Liebert Series 600T User's Manual
Contents
1. 81926 VINNOJITV2 3NIABI T338dWV23 da DWINUS3C 0596 i 1 I ON 33030 ON A32 DAG 438 531 14945 l 66 82 40 1 S19164 88 009 531835 3 38 31 0 ON OMG ela 008 5 003 ON N23 8 H2 l3NISVO SSVdA8 JONVNAINIVN 2355398 T ONIMAVAG 3NIl1n 40 83111435 gt 314111 ON 133HS A8 80 SUANVd Anua LNOHLIM MITA 3 IS A3IA LNUeIJ A3IA INUNA 00 9 T JHL N33A138 241 sna LON LM L3NISVO 83 8045 84 IHL NO 3 Sdn 3Hl 4n sect So 3018 GNVH LHOIS JHL 04 1708 04 03 81530 SI LI 1 914 03 sna 28v SNOW CNVLS V LON SI 13 18 3 55 4 4 3ONVN3INIVW JHL 8 23 indina AXINI 31893 8 80 901 Er S81 O18 KAINO 13 3 SSVdAS LNIVWO LHOTAM 3lVWIXUMddV 9 dE ONTIONVH 3JIHA JWOILN3A JU ST NIHLIM I3NISVO d33 az SIN 32. 81926 8 0 3 8 2 8 3 DWINUN3C 0696 83080 Aga OMC 438 530 149945 66 62 80 60 909 6 88 Gay GSS SS 9NIT3N V 31v ON OMG WALSAS TION 319 5 N23 A8 JHI 5 30 TVNIW2331 1 41 WAH 3 31111 DN 133HS A8 NAVAT CSYSLAWITTIWD S3HONI NI 38V SNDISN3WIG T S31DN AJA 20 AJIA INUS3 AJA ACIS 1 998 GO 430 335 wv ava sna 089 1 3 N EE 3 1081 22 6 02 4 1 0 8 L1ndNI RR Lv SSVdA8 z 3 MM INdNI 831 81338 amp v sp 29 T inant 00 awd 1 1 3813 1 H I G3 TIvlad 335 r Nein NULL23NNO2 L3NISVO 8311 8 G3 8 V 571130 335 Eg Aog So 5 01133 03 Cet 831 30 8 8 sng 83 015 3 TIVI d 70 9 2 VIA W Vlad r arn se Sw IWNIWASL 20 d 60 S39vd 2 02 A005 9 AU 7855 c VIT D ae Cr i 9 9 b du p dl 66
3. AMAIA dol Figure 34 Line up Detail 100 225 kVA with Bypass Transformer Cabinet and 3 Breaker MBC Installation Manual 48 9 0 0 909 6 88 34VN 3114 81926 1 80 3 3NIA I 7738dnv9 cn ON 83080 ON A33 DAT 438 saq 4 5 5 AV os 9 1038 V ava ON DAG W3LSAS 3 ONIS ON N23 A8 2 5 11 130 WNIWYSL t 40 3 JALIL ON L33HS A8 NAVA S9 299 299 59 4S 0T v8 SSVdA8 009 08F 802 533 8 3 LNdNI 2 58343 1 14 S3HONI NI IAY SNOISNGAI 11 AJLA S31DN 1 0 83 A3IA 3G IS A 1 1 3 JIV130 335 3 130 3355 ES NDIL33NND3
4. 81926 VINNDJITV2 3NIABI v T138dWVv2 f A A AIR ON 83080 ON 38 1009 551835 OMG 333 Adv 530 349 51 66 45 80 80 909 6 88 N 9 038 V 31 ON OMG WAISKS FINGOW 3 5 ON N23 STIVL3d 4831 Er SB 31111 ON 133HS A8 NAVG ire 90 90 82 6 6 0 91 0 91 zc WAX SSVdAd 7 M A009 08 802 S3ONV3V3129 1 629 06 37IDNV LHOIN s va SNA 83 SLINN A802 4 2 58313 1 S3HONI NI 38 SNOISN3WIG Tw I MITA 3GIS S310N 1 3 MITA ACIS i i E 83 388 LINDAI 1f dNI GQ 130 335 NOILOSNNOD L ESD XIWODLSNI 09 30 8 834 30 8 L 88 G3 130 335 F NULLO3NNUJ EE yrs F 838015 3 GET 2018 834 262 1 41 CAINO INANI WAC ADD G8 V JIN130 335 811 NUILO3NNU2 SSVdA8 XIWDLSNI G2 MIV130 335 TINONOSE 9 D A009 A08 ants ANNADAS 062 18 lt 2 BD JIW2X009 8 D A808 3715 9m 3 Vlad ae 8 TVIT VIJ Sood TWNIWSSL Ind Ino 329018 Od LG A009 A08F 802 N 5 qw A gt 1108 sna SSVdA8 Wa sna SSVdA8 lojojo 619 m 98 Ol 919 9 ED 0S 0 G2V1d D 6D 62 0 GOVd D n
5. A3IA 3415 A3IA 4 ode vl sna a 1 indina sna anaino oS 8 aa 6861 8Z sna 1 3 5 sna ps 5 8 anna 1 aviso A3IA 1 CID St 019 X 606 Orc X 05 A Eem V3aV 844 D AGIN3 LINONO9 04408 CID Sv Has dood LAUHLIM PIA 1 16 0 98 CIN 3 gt V3 J8 NOI1V IDSI SONVNALNIVW daw 3 3 V338 SSvdA amp 3ONVN3LLNIVMW 1 HIS 3129334 1 SSVdA8 1 l3NISVO JIWA 3015 1 918 OL S1704 V 294 X 569 X 0 ZT 38 XDalddv ABIN3 LINGNOD 401 indino CIVNDIL dD gt 911 31NI Aa 8 JLON 335 D3SNV21 80 Sdn 40 MALA dol LO eve ie DNIAS 8000 SET g94 X 2Ep e ST 7 66D SZ 00 X 0 ZT 38 834 AGIN3 LINGNOD 404 4 SSVdA8 35 Figure 21 Outline Drawing 3 Breaker MBC 450 to 800 Amps Liebert Series 600T UPS 65 225 kVA Single Module 5A 0 18 S19164 88_ 3AVN 3114
6. Figure 25 Line up Detail 100 225 kVA Standard SMS with Bypass Transformer Cabinet 39 Liebert Series 600T UPS 65 225 kVA Single Module 20 09 6 88 34VN 3114 81926 3NIASI a 19 aoi mE ON 3090 ON 38 q 66 12 0 09 61 88 31v ON l138dWV2 F 1009 S3IN3S d38 S30 513 8311 8 HLIA VAN 08 69 W31SAS 3 ND 335NIS EL mE df INIT dll I 3J311IH3S gt 31111 ON 133HS A8 8 53003 318133 3 1 HIIM 8 NI 38 15 ONIMIA TV 9 5 130 0 11100 804 IN3WdInO3 40 33314 HOV3 10 9 1 0 10 3Hl OL 83338 1ND33 NI 381 838 553339 331 835 ANY NDILVTIVISNI 11 8 913 03 3 1 V NI 34 3 01 38 ISNN SI3NISVO T 1838311 A8 0 31 1434 5 38 8 1133 3831 2 1 G3 TIVISNI 3I3H1 NI SL3NISVO JHL 9 11135 3 ANY OL 80184 G3NUILISUd33 38 OL CJAN THA 31899 31 44 1434311 T JAA 81 03 DNAd L3NISVO 83141 8 9
7. CONFIGURING YOUR NEUTRAL AND GROUND CONNECTIONS 7 1 Preferred Grounding Configuration Isolated Power Distribution Units 7 2 Alternative Grounding Configuration Isolated Power Distribution Units 7 3 Preferred Grounding Configuration 480 or 600 VAC Input 208VAC Output 7 4 Preferred Grounding Configuration 208 VAC Input and Output Non Isolated Load 7 5 Grounding Configuration Delta Source or Impedance Grounded Wye 7 6 Preferred Grounding Configuration with Power Tie Switchgear 1 1 Preferred Grounding Configuration Battery Systems WIRING CONSIDERATIONS i dune rides PV n n es 8 1 Power Witte r HH bade RU ap ee aea ne aaa ds 8 2 Control Exe BR ea XA ERA WAD a cae ie ers 8 3 Battery Wiring k l e aus eee 6 5 94 ee GUERRE 648 ee eg a w WIRING CONNECTIONS kk ote xr a c eee te ce We wd been ul 9 1 Warnings wage xa e ea ES mn ag d 9 2 Specific Connections cues eme Da dont bad Sow Vea a Outten aUa WIRING INSPECTION kk kk a kk kk kk kk kal lk kk al a e lale e l le l l e l l l lele l WARNING LOCATE CENTER OF GRAVITY SYMBOLS AND DETERMINE UNIT WEIGHT BEFORE HANDLING CABINET If you require assistance for any reason call the toll free Liebert Global S
8. I ON 83080 ON Adel OMG 438 1 531 149 51 66 20 80 60 809 6 86 s 53 38 M salva ON 5AG ONISIM 0 ON N23 A8 AHO 1 40 i AITUHOS gt 31414 ON 43345 A8 NAVA 53083 318133 3 W301 NV TWNOILYN HLIM 3O9NS023D3939 NI 38 LSAW ONISIM 9 NOWWOD HWD2 3OVJdel3lNI WAV IV ASWOLSNO G3S019 ATIWWYON 3 N3dD ATIVWSUN ON 771409 30 815 3181x314 OMVYI HLIM 58313 0ST 1334 006 HION3 318939 WAWIXYW 001 1 388 3 AF2 3DV1TDA 915 davod 32V J4N31NI ASWOLSAD WNOILdO 40 NDILVOD 804 89 10 CCP NOI1V9071 NOILI3NNO9 814 03 3 Sd OL 834338 Z LINGNOD 3AVS JHL NI 3 18403 38 LON 5 k a SNN ONISIA WALNOD ONISIM 3ADd 084 34 8 435 Nh 38 LSAW CSB3HID AT ONIAIM 81 03 S31DN v 218431 335 Ya 11 1 30 wlnlslolul 28 LST elle leto i ofa 11 zri ZDj Zg Zg Zg Zo z g gz zz Zz gz gz gz gz x lt FEE oo 5 B Ba 5 oO O MO 34 dk 5 c c c cy c X lt lt lt lt lt lt lt lt o 3 al ml I d lt lt lt lt lt LJ LJ LJ LJ LJ d 51 1 1 J 3 J J
9. MBIA 4 1 Figure 26 Line up Detail 65 amp 80 kVA SMS with Battery Cabinets Installation Manual 40 8 50 8 09 6 88 3WVN 3114 81926 1 80 31 3 3NIAI da DWINUSI 0596 1499811 9 9 ON 8300 ON A32 66 12 v0 8r 09 6 88 3V1 ON SMC WIISAS IL AO 3 15NIS 1009 531835 SL3NISVO 8311 8 HIIM dAVS 3345 VA See 119430 dn T138dWV2 r 438 S3 53 38 8 001 ON N23 A8 H2 NI 1 AT 9 31111 ON L33HS 80 53003 1w213123 13 NV IVNDILVN HIIM 3ONVI3SUOOV NI 38 ISNN DNIS TW 5 13 11100 804 1N3W4dIn83 d 33314 H9V3 JU ONIMVAC 1 1 0 3Hl OL 83338 LNOY4 NI 381 838 55333 331 835 ANY 11 15 11 8 914 03 3 1 V NI 319901 38 145 SL3NISVO T 18343771 8 31 44 38 8 1133 3831 2 GATIVLSNI 3I3H1 NI SI3NISVO JHL 9 1135 3 IHA ANY Dl 80184 3 011150438 38 OL 33 THA 318939 31 44 1434311 TW TT 8 8 1191 30 515011 avds8 1 8 4 HOV3 2 ONIL 0 1 S3OV d IVOIdAL l3NIGVO ABIIVH N V 1113
10. 1 89 40 83 33 P 16 085 S39V 1d 2 4 184 woas 3 IHVAUNGS3 8314 114 6861 41 E 84 655 13 4 510 84 03 83 1 G32V Id 2 34 8000 MAIA dol ONIMS 80000 SET 533 14 2 ele X 8 D LOT X OL v3 v X0 ddv S7 55 Fe m ABAIN3 31899 804 i 7012 J V D gt Y g 7 71 1 TANYd ASIN dOL E 318VAUN38 868 UEE 1SNYHXJ IV Figure 12 Outline Drawing 100 through 225 kVA Module with SpaceSaver Top Entry Configuration Installation Manual 26 9 T10 E0 90964 88 3HVN 3113 J3 9l ON 830880 ON A38 OMC 338 530
11. 8 INS 83 5 10714 A3IA dol 8 5 10714 713497 01 8084 DE Po MIA dul 81926 VINAD111V9 ANIAAI 2 1009 531835 7734dnv9 F dy BE ON 83080 ON 38 43 YAWAOASNVAL SSVdAS HILIM 434 S3d 149 51 See 11 409464 88 E tr SIAJN 310 ON OMG WALSAS FANGOW 3719NIS N23 H2 130 dN INIT TT WAH 3 31111 ON 133HS A8 NAVA HIIA R NI Sede ONEN US 9 JAIA 9 SWIX 550418 VAd BI 3199 ANI 3 Sdn EENI GND N 2 8 V Hd 3339338 SSVdAgS JINGOW Sdn OX EX 2X DO OSS AVI UNIX 55 4 8 V 819430 WNOILIGdy 804 1N3WdIn03 JO 33314 HOYI 40 9 0 TWNGIAIGNI SHL OL 83438 SBBLOIINDS m EE NOS AND 4 NI 0351 838 553395 33 835 NV NIJLLVTIVLSNI SALA E tI CL reed NDILVSNOIJNOD dn 3NI1 V NI 34 301 38 18 SI3NISVO CTANVd ALUC LAUHLIM Findon san 18383I1 A8 3I1dd0S 38 8 N LLO3NNOON3INI WW TANTS SGWNUJSNVASI SSUdAH RGIA INDE 3 18 MI3HL NI 8
12. 8IN aan 818 A3IA 114 18 CAEN 83 5388 818 gg 41 3 1 4 CIN 3 3 338 5 SINVNALNIVW T SSVdA8 39NVN3LNIVA a18 3339338 4 SSVdA amp _ 830109 35 4 1 03 3 301834 1 8 ALON 33 l3NISVO 2 3W23D34SNV21 Sdn 40 3115 ONVH ILHOIS Dl 54 8 L S9NIAS 8000 101 ava 83345 SNLLTDG LANIEVO A3IA dol 099 T l 84 X 68 88 X 6 38 XDBddv AS LN3 li L 1ISNVHX3 IV Figure 19 Outline Drawing 3 Breaker MBC with Bypass Transformer 65 amp 80 kVA 33 Liebert Series 600T UPS 65 225 kVA Single Module 9 20 0 609 88 3WVN 3114
13. 8440 286 SI 30 ATINA 8000 HLIM 13 8 40 330 WIOL 6 DAL 3Hl N33A138 LON 4 8 L3NISV2 8388045 84 IHL 80 3 Sdn 3Hl 49 3015 QNVH 1HDIJ JHL TIL 1708 Dl 3 9 530 SI LI 11 8 914 03 3 0 0 45 V LON SI L3NIHV2 SSVdAG 3ONVN3INIVW JHL 8 AXINI 31892 WDLID8 ND dOL 482 93052 SATI 066 AND 13 SSVdAG LNIVN 1HOI3A XUSddV OTE ONTIONVH 31IHA 31183 40 NIHLIA LANIVO 433 18 3 AY 804 38 838 LINN 3ADSV 33 8 3 019 v2 v MIND 1 084 NI 351 838 5533 33 835 NV NDILYTWYLSNI 114 440 WAI 80703 2 88313 S3HONI NI JAY SNDISN3WIQ alavaa SALON JU 831 33 NUILO3NNUJ 3 0115 3 qnis QNnD 5 40 JIVl3d 95 ate UMS 886 C5 x a eal 55333 5 8 41 92 7 01 SNUILOSNNOO 238D1S09 sva 1 1 LAdNI 1 130 IS 02 1 D 060 0 S39v 14 2 VIG 0D 90v 20 0 40 10 0 80 lSOVHX3 IV 34 651 X 251 0 9 X O S 533 4 2 38 XI ddV 81 LINGNOD NWD LLUS 16 TH8dAV2 438 530 SAJA ON N23 8 9 401 vnH 3 31111 UN 433 5 NAVAT adaa IQUHIIA MITA
14. T 30 3 31111 ON 133HS A8 NAYANG oud INOHIIA TANYd A3IA INU33 AJIA 205 ASIA INUSJ I 269 62 Ca GOT v 5 11 Q h 11 n 8LvD 28S SI N3dD ATINA 8000 HLIM RTE E 533 3015 ONVH LHOIS 384 O1 1704 OL G3NOIS3G SI LI 11 8 9134 3 sna 3 6 0 18 V LON SI LANIEVO SSVdAS 3 3 JHL 8 1 41 SS322V XITAUUS AGLN3 31893 WOLLOd 80 sna INdNI 30 23 39 7 0100S 0011 CAINO LANIAVD 1 LHDI3A 844 ONFIINVH 3 31183 40 251 NIHLIM 13NISVO d 3 LSNVHX43 ay 803 381 838 LINN 3ADSV JINVAVATID WNWINIW 019 F2 MIND 4 NI 33I00323 5 333 39IA233S NV NOILVTIWLSNI 311HA 340 W8I 407109 2 CSYSLAWITTIW SSHINI NI 38V SNDISN3NWIQ S31UN NUILOJ3NNUO aswolsno GALS 0 11V130 anis 089 ED 06 P B CO ssaa 318v2 SNDILO3NNUO 3WDU1S03 avd sna LAdLNO LAdNI 30 T qo 2 975 618 ED 050 53 2 LsnvHxa 815 gt 0 VIC 0D 90 i CSI X Z21 0 9 X O S 885 533 4 2 38 XDNddv Sz AXINI LINGNOD WDll08 82 61D eoo T 19 0 2 188 0 ST ALIAVaD 40 331N32 E E
