 2 8 509 5 196 7 24 4733 2153 2 1 465 8 219 2 2 0 7 0 5579 1349 38 5494 153 8 3 3 539 5 1745 2 9 521 7 197 3 25 4845 216 0 2 1 476 8 219 9 2 0 8 0 572 9 135 8 3 8 564 1 154 6 34 553 7 1754 2 9 533 9 197 9 25 495 5 2169 22 4879 220 6 2 1 9 0 588 0 1368 3 9 578 9 155 6 34 568 2 176 3 3 0 546 3 198 5 2 6 507 2 217 5 2 2 4992 2213 2 1 10 0 603 4 1379 40 594 1 156 6 3 5 583 0 177 3 3 1 558 9 199 1 2 6 519 0 218 1 22 5108 2220 2 2 11 0 619 1 139 1 4 1 609 5 157 6 3 6 598 0
234. nd out put of the chiller based on time of day Shall be programmable at the chiller panel or controlled remotely via signal 4 20mA or 0 10 VDC from BAS system Chillers without this feature shall be provided with the necessary sound attenuation to meet the scheduled sound performance data at all load points B Power Supply Connections 1 Circuit breaker is optional at point of incoming single point connection to provide disconnecting means AND be sized to provide the motor branch circuit protection short circuit protection and ground fault protection for the motor branch circuit conductors the motor control apparatus and the motors Circuit breaker shall be equipped with lockable operating handle that shall extend through power panel door so that power may be discon nected without opening any panel doors C Condenser Coil Environmental Protection 1 PRE COATED FIN CONDENSER COILS The air cooled condenser coils are constructed of epoxy coated aluminum fins 2 COPPERFIN Provide condenser coils with cop per fins in lieu of aluminum fins 3 POST COATED EPOXY DIPPED CONDENSER COILS The unit is built with dipped cured con denser coils D Protective Chiller Panels Factory Mounted 1 Louvered Panels condenser coils only Painted Steel to match unit panels over external condenser coil faces 2 Wire Panels full unit Heavy gauge welded wire mesh coated to resist corrosion to protect con den
235. nd structural base are finished with a baked on powder paint All painted surfaces shall be coated with baked on powder paint which when subject to ASTMB117 1 000 hour 5 salt spray test yields minimum ASTM 1654 rating of 6 E Unit shall ship in one piece and shall require installer to provide only a single evaporator inlet and outlet pipe connection If providing chiller model that ships in multiple pieces bid shall include all the material and field labor costs for factory authorized personnel to install a trim kit to connect the pieces as well as all interconnecting piping and wiring 2 02 COMPRESSORS AND MOTORS A Compressors Shall be direct drive semihermetic rotary twin screw type including muffler tempera ture actuated off cycle heater rain tight terminal box discharge shut off service valve and precision machined cast iron housing mounted on neoprene isolators Design working pressure of entire compres sor suction to discharge shall be 350 PSIG 24bar or higher Compressor shall be U L Recognized B Motors Refrigerant suction gas cooled accessible hermetic compressor motor full suction gas flow through 0 006 maximum mesh screen with inher ent internal thermal overload protection and external current overload on all three phases C Lubrication External oil separators with no moving parts 450 PSIG design working pressure and UL listing Refrigerant system differential pressure shall 134
236. nimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 92 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES TYP ORIGIN CONTROL PANEL VIEW D D A 71 D 2387 1151 4 RIGGING HOLES 10 WATER INLET A EAGH SIDES 10 WATER OUTLET 2009 7236 4590 846 8077 2 POWER SINGLE POINT WITH TERMINAL BLOCK e JOHNSON CONTROLS 93 Dimensions SI continued YCIV1050E V and YCIV1070S P CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 254 WIDE X 330 HIGH 102 j VIEW B B ii 1j 305 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 2238 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall
237. nt Loads Ibs 60 Hz 50 Hz 1 2 3 4 5 6 7 LEFT L 91 868 594 868 972 868 1614 86 8 210 6 86 8 307 9 868 Fin Coils 1728 1638 1248 1160 1265 1005 Cu Fin Coils 1728 1728 1488 1435 1614 1246 RS8LS1 Al Fin Coils 1907 1817 1248 1160 1265 1005 RS amp LS1 Cu Fin Coils 1907 1907 1488 1435 1614 1246 02675 YCIV1000S P RIGHT R 91 13 594 13 972 13 1614 13 2106 13 307 9 13 Fin Coils 1728 1638 1248 1160 1265 1005 Cu Fin Coils 1728 1728 1488 1435 1614 1246 RS8LS1 AI Fin Coils 1907 1817 1248 1160 1265 1005 RS amp LS1 Cu Fin Coils 1907 1907 1488 1435 1618 1246 LEFT L 91 868 58 1 86 8 111 1 868 2047 86 8 284 9 86 8 368 868 Fin Coils 1753 1585 1821 1810 2123 1175 Cu Fin Coils 1775 1757 2165 2156 2467 1347 RS amp LS1 Al Fin Coils 1929 1761 1821 1810 2189 1462 RS amp LS1 Cu Fin Coils 1885 1933 2165 2156 2533 1634 YCIV0287SIP YCIV1070S P RIGHT R 91 13 581 13 111 13 2047 13 2849 13 368 13 Fin Coils 1753 1596 2407 2414 2635 1179 Cu Fin Coils 1775 1768 2751 2760 2978 1351 RS8LS1 Fin Coils 1929 1773 2407 2414 2701 1466 RS amp LS1 Cu Fin Coils 1951 1944 2751 2760 3045 1638 LEFT L 91 868 581 868 111 1 86 8 204 7 86 8 284 9 86 8 368 868 Al Fin Coils 1753 1585 1953 1978 2304 1184 Cu Fin Coils 1775 1757 2297 2324 2648 1356 RS amp LS1 Al Fin Coils 1929 1761 1953 1978 2370 1470 RS amp LS1 Cu Fin Coils 1951 1933 2297 2324 271
238. ompressors Semihermetic Screw Quantity per Chiller 3 3 3 3 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area m 35 38 44 49 Number of Rows 3 3 3 3 Fins per meter 669 669 669 669 Condenser Fans Number Ckt 1 Ckt 2 5 4 4 5 5 4 5 5 6 6 6 6 Low Noise Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow l sec 79768 85904 98176 110448 Ultra Quiet Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow l sec 79768 85904 98176 110448 Dual Speed Fans Normal Speed Fan KWi 15 1 5 1 5 1 5 Total Chiller m3 s 67 67 78 78 Dual Speed Fans Lower Speed Fan KWi 15 1 5 1 5 1 5 Total Chiller m3 s 52 52 59 59 High Static Fans Fan KWi 37 37 37 37 Total Chiller m3 s 80 86 98 110 Evaporator Direct Expansion Water Volume liters 764 6 893 3 893 3 893 3 Maximum Water Side Pressure Bar 10 10 10 10 Maximum Refrigerant Side Pressure Bar 16 16 16 16 Minimum Chilled Water Flow Rate l sec 16 19 19 19 Maximum Chilled Water Flow Rate l sec 76 76 76 76 Water Connections mm 245 245 245 245 Contact your nearest Johnson Controls Sales Office for weight data JOHNSON CONTROLS 61 Physical Data SI High Efficiency Refrigerant R 134a EFFICIENCY MODEL NUMBER EN Bata 60Hz 0157 0177 0187 0197 0207 0227 0247
239. on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 96 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES TYP ORIGIN 2 2 amp i J 33 TYP i 193 1 483 2515 1930 VIEW D D 2387 M a AK E Eg AN ANJA 1 5 RIGGING HOLES EACH SIDE 76 X 51 10 WATER OUTLET 10 WATER INLET 5024 10185 8141 5504 3142 945 10699 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 97 Dimensions SI continued YCIV1180S P CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 254 WIDE X 330 HIG VIEW B B TY 4 4 Lax POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 2238 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressur
240. oncentration gal 5 4 5 5 6 0 6 3 Comp s Semihermetic Screw Quantity per Chiller 3 3 3 3 Condensers High Efficiency Fin Tube with Integral Subcooler Total Chiller Coil Face Area ft2 381 411 469 528 Number of Rows 3 3 3 3 Fins per Inch 17 17 17 17 Condenser Fans Number Ckt 1 Ckt 2 5 4 4 5 4 4 5 5 6 6 6 6 Low Noise Fans Fan Motor HP kWi 21 8 2 1 8 2 1 8 2 1 8 Total Chiller Airflow cfm 169000 182000 208000 234000 Ultra Quiet Fans Fan Motor HP kWi 2 1 50 2 1 50 2 1 50 2 1 50 Total Chiller Airflow cfm 169000 182000 208000 234000 Dual Speed Fans Normal Speed Fan Motor hp 2 2 2 2 Total Chiller CFM 143000 143000 165000 165000 Dual Speed Fans Lower Speed Fan Motor hp 2 2 2 2 Total Chiller CFM 109200 109200 126000 126000 High Static Fans Fan Motor hp 5 5 5 5 Total Chiller CFM 169000 182000 208000 234000 Evaporator Direct Expansion Water Volume gals 202 0 236 0 236 0 236 0 Maximum Water Side Pressure PSIG 150 150 150 150 Maximum Refrigerant Side Pressure PSIG 235 235 235 235 Minimum Chilled Water Flow Rate gpm 250 300 300 300 Maximum Chilled Water Flow Rate gpm 1200 1200 1200 1200 Water Connections inches 10 10 10 10 Contact your nearest Johnson Controls Sales Office for weight data JOHNSON CONTROLS 57 Physical Data English High Efficiency Refrigerant R 134a HIGH EFFICIENCY MODEL NUMBER YCIV E V