15. 4 TI E 55333 sna LAdNI CIN 388 11 1051 3ONVN3LNIVN 7 AW agavaa SSVdAH 39NVN3LNIVN 418 335338 1 55 8 dA3NVd 830 35 3 2695 59 n 661 11 89 JU 331N32 ava 82965 7 ONLLTD8 13 3 SS399v 318v23 ASIA WUIIDS 111111 1111 x ere III VAN 818 Linanod 61 DIT 611 Zv NO 4 CIWNOILdO gt A3 O0 1831NI AMAIA dol 0993 8 31UN 335 l3NISVO N3WBSUJSNV3L 80 Sdn JU 3015 4 918 OL 54 08 SNIMS 8000 5101 L n 15 3 IV Figure 18 Outline Drawing 3 Breaker MBC 65 80 kVA Installation Manual 32 5 020 91 609 6 88 3HVN 3114 81926 1 80 3 3NIAI 2 T138dWV23 f A ON 83080 ON A38 1009 S3IN3S OMG 438 TAdv_S34 149q9r 66 12 40 91 609464 88 T S3A3 M ERE DN JAT 13 8 3 SSVdA8 3ONVN3INIVW 3339338 E UN N23 AB 74 ONIAVaHI
16. e87 8000 91907 40 s 4 084 NO 3 5 31 30 VV NUH93S 1 WAGON 831 0181 LIMIT 1 88 33 038 3 NOLL dO 681 AV 38 8345 81 3 4331 3NAS 5 m LI m 33 48 31 33338 1 8311 8 GV 130 398 3 335 MERE l NUIIVTWISNI Nora L Lu V Vs 1 1 30 359 ING NOI LD 4 0981 NUSN3S _ 3anivN3dW3l 1331198 SS 5 32v J831NI 4 t wavy 838015 3 lt NOILdO gt 0114 331 SSVd 33 31 1 lt NOILdO gt NOILdO gt T3NVd SALVLS 310W33 SIOVINDO SALVLS Wav IV CSNOILVSINNWWOD 2825 WAT 834 348 38 Figure 41 Control Connection Locations 100 through 225 kVA Liebert Series 600T UPS 65 225 kVA Single Module 9 4 0 10 809 61 86 3NVN 37 4 81926 8904 3NIA3I I da DWINUBC 0696 J3 l ON 83080 ON 38 1 q 66 90 80 0 809 6 86 1009 31835 DNISIA WAISAS JINGOW 3 1DNIS 340 ON OMG ONISIA 81 3 T138dWNV2 r 338 1 530 S3A32 ON N23 8 3143 30 1 3311IH3S gt 1411 UN 133HS A8 86
17. 4 404 18 38 ANY 5310 IMAA 404 3ADN32 55333 AJIN dOl ONTV Wad 804 9399 3 8VIIVAV 5341 310 8 3 8VAUW33 HONOSH 3 1 31183 40 1 55333 AMING3 3 8 3 804 551 NIHLIA 13 1 8 3 d335 LSAVHXS 81 80 4 3 1n013 LINN 3AU8V 3ONV3V3 IO WNWINIW 019 v2 1 08 4 NI 381 538 553909 58 313 1 1 53 331 835 NV NDILVTIVISNI 3lIHA 43JU Wal HONI NI 38 5 15 3 10 11 TT 80109 5 SALON cogss 461 Over vaD ogee A009 0261 04616 E96D 025 ozte 08 081 589 OLOLE 289p 00 9861 osoe A009 0661 54888 491 089 951 0848 08 991 0S1 9891 0428 6651 0448 A009 0861 52885 9891 0426 511 028 Aosr 001 62 23856 8951 OSHE 5861 0501 802 2 0 1 svie cle 0298 009 0261 00182 0 1 GvlE LOT 0465 Aost o8 001 29982 9891 0426 GET 0568 802 42 3 18 com 881 saq IvA 7 VA MIV NOILVAISSIO 8848 NX D A 39 1 0 ONLL 9 11002 Ve 1v3H 1 9 3 1 9 3 ZH09 3 0 55333 LI 180 4 4 39 W ALIAVAD JU 834 33
18. Single input SMS with input isolation transformer and 208 208 480 480 or 600 600 VAC input output External com Bypass Isolation Me Transformer Au jJ Il T l l n T r 600 208 VAC single input SMS with bypass isolation transformer Single input modules are not available with both bypass and input isolation transformers Figure 9 Typical One Line Diagrams of SMS with optional single input Liebert Series 600T UPS 65 225 kVA Single Module 17 sa MBB 46 SON O0 46 wawam I TUT S ie Se BYPASS ISO XFMR OPT 3 breaker Maintenance Bypass Cabinets for standard left and single input right modules L 1 IE BIB L NC gt le O RB i BYPASS ISO XFMR OPT 3 breaker and 4 breaker Maintenance Bypass Cabinets for stepdown voltage applications Figure 10 Typical One Line Diagrams of SMS with optional Maintenance Bypass Cabinets Abbreviations for Circuit Breakers BIB MBB MIB RIB Bypass Isolation Breaker Maintenance Bypass Breaker Maintenance Isolation Breaker Rectifier Input Breaker 18 Installation Manual 8 2 Control Wiring Control wiring must be stranded and
19. S3009 1991319313 ANY IVNDILVN HIIA NI 38 LSAW ONISIM NOWWOS WNO9 N3dU ATIVNAON 318v9 3ONVAILS 3181X314 JMVYI HLIM CSASLAW OST 1334 006 HION3 31893 W WIXVW G 001 1 88 3 2 2 JOVLIOA TIVNOIS Y CONVADVIO ONISIM WALNOD WACIAIGNI OL 83438 SNOILISZNNOD SNISIA NOILdO 803 SNDILO3NNUO 9 181 JU 11 301 804 89 10 NDILVOD NUILO3NNDO 81 3 3 Sdn OL 834338 2 LINONO9 3AVS 3H1 NI GANIGWOD 38 LON INOHS SNNS ONIAIM WALNOD ONISIM 3ADd WOX 31 8 435 38 LSAW CS33HID A4 DNISIA 81 3 TN T S31DN LIWII 1N3923023 033 0 38 AV 13 8 8345 81 543 1 0 3 83 015 3 OL 3 8 3 SNUILVIS 11 8 HSNd ON3 043 OL 3 8 3 ONILOANNODSSLNI 31 44 83 015 3 ONILI3NNOSS3INT 0 31 44 83 0415 3 r T v E 2 T 018L boss COMM MODULE OFF MODULE OFF be ls oo Li Ll gt gt oo n n TWO STEP BATTERY CURRENT LIMIT TWO STEP RECTIFIER INPUT CURRENT LIMIT 39V34331NI 325328 1 311 8 NIN 130 Ya 14 33 v388 11 3813 8311 8 OL 31895 ONILOISNNODASSLNI 0 31 44 33 5 3 A COMMON TRIP SIGNAL 24VDC TRIP SIGNAL 24VDC AUXILIARY AUXILIARY 0T
20. 5 1V714 8 EENI A3IA dol Figure 32 Line up Detail 100 225 kVA Space Saver with Bypass Transformer Cabinet and 3 Breaker MBC Installation Manual 46 D AT10 E2 409462 88 3 3114 I ON A33 81926 VINSDJIT1V9 3NIASI da OWINUSI3C 0596 ON 83080 149q9I o 66 62 80 3iva c 09 6 88 ON 9AG 1009 531835 l3NISVO SSVdA JONVNIINIVN 232328 HLIM YAA See 001 WALSAS 3 Int 3 NIS vlad dn 3NII 31414 TI38dNV2 DMC 438 1 530 9 038 V ON N23 8 AHI JU 1 3 ON 133HS A8 NAVA MIND 1 084 NI 381 838 SS399V 39IAS3S NV NOILVTIVISNI NOILVSNSIANOD dM 3NI1 V NI 43109071 38 LSAW SL3NISVO 1834311 A8 G3IlddnS 3 VAQ VH 1133 834 NOILVDO1 G3 TIVISNI NI SI3NISVO SHL 9NILLI3S 3 IHA Ul 80184 GC3NDILISDd33 38 OL 33N TIM 31893 QT IddnS 1444311 11 Y Y JN 130 5 11 130 IVNOILIOOV 804 4 38 1 83 40 33314 3 3 JO DNIMVQ WNCGIAIGNI 3Hl OL 83338 uo SALON 5 15 avis 8 1 84 3
21. ELECTRODE PER NEC 250 24 Figure 4 Preferred Grounding Configuration 208 VAC input and output 7 4 Preferred Grounding Configuration 208 VAC Input and Output Non Isolated Load Wye Connected Service A few applications in this power range have 208 VAC input and output and a connected load consisting of multiple Power Distribution Units PDUs panelboards switchboards or other items of load equipment which do not have isolation transformers Notice in Figure 4 above that the UPS module main input and bypass input are connected to a grounded wye service In this configuration the UPS module is not considered a separately derived source The UPS module output neutral and the load neutral are solidly connected to the building service neutral which is bonded to the grounding conductor at the service entrance equipment This arrangement is typical for systems with 208 VAC input and output However it does not provide any isolation or common mode noise attenuation for sensitive loads Liebert Series 600T UPS 65 225 kVA Single Module 11 SERVICE ENTRANCE UPS MODULE 22 MAIN INPUT 54 BYPASS INPUT GROUND PER NEC 250 24 SERVICE ENTRANCE LOCAL GROUND NG ELECTRODE PER NEC 250 30 UPS MODULE ARTIFICIAL NEUTRAL OR ISOLATED NEUTRAL KIT POWER DISTRIBUTION UNIT CRITICAL LOAD PER NEC 250 P
22. 4 T olo SLT 061 Gr 2 92 v 2 92 d T 1 SLT 0 SLT gt 15 L S30v1d 8 2684 at 83 9 83 VI TI 29 amp VIT CD 96 VIT D 298 Figure 39 Terminal Details 150 amp 225 kVA Standard SMS 53 Liebert Series 600T UPS 65 225 kVA Single Module 9 20 20 809 6 86 3 3114 81926 VINSUJITV2 3NIA2I 2 T I384NV9 8 DWINUN3 0696 ON 3080 38 1009 531835 AG 438 530 149q9I 66 50 51 90 809161 86 NOS amp ID 340 ON 9 WUNDVIT NDILVOLL I DN N23 A8 HI NDILO3NNDO 81 02 1 407 S3TIHSS A 31111 ON 133HS A8 NAVA AGIA INUS3 1 1 8000 31907 30 IND33 NO 31 30 NOILdO gt WAGON 8 31 3 Sdn 38ISNI 1 D UUA 23190 2932 SLIVINOID SANIVIS 8 a 8000 21907 40 1 084 ND 31V207 p 1 01140 8 0 dHNS J NOILdD gt 33V 4 31NI dWNS CNOILdO 3993331NI INAS 5 8 AVOIT
23. g I S 9 y 8 11 16 O N 51 ON ON Led ON LOI O N SI O N LET 81 ON LST 61 WAD3 O N WAD3 O N WAD3 WAD3 WWOS vt WAD3 LT NOWWOS 0c NOWWOS 2 N N N P N N gt 5 Wayyy MIN i Wav IY AGVHNNS N31SAS 3 l 1V 34N3L1 3 AD IN3ISAV DNIDVHOSIQ 83414 8 SSVdA8 NO San NO V T ONINAVM A33II1V8 ADI SINIOd NDILOJ3NNUO 3WD1SNI cal Figure 43 Option Wiring Alarm Status Contacts 57 Liebert Series 600T UPS 65 225 kVA Single Module 9 020 G0 809 6 86 3 3114 81926 VINSD JI1V2 3NIABI da DWIND33C 0996 u q ring a ON 83080 ON A33 66 v0 21 60 809 6 86 3 ON SAG 1009 5 31835 NOILdO 520 831 1 SSVdA8 3ONVNGLINIVW DONISIA INDO 8 4 3 P 338 1 531 53134 UN N23 A8 3143 1 40 1 3TTTIHOS 31111 DN 133HS A8 NAV G TWN ILVN HLIM 0 NOWWOS 2na HLIM 523134 OST 1334 VG 41 388 SSVdA8 3ONVNGINIVA S3qD23 1091419313 1v29U1 NV 339 NI 38 15 ONISIM N3dU ATIVWBDN 30
24. 1009 531835 NOILdO W3QUW 31 ONISIM 81 00 T38dWv2 134 830 53 38 ON N23 A8 H2 1 40 d 3 1 35 3 11 1 UN 43345 A8 NAVY 53003 31813313 1 HIIM 3ONVI3SDOOV NI 38 LSNW ON 37409 3NUHd3 3l 3dAl 3 710907 IMIA ZIS 381 8 08 W3COW 1 831 IWNOILdO 40 NDILVOU 804 89 10 NDILVOU 93 8 JINTOW Sdn LINGNOD 3NVS JHL NI 3 18 03 38 SNn ONISIA 81 03 ONISIM 3 WOX 38 LSNW 5 A8 ONISIM 10a Ol 83438 2 LON 3 1 8 35 1 TV TT SALON 00 485664 4 0 N d 0 WACOW IVNSIGILNI We 119110 338 J N 1130 n MODEM LINE COMMUNICATIONS WAGON WNASINI OL 318939 DNILO3NNDON3INI 3I1dd0S 83 0 115 3 Figure 51 Option Wiring Internal Modem 65 Liebert Series 600T UPS 65 225 kVA Single Module 59AT10 v1 809262 86 3 31134 81926 VINAD411V9 3NIABI I 86 Am A DN 83080 ON A38 OM saq 149q9I 1 2 0 809 6 86 S3A3 M ALY ON DAT NULLdU 13 8 SSVdA8 3ONV
25. X 81 91 9 sava sna JO sanis annoas t 181 ONISIM H H 3 TT 5318314 8 wama 1103312 A33118 S3 19 318133 3 30 NV IWNOILVN HILIM 3 08 033 NI 38 OL SI ONIAIM TW 8 511 3 31 8 435 NI NNA 38 LSNN ONISIM 3 4 ANY 81 3 Z 29 82 OL J 89 3 02 39 8 38 1 834 31 9 11 8340 30 3 0338 AMINO 1188 4 1417 6 3TIHA 31183 AO 51 NIHLIM 13 18 3 d33 4 NI 38 838 SS399V 331 835 ANY NOILVTIVISNI S3HONI NI 38V SNDISN3WIG TV 2 SLIHM 440 NET 807109 S31U0N Sava sna 2d 4 SNNIN NV SNId SLT TT O S 99 4 GOTS X 09 ABIN3 LIDINDO ND11D8 dOL MITA dul 522 0 EE dAl VIC 296 I 31 Figure 17 Battery Power Pack Size 100 225 kVA Liebert Series 600T UPS 65 225 kVA Single Module 50 50 605 6 88 3 3114 81926 VINBSDIJI1V2 3NIASI a Jo aol ON 83080 ON A33 1 q r 66 12 0 90 609 6 88 310 ON 1009 531835 VAX 08 3 S9 43 1 8 3 SSVdA4 3ONVNGINIVA 2333253238 ONIMVAC ANILAO 8 MITA 3415 TANVd MAIN LNOS4 1 1
26. 530 SIAJA N23 A8 HO I JD i 3 DN 133HS A8 S31D2 1991313313 W307 IVNDILVN HIIA 8 NI 38 LSAW ONISIM TW 9 511 130 0 11100 803 4 3 41 83 JO 33314 3 3 40 9 1 80 WACIAIGNI 3Hl Dl 83338 MAINO INU33 NI 381 838 5 5333 331 835 NDILVTIVISNI 011 8 914 03 3 1 V NI 314 30 38 LSNW SI3NISVO TV 1434311 A8 31 44 38 8 NDILO3NNDO33INI VW 2 1 0 1 1 SISHL NI 5413 8 3 JHL 9 11135 3 IHA Dl 80184 3 11150438 38 OL 33 TIM 318939 31144 5 1434311 TW S31DN Y Y 11 1 30 2339vdS AVAA 9 LINUXA H VA c ONIL IDE L3NISVO S39V Id IVJIdAL 43 83 SSYdAE 33NVN31NIVN ava N3Ovds 1ND23 N 43 18 3 san avd 439vdS 3 521 avay 11 13 315NIS W3HSVA 1v14 EN n 9 583 5 1708 38 avg 5 8 80 834 734071 841 8083 W3HSVA 1914 IXIA 8 03 nd SSVdA INIVH 3 3 0 san vena IND N Hd 33 388 SSVdAH JINGOW Saf 818 833 388 USI SSVdA