241. p LS1 Cu Fin Coils 885 858 1281 1369 1327 731 563 LEFT L 230 2204 1510 2204 2780 2204 4710 2204 7572 2204 9530 2204 11582 2204 Al Fin Coils 801 729 886 897 926 637 479 Cu Fin Coils 811 796 1015 1072 1101 766 533 RS8LS1 Fin Coils 881 809 886 897 926 717 559 RS amp LS1 Cu Fin Coils 891 876 1015 1072 1101 846 613 YCIV0397SIP YCIV1500S P RIGHT R 230 32 1510 32 2780 32 4710 32 7572 32 9530 32 11582 32 Fin Coils 801 734 1152 1194 1192 642 479 Cu Fin Coils 811 788 1281 1369 1367 771 533 RS8LS1 Fin Coils 881 814 1152 1194 1192 722 559 RS amp LS1 Cu Fin Coils 891 868 1281 1369 1367 851 613 NOTES 1 RS Reduced Sound Option LS Low Sound Option JOHNSON CONTROLS 109 Isolator Locations SI continued CONTROL PANEL HIGH EFFICIENCY SI MODEL Isolator Locations x y mm and Point Loads kg 60 Hz 50 Hz 1 2 3 4 5 6 LEFT L 230 2204 1510 2204 2780 2204 5360 2204 Al Fin Coils 772 723 756 730 Cu Fin Coils 772 774 912 885 RS8LS1 Al Fin Coils 853 804 756 730 RS8LS1 Cu Fin Coils 853 855 912 885 YCIVO1S7EN YCIVOS90EV RI
242. portant on evenings and weekends when neighbors are home the most Due to time of day based sound regulations it may be desirable to force the chiller to a lower sound level on demand The SilentNight control option provides a control input to limit sound output of the chiller based on time of day This feature is programmable at the chiller panel or can be controlled remotely via signal 4 20mA or 0 10 VDC from a BAS system CIRCUIT BREAKER Power panel will come equipped with a factory mounted circuit breaker at point of incom JOHNSON CONTROLS ing single or multi point connection that provides the following Means to disconnect power mounted on chiller Circuit breaker sized to provide the motor branch circuit protection short circuit protection and ground fault protection for the motor branch circuit conductors the motor control apparatus and the motors Chiller mounted circuit breaker option sized for branch circuit protection eliminates the need to provide a separate line of sight disconnect and separate branch circuit protection device Lockable operating handle that extends through power panel door so that power may be disconnected without opening any panel doors Short Circuit Withstand Rating of the chiller electrical enclosure when using circuit breaker option is 380 400 amp 460V 65 000 Amps Rating IAW UL508 CONDENSER COIL PROTECTION Standard con denser coil construction materials inc
243. r HP 2 2 2 2 2 2 2 Total Chiller Airflow cfm 104000 104000 117000 117000 130000 143000 156000 Dual Speed Fans Normal Speed Fan Motor hp 2 2 2 2 2 2 2 Total Chiller CFM 88000 88000 99000 99000 110000 121000 132000 Dual Speed Fans Lower Speed Fan Motor hp 2 2 2 2 2 2 2 Total Chiller CFM 67200 67200 75600 75600 84000 92400 100800 High Static Fans Fan Motor hp 5 5 5 5 5 5 5 Total Chiller CFM 104000 104000 117000 117000 130000 143000 156000 Evaporator Direct Expansion Water Volume gals 67 0 95 0 95 0 140 0 140 0 140 0 140 0 Maximum Water Side Pressure PSIG 150 150 150 150 150 150 150 Maximum Refrigerant Side Pressure PSIG 235 235 235 235 235 235 235 Minimum Chilled Water Flow Rate gpm 140 160 160 180 180 180 180 Maximum Chilled Water Flow Rate gpm 675 750 750 800 800 800 800 Water Connections inches 8 10 10 10 10 10 10 Contact your nearest Johnson Controls Sales Office for weight data 56 JOHNSON CONTROLS FORM 201 23 EG1 1007 STANDARD EFFICIENCY Refrigerant R 134a MODEL NUMBER S P 60Hz 0287 0307 0357 0397 50Hz 1070 1180 1340 1500 Number of Independent Refrigerant Circuits 3 3 3 3 Refrigerant Charge R 134a Ckt 1 Ckt 2 Ibs 185 170 170 185 185 170 185 185 230 230 230 230 Oil Charge Ckt 1 Ckt 2 gal 5 4 4 5 4 4 5 5 5 5 5 5 Glycol Charge 43 c
244. s Roof Locations Adequate structural strength to safely support the entire weight of the unit and service person nel must be provided Care must be taken not to damage the roof during installation If the roof is bonded consult building contractor or architect for special installation re quirements Roof installations should incorporate the use 132 of spring type isolators to minimize the transmission of vibration into building structure Additional support should be provided to the roof at the spring isolator locations Ground Locations Units must be installed on a sub stantial base that will not settle and cause strain on the refrigerant lines resulting in possible leaks A one piece concrete slab with footers extending below the frost line is recommended The slab should not be tied to the main building foundation as noises will telegraph Mounting holes 5 8 are provided in the base rails for bolting the unit to its foundation See DIMENSIONS for location of the mounting holes For ground installations precautions should be taken to protect the unit from tampering by or injury to unauthor ized persons Fasteners on access panels will prevent casual tampering however further safety precautions such as unit enclosure options a fenced in enclosure or locking devices on the panels may be advisable Check local authorities for safety regulations CHILLED LIQUID PIPING The chilled liquid piping system shou
245. s Two Speed Cond Fans Compressor Condenser Fans Compressor Condenser Fans Compressor Condenser Fans Input Volts Input Freq 9 RLA 5 Qty FLA EA RLA 5 Qty FLA EA RLA 5 Qty FLA EA 460 60 110 4 2 8 Sint 380 60 139 4 3 5 139 4 9 3 0590 400 50 132 4 3 1 132 4 9 3 138 4 3 8 460 60 111 5 2 8 Wn 380 60 141 5 3 5 141 5 9 3 0630 400 50 134 5 3 1 134 5 9 3 139 5 3 8 460 60 154 5 2 8 id 380 60 195 5 3 5 195 5 9 3 0700 400 50 185 5 3 1 185 5 9 3 196 5 3 8 460 60 141 5 2 8 ind 380 60 179 5 3 5 179 5 9 3 0760 400 50 170 5 3 1 170 5 9 3 180 5 3 8 460 60 141 6 2 8 aid 380 60 179 6 3 5 179 6 9 3 0800 400 50 170 6 3 1 170 6 9 3 178 6 3 8 460 60 150 6 2 8 0227 380 60 190 6 3 5 190 6 9 3 0830 400 50 180 6 3 1 180 6 9 3 189 6 3 8 460 60 194 6 2 8 380 60 245 6 3 5 245 6 9 3 0930 400 50 233 6 3 1 233 6 9 3 246 6 3 8 Field Wiring amp Protection Unit Short Circuit Withstand KA Control Std amp Ultra Quiet Cond Fans KVA 7 Termi NE Recommended erminal Block Circuit Breaker Minimum Ckt Fuse Ckt Breaker Max Inverse Time Max Dual Element STD OPT Ampacity MCA 3 Rating 4 Ckt Brkr Rating 2 Fuse Size 2 0157 1 8 65 270 300 350 350 1 8 65 341 400 450 450 0590 1 8 65 322 400 450 450 0177 1 8 30KA 65KA 288 350 400 400 1 8 30KA 65KA 365 450 500 500 0630 1 8 30KA 65KA 344 400 450 450 0187 1 8 30KA 65KA 325 400 450 450 1 8 30KA 65KA 411 500 600 600 0700 1 8 3
246. s can be accessed without opening main cabinet doors Two and three compressor models come standard with single point power connection In addition all models are supplied with a factory mounted and wired control transformer that will supply all unit control voltage from the main unit power supply The transformer utilizes scheduled line voltage on the primary side and pro vides 115V 1 on secondary The standard power panel is equipped with terminal block electrical connections at the point of incoming power An optional factory mounted circuit breaker is available at point of incoming single point connection that provides the means to disconnect power and short circuit protection The optional lockable operating