27. For SpaceSaver modules in the 48 frame rectifier and bypass input wiring is top entry directly to lugs on top of their respective circuit breakers DC link and critical bus output connection are top entry to frame mounted lugs Standard modules with top and bottom entry have access plates and a wireway on the right side of the modules All power connections are to bus bars in the wireway Use 75 C copper wire Select wire size based on the ampacities in Table 310 16 and associated notes of the National Electrical Code NFPA 70 Use commercially available solderless lugs for the wire size required for your application Refer to Table 3 Connect wire to the lug using tool and procedure specified by the lug manufacturer Table 2 Torque Specifications NUT AND BOLT COMBINATIONS BOLT SHAFT GRADE 2 ELECTRICAL CONNECTIONS SIZE STANDARD with Belleville Washers Lb in N m Lb in N m 1 4 53 6 0 46 5 2 5 16 107 12 60 6 8 3 8 192 22 95 11 1 2 428 22 256 29 CIRCUIT BREAKERS TERMINAL BLOCK WITH COMPRESSION LUGS COMPRESSION LUGS For Power Wiring For Control Wiring WIRE SIZE Lb in N m AWG WIRE Lb in N m OR SIZE RANGE OR RANGE 6 4 100 11 22 14 3 5 to 5 3 0 4 to 0 6 3 1 125 14 1 0 2 0 150 17 3 0 200 MCM 200 23 250 400 MCM 250 28 500 700 MCM 300 34 22 Installation Manual Table 3 Field Supplied Lugs
28. HILIM CWW00G 1334 00S HI9N31 318932 W WIXVW 1 I X4 p VL 1 388 S QArF2 39 1 915 9 B B j cue davOd 33 4834 E lt 35 5 6 43538 4536 div 3 4 5 1 45 310838 WNOILdO 40 NDILVOU 4 9 1 EEN 0119301 NDILO3NNDO 1 0 3 0 Sdn OL 83438 1 03 388 3HL NI 3 8 03 DA 38 LON Q nDHS SNNY ONISIM ONIMIA 33A ADd WD34 I 1 864 waviw auvnnns sas O 31V8Vd3S 38 LSAW KSS3HID A8 ONTAIM 81 03 IT 88 dW3L 3 LNZIGWY C 38 8 3 3444 I VW3N uu881 avommo O sqm 6 22 S81 S 3 31VWIXUNddV 2 mE 038 SNINHVM AMN3LIVB MOT O SLIHM 440 WAI O02 T ovissa S31DN ssvaxg No ovo O 4 Sdn No avo O aa Y N338D 1 ime 835958 Sdn ST B Miz Xu MZ NZ Mul 833 2 8 8 MITA 19 53 ONILNNOW 8 VIT 02 sYa 14 GV TIV130 335 181 6 5 Z 3 jC 4 lt 2 g lt lt g x 2 601 za OY lt gt D gt 6 lt LE E270 vua 2 F oJ S Ex e CLINGNOD NWHL 33 3Sn 80345 310H AXINI 381
29. JDDG SISDd 414 1 84 HOV3 c DNIL Wa 3 9 S39 Id 8 IV IdAL 1sOd l13NISV2 8341 8 13NI8V2 8314 8 2222 22 S I3NISV3 AN3IIVE E I3NISVO AN3IIVE AJIA INOS ASIA INUS ASIA INS rA an ci y rA a ela hu keyaye Ve mm TT E 8 7 zanio eu revo eu SEND 02 EENI 02 ASIA dol ASIA dol AIA dol AJA d i Figure 28 Line up Detail 100 225 kVA Standard SMS with Battery Cabinets Installation Manual 42 8 20 09 6 88 3HVN 3714 81926 VINSDIJIT1VO 3NIA3I Z J3 EEH ON 83080 ON 38 1 q avd DAG 4009 S3IS3S l3NISVO SSVdAH8 3ONVNGINIVA 2335328 VA 08 59 WAISAS d In UW 3 19NIS 11 130 dn 3NII 314114 3848 3 438
30. NDILdDD 39V3831NI 834015 3 H XNDILdUD 018 1 LIW 33 4834 NYJSILIS 1 388 3 H CNOILdO gt 0981 AOSNSS 3efilvaddW3l Aedllva 1390034 j C CSNODILYOINNWWOI ZEZSA WJI WNIWSSL 310W33 NOILdO SSVdAS 3ONVN3LNIVH NOLL ADD 3 SNLVLS BLOWS 32V 4331NI 333398 11 3813 8311 8 681 5 1 Figure 40 Control Connection Locations 65 amp 80 kVA Installation Manual 54 9 ATE0 E0 809 6 86 3HVN 3114 55 81926 VINNDJITV2 3NIA3I 1 1384 9 F DWIN SN3C 0596 83 80 ON ASS 1009 S3IN3S DMC 134 JAdv_S30 66 v0 21 0 809 6 86 geste SEITEN NUSSIO ON OMC WV3OVIT 011 30 ON N23 A4 AHO NUILO3NNO2 81 03 1 4 Dp anos A 314111 ON 143845 A8 NAVA A3IA 4 a 43NI8V39 davanyvis l l3NISVO 83 Dvs
31. WARNING INTERNAL BATTERY CABINET STRAPPING MUST BE VERIFIED BY MANUFACTURER PRIOR TO MOVING THIS UNIT THIS UNIT CONTAINS NON SPILLABLE BATTERIES KEEP UNIT UPRIGHT DO NOT STACK DO NOT TIP FAILURE TO HEED THIS WARNING COULD RESULT IN SMOKE FIRE OR ELECTRICAL HAZARD CALL 1 800 LIEBERT PRIOR TO RELOCATING BATTERY CABINET AFTER INITIAL INSTALLATION 4 INSPECTIONS 4 1 External Inspections 1 While the UPS system is still on the truck inspect the equipment and shipping container s for any signs of damage or mishandling Do not attempt to install the system if damage is apparent If any damage is noted file a damage claim with the shipping agency within 24 hours and contact Liebert Global Services at 1 800 543 2378 to inform them of the damage claim and the condition of the equipment 2 Locate the bag containing the keys for the front access door The bag is attached to the cabinet 3 Compare the contents of the shipment with the bill of lading Report any missing items to the carrier and to Liebert Global Services immediately 4 Check the nameplate on the cabinet to verify that the model number corresponds with the one specified Record the model number and serial number in the front of this installation manual A record of this information is necessary should servicing become required 4 2 Internal Inspections 1 Verify that all items have been received If spare parts were ordered verify arrival
32. q 66 12 0 0 909 6 88 Ai 53 38 8 ON A8 X mE ON SAC WALSAS 3 3719NIS DN NS g 2 ONIA V3 3 111 0 T307 3E ON 133HS A8 NAVA Eu E UND 53 2 ASIA ACIS MAINA 1 83 31 4 89 38 83 80 45 1 HLIM NOILVdISSIO 1 3 BLD 02 ST3NNVHO 2SD 009 SI N3dU ATINA 8000 LANISVO 40 1930 IVLILL 8 ES 229 Lil DO TANVd 801 18 38 NV 53 Tad TANVd 404 3AUW3S S8392V AMIN3 401 9 8 804 VIN 3 8 SALVOIONI 2 31V714 553330 3 38 HONDSHL AXINI 3 8 3 NIL LIE TANVd 318VAUN3N 9 8 1 55339 AMIN3 318V9 401 ONTIONVH 33IHA 31183 40 ST NIHLIM 13 18 3 d33X 3 NIV N04 38 838 LINN 3ADSV 33 8 3 019 E AINO NOY NI 381 83 55333 331 835 NV NDILVTTVISNI ALIHM 440 WEI 80103 2 22 5 31381 1 S3HONI NI 389 SNDISN3WIQ S31UN or 2975 2 66 00 53 2 6002 CEZGD 0996 009 ALIAVaD ALIAWS9 1ND3j WO 4 0261 0086 5661 06 061 A08v 08I S22 40 N31N32 40 N31N32 3 189ADN33 05209 0509 015 6641 085 80 6861 331314 0095 ILD 044
33. 20D 26 69 13 9 AW 1dSIC 081 03 HD 9 VAN EH E MAX D A 39 1 NILUS SAV Id 18613 1HOI3A zH09 3 0 Rd 53 2 ve X BLD ee ITA di 86 X OL A3IA W LLUS 38 894 e 1 81 3 53 3 8 3 dOl 50 18 91 8 HLIM as ue 8000 4101 ONILNNOW 800 4 381530 3I 3 38 38 NYD 3 5NT13 31 V H 186 818 94 X 18 O E X 0 GI 0 S se cE V3NV XDNddV AMIN3 31692 110 821 F3 s LE D 90 WEF a ED cFGqt L ISNYHXI IV ev INDA 62 0 i Module 65 80 kVA le and Mult Figure 11 Outline Drawing Sing 25 Liebert Series 600T UPS 65 225 kVA Single Module 9 AT 20 20 909 6 88 3HVN 3114 81926 VINSOJITV29 3NIASI 2 T138dWV2 r ON 83080 38 1009 531835 AC 134 saq 149 51 66 19 90 20 909464 88 ee on 53 3 310 ON 9 Sie FENIS ON N23 A8 JHI OSNIMAVAC ANITINO VAH 3 31111 UN 13345 A8 NAVA ASIA Jars A3IA INOS S39V Id 2 888 6151 31074 TiIN9 QNIH38 3WSDJSNVHI LndNI HLIM NDILVdISSIQ 1V3H 6 I 00 STANNYHD eST 009 SI 340 ATINA 8000 11 13 18 3 30 H1d30 VIOL
34. 3 DNIL Wad LANIGVO S30V ld WOIIdAL 45044 L3NISVJ SSVdA8 JONVNALNIVW AMIVI3Q NUILO3NNUO 501 31DNIS MSHS A AM 83 5 1014 LAN 9 SH3HSVA 170 3THA3T138 ava sna a0 TVNIN2331 73497 01 8086 AIVI3Q N UILOJNNLIJ Dni Ivna va sna WU 831 LAN 2 SH3HSVA 1708 3THA3T138 1974 83 5 10714 701 4084 ASIA 1 3 8IW 84 ala ASIA dul MITA dol 38 JUMINDO SNA MY07 WOLLINO SSVdAG LNIVM andin san vena ND 3 N O H V Hd 588 SNA SSVdAS FINGOW Sdn 8I8 AANVIUE OSI SSVdAS AVI SSVdAE INIVW 3 ND 3 N O E V Hd SAVE sna 1ndinD INOW Sdn CAIN 3 Div388 OST INIVW SSVdAE INIVH 8 58013 03 84 NNA ONIMIA 123NNDON3INI 031 33 5 1438317 IJI 1 1 Jindow Sdn l3NI8V9 SSVdA amp LNIVA MIA Figure 33 Line up Detail 100 225 kVA with 3 Breaker M
35. 52 Qu 6 S JEJ TELT Figure 42 Standard Control Wiring Single Module System Installation Manual 56 2 010 91 809 6 86 3 3113 5 8 ONISIM 81 03 ONISIA 84 31 8 43 81926 3NIASI 1 84 A UN 83080 A33 1009 53 835 438 530 119069 66 40 21 91 809 6 86 DNIQ 1 V 3 vq ON OMG SNA 1019811010 UN N23 A8 AHI 40 I 83171935 3 31111 ON 133HS A8 NAVA 8 8 SIOVINUJ SAIVIS 8 3000 1V9I819313 0 HLIM 3 NI 38 5 ONIMIA 1Y 9 NOHWUO 435079 NIJO ATIVWSON ON 318V9 30 818 381x314 9 8 HLIM 58313 OST 1334 00S HLON31 318V9 WAWIXYW 006 1 388 3 OVAOSI JOVLIDA 918 SLOVINOO SNLVLS TWNOILdO 40 NULLVOU D3 89 1 0119301 NDILO3NNUO 081 03 JINGOW Sdn OL 83438 2 az LIQINIJO 3HVS JHL NI G3NIGWOO 38 LON 0 5 Eel a 3S T NN 38 LSAW CSB3HIU A4 ONISIM WALNOO NY SALON 119130 n EN Vlad 335
36. Liebert Series 600T UPS 65 225 kVA Single Module 9A 20 111 S09464 8_ 3WVN_3114 81926 vINNUJITVO 3NIASI 2 T138dWV23 nA 83080 CAJA AG Adv 830 149951 66 12 0 9 8 SJAJA 2490 SAC 13 8 55 8 SONVNSLNIVW BN NJ Ag AH FINGSHOS 83 388 1 40 J 83111435 gt l 31111 ON L33HS A8 NAYS JOVITOA LAdLNO NO 03598 3NV SUINVINE HAN 818 3991 1 NO 3598 SI 3335338 818 SLENIGVD SSVdAS 3ONVNGINIVW 3333238 NO 3 SI SIM N3 V388 11 3813 AINO SI3NISV3 SSVdA 3ONVN3INIVMW 3335338 ANY NO 3 5 SI SIS N3 v3N8 11 3813 SLENIGVO SSVdAS 3ONVN3INIVW 119 NO 031 144 8 IAY AIW NV JEW 883 388 1 3813 Ge 4 38 85 Ge G 38 85 009 009 GE q 38 85 GE aq 8 85 08 08 081 622 S9 THW q 38 85 6S9 THW q 38 85 802 802 Ge THY q 38 85 Ge THY aq 38 85 A009 A009 GE THY q 38 85 GE THY q 38 85 8 08 01 0561 S9 THW q 38 85 S9 THW aq 38 85 A802 A802 Ge JH JN 839 83 Ge HAN NIA39 NI 131 009 A009 S9 JAHAN NIN39 NI 83
37. NI SLANIEVO JHL ONILI3S 31IHA I3NISVO SSWSOASNVSL SSVdA8 Sdn OL 03 0 1 80438 38 OL CIIN THA 3183 021 44 5 1838311 MJA INUS3 ASIA 1 083 SALON a H a NV TIVT J y Va adOVdS 315 1 84 3 _ 11 IDE L3NISVO S3OV Id v IV IdAL m L3NI4YI aaWaOASNVAL SSVdA8 ava 8 33 45 4 084 13 18 3 san ava 439vdS 39323 UUZE Ge T AMVI3G NULLO3NNUO 501 JINIS 3HSVA 1V14 3HSVA 1v14 LAN 8 SH3HSVA 170 3 31138 avg 5 8 VNIW331L 1 08 ASIA dol Figure 23 Line up Detail 65 amp 80 kVA SMS with Bypass Transformer Cabinet 37 Liebert Series 600T UPS 65 225 kVA Single Module 5 AT20 11 209 6 88 3 3714 11 13 NULLO3NNUO 319NIS 838 5 LYT N m 9 SN3HSVA 1708 SMITA ava_sna D TVNIW2331 713497 81 4084 B3HSVA 17714 JE 11130 NLUILOJ3NNDO 501 vna va sna 80 TWNIN231 22 9 583 5 1704
38. ONE HOLE LUGS T amp B LUG STYLE WIRE SIZE BOLT SIZE TONGUE T amp LIEBERT P N INCHES WIDTH IN 1 1 0 AWG 3 8 0 88 J973 12 714255 56 2 STAK ON 2 0 AWG 3 8 1 00 K973 12 714255 66 3 3 0 AWG 3 8 1 10 L973 12 714255 76 4 4 0 AWG 3 8 1 20 M973 12 714255 86 5 COLOR KEYED 1 0 AWG 3 8 0 93 60130 6 ALUMINUM 2 0 AWG 3 8 0 97 60186 7 COPPER 3 0 AWG 3 8 1 06 60142 8 1 0 AWG 3 8 0 75 54909BE 9 COLOR KEYED 2 0 AWG 3 8 0 81 54910BE 10 COPPER CABLE 3 0 AWG 1 2 0 94 54965BE 11 LONG BARREL 4 0 AWG 1 2 1 03 54970BE 12 250MCM 1 2 1 09 54913BE 13 NARROW TONGUE 350MCM 1 2 1 09 55165 14 COPPER CABLE 500MCM 1 2 1 20 55171 NOTES 1 Manufacturer Thomas amp Betts T amp B 800 862 8324 Liebert Series 600T UPS 65 225 kVA Single Module 23 Table 310 16 Allowable Ampacities of Insulated Conductors Rated 0 2000 Volts 60 to 90 C 140 to 194 F Not More Than Three Conductors in Raceway or Cable or Earth Directly Buried Based on Ambient Temperature of 30 86 F Size Temperature Rating of Conductor See Table 310 13 Size 60 C 75 C 90 C 60 C 75 C 90 C 140 F 167 F 194 F 140 167 F 194 F TYPES TYPES TYPES TYPES TYPES TYPES TW FEPW TBS SA TW RH RHW TBS UF RH RHW SIS FEP UF THHW SA SIS