handle extends through the power panel door so that power may be disconnected without opening any panel doors Short Circuit Withstand Rating of the chiller electri cal enclosure is 30 000 Amps for standard terminal block connection Ratings IAW in accordance with UL508 See Accessories and Options section Can be increased to 65 000 Amps for 380 400 amp 460V Compressor motors are powered by a variable speed drive Therefore motor current never exceeds the rated load amps RLA providing soft starts with no electrical inrush This eliminates the motor heating and stress always found with conventional motor starters In addition by eliminating the heat build up during starting the required off time between starts
247. ser coils from incidental damage and restrict unauthorized access to internal components 3 Louvered Panels full unit Painted steel to match unit panels to protect condenser coils from inci dental damage visually screen internal compo nents and prevent unauthorized access to internal JOHNSON CONTROLS FORM 201 23 EG1 1007 components 4 Louvered Wire Panels Louvered steel panels on external condenser coil faces painted to match unit panels Heavy gauge welded wire mesh coated to resist corrosion around base of machine to restrict unauthorized access E Evaporator options 1 Provide 1 1 2 38mm cooler insulation in lieu of standard 3 4 19mm 2 Provide Raised Face Flanges for cooler nozzles a 150 PSIG 10 3 bar welded flanges field kit matching pipe flange by contractor b 150 PSIG 10 3 bar companion flanges not available with 460V units c 150 PSIG 10 3 bar ANSI AWWA C 606 couplings field kit matching pipe flange by contractor F Flow Switch Field Mounted Vapor proof SPDT NEMA 3R switch _ 150 PSIG 10 3 bar or ___ 300 PSIG 20 7 bar 20 F to 250 F 28 9 C to 121 1 C G Building Automation System Interface 1 Chiller to accept 4 to 20mA or 0 to 10 VDC input to reset the leaving chilled liquid tem perature Factory Mounted H Multi Unit Sequence Control Field Mounted Sepa rate Sequencing control center provided to permit control of up to eight chillers in
248. t the normal speed with sound levels equivalent to Ultra Quiet Fans As the ambient temperature falls the fans automatically reduce to slow speed reducing sound levels If very low sound is required at all ambient condi tions normal fan speed can be inhibited Reduced Sound Option Factory Mounted With this option the chiller is equipped with an unlined compres sor enclosure This option is typically used for daytime operation where background noise is lower than normal city traffic etc Low Sound Option Factory Mounted This option is only available with the selection of Ultra Quiet Fans or Two Speed Fans The chiller is equipped with an acousti cally lined compressor enclosure This option is typically for locations near residential areas hotels or hospitals etc where background noise is limited When paired with the Two Speed Fan option the unit can operate at normal speed during the day when background noise levels are noticeable and at low speed in the evening and at night when background levels are lower SilentNight Standard variable speed compressors result in a chiller system that has lower part load sound values than conventional air cooled chillers Over 99 of chiller operating hours occur when building loads are less than design and or ambient temperatures are less than design As a result all YCIV model chillers will operate with less than full load sound output nearly all the time this is especially im