39. Open doors and remove cabinet panels to check for shipping damage to internal components 4 Check for loose connections or unsecured components in the cabinet s 5 Check for installation of circuit breaker line safety shields There should be no exposed circuit breaker terminals when the cabinet doors are opened 6 Remove any orange shipping braces or brackets from the transformers 7 Check for any unsafe condition that may be a potential safety hazard Liebert Series 600T UPS 65 225 kVA Single Module 5 EQUIPMENT LOCATION 1 Handle cabinet s in accordance with WARN INGS in Section 3 Use a suitable material handling device to move each cabinet to its final location Exercise extreme care because of the uneven weight distribu tion Carefully lower the cabinets to the floor and position them for reconnection if applica ble 2 Verify that the UPS system is installed in a clean cool and dry location Observe the location of overhead water lines for fire sprinkler systems Avoid placing the UPS and related equipment directly under water lines or within range of a sprinkler head 3 Installation and serviceability will be easier if adequate access is provided on all sides of the equipment but only front access is required a Verify that there is adequate clearance to open cabinet doors 4 feet is recommended See drawings and local codes b Verify that there is adequate area in front of circuit breake
40. VIG D 0Ev VIG 0D 90r BET Y Aan d Edad E 88 da via d IN030S DAV 98 D us MES MAOOG2 DAV TH Co 13215 9 8 B 3 009 DAV Ht D o lt 13715 5n1 Figure 36 Terminal Details 100 amp 125 kVA Space Saver Installation Manual 50 3 0 90 909 6 88 3 3113 81926 ne 3NIASI 384 f 8 3 0596 ON 83080 38 1009 531835 OMG 438 530 34945 r 66 90 01 90 909 6 88 ase Oe ia b LOT 9 038 V 31 ON OMG WAILSAS ISNI ON N23 HI STVLIC TWNINASL 3 31111 DN L33HS Ag NAVAT MITA 015 PIA LN d MITA 3GIS re 90 90 96 0 91 0 91 8438 55 3 8 A A009 A087 833 8 3 2 CSAS LSWIT TIN S3HONI NI 399 SNDISN3WIQ TV T S31D N3 v38g 11 3513 INdNI G2 130 335 1133 sp 92 83 015 09 am 2n18 a 834 30 18 i Es 1 1 GG JIV130 3
41. 031144 5 3dWnr 81 3 l 1 l l 1 SNLVLS Sdn l l l 1 USTED CUWOTET 1 21 0816 WIIS 0 8 uu9 T 0956 Dam l 90 vz 011 889 802 30d JIMMI VNDIS 84 Sdn DO 24 6 31UN 33S 8311 8 OL l 30 35 3338 9 1 83 rm Ses esse 4 1 av l xD x 1 Ur 574 v dAl 6505 37DH IC CUT Sdn OL 8 12 Figure 54 Module Battery Disconnect 150 amp 225 kVA Installation Manual 68 DAC Y0 10 L19164 88 3AVN 3114 81296 VINNDJITVO ANIABI v 7 138dWV3 r da DWINUS3C 0596 ON 3300 ON 38 009 S3IN3S OMG 45a 511 149q9I r 66 82 80 10 219164 88 53433 V h N DH ON SAU DNIMYAC SNITLAG E PE s aY 2 31414 PER NAVA 53003 1V2IM12313 0 DE ONY TWNOILYN HILIM 3 08 03 NI 38 LSNW ONISIM TV 8 MITA A3IA 1 83 371409 CIANYJLS 3181x314 206 2 gt 4
42. 8415 3281x314 9 18 00S H1DN31 31893 WDWIXVW 3 2VAO2I 39 1 915 8 08 141 4 NUILVOD 30 WVeDVIG NULLVOU 93 81 03 JINGOW SdN OL 83438 1 3 AWVS 3Hl NI Q3NISWDO 38 LON 5 5 8 ONISIM 81 03 AAMOd WOX 34 8 335 NNA 38 LSAW CSA3HID 8 ONIAIM 81 03 T T SALON avua AOU IS 41 SSVdA4 1 1 Sdn NO MIO 834 1IV130 335 AZ e lt L J A 8 vA 6 4 3 L 810 OMM N D fean ON BYPASS 1 TRANSFER INHIBIT BYPASS CAB EPO MAINT TAVOGHILIMS TANVd SSVdAd 3INVNIINIVN OL 318932 ONILI3NNOOSJINI Gal ddNS 83 045 3 Figure 44 Option Wiring Maintenance Bypass Interlock Installation Manual 58 3 4710 90 809 6 86 3WWN 3113 81 26 VINAO111V9 ANIABI I da DWINDS3C 0596 998188 2 Z2 xl 31V4 ON SMC NOILdO 32V4831NI 13NVd SNIVIS 31 138 ONIAIM 81 0 3 59 T38dWV2 OMG 438 1009 531835 ON S 3 19 1091419314 301 ANY 1 HLIM NI 38 LSAW ONIBMIA VW AVVO GAGNVALS 3181X314 DAVrI HILIM 598313 OST 1334 008 HI9N3 31893
43. AVI 550414 INIVW 3 ND 3 N ITY Hd X074 834 1ndlnD JINGOW Sdn CAIN N33V388 OSI INIVW EVO SSVdAS INIVW 8 8013 3 ni HO NNA ONINIA 123NNU2331NI 3I1dd0S 1338311 U 1 Findon sdn l3NISVO SSVdA8 ASIA IND A3IA 1 083 n 0 D A E l _ Lj T i i m aw gan ala Figure 29 Line up Detail 65 amp 80 kVA with 3 Breaker MBC 43 Liebert Series 600T UPS 65 225 kVA Single Module 9AT 20 Gv 096 88 3 3714 81926 1 803 3NI A I 2 19 dol _ ON 83080 ON 38 1 q E 3 ON DAG 4009 531835 l3NISVO SSVdA8g8 JONVNIINIVN 83 388 ONY SSWAOSSNVAL 8 HIIM VA 08 S9 WALSAS Vlad an ANT 31111 844 3 438 Adv 530 3 38 8 UN N23 A8 gt HI 30 3 DN 4335 A8 53003 318133 3 1V90 1 HLIM 3 8033 NI 38 LSAW ONIAIM 9 5 1430 11100 303 4 3 41 83 40 33314 HOV3 JU ONIAVAC IVNGIAIONI SHL OL 83438 MIND LINOJ NI 3310833 SS399V 39IA33S NV NDILVTIVISNI 011 8 91 403 3 V
44. Battery Temperature Sensor 63 Liebert Series 600T UPS 65 225 kVA Single Module 9 0 11 809 61 86 SAWN 3114 ne TEE r N ON 83080 ON A32 OMG 438 830 149 51 66 20 80 I1 809 6 86 aoe ae m S3A3M 8 310 ON DAT NA NI NAS ON N23 8 I 40 i 83 1435 gt 31111 ON 133 5 AT NAVAT S300 18133 3 WNOILYN 33 08 33 NI 38 15 DNISIA b RTE RNS 0 18 13NN31NI Ag _ G3LINIT 31 31892 3NDHd3131 3dAL 9 3ZIS SIM E gt Na V 8 08 dWNS VNOILdO 40 NOILVOU 804 WeNDvIG UNE A obs NUILVOU NOILISNNOD 81 03 310008 Sdn OL 33338 2 11 3 AWVS JHL NI GANIGWOD 38 LON SNn ONISIA 81 03 NISIA 3ADd 0 084 34 8 435 NNA 38 LSAW 5 A4 ONTAIM WALNOD SALON We 11 130 vr E ETHERNET NETWORK CONNECTOR SET UP PORT ON PC 33 4834 dWNS OL 31899 OSNLLO3NNUO331NI 3I13d30S 3NDLSn9 BY INTERNET STANDARDS NETWORK JACK RJ45 OR EQUIPMENT LENGTH LIMITED Installation Manual Figure 50 Option Wiring SNMP Interface 64 5AG 10 21 809462 86 3NVN 31134 81926 VINSDJITV2 3NIABI da ONINON3T 0996 I ON 38 149q9I pm 21 809 6 86 340 ON SMG
45. SOIT 19 OSET 021 OST SSVdA amp 8 IS EP lt SrS 0021 001 Set T 8 01133 03 EZS 0511 08 001 va sna SSVdA8 311 15 9 SH LHOISM VAN 1 CA INO LANIAVI JIWNADISNVAL SSVdAS LHDI3A 31 1 834 9 ONTIONVH STIHM 31183 JO NIHLIM 13NI8V2 9333 15 3 IY 804 381 838 LINN 3 33 8 3 13 WNWINIW OID 2 MIND IND233 NI 351 838 SS3IDV 331 835 NV NOILYTIYLSNI LINN 40 31IHA 44U W8I X07109 2 3 5 8 13 1 S3HONI NI 38 SNDISN3WIG SALON le 4 310N 335 NOI193S 1 41 33ndDW San EMEN 3 0 Sdn 40 Sava Sha saya SN dol A802 JU 11130 533 4 9 13 030 38 4 ET X S0 9 08v 40 11 130 5 W3d 533 9 dAD VIT D 95 e cn 53 4 dAD SLT VIT D 295 se OTD gt ot 888 SEV SNUISNGWIG 303 SONIAVAT 3 na W San 335 13 8 3 IN3OVPCUV NI ABIN3 LINOND9 4 3015 INVH 1HDIS ONIMS X000 SEI Figure 15 Bypass Transformer Cabinet 10
46. 13 SERVICE ENTRANCE MODULE 3 BYPASS INPUT NEUTRAL SP MUS c 49 MAIN INPUT IN 0 TO OUTPUT DI STRI BUTI ON GROUND GROUND NG ELECTRODE PER NEC 250 24 BATTERY POWER PACK GROUND Figure 7 Preferred Battery Cabinet Grounding Configuration 7 7 Preferred Grounding Configuration Battery cabinet systems on the other hand should Battery Systems be grounded to the UPS ground bus bar Figure 7 above illustrates how a simple one cabinet system Large open rack battery systems are normally would be grounded For systems with multiple either locally grounded or left ungrounded cabinets the same configuration would apply depending on local code requirements However for simplicity the installer can connect all the battery cabinet grounds together and run a single ground conductor in the same conduit as the phase conductors to the UPS ground 14 Installation Manual 8 WIRING CONSIDERATIONS 8 1 Power Wiring Refer to Site Planning Data Appendix A and the installation drawings Determine AC currents for your system based on kVA kW voltage and options Also refer to equipment nameplate for the model number rating and voltage For wire termination data refer to Tables 1 3 1 Power wiring rectifier input bypass input UPS output and battery cables must be run in individual separate conduit or cable tray Refer to the Outline and Terminal Detail
47. 16 065 34x32x68 2 450 459 80 64 480 NO NO 96 120 96 120 175 173 13 945 34x32x68 1 700 319 80 64 480 YES NO 89 112 96 120 175 173 14 685 34x32x68 1 750 328 80 64 480 NO YES 98 122 96 120 175 173 17 710 34x32x68 2 430 456 80 64 480 YES YES 91 113 96 120 175 173 18 480 34x32x68 2 480 465 80 64 208 NO NO 97 121 222 278 175 174 15 185 34x32x68 1 950 366 80 64 208 YES NO 90 112 222 278 175 174 15 940 34x32x68 2 000 375 80 64 208 NO YES 98 123 222 278 175 174 18 995 34x32x68 2 680 503 80 64 208 YES YES 91 114 222 278 175 174 19 770 34x32x68 2 730 512 100 80 480 NO NO 120 151 120 150 225 216 17 425 48x33x79 2 300 209 100 80 480 YES NO 112 140 120 150 225 216 18 360 48x33x79 2 370 215 100 80 480 NO YES 122 153 120 150 225 216 22 140 48x33x79 3 075 280 100 80 480 YES YES 113 142 120 150 225 216 23 100 48x33x79 3 145 286 100 80 208 NO NO 121 151 278 347 225 217 18 980 48x33x79 2 600 236 100 80 208 YES NO 112 140 278 347 225 217 19 920 48x33x79 2 670 243 100 80 208 NO YES 123 154 278 347 225 217 23 745 48x33x79 3 375 307 100 80 208 YES YES 114 143 278 347 225 217 24 715 48x33x79 3 445 313 125 100 480 NO NO 151 188 150 188 250 270 21 785 48x33x79 2 400 218 125 100 460 YES NO 140 174 150 188 250 270 22 950 48x33x79 2 470 225 125 100 480 NO YES 153 191 150 188 250 270 27 675 48x33x79 3 200 291 125 100 480 YES YES 142 177 150 188 250 270 27 675 48x33x79 3 270 29
48. 25 C 77 F At elevations above 4 000 feet 1219 meters temperature derating may be required for full power output consult your Liebert sales representative Even though your Liebert UPS unit is 92 5 to 94 efficient the heat output is substantial For more specific information see the Site Planning Data Appendix A Be sure environmental conditioning systems can accommodate this BTU load even during utility outages The installer should attempt to balance the load between the three output phases The UPS will operate safely with an unbal anced load but will give optimum perfor mance if the three output phases are loaded within 20 percent of each other Installation Manual 3 UNLOADING AND HANDLING Because the weight distribution in each UPS and ancillary cabinet is uneven use extreme care during handling and transport Your installation may also include Battery Cabinets a Bypass Transformer Cabinet and a Maintenance Bypass Cabinet Panelboard or Switchboard WARNING EXERCISE EXTREME CARE WHEN HANDLING UPS CABINETS TO AVOID EQUIPMENT DAMAGE OR INJURY TO PERSONNEL THE UPS MODULE CAN WEIGH UP TO TWO TONS THE BATTERY CABINETS WEIGH UP TO 5100 POUNDS THE UPS MODULES ARE HEAVIER IN THE BACK THAN THE FRONT BECAUSE OF THE WEIGHT OF THE MAGNETICS LOCATE CENTER OF GRAVITY SYMBOLS BEFORE HANDLING CABINET TEST LIFT AND BALANCE THE CABINET BEFORE TRANSPORTING MAINTAIN MINIMUM TILT FROM VERTICAL AT ALL TIMES
49. 32018 622 8 34 n 68 TWNIWN3l 30 Bi ue 22288 68 T 1 41 i n y ne m 962 H 622 G8 719130 335 0 01 82 6 M4 88D 0 6 G8 719130 335 9 089 9 089 33065 9 94 D A009 3 08 308 CAND LNdNI TYNT 30 5 1 3 068 9 18 9 YO 009 9 T D A802 VANOB GV 11 130 335 qv DAV 0718 218 80 DAV 0 8 8 A009 087 VANS NDIL33NND3 559414 83 0158 3 IN930SE 9AV 98 D A802 9 3218 9m SIT D 1 WVI3d 2 TIVI J 17 15 vlad XOITTI IVNINSII INdino 9208 TWNIWSSL 3d 88 ava sna INANI SSVdA8 N J 8 v 9 00 09 O lt gt oc O 01 wid D A DA 9 bI CD 10 OD 90 N 13715 901 T 85 via TINONOSE DAV 9H D 55 33062 DMY TH 2 3218 001 s IN93009 DAV IH CD t3ZIS 9 Figure 35 Terminal Details 65 amp 80 kVA Single Module Systems 49 Liebert Series 600T UPS 65 225 kVA Single Module DAT 0 80 909464 88 3HVN 3114
50. 384 3 43 830 38 ON N23 A8 H2 1 40 d N3T1IHOS gt UN 43345 A8 NAVA S3 19 18133 3 301 WNOILYN HIIM 32ONV I3022V NI 38 LSNW ONISIA S 318v2 030131 5 814 3151 1 OMVec HLIM SN313W 0E SD 1334 001 08 19 31 318939 W WIXVW v VUOOT 1 388 3 OGAve 39 1 TIVNDIS 8 08 33 38341 TWNIWASL 310438 WNOILdO 40 NDILVOU 804 89 10 NOI1V90 1 93 81 03 3 0 SdN Dl 83338 2 11 3 SWVS JHL NI 3 1 8 03 38 LON 5 5 8 ONISIA 81 3 DNIHIA 83 04 WOJ 31 8 435 Nn l 38 LSNW 5 A 81 3 TV SALON aava NAT IWNIWSSL SLOWS We 711V13 335 We ll 130 13 19 1 10 9 8 2 18121 4 3 2 1 ELD ELD ELD REMOTE CRT SHI REMOTE CRT GROUN REMOTE CRT TxD MODEM SHI MODEM GROUND MODEM RxD MODEM Tx MODEM OCD P L TERMINAL SHI TERMINAL GROUND TERMINAL RxD TERMINAL TxD r N MODEM lt REMOTE CRT REMOTE TERMINAL lt A W4I 834 31DN39 Dl 318V3 SNILO3NNDO33INI 31 44 5 83 0115 3 Figure 46 Option Wiring Remote Terminal IFM RS 232 Communications Installation Manual 60 SAC 10 80 809262
51. 413 18 3 19331198 EENI JAA 84 03 DNAd LANI4VI AB311V8 9 13NI8V3 1831198 SEN9I JJA 84 03 9 L3NISVO 83141 8 9 3 San TEND 3ALLV93N 3AILISUd 339388 411 3813 I3NIHVO 13931198 834 NUILO3NNUO l13NIGVO 1331198 3 3ALLVO3N 3AILISUd WNIWH3I 93 13NISVO AS311V8 IVNIN331 NOILISNNOD LANIGVD 8311 8 g 3ALLVO3N 3AILISUd TWNIWASL NOILISNNOD 13NISVO AB3IIVS IVNIWS3I 93 1331194 JINGOW Sdn v 55 1 2 OL 3 nna ONISIM 123NNDO331NI 031 4 5 138311 S3 LON ATUS C DDG LAOHLIM gt LLI LAOHLIM gt AUU LNOHLIM gt 31 0 T I3NI VO 8311 8 13 1 8 3 8311 8 L3NISVO 8311 MITA MITA 1 084 ASIA INH33 AIA 1 084 1 WV 134 130V4S AVAA 1 84 HOV 2 ONIL IUS LANIGVO 510 14 2D WOIdAL 43 1 3 san ava 419vdS en 1ND233 V 13 1893 1531198 AJA dol AVE 833 5
52. 434 250 271 26 875 48x33x79 2 970 270 125 100 208 NO YES 124 155 347 434 250 271 31 705 48x33x79 3 500 318 125 100 208 YES YES 115 143 347 434 250 271 32 930 48x33x79 3 570 325 150 120 600 NO NO 145 182 144 180 300 324 28 480 48x33x79 2 920 265 150 120 600 YES NO 135 168 144 180 300 324 29 880 48x33x79 3 050 277 150 120 600 NO YES 148 185 144 180 300 324 35 615 48x33x79 3 570 325 150 120 600 YES YES 137 171 144 180 300 324 37 070 48x33x79 3 700 336 150 120 208 NO NO 146 183 416 520 300 326 30 825 56x33x79 3 270 255 150 120 208 YES NO 135 169 416 520 300 326 32 250 56x33x79 3 400 265 150 120 208 NO YES 148 186 416 520 300 326 38 045 56x33x79 3 920 305 150 120 208 YES YES 138 172 416 520 300 326 39 520 56x33x79 4 050 316 225 180 600 NO NO 218 272 217 271 500 486 42 710 48x33x79 3 260 296 225 180 600 YES NO 202 253 217 271 500 486 44 625 48x33x79 3 390 308 225 180 600 NO YES 221 277 217 271 500 486 53 420 48x33x79 4 210 383 225 180 600 5 YES 205 257 217 271 500 466 55 605 48x33x79 4 340 395 225 180 208 NO NO 219 274 625 781 500 488 46 240 56x33x79 3 660 285 225 180 208 YES NO 203 254 625 781 500 488 48 380 56x33x79 3 790 295 225 180 208 NO YES 223 278 625 781 500 488 57 070 56x33x79 4 610 359 225 180 208 YES YES 206 258 625 781 500 468 59 280 56x33x79 4 740 369 Applicable 13 1 4 8 2 3 5 7 8 6 6
53. 8 9 11 Notes 9 11 12 9 11 12 11 12 A 4 Installation Manual Liebert Series 600T UPS 65 225 kVA Single Module Liebert Keeping Business In Business POWER AVAILABILITY Series 600T UPS INSTALLATION MANUAL The Company Behind the Products With over a million installations around the globe Liebert is the world leader in computer protection systems Since its founding in 1965 Liebert has developed a complete range of support and protection systems for sensitive electronics e Environmental systems close control air conditioning from 1 to 60 tons Power conditioning and UPS with power ranges from 300 VA to more than 1000 kVA Integrated systems that provide both environmental and power protection in a single flexible package Monitoring and control from systems of any size or location on site or remote Service and support through more than 100 service centers around the world and a 24 7 Customer Response Center While every precaution has been taken to ensure the accuracy and completeness of this literature Liebert Corporation assumes no responsibility and disclaims all liability for damages resulting from use of this information or for any errors or omissions 2000 Liebert Corporation All rights reserved throughout the world Specifications subject to change without notice Liebert and the Liebert logo are registered trademarks of Liebert Corporation All names referred to are
54. 8000 HLIA I3NISVO 40 1430 184 6 OAL 3Hl N33A138 LON 108 LANIEVO 233W3D3SNV231 3Hl XO 3100DW Sdn 3Hl 40 3015 ONVH IHOIS 3Hl OL 17104 OL 3 91530 SI LI NOILVANOI NON ANOW CANVLS V LON SI L3NISVO SSVdA8 3ONVNGINIVN 8 AMIN3 31893 WDLIDS 80 58 018 KAINO LANIGVD 559414 LNIVN 1 913 3l1VAIXUSddV JU 51 NIHIIA l13NISVO 333 LSNVHX3 IV 804 38 838 LINN 3ADSV 39NV3V3 10 WNWINIW 019 MAINO LINOJ NI 8 8 553939 32IAB3S ANY NDILVTIVISNI 31IHA 440 WAI ONTIONVH 3 IHA 18 3 voc 80103 58313 S3HONI NI 33V SNDISN3WIG TV SNUILO3NNUO 3NWD1S03 5 8 40 11 130 S3LUN SNDUILIO3NNUO 3 5 9 Sha IVAININ 1 TIVIl3 VIG COD 90v S dAL JAL 98 S21 ST en 0 9 i 533 53 S dAL 0D 90v 84D 0 1 S 8 T 8 SNUILO3NNDO 83 115 13 Sava 8 8 1 JU VI 68 dAL GG 0 2 70 ee e 013 S30V ld dAL LOIS PD 98 X 1 S30V ld 13 FT 96 S I3NVd LNUHLIM
55. AWG THHW FEPB MI THW THHN AWG kemil THW RHH RHW 2 THWN THHW kcmil THWN THHN THHW XHHW THW 2 THWN 2 XHHW THW 2 THWN 2 USE RHH RHW 2 USE ZW USE 2 XHH USE 2 XHHW XHH XHHW XHHW 2 ZW 2 XHHW 2 ZW 2 COPPER ALUMINUM OR COPPER CLAD ALUMINUM 18 7 ai 1447 call dh o G Ne Ne A Jl la 18 14 20 20 25 e ed 12 25 25 30 20 20 25 12 10 30 35 40 25 30 35 10 8 40 50 55 30 40 45 8 6 55 65 75 40 50 60 6 4 70 85 95 55 65 75 4 3 85 100 110 65 75 85 3 2 95 115 130 75 90 100 2 1 110 130 150 85 100 115 1 1 0 125 150 170 100 120 135 1 0 2 0 145 175 195 115 135 150 2 0 3 0 165 200 225 130 155 175 3 0 4 0 195 230 260 150 180 205 4 0 250 215 255 290 170 205 230 250 300 240 285 320 190 230 255 300 350 260 310 350 210 250 280 350 400 280 335 380 225 270 305 400 500 320 380 430 260 310 350 500 600 355 420 475 285 340 385 600 700 385 460 520 310 375 420 700 750 400 475 535 320 385 435 750 800 410 490 555 330 395 450 800 900 435 520 585 355 425 480 900 1000 455 545 615 375 445 500 1000 1250 495 590 665 405 485 545 1250 1500 520 625 705 435 520 585 1500 1750 545 650 735 455 545 615 1750 2000 560 665 750 470 560 630 2000 CORRECTION FACTORS Ambient For ambient temperatures other than 30 C 86 F multiply the allowable ampacities Ambient Temp C shown ab
56. Ge AHAN 009 81 THA A009 S9 HAN 1839 NI I33A 08F Ge 7H 1 aq 38 85 9 001 SHAN 802 59 802 JIV ONIIVA 3IV ONILVA NI 9 1 8831 mE mE 39 1 0 9 114 8831 3944 9UINJA 29 1 39 8 8 88 11 13 825 SSVdAH 4D 1 41 aad 3 11 3813 LAdNI 35 3299338 LINDAID JINGOW 319NIS 1009 53935 t Breaker Schedule 65 through 225 kVA rcu Figure 56 C Installation Manual 70 10 0 0 6 8 3 3714 81926 1 80 3 3NIA I T T138dWV23 r rata ON 83080 ON A33 9 4343 S30 149 51 66 19 90 011 609 6 v8 S3A3 310 ON OMG 123 11166 ON N23 A8 H2 3 03435 3 gt V3 amp LINIJI T 30 d 83111 5 gt 31111 ON 133HS A8 NAVA a 008 0G 6 0001 0 38 85 22 00 0001 00 44 38 85 0ST 0S2 0S2 3 0629E7H gt 38 85 Sal 001 SLT 0S2 20 SZ419 q 38 85 08 69 Sanv 548 ut ne 3dAL 800 3 9 1 8 VAN San 35 339338 L3NISVO ANILIVE Figure 57 Circuit Breaker Schedule Battery Cabinets 65 to 500 kVA 71
57. KVA 54 Figure 41 Control Connection Locations 100 through 225 KVA 55 Figure 42 Standard Control Wiring Single Module System 56 Figure 43 Option Wiring Alarm Status Contacts 57 Figure 44 Option Wiring Maintenance Bypass Interlock 58 Figure 45 Option Wiring Remote Status Panel Interface 59 Figure 46 Option Wiring Remote Terminal IFM RS 232 Communications 60 Figure 47 Option Wiring SiteScan Interface 61 Figure 48 Figure 49 Figure 50 Figure 51 Figure 52 Figure 53 Figure 54 Figure 55 Figure 56 Figure 57 Figure 58 Option Wiring Customer Alarm Interface 62 Option Wiring Battery Temperature Sensor 63 Option Wiring SNMP Interface 64 Option Wiring Internal Modem 65 Option Wiring Maintenance Bypass Cabinet 66 Module Battery Disconnect 65 through 128 kVA 67 Module Battery Disconnect 150 amp 225 KVA 68 Remote Status Panel Surface Mo
58. LAN LAN 6 583 5 4108 8 583 5 1704 3711437134 3THA3T138 SVE STE N3HSV 1 4 N3HSVA 1 TIVNIN3L 38 01 8084 ARS JJA 81 03 sna 311183 AVI SSVdAH INIVA 83 8035 814 81 03 AVI 8 3 55 3 VEND JJA 84 03 3 aWsX SSVdA8 VAd Ad 31V9 ANI 3 Sdn EENI ND N O 8 V Hd 58 8 sna SSVdAS FINGOW Sdn 4I4 83 5388 OSI SSVdA8 AVI 55 8 INIVN 3 OND 3 Hd 58 8 sna LAdLNO 3 53 SIN 83 388 OSI LNIVW 55 8 LNIVW 8 ND 3 Hd SSVdAB 1 COX EX 2X DO DAS 1338 AVI XWX 55 4 8 Y 5 9 084 Nna ONISIM 123NNDOB3INI 31 44 1434311 uua I0DHIIA CI3NVd 8000 LNUHLIM gt l3NISVO 13N1859 SSVdA8 LNIVA dIWADAISNVAL SSVdA amp 3 4 Sdn MITA 3 MAIA 1 3 A3IA 3 1 rm 1 T y EFE P dul AMAIA dul
59. Liebert Keeping Business In Business POWER AVAILABILITY Series 600T UPS INSTALLATION MANUAL Single Module Three Phase 65 225 kVA 60 Hz er EMERSON The following WARNING applies to all battery cabinets supplied with UPS systems WARNING HAZARD INTERNAL BATTERY STRAPPING MUST BE VERIFIED BY MANU FACTURER PRIOR TO MOVING A BATTERY CABINET Battery cabinets contain non spillable batteries Keep units upright Do not stack Do not tilt Failure to heed this warning could result in smoke fire or electric hazard Call 1 800 LIEBERT prior to moving battery cabinets 2 10 INSTALLATION MANUAL TABLE OF CONTENTS SAFETY PRECAUTIONS 2 siysssiasiquyyansqupctauykaqiyyaukuyukaiuuaduya kau aha INSTALLATION CONSIDERATIONS UNLOADING AND HANDLING INSPECTIONS ewa kul be u ees dy ka e OPI P PR AU e o A go a 4 1 External Inspections 4 2 Internal Inspections uet ann dune ae ret d kk Ok d pt CU OT ae CR dece EQUIPMENT LOCATION BATTERY INSTALLATION sestiere DR a ae ae 6 1 Battery Safety Precautions 6 2 Battery Cabinets iier cree EPOD AN Ku mate ina Pannes we 6 3 Open Rack Batteries