249. te a rugged welded steel hous ing with vertical and horizontal limit stops Housings designed to withstand a minimum 1 0g accelerated force in all directions to 2 51mm Level adjustable deflection may vary slightly by application Field mounted BUY AMERICAN ACT COMPLIANCE In keeping with the Buy America Act products will be comprised of 50 or more U S content and manufactured final assembly in the U S A SERVICE ISOLATION VALVE Service suction isola tion added to unit for each refrigerant circuit Factory Mounted CHICAGO CODE RELIEF VALVE Special relief valves per Chicago code Factory Mounted PRESSURE RELIEF CE PED SERVICE VALVE KIT Each relief valve is mounted on a sealable ball valve to aid maintenance Factory Mounted JOHNSON CONTROLS FORM 201 23 EG1 1007 Nomenclature NOMENCLATURE The Model Number denotes the following characteristics of the unit YORK Chiller Air Cooled V Variable Speed Driv Voltage Code 40 380 3 60 46 460 3 60 50 400 3 50 Nominal Capacity Tons Refrigerant R134a Unit Designato S Standard Efficiency P Standard Efficiency Optimized IPLV E High Efficiency High Ambient V High Efficiency High Ambient Optimized IPLV JOHNSON CONTROLS 9 Temperatures and Flows TEMPERATURE AND FLOWS English Units LEAVING WATER
250. ther on a roof or on ground level See FOUNDATION 2 Selecta place having an adequate supply of fresh air for the condensers Recommended clearances for all units are shown on the DIMENSIONS pages 3 Avoid locations near windows or structures where normal operating sounds may be objectionable 4 The standard condenser fans are propeller type and are not recommended for use with ductwork filters or other impedements to airflow in the condenser air stream 5 When it is desirable to surround the unit s it is rec ommended that the screening be able to pass the required chiller CFM without exceeding 0 1 external static pressure 6 Protection against corrosive environments is available by supplying the units with either copper fins or cured epoxy coating on the condenser coils Epoxy coated coils should be utilized with any units being installed at the seashore or where salt spray may hit the units or where acid rain is prevalent copper condenser coils are not recommended where they may be exposed to acid rain 7 Oninstallations where winter operation is intended and snow accumulations are expected additional eleva tion must be provided to insure normal condenser air flow FOUNDATION The unit should be mounted on a flat and level founda tion ground or roof capable of supporting the entire operating weight of the equipment Please contact your nearest Johnson Controls Sales Office for shipping and operating weight
251. thin EN ISO 9001 and built within an EN ISO 9002 accredited manufacturing organization All exposed power wiring routed through liquid tight UV stabilized non metallic conduit When required chillers have the option available to conform with the following European Directives 50 Hz only Machinery Directive 89 9 EEC Low Voltage Directive 7 EEC EN 600 EMC Directive 89 6 EEC Pressure Equipment Directive 97 EC Safety Code for Mechanical Refrigeration EN78 JOHNSON CONTROLS Accessories and Options FORM 201 23 EG1 1007 SOUND REDUCTION OPTIONS The standard chiller has fans that operate at normal speed no compressor enclosure and is typically used in non sensitive sound areas such as industrial areas or locations with loud traffic background noise One or more of the following sound re duction options may be employed by the system designer as normally generated machine noise is considered in the overall project design Ultra Quiet Fans Factory Mounted With this option the basic chiller is equipped with specially designed fans and motors to provide lower sound levels and retain ap propriate airflow The result is reduced fan generated noise with no adverse effect on the chiller capacity or efficiency performance Two Speed Fans Factory Mounted With this option the basic chiller is equipped with fans designed with two operating speeds At high ambient conditions the fans operate a