60. Likewise be certain to block any extra holes in the plates through which foreign matter could later enter the UPS Liebert Series 600T UPS 65 225 kVA Single Module 15 Standard SMS with 208 208 480 480 or 600 600 VAC input output Input Iso Transformer A x _ E 681 SC vA CB2 SMS with input isolation transformer and 208 208 480 480 or 600 600 VAC input output v LLL i Bypass Isolation Xfmr CB1 CB2 600 208 VAC module with external bypass isolation transformer Bypass Isolation Xfmr Input Isolation j Transformer E 653 1 EN sie I 480 208 or 600 208 VAC module with both internal input isolation transformer and external bypass isolation transformer Figure 8 Typical One Line Diagrams for SMS with Standard Dual Input 16 Installation Manual Standard single input SMS with 208 208 480 480 or 600 600 VAC input output Internal Bypass rr gt Isolation I Xfmr N N 480 208 VAC single input SMS with bypass isolation transformer Single input modules are not available with both bypass and input isolation transformers Input Isolation Transformer
61. Wear rubber gloves and boots Do not lay tools or metal parts on top of batteries 5 Disconnect charging source prior to connecting or disconnecting battery terminals 6 Determine if the battery is inadver tently grounded If it is inadvertently grounded remove source of ground Contact with any part of a grounded battery can result in electrical shock The likelihood of such shock will be reduced if such grounds are removed during installation and maintenance Lead acid batteries can present a risk of fire because they generate hydrogen gas The following procedures should be followed 1 DO NOT SMOKE when near batteries 2 DO NOT cause flame or spark in battery area 3 Discharge static electricity from body before touching batteries by first touching a grounded metal surface Installation Manual BATTERY SAFETY PRECAUTIONS IN FRENCH PER CSA REQUIREMENTS INSTRUCTIONS IMPORTANES CONCERNANT LA SECURITE CONSERVER CES INSTRUCTIONS AVERTISSEMENT DES PIECES SOUS ALIMENTATION SERONT LAISSEES SANS PROTECTION DURANT CES PROCEDURES D ENTRETIEN UN PERSONNEL QUALIFIE EST REQUIS POUR EFFECTUER CES TRAVAUX LES FUSIBLES A C C DE LA BATTERIE D ACCUMULATEURS OPERENT EN TOUT TEMPS A LA TENSION NOMINALE LA PRESENCE D UN FUSIBLE A C C BRULE INDIQUE UN PROBLEME SERIEUX LE REMPLACEMENT DE CE FUSIBLE SANS AVOIR DETERMINE LES RAISONS DE LA DEFECTUOSITE PEUT ENTRAINER DES BLESSURES O DES DOMMAGES SERIEUX A L EQ
62. cate A009 3 NIV 0261 0028E 5021 OSZE 5651 0682 A08 02 06 0050 581 020v 6061 ozee 802 sand 00462 6 61 oove Ez2D 0082 A009 AW 14510 0091 00742 SSP 00 5811 0092 088 001 S21 1081 033 056 6891 069 1 052 02 06492 6811 2 G02 0592 009 EN 82 LNANI 0091 0ST22 681 5456 SET 0052 A08r 08 00 000 2 XLLSD 6091 00 802 Wa aH 18 Db 581 S81 4 53 4 2 H21v1 8000 NIV 011 4158 0 W3X 8 4 O A 39V130A SNILVS ONI IDD2 Ng 13H LHOISM 188 3 ZH09 83 04 S30v1d 2 X 06D MJA dol 2 X 8 D 082 X rot X 38 844 ONIMS 8000 SEI 38 89 1 3 LINGNOD 701 Y oen N Ps ces AMIN3 32892 281 ASIA WUIIUS ue e y oe aeo 0 2 j 7 AIL X 06D i r 082 X SL j XDalddv TANVd 1 3 31893 NOL104 L___J ASLN3 401 88 3 38 0 82 9 061 ce mez 7 1 1 8 4 re 81 Figure 13 Outline Drawing 100 through 225 kVA Module with Standard Top amp Bottom Entry 27 Liebert Series 600T UPS 65 225 kVA Single Module S9AT10 EI 60962 88 3HVN 3113 81926 V
63. grounding electrode See page 10 for details What are the UPS input and output voltages Systems with 480 VAC input and output have significantly different needs than systems with 480 208 VAC or 208 208 VAC What is the connected load Does the critical load consist of one or more Power Distribu tion Units PDUs Do the PDUs have isola tion transformers The following sections discuss recommended grounding procedures for various system configurations NOTE Some UPS modules are equipped with input isolation transformers However these transformers have no effect upon any system grounding considerations These modules will be grounded exactly as shown in the following examples Liebert Series 600T UPS 65 225 kVA Single Module SERVICE ENTRANCE POWER DISTRIBUTION UPS MODULE UNIT 3 BYPASS INPUT NEUTRAL GROUND 4 gg E 9 52 MAIN INPUT s b GROUNDI NG ELECTRODE PER NEC 250 24 GROUNDING ELECTRODE Figure 1 Preferred Grounding Configuration 480 or 600 VAC input and output 7 1 Preferred Grounding Configuration 480 or 600 VAC Input and Output Isolated Power Distribution Units Wye Connected Service One of the most common configurations of the Series 600T UPS is the Single Module System with 480 VAC input 480 VAC output and a connected load consisting of multiple Power Distribution Units PDUs with isolation transformers in the PDUs to pr
64. trademarks or registered trademarks of their respective owners SL 30545 2 00 Technical Support United States 1050 Dearborn Drive P O Box 29186 Columbus OH 43229 Single Phase UPS 800 543 2378 Outside the United States 614 841 6598 3 Phase UPS 800 543 2378 Environmental Control 800 543 2778 Italy Via Leonardo Da Vinci 8 Zona Industriale Tognana 35028 Piove Di Sacco PD 39 049 9719 111 FAX 39 049 5841 257 Asia 23F Allied Kajima Bldg 138 Gloucester Road Wanchai Hong Kong 852 2 572 2201 FAX 852 2 831 0114 Web Site www liebert com E mail UPStech liebert com EMERSON
65. with Bypass Transformer Cabinet 39 Figure 26 Line up Detail 65 amp 80 kVA SMS with Battery Cabinets 40 Figure 27 Line up Detail 100 225 kVA Space Saver with Battery Cabinets 41 Figure 28 Line up Detail 100 225 kVA Standard SMS with Battery Cabinets 42 Figure 29 Line up Detail 65 amp 80 kVA with 3 Breaker MBC 43 Figure 30 Line up Detail 65 amp 80 kVA with Bypass Transformer and 3 Breaker MBC 44 Figure 31 Line up Detail 100 225 kVA Space Saver with 3 Breaker MBC 45 Figure 32 Line up Detail 100 225 kVA Space Saver with Bypass Cabinet and 3 Breaker MBC 46 Figure 33 Line up Detail 100 225 kVA with 3 Breaker MBC 47 Figure 34 Line up Detail 100 225 kVA with Bypass Transformer Cabinet and 3 Breaker MBC 48 Figure 35 Terminal Details 65 amp 80 kVA Single Module Systems 49 Figure 36 Terminal Details 100 amp 125 kVA Space Saver 50 Figure 37 Terminal Details 150 amp 225 kVA Standard SMS 51 Figure 38 Terminal Details 100 amp 125 kVA Standard SMS 52 Figure 39 Terminal Details 150 amp 225 kVA Standard SMS 53 Figure 40 Control Connection Locations 65 amp 80
66. 0 SISDd AVAA 1 84 HIVJ c DNIL IW L3NISVO S149V ld 8 IVOIdAL 4584 43 18 3 8341 43 8 3 8 34141 8 38 1 03 9 43 18 3 8311 8 DNAd 2 13 1 8 3 8311 8 EENI 38IM 84 03 9 4 2 LANIGVD 8311 8 DNAd T L3NISVO A3311v8 SEN9I 38 9 1 L3NI VO 1331194 san TEND 3AILVO3N 3AILISUd WWNIWSSL NOILISNNOD LANISVI 8311 8 831 NOILOISNNOD 2 13NISVO AB3IIVH 3 3AILVO3N 3A AILISUd WNIW33l NOILISNNOD 2 l13NISVO 8311 8 IVNIN23J31 NOILISNNOD T L13NISVO 311 8 8 3AILVO3N 3AILISUd 834 NOILISNNOD 1 I3NISVO 1331198 san V SaOLonaqNno3 OL 084 Nn SALON ONISIM LOANNOOSSLNI 31 44 14343171 Sandon sdn 2 UH L
67. 0 208 YES YES 257 321 625 781 500 488 55 605 56x33x79 4 805 374 Applicable 13 1 4 8 2 3 5 7 8 6 6 8 9 11 Notes 9 11 12 9 11 12 11 12 Liebert Series 600T UPS 65 225 kVA Single Module A 3 Series 600T Single Module Systems 600 Volt Input Inverter Or Required Maximum Maxmum Floor AC Rectifier AC Bypass AC Battery Battery Heat Loading Output Input Output Discon Current At Dissipa Approx Lb Sq ft UPS Rating Voltage Options Current Current nect End Of tion Dimensions Weight Concen Input Input Rating Discharge BTU Hr Inches LB trated kVA kW VAC Filter Xformer Nom Max Nom Max Amperes Amperes Full Load WxDxH unpacked Loading 65 52 600 NO NO 63 79 63 78 150 140 12 340 34x32x68 1 600 300 65 52 600 YES NO 58 73 63 78 150 140 12 950 34x32x68 1 650 309 65 52 600 NO YES 64 80 63 78 150 140 15 435 34x32x68 2 200 413 65 52 600 YES YES 59 74 63 78 150 140 16 065 34x32x68 2 250 422 65 52 208 NO NO 63 79 180 226 150 141 13 355 34x32x68 1 800 338 65 52 208 YES NO 59 73 180 226 150 141 13 975 34x32x68 1 850 347 65 52 208 NO YES 64 80 180 226 150 141 16 490 34x32x68 2 400 450 65 52 208 YES YES 60 75 180 226 150 141 17 125 34x32x68 2 450 459 80 64 600 NO NO 77 97 77 96 175 173 15 185 34
68. 0 225 kVA 29 Liebert Series 600T UPS 65 225 kVA Single Module 9AT10 10 609 6 88 3114 81926 VINSI4IIV9 3NIASI T T138dWV2 f da DWINUS3C 0696 9 ON 83080 ON Aaa 0 438 530 11 q r 66 20 80 10 609764 88 di oo 53 38 310 ON OAG 39Ud MANOS LIVE ON N23 A8 9NIAVa 3NITLOU 1 8 3 31111 ON 133 5 A8 NAVI AODA HIIM MITA 3dIS MIA INUS3 L 0421 E L 099 0 92 10 z 8 n 1 0421 0 06 SI 32IAN3S 804 NAWAGHLIA AVAL 311 8 1430 101 84 0_ 2 86 SI N3dU ATINA 8000 LANISVO 40 Hid30 ONTIONVH 141134 04 31V0830V 8 13 818 WOLLO LINN ONIIGNVH JUHA 311 3 40 NIHLIM 13NISVO d33 AND 1ND34 NI 0351 838 553390 391 35 NV NULLVTTWISNI E8 GLIHA 440 WEI 80103 2 8831381 1 S3HONI NI 38V SNDISN3WIQ SILON 516 41 335 ea D ALIAVAD ALIAVAD 81S v 02 8I D 0062 IN8IC dX dagen 40 331N32 40 331N32 541 244 9 81 EE0D Z22 8 dasen E 0 89 Z95 vel EEO 2222 INT IX daoen 1 89 Om 58 aN 40 LHDISM 831 33 13 183 i A3IA dul a 92 ONIAS 8000 IOI j 84 4 X 68 8 81 X v3alv XDNd
69. 0656 F ERDEN ON 83080 ON 38 1009 531835 OMG 438 530 14945 66 12 40 0 609 6 88 anne hs MA e N S3A32 Akva DAT L3NISVO SSVdA8 3ONVN3INIVW 333328 BINNS mE ONIAVAG 1 vnd 3 314111 ON 133HS A8 NAVA STANVd 1 11 400d LOUHLIA MITA 3015 ASIA INUN A3IA 4 59 0 0E t 29861 619 SI N3dD 4 MDDG 13NISVO JD Hld30 VIOL 062 3HL N33AL38 LON 108 L3NISVO 8388045 81 3HL sna 80 3 Sdn IHL 40 3018 INVH 1HDI 3Hl Dl 1704 OL 3 81530 SI 11 1 1 0 snd NOLLVSNSIANOD SNOW ONVLS V LON SI 13NI892 SSVdAS 3ONVN3INIVW JHL 8 inaina AMIN3 33893 WOLLOd 80 01 9 5623 S81 096 KAINO L3NISVO SSVdAS LNIYW LHOTSM 3lVWIXDNddV ONTIONVH 3 31183 41 NIHLIM L3NISV2 d33 18 3 NIV 3D3 038 838 LINN 3 8 3ONVSV319 019 ve me ERE AONO 1 084 NI 35 838 553330 33 838 ANY NOILYTIYLSNI NOEL Y IST HLIHA 44D Wal 8 03 2 JINNI NIVA 883138 S3HONI NI IXY SNDISN3WIQ TY 1 aan HAN 838388 SALON 6861 SSVdAB CIVNOIL aD ara 3 3 30 831 33 EIE 3359388 SNOILOSNNOO HWIT STI 58 133 8 2834 15 3 1 SSVdA8 N USD vlad 181 7 sna L1 1 3 sna j srs 1f dNI 5
70. 1 65 52 208 YES NO 170 213 180 226 175 141 15 015 34x32x68 1 950 258 65 52 208 NO YES 187 233 180 226 175 141 17 555 34x32x68 2 400 318 65 52 208 YES YES 173 216 180 226 175 141 18 200 34x32x68 2 450 324 80 64 208 NO NO 226 282 222 278 175 174 17 710 34x32x68 2 100 278 80 64 208 YES NO 209 262 222 278 175 174 18 480 34x32x68 2 150 285 80 64 208 NO YES 230 287 222 278 175 174 21 600 34x32x68 2 630 348 80 64 208 YES YES 213 266 222 278 175 174 22 395 34x32x68 2 680 355 100 80 208 NO NO 282 353 278 347 250 217 22 140 48x33x79 2 900 264 100 80 208 YES NO 262 327 278 347 250 217 23 100 48x33x79 2 950 268 100 80 208 NO YES 287 359 278 347 250 217 27 005 48x33x79 3 270 297 100 80 208 YES YES 266 333 278 347 250 217 27 995 48x33x79 3 320 302 125 100 208 NO NO 353 441 347 434 250 271 27 675 48x33x79 3 050 277 125 100 208 YES NO 327 409 347 434 250 271 28 875 48x33x79 3 100 282 125 100 208 NO YES 359 449 347 434 250 271 33 755 48x33x79 3 450 314 125 100 208 YES YES 333 416 347 434 250 271 34 995 48x33x79 3 500 318 150 120 208 NO NO 424 530 416 520 350 326 33 200 56x33x79 3 320 259 150 120 208 YES NO 393 491 416 520 350 326 34 650 56x33x79 3 450 269 150 120 208 NO YES 431 538 416 520 350 326 40 500 56x33x79 4 020 313 150 120 208 YES YES 399 499 416 520 350 326 42 000 56 39 79 4 150 323 225 180 208 NO NO 635 794 625 781 500 488 49 800 56 39 79 3 870 302 225 180 208 YES NO 589 736 625 781 500 488 52 000 56x33x7
71. 1 Proper planning will speed unloading location and connection of the UPS Refer to Figures 11 through 58 and the Site Planning Data Appendix A 2 Be certain that the floor at the final equipment location and along the route inside the facility to the installation site can support the cabinet weight and the weight of any material handling equipment The UPS modules can weigh up to two tons The battery cabinets weigh between 2300 and 5000 pounds each 3 Plan the routing to ensure that the unit can move through all aisle ways doorways and around corners without risking damage If the modules and batteries must be moved by elevator check the size of the door openings and the weight carrying capacity of the elevator 5 Refer to information later in this manual regarding the optional Battery Cabinet s Maintenance Bypass Cabinets Panelboards and Switchboards Observe all battery safety precautions when working on or near the battery Use the shortest output distribution cable runs possible consistent with logical equipment arrangements and with allowances for future additions if planned Recommended ambient operating temperature is 25 C 77 F Relative humidity must be less than 95 non condensing Note that room ventilation is necessary but air conditioning may not be required Maximum ambient operating temperature for the UPS and switchgear is 40 C 104 F without derating The batteries should not exceed
72. 11 A8 3 JAVACAVH NDILO3NNDON3INI TT 2 NUILV2U 1 G3TIVISNI 3I3H1 NI SI3NISVO JHL 9 11135 3TIHA NV OL 80184 G3NUILISUd33S 38 OL 33N THA 318V9 GallddAS 1434311 TT 8 8 11 1 30 515111 aad INUNA HOV3 2 ONIL Wa 3 18 S39V ld v WOIdAL 4504 43 3 San 4504 43 3 83414 8 Y Y 1191 jd S3LUN JAMA 81 03 JAMA JAMA 81 03 9 13 18 3 311 8 4 2 L3NISVO 8 311 8 9 1 LANIGVD 8311 8 DNAd 2 L3NISVO 8341 8 9 1 13 1 8 3 1331198 Sdn EENI 2EN9 TEND SAILVDSN SAILISOd 834 NOILISNNOD LANIGVD ABGIIVS TWWNIWSSL NOILISNNOD 2 43 18 3 AN3IIVS8 3 3AILV93N 3AILISUd 8314 93 2 L13NISVO AS3I1V8 TWNIWSSL NDILO3NNUO T L13NISVO AS311V8 8 3AILVO93N 3AILISUd IWNIWH31 NUILO3NNUO T 13 3 8311 8 3 nauw Sdn V 55 1 9 4 OL ND23 NNA ONIAIM 123NND2331NI 031 44 5 1434317 INOHLIM gt UI INOHLIM gt
73. 114 8 3 0 EN N23 AG ONIMVAG 3NITLOD run 3 31111 UN L33HS 8 NAVAT 58013 0 204 9 DAY 0 2 018 2 804 30 0 8 IAY SINI 80 OT 39 8 1 3 18 26 9L 00 cuu608 JHL 40 3Hl 1V 138 38 5 ONILL3S SNDANVINVISNI 33 388 LINIJI 6 97 052 202 1 89 581 OST SI 1 9 3 31 81 0894 8 002 ugar guu681 91 NI 065 9 9 D SI IZIS 9 NUILO3NNDO 31899 2 7 ONIMIS 1331194 40 LNIOdGIW 388 OL 35 37Dd 331N33 9 15 8e 0ST ONIAVAC SIHL NO Sv Set 965 NADHS SY 58013 63 1 38 3 311 8 IHL OL ALIOVdWY 83 40 83 318V2 v AMY GE Ce 001 cuugyy ISNN 8380158 3 3 0351 83 8 51 3 DAL Y 383 SNDILVOIddV 804 S pa 3 03 8 89 SI HSINI 62 6 SNDIL133NND3 ONISIA 41314 8034 30 0 8 51 0 30 8 22 88 EI 5 Gayl 335 3593133 39 1 830 30 8 V NV SIOVINDO uu NI uu NI 5431 AMVITIXNY 8 9 2 3339338 XXXXSETHA 34 1 38 85 SI N3V3N8 LINDAID 2 wid 3zis nana A NU ONIINNON TIYA D3 314VLINS SI HOIHM G3OIADNd 3 80SD13N3 I VW3N TT av 335 H O J 3 02 8 V Sali S LODDIOUNDI ue 2 NITTIVSTIDIJNIT 3 d UAI NOILVENSIANOO 310d 338HI
74. 13 8 IHL DNILI3S 3 NV 1 084 Dl 8018 03 0111 80438 38 OL CIIN TI 3 8 3 031144 5 1338311 SALON L 1 1 1 V V L GISUd SV3N INUNJ HOV3 y ONIL IDE L3NISVO C S10V ld v IVIIdAL 45 4 97 43 8 3 2 Sdn 1SOd Oo 834 0135 81 ju Figure 24 Line up Detail 100 225 kVA Space Saver with Bypass Transformer Cabinet Installation Manual 38 SAT10 12 2096 88 3WVN 3114 81926 41190 3NIASI I J3 aol ON 83080 ON 38 q 66 82 80 2 09 6 88 31vd ON 4009 5 31835 LANIGVO ASWAOASNVAL SSVdA HLIM VA Gee 001 WIISAS JINGOW 3 IDNIS MVI30 dA 3NII 1111 8 3 fF DAC 438 530 9 1038 V UN N23 A8 383 T 40 I YNH 9 UN 43345 A8 5 119130 11100 303 l1N3Wdin83 40 33314 HOVS JU DNIAVQ WACIAIGNI JHL Dl 83438 MINO NI 8 638 55333 331835 NV 11 15 NOILYANDIANOD dl 3N11 V NI 31 30 38 ISNN SL3NISVO TVW 1838311 A4 31 44 5 38 8 1133 3831 2 GATIWLSNI NI SL3NISVO JHL 9 11435 3TIHA ANY OL 80184 03 011150438 38 OL 33N TI 31899 31 4
75. 24 0 89 z H A3IA dol 099 31 335 3 Sdn 30 3015 QNVH LHOIa OL 54 1018 Ve 8000 101 818 Hl Lll Hil 6 58 UH 11 11 1111 1 er X3 IY Figure 14 Bypass Transformer Cabinet 65 amp 80 kVA Installation Manual 28 9 0 609 6 88 3114 81426 VINBUJIT1V2 NIAI 2 3844 3 AMA ON 83080 ON 38 1009 531835 OMG 438 saq 149 51 66 60 40 1 609464 88 44 oer A802 53 38 mE Ca L3NISV2 838 8045 81 SSVdAH EN N23 yee 0DNIMVGQ NI TINO 1 49 1 9 31411 1335 A8 80 4 38 13NVd ALUA HIIM NALUHS AJLA 3415 A3IA INUNA 019 0 2 X8vvD 0 S SI N3dU 1 4 8000 HIIM I3NISVO 40 4430 1 404 8 AANU 31NdOW SdA 3HL 430 3015 4 918 SHL OL 17104 OL 3 91530 SI lI 11 8 914 03 Ema SNOW CNVLS V LON SI 43 18 3 SSWAOSASNVAL SSYdA4 JHL CELL 08 See T 3 45 8
76. 3 S dAL sna 81 OD 90 LAdNI sna 93 G dAL 6v2 sna VIO 0D 90 8 6 aviae 089 D o JAL CGE 8E1 8 31 335 43 8 3 83 8 35 84 AO Sdn 40 3015 QNVH 1HOIM OL 81 A3IA dol ASIA WULIIDS ONIAS 8000 58 2288 2783 5 2 wae ce sava sna INdNI 3U visa SO ss L 594 x 958 68 G T 019 X soe 200 X E p e58 38 Daddy AXINI 1 03 01 ee ABIN3 LINGNOD 01108 T 1 41 i 533 E dAD LOS GD 95 X 1 11 6 594 X 956 205 533 dAD n 3 VIT CD 9S as 05 85 J 60 sz X 0 GT 38 843 ABIN3 LINGNOD 404 SSVdAg Figure 20 Outline Drawing 3 Breaker MBC 125 350 Amps Installation Manual 34 81926 893 3 da DWINUB3 0596 DA 20 1 80 609464 88 3WYN 3114 1194911 9 d ON aas ON A38 66 12 v0 80 609 6 88 4 0 ON SAG 1009 511835 A802 VA Sel LANIGVO SSVdA 3JONVNGINIVW 2329328 ONIMVAC 3NI TIR 314111 OMG 438 11384 3 530 ON N23 5 38 A8 AHO t 30 1 UN 133 5 YNH 3 A8 80 SUD 6 49 SI NadO ATNA
77. 339328 snvHxa NIV 80 4 038 838 LINN 3AUSV 3JNV3V319 F2 Y 01 1 051 NINO 1NU3 NI 3 838 SS322V 331 835 NUILVTTVISNI ESHE 39NVN3LNIVH 4 CIWNOILdO gt GLIHA 440 WEI 80703 e 0 834 3 S3HONI NI 38 SNOISNSWIC s CAN N3 V3N8 SSVdA8 S31UN 33NVN31NIVN i 818 83 9388 INdNI SSVdA amp sna 2 3 51 sna sna LAdNI of sng WaLn3Nn NdNI sna sna ns annow9 8 31UN 33S l3NISVO 3W3D3iSNV31 80 Sdn 10 3018 GNVH LHOIS OL s1708 3 SNOTIOSNNOD S3AUISTO SNOTIOINNOD 82 5 2 SNOTIOSNNOD S3WUISIJ SNUIIOJNNUJ S3AUISTO MJA d l ava QNnUSO VIA WAIN 3U VIA Sava sna Indinog 3H Tiviad Sava SNA INANI SSVdAH JO JIVI3d J Sub cer 4 5 3 4 8 dAl 9 101 96 X I e 8 074 dAD Set 00bT e m m 96 006 6066 6 6 6 eo Ff d 06 6 ap 5 014 dAD sou sab 1 1 1018 696 x 1 E 00 2 amp 9 9 ims cos x1 p e 4 1 41 Hau 541 ANLN3 LINONO9 00 401 indino EE 0091 eee pe J FERE uj T S 214 8 dAL 296 mza 041 ee oe Aaina 70 63 dl 64 2 S 97d 8 dAD 005 sanis 1 X SZE ANdNI 55 8 Figure 22 Outline Drawing 3 Breaker MBC 600 800 Amps Installati
78. 35 NDI133NND3 er m eS x er 83 015 eor cu i 2018 i 4834 1 41 ANdNI Twnd 804 GV 11 130 335 NOILOSNNOO SSVdA8 82 8018 1113 052 DAV Ht 6 80 IN2 009 JAY Ht CD A009 A08v 3ZIS 9f1 2 SUV Id en N GNISI da MVl3d XUS SSUTI7 MOUTH IWNIWSSL 1 MOUIE IWNIWSSL OC INRHBNS avd SNE SSVd o N 3 8 V ET 0S 6D 84 0 G 2V Id D 2 VIG 0D 90v Ollo Ta a NE se s TIW23008 DAV 98 8 3 3715 51 Figure 37 Terminal Details 150 amp 225 kVA Standard SMS Liebert Series 600T UPS 65 225 kVA Single Module IMT E0 S1 909464 88 3 3114 r 3 130 33S NOILI3NNOI l3
79. 4 1434311 TW TT SALON Y Y IV 34 S1SLld 1 84 HOV c ONIL Wa SJV Id IVIIdAI 1SOd LANI4VI 83 80 435 84 11 130 9N1 3 IDNIS 501 In ava sna S3HSVA 1914 BD TWNIWYSL B3HSVA 1974 LAN LAN 9 583 5 Ce 5 3 4708 3 3 38 M3HSVA 1914 IVNIN3L 73407 1 084 JAMIVI3QO NUILO3NNUO HHSVA 1074 IXIA JUNINO2 97d AVI 8848 55 VAd Yd 3199 ANI 3 Sdn ND 2 Hd sava SNE 1NdNI SSWdA JINGOW Sdn EX 2X DO OBS AVI YW4X 55 3 8 V 58013 03 DL 084 NNA ONISIA 123NNO2N31NI Q3IlddnS 1334317 CI3NVd AUU LNUHLIM gt LANIGVO ASWSUSSNVAL SSVdA 3 NON san 3 A3IA 3 1 AMAIA dul eo De ASIA dul
80. 553399 33 838 NV 1 18 011 8 914 03 dfl 3NI1 V NI 31 38 18 SI3NISVO TW LM3H311 A8 31 44 5 IAYMTAYH NOLLOSNNDON3INI 2 GUI NON SUB OO NULLVOU1 3 18 SISHL NI 513 JHL ONILLAS 33IHA 4 3 3 I3NISV2 OL 80184 3 011180438 38 01 CAIN THA 33893 03 144 5 1338311 I SSUdAH INIVW S3WEUJSNVNI SSVdAB Findon San SALON ASIA INOJ ASIA INUS ASIA IND23 rm rh om Y Y Vlad 51514 38 INUJJ HOVA 2 ONIL 8 LANIGVO 1d 8 IWOIdAL 1SDd 13NI V9 3 8035 81 SSVdAH 3 s 2 rJ i j lt 11430 NUILO3NNDO 3 IBNIS 501 ING ava sna W3HSVA 1v14 80 TVNIN231 W3HSVA 1914 LAN LAN Kg SH3HSVA 1704 Kg 5 3 5 1704 31 3 1138 38 ava sna 80 834 8 1 8084 83 5 1 NULLOJ3NNUJS 04 084 A3I dol A3IA dol
81. 7 125 100 208 NO NO 151 189 347 434 250 271 23 725 48x33x79 2 700 245 125 100 208 YES NO 140 175 347 434 250 271 23 725 48x33x79 2 770 252 125 100 208 NO YES 154 192 347 434 250 271 29 680 48x33x79 3 500 318 125 100 208 YES YES 143 178 347 434 250 271 29 680 48x33x79 3 570 325 150 120 480 NO NO 181 226 180 226 300 324 26 140 48x33x79 2 650 241 150 120 480 YES NO 167 209 180 226 300 324 27 540 48x33x79 2 780 253 150 120 480 NO YES 184 229 180 226 300 324 33 210 48x33x79 3 550 323 150 120 480 YES YES 170 213 180 226 300 324 34 650 48x33x79 3 680 335 150 120 208 NO NO 182 227 416 520 300 326 28 475 56x33x79 3 050 238 150 120 208 YES NO 168 210 416 520 300 326 29 885 56x33x79 3 180 248 150 120 208 NO YES 185 231 416 520 300 326 35 615 56x33x79 3 950 308 150 120 208 YES YES 171 214 416 520 300 326 37 070 56x33x79 4 080 318 225 180 480 NO NO 271 339 271 338 500 486 39 215 48x33x79 2 990 272 225 180 480 YES NO 251 314 271 338 500 486 41 305 48x33x79 3 120 284 225 180 480 NO YES 275 344 271 338 500 486 49 810 48x33x79 4 190 381 225 180 480 YES YES 255 319 271 338 500 486 41 305 48x33x79 4 320 393 225 180 208 NO NO 272 341 625 781 500 488 42 710 56x33x79 3 475 271 225 180 208 YES NO 253 316 625 781 500 488 44 825 56x33x79 3 605 281 225 180 208 NO YES 277 346 625 781 500 488 53 420 56x33x79 4 675 364 225 18