252. time clock RTC memory for minimum 5 years Alarm contacts are provided to remote alert contacts for any unit or system safety fault Display and Keypad 80 character liquid crystal display that is both view able in direct sunlight and has LED backlighting for nighttime viewing One keypad and display panel is provided with every chiller Display and keypad is accessible through display access door without opening main control electrical cabinet doors Display provides unit setpoints status electrical data temperature data pressures safety lock outs and diagnostics without the use of a coded display Descriptions in English or available language op tions numeric data in English or Metric units Sealed keypad shall include unit On Off switch Programmable Setpoints within Manufacturer limits display language leaving chilled liquid temperature setpoint control range local or remote control units of measure compressor lead lag and maximum chilled water setpoint reset temperature range Display Data Chiller liquid return and leaving tempera tures ambient lead compressor identification clock Specifications Continued and schedule variable out of range remote input indication chilled liquid reset setpoint and history data for last ten shutdown faults Compressor suc tion discharge and oil pressures and temperatures suction and discharge superheats percent of full load oper
253. tions between 60Hz and 50Hz with closely matching capacity 32 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV0770S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 689 5 1706 37 676 6 196 8 3 2 662 1 226 0 2 8 629 2 248 2 2 4 564 5 248 2 2 1 530 0 233 3 24 6 0 709 0 1717 3 8 6955 197 6 3 3 6800 2266 28 6442 248 0 25 5697 2429 22 5362 228 8 2 2 7 0 728 8 173 0 3 9 7148 198 5 34 6974 226 7 29 6596 247 8 25 5762 238 0 23 5420 223 9 2 3 8 0 749 1 1744 40 7344 199 5 34 7152 226 8 3 0 675 3 2474 2 6 582 3 232 8 24 547 6 219 0 2 3 9 0 769 7 176 1 4 0 754 5 200 6 3 5 733 3 227 1 3 0 691 2 247 0 2 6 588 4 227 7 24 553 1 214 3 24 10 0 790 7 178 1 4 1 774 9 202 0 3 6 751 7 2274 3 1 707 2 246 7 2 7 594 3 222 6 25 558 1 209 8 2 5 11 0 812 1 180 2 42 795 7 203 6 3 6 770 3 227 8 3 2 723 6 246 3 2 8 599 9 217 8 2 6 563 0 205 4 2 6 12 0 834 0 182 6 4 2 816 9 205 3 3 7 789 3 228 2 3 2 740 2 245 9 2 8 605 2 213 2 2 7 567 7 200 9
254. touts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 2m rear to wall 2m control panel end to wall 1 2m top no obstructions whatsoever distance between adjacent units 10 No more than one adjacent wall may be higher than the unit 100 JOHNSON CONTROLS FORM 201 23 EG1 1007 16 MOUNTING HOLES TYP ORIGIN nm U ZZ II 231 EE 1356 E 1882 ak a M PERS 1278 231 VIEW D D CONTROL PANEL 33 TYP 1151 B RIGGING HOLES EACH SIDE 76 X 51 0 WATER INLET 5024 10185 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 101 Dimensions SI continued YCIV1380E V and YCIV1500S P CONTROL ENTRY 76 WIDE X 343 HIGH POWER ENTRY 102 254 WIDE X 330 HIG VIEW B B m 305 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 2238 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts
255. trol panels 0 8 KWi which is based on ARI Standard 550 590 JOHNSON CONTROLS Leaving Chilled Water Temperature Ratings based on 2 4 GPM cooler water per ton Rated IAW ARI Standard 550 590 98 Certified IAW the ARI Water Chilling Packages Using the Vapor Compression Cycle Certification Program 17 Standard Efficiency Ratings English 460V 60Hz MODEL YCIV0267S P 5 IPLv 123 IPLV 14 9 AIR TEMPERATURE ON CONDENSER F 80 0 85 0 90 0 95 0 100 0 105 0 110 0 115 0 F TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER TONS KW EER 40 0 252 3 217 0 12 8 250 2 233 1 11 9 247 9 250 3 11 0 245 4 268 3 10 2 242 7 287 2 9 5 239 6 308 5 8 7 233 9 325 1 8 1 227 3 340 0 7 6 220 8 354 7 7 1 42 0 260 2 219 0 13 1 258 0 235 2 12 1 255 6 252 2 11 3 252 9 270 4 10 4 250 1 289 2 9 7 246 8 310 7 9 0 240 4 326 4 8 3 233 6 341 3 7 8 226 8 356 2 72 44 0 268 2 221 2 13 3 265 9 237 3 12 4 263 3 254 3 11 5 260 6 2724 10 7 257 6 291 5 9 9 254 0 312 6 92 241 1 327 6 8 5 240 1 342 6 7 9 231 8 354 5 74 45 0 272 22225 13 5 269 9 238 4 12 5 267 3 255 5 11 6 2645