82. 86 3WWN 3113 81926 VINAD111V9 3NIAI da DWINDS3C 0596 1 99918 e 4 0 ON OAG 384 3 DAG 438 830 1009 531835 M NOLLdO 33 483181 NvOS3LIS Bises in S 40 I 83171 25 3 JUIL ON E A8 NAVI S3009 1091419313 W501 TWNOILYN HLIM NI 38 LSAW ONISIM 318v9 5 81 4 3151 1 DAVZZ HLIM 5831 3 00 1333 0 LNA 0001 H1DN31 318699 W WIXVW v AANI 3 3 915 8 08 3 4831 3534115 11410 49 11 301 804 89 10 NOI1V901 NOILI3NNO9 1 3 3AVS 3 SNn ONISIA 81 3 NNA 38 15 523 SINUO 3 Sdn OL 834338 2 Hl NI 38 LON 5 ONISIA ASMOd 84 1 8 435 A4 ONISIM WALNOD SALON ava 32V383lNI NVOSSLIS Ya 1 130 335 N 14 da talpi SITESCAN SITESCAN G 33 3834 1 NV3S31IS 318939 DSNILO3NNDOS31NI Gal ddNS AaWOLSND Figure 47 Option Wiring SiteScan Interface 61 Liebert Series 600T UPS 65 225 kVA Single Module 9 10 60 809 6 86 SAWN 3114
83. 9 4 000 312 225 180 208 NO YES 646 807 625 781 500 488 60 750 56x33x79 4 510 351 225 180 208 YES YES 599 748 625 781 500 488 63 000 56x33x79 4 640 362 Applicable 13 1 4 8 2 3 5 7 8 6 6 8 9 11 Notes 9 11 12 9 11 12 11 12 A 2 Installation Manual Series 600T Single Module Systems 480 Volt Input Inverter Or Required Maximum Maximum Floor AC Rectifier Bypass AC Battery Battery Heat Loading Output AC Input Output Discon Current At Dissipa Approx Lb Sq ft UPS Rating Voltage Options Current Current nect End Of tion Dimensions Weight Concen Input Input Rating Discharge BTU Hr Inches LB trated kVA kW VAC Filter Xformer Nom Max Nom Max Amperes Amperes Full Load WxDxH unpacked Loading 65 52 480 NO NO 78 98 78 98 150 140 11 330 34x32x68 1 500 281 65 52 480 YES NO 73 91 78 98 150 140 11 935 34x32x68 1 550 291 65 52 480 NO YES 80 99 78 98 150 140 14 390 34x32x68 2 200 413 65 52 480 YES YES 74 92 78 98 150 140 15 015 34x32x68 2 250 422 65 52 208 NO NO 79 98 180 226 150 141 12 340 34x32x68 1 700 319 65 52 208 YES NO 73 91 180 226 150 141 12 950 34x32x68 1 750 328 65 52 208 NO YES 80 100 180 226 150 141 15 435 34x32x68 2 400 450 65 52 208 YES YES 74 93 180 226 150 141
84. BC 47 Liebert Series 600T UPS 65 225 kVA Single Module 6 0 92 09 6 88 3NVN 3114 Bi9de VINSDJITV2 3NIASI I 1009 S3IS3S 84 F M LA san ON 83080 ON AJY LANIAVI SSVdAS 3ONVN3INIVA 83 388 438 530 49 51 66 82 80 92 09 6 88 ONY L3NISVO SaWAOASNVAL SSVdAH HLIA QNIGIY V 31 0 ON OMC VAN See 001 ON N23 A amp W31SAS JINGOW 3 9 5 130 dN INIT 1 381 3 JALIL ON 133HS A8 NAVA 5 130 WNOILIddy 80 4 lN3WdIn03 49 33314 3 3 JU 9 80 1 1 JHL Dl 83438 MAINO 1ND233 NI 38 838 55333 331 835 NV 11 15 NOILVSNDIANOD 4 3 V NI 341 3 0 38 LSAW SI3NISVO TV 1834311 A8 031 44 38 8 1133 3831 TW 2 NOILVIO1 SI3Hl NI SLI3NISVO 3Hl ONILL3S NV Ul 80184 03 011150438 38 OL 33 THA 31893 3I1d4nS 1338311 SALON Y Y 119130 51511 av3s 3 IND23 HOV3 ONIL L3NISVO 8 IV IdAL 4504 13 3 83 8035 84 SSVdAH 339NVN31NIVN AVI3G NULLO3NNUO 501 3 19NIS 11 130 NUILOJNNUJ 501 WNC avd sna 83 5 4 4 80 831 W3HSV 10714
85. Diagrams of SMS with optional Maintenance Bypass Cabinets 18 Figure 11 Outline Drawing Single and Multi Module 65 amp 80 KVA 25 Figure 12 Outline Drawing 100 through 225 kVA Module with SpaceSaver Top Entry Configuration 26 Figure 13 Outline Drawing 100 through 225 kVA Module with Standard Top amp Bottom Entry 27 Figure 14 Bypass Transformer Cabinet 65 amp 80kVA 28 Figure 15 Bypass Transformer Cabinet 100 225 KVA 29 Figure 16 Battery Power Pack 65 amp 80 KVA 30 Figure 17 Battery Power Pack Size A 100 225 KVA 31 Figure 18 Outline Drawing 3 Breaker MBC 65 amp 80 KVA 32 Figure 19 Outline Drawing 3 Breaker MBC with Bypass Transformer 65 80 KVA 33 Figure 20 Outline Drawing 3 Breaker MBC 125 350 Amps 34 Figure 21 Outline Drawing 3 Breaker MBC 450 to 800 Amps 35 Figure 22 Outline Drawing 3 Breaker MBC 600 800 Amps 36 Figure 23 Line up Detail 65 amp 80 kVA SMS with Bypass Transformer Cabinet 37 Figure 24 Line up Detail 100 225 kVA Space Saver with Bypass Transformer Cabinet 38 Figure 25 Line up Detail 100 225 kVA Standard SMS
86. E POWER DISTRIBUTION UPS MODULE UNIT 3 BYPASS INPUT x MAIN INPUT GROUND pa 11 CRITICAL LOAD GROUNDING gt ELECTRODE PER NEC 250 25 LOCAL GROUNDING ELECTRODE 1L GROUNDING LOCAL ELECTRODE L3 Figure 2 Alternative Grounding Configuration 480 or 600 VAC input and output 7 2 Alternative Grounding Configuration 480 or 600 VAC Input and Output Isolated Power Distribution Units Wye Connected Service This configuration is similar to that shown in Section 7 1 except that the service entrance neutral is not brought into the UPS module In this configuration the UPS output transformer is considered a separately derived source The UPS module neutral is bonded to the UPS ground which is connected to a local grounding electrode in accordance with NEC 250 26 Please note that this configuration represents a price performance trade off Whenever the UPS module transfers to or from bypass two AC sources input and bypass are briefly connected together and circulating current must flow In the previous configuration the current flows through the neutral conductor In this configuration the current flows through the ground path possibly tripping ground fault interruptors GFIs and distorting the bypass waveform reference Proper adjustment of ground fault interrupters is necessary to avoid unwanted tripping This configuration is reserved for those applica
87. H LE lt Ga ot u J gt l 29 y WALSAS 5 NI 39V4N3INI TANVd SNIVIS 340438 OL 31899 SNILO3NNDO331NI 4 3 3 5 3 Figure 55 Remote Status Panel Surface Mount 69 Liebert Series 600T UPS 65 225 kVA Single Module DAT 20 801 S09264 8 3HVN 3114 81926 1 803 3NIASI 2 11138423 f MR A an ON 83080 ON A38 438 Adv saq 149q9I 66 12 v0 801 G0946 8 gay eee 5 S3A3N 8 310 ON Sar ON N23 8 03 385 3 388 11 8 3 1 30 T 831 1 25 31111 ON 413385 A8 NAVA Ga A009 S2 THI A009 9 AHON NIN3O NI133W GE 0 389 85 A08F 081 8622 gt 00T A802 S9 THW 802 gt 62 HAN A009 Ge 009 9 JHAN 39 08F a 38 85 021 06 001 SHEN 802 59 JHW 802 52 009 55 H 009 gt 69 3 3 NI339 NITS3WN A08 GE a 38 85 08 001 621 001 JHCN A802 9 JHW 802 Ge 009 Se 7H 009 G9 HAN NIN39 NITB3W 084 GE JH a 8 08 08 001 001 AHN A802 S9 JHI 802 ASZ HAN A009 gt sz 009 S9 SHAN NIN3O 83 08 SE H 3 vnos 08 79 08 2001 HAN 802 S9 802
88. M LISNNODSSLNI CAlTddNS 1338311 JUUA LAOHLIMD San lJNISVO SSVdA amp 8 INIVN ASIA INS ASIA n n n n V sn mo an gan 8 8 A3IA dol Figure 30 Line up Detail 65 amp 80 kVA with Bypass Transformer and 3 Breaker MBC Installation Manual 44 5 A 20 61 409464 88_ 3HVN_3114 81926 80 3NIAI 2 1009 S3IN3S T138dWV2 f AA 8 ON 83080 UN Aas LSNIGVD SSVdAS JONVNGLNIVW 2339328 HLIM DAT j34 530 49 51 66 12 40 1 409464 88 SIAJA 31 0 ON OMG W31SAS 3 3 9 ON N23 A8 AHO IV13 0 dN INNT 1 30 YU 314111 ON 133HS A8 NAVA S3ID3 21312313 V911 TWNOILYN HLIM NI 38 15 SNINIA STIV130 80 3 4 3 41 53 JO 33314 3 3 10 DNIMAVG 1 JHL OL 3 3438 AMINO 1 084 NI 381 538 55333 3OIAB3S NV 11 15 NOILVSNDIANOD 4 3 V NI 319901 38 ISNN SI3NISVO TV 1834311 A8 43 38 8 1133 3831 GATIWISNI 3I3H1 NI SI3NISVO JHL S9NILL3S 3 IHA NV Ul 80184 3 011150438 38 OL 33 31893 3I1d4nS 1434311 Sal WV MVvl3d CSISOd avis 3 4 HOV3 ONIL IDE LANIGVO S3OV Id IVOIdAL 4804 43 8 3 Sdn 1SU
89. N3LINIVH HN NOS AG 31111 ON 133HS _ A8 8 S3009 1v214123 13 1V29U01 TWNOILYN HIIM 32NVGI3D22V NI 38 LSAW ONISIM VW 318vV9 3181x314 DAVtI HLIM 54313 OST 1333 005 HION3 318V9 WAWIXYW VS 41 388 3 OVAO TI 39Vl DA WNDIS SNULLO3NNUO 9 81 30 N UIIVOD 804 9 1 80 ANITINO LANIGVS SSVdA8 1 Dl 83438 2 LINGNOD 3NVS 3Hl NI G3NISWDO 38 LON 5 5 8 ONISIM 81 03 ONISIM 3ADd WON1 31 8 435 NNA 38 LSNN 583 1 ONTAIM 81 3 TT SSLON 430 83 4 AON3OSJNW3 310 38 SNOILVLS NOLING HSAd DN3 Dd3 DL 31899 DSNILO3NNDO3S3INI 031144 3 3 53 e a u m POWER OFF POWER OFF Figure 52 Option Wiring Maintenance Bypass Cabinet Installation Manual 66 9 0 09 6 88 3HVN 3114 81486 VINNDJITVO INIAN 2 T1138dWV23 f 08 83 0696 83080 A33 1009 S3I33S OMC 438 530 149 51 66 91 80 11 909161 88 den Ge ae SIM nce ez 9 038 V 2490 ON A LOSNNOQSIG 83
90. NI 31 30 1 38 15 SI3NISVO TVW 1834311 A8 31 44 5 38 8 NDILO3NNDOSNINI TV 2 3 15 SISHL NI 513 3 3Hl 9 1 1135 3 O1 80184 3 011150438 38 OL CIIN THA 31899 31 144 5 183831 TT SILON N V 1191 3 cava 239vdS AVAA LINUXA HOV c 1 ld v 43 8 3 55 4 8 avd 833 45 1NO34 S San ava 439vdS 521 Man 136 NUILOJ3NNDUO 501 43 TDNIS 83 5 1914 83 5 10714 LAN 6 S 3HSVA 1188 31 3 1138 va_sna VNIN3L 73407 1 08 JJA 081 93 sna TIVO 311183 AVI SSVdAS LNIVA YAWAOASNVSL TALNOD 3 SSVdA8 LNIVN YENO IND N 2 8 V Hd 83 388 559418 AINGOW 5 818 3339338 OSI 55 4 8 3 SSVdA8 LNIVW 3 INO N 2 Hd 39018 WNIWSSL 1NdIND JINGOW Sdfl HIM 3339328 OSI INIVW AVI SSVdA8 LNIVW 8 S OL9INONO9 4 nna DNII
91. NISVO AN311V4 1338311 804 3018 WNIWASL 30 88 0ST 81926 03 3NIA I 384 Anna ON 83080 ON A33 9 438 Adv 530 149q9I zn SI 909262 88 T ONI34 V 310 ON OMG W3lSAS CON FONTS ON N23 A8 5 13 831 1 20 1 3 31111 DN 133HS A8 NAVA 5831 S3HONI NI 38 SNOISNSWIC TT SALON MJA 25 A3IA INOS AJIA 3QIS G8 1 130 335 ater ava sna 089 WLAN N T i 1081 3 6 04 m AndiND 8 a LAdNI OV ss Ly SSVdA8 V ee 5 95 LNdNI OV 8314 11338 8 m 851 1ndNI 30 H 09 4 835338 LJ 1 38 3 H LNdNI r GW 130 335 SNOLLIANNOO ava sna 834015 3 J 9130 1 3 383118 8 UI NUIIO3NNUS 1838311 NU a TIVI d MVI3d SSNOISNS 3U VIA WOII 53018 WNINN3I 3d ava 85 ava sna ae 8339 2 seb 10 1 296 A perc B edis T s X bd _ ev Le SLT 53 8 lt 68 VIT D 298 Figure 38 Terminal Details 100 amp 125 kVA Standard SMS Installation Manual 52 5 AQ 20 60 909 6 88_ 3WVN_37I14
92. NOHLIM DEQ I DH1IA AGIA INOS 1 13 8 3 8311 8 13 8 3 8311 8 L3NISVO 311 8 A3IA 34 ASIA 4 MITA 1 L II y r r a LI ee a y C TEND p ER 2ENI d eu EENI 02 ASIA dol ASIA dol ASIA dol 1 Figure 27 Line up Detail 100 225 RVA Space Sauer with Battery Cabinets 41 Liebert Series 600T UPS 65 225 kVA Single Module JAT T0 6t 409464 88 34AVN 3114 81926 3 169 3NIAI da DWINUSN3C 0956 1 1499811 ON 83080 ON 38 66 12 v0 6v 09 6 88 10 ON OMC 1009 531835 SL3NISVO 8311 8 HIIM VA Gee 001 WVvlad dA 3NII W3LSAS JINGOW 11 SD 3 19NIS 31414 8 4 3 f 138 530 53 38 8 ON N23 A8 HO 1 40 1 YAH ON 133HS A8 NAVAC S3d023 1091419373 ANY IWNOILYN HLIM 32NV I3D22V NI 38 5 ONIAIM TIW STIVLad 0 11100 803 1N3NdIn83 40 33314 HOVA JU ONIMVAC 01 1 3Hl OL 83338 MAINO 1 84 NI 381 838 55333 3OIABS ANY N ILVTIVISNI Y NOILVSNDIANOD dfI 3NITT V NI 31 3 0 38 LSNW SLI3NI VO T 18343
93. OWER DISTRIBUTION UNIT 3 MAIN INPUT GROUND 54 BYPASS INPUT CRITICAL LOAD PER NEC 250 24 PER NEC 250 30 Figure 5 Preferred Grounding Configuration with Ungrounded Delta Source Input top and Corner Grounded Delta