256. ts display language leaving chilled liquid temperature setpoint control range local or remote control units of measure compressor lead lag and maximum chilled water setpoint reset temperature range D Display Data Chiller liquid return and leaving temper 135 Guide Specifications continued atures ambient lead compressor identification clock and schedule variable out of range remote input indication chilled liquid reset setpoint and history data for last ten shutdown faults Compressor suc tion discharge and oil pressures and temperatures suction and discharge superheats percent of full load operating hours starts and anti recycle timer status Status Messages for manual override unit Switch off compressor run run permissive remote controlled shut down no cooling load daily holiday shut down anti recycle timer E Predictive Control Points Unit controls shall avoid safety shutdown when operating outside design conditions by optimizing the chiller controls and cool ing load output to stay online and avoid safety limits being reached The system shall monitor the follow ing parameters and maintain the maximum cooling output possible without shutdown of the equipment motor current suction pressure and discharge pres sure F System Safeties Shall cause individual compressor Systems to perform auto reset shut down manual reset required after the third trip in 90 minutes Includes high
257. ts 10 No more than one adjacent wall may be higher than the unit 74 JOHNSON CONTROLS FORM 201 23 EG1 1007 5 8 MOUNTING HOLES TYP CONTROL PANEL 15 16 TYP 7 5 8 83 1 8 _ 80 3 16 dak 93 5 8 _ 53 d 49 9 1 8 93 15 16 4 RIGGING HOLES EACH SIDE3X2 197 13 16 x je 238 5 8 141 1 8 337 3 16 POWER SINGLE POINT WITH TERMINAL BLOCK JOHNSON CONTROLS 75 Dimensions English continued Models YCIV0287E V CONTROL ENTRY 7 11 2 3 WIDE X 13 1 2 HIGH _ POWER ENTRY ad 0 WIDE X 13 HIGH VIEW B B 1 3 4 L 42 POWER ENTRY IS ON BOTTOM OF PANEL VIEW C C 88 1 8 VIEW A A Notes 1 Placement on a level surface free of obstructions including snow for winter operation or air recirculation ensures rated performance reliable operation and ease of maintenance Site restrictions may compromise minimum clearances indicated below resulting in unpre dictable air patters and possible diminished performance Johnson Controls unit controls will optimize the operation without nuisance high pressure safety cutouts however the system designer MUST consider potential performance degradation Access to the unit control center stipulates the unit is no higher than on spring isolators Recommended minimum clearances side to wall 6 rear to wall 6 control panel end to wall 4 top no obstructions whatsoever distance betw
258. ture 5 Ratings based on 0 168 1 5 cooler water per ton and 0 018 m C kW 50 JOHNSON CONTROLS FORM 201 23 EG1 1007 MODEL YCIV357S P AIR TEMPERATURE ON CONDENSER C LCWT 25 0 30 0 35 0 40 0 45 0 46 0 C KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP KWi KWi COP 5 0 1191 3 291 5 37 1170 8 3324 33 1147 5 377 2 28 1105 5 420 8 25 1034 8 446 6 22 1020 8 451 5 24 6 0 1224 9 2938 38 1203 5 3344 3 3 1179 0 379 3 29 1132 5 421 5 2 5 1059 6 447 6 2 2 1045 0 452 5 2 2 7 0 1259 1 296 1 3 9 1236 8 336 6 3 4 1211 2 381 6 3 0 1160 1 422 2 2 6 1085 1 448 4 23 1070 0 453 4 2 2 8 0 1294 0 298 7 40 1270 8 339 0 3 5 1244 0 384 0 3 0 1188 2 422 8 2 6 1111 1 449 1 2 3 1085 2 447 5 2 3 9 0 1329 5 301 6 4 1 1305 4 341 5 3 5 1277 5 386 5 3 1 1216 8 4234 2 1 11374 449 8 24 1096 7 438 8 24 10 0 1365 7 304 6 4 1 1340 7 3442 3 6 1311 7 389 0 3 2 1245 7 424 1 2 8 1164 1 4505 24 1107 5 429 2 24 11 0 1402 6 307 8 42 1376 7 347 0 3 7 1346 7 391 6 3 2 1275 0 4248 28 1179 6 4432 25 1117 3 418 9 2 5 12 0 1439 8 311 3 43 14134 350 1 3 8 13822 394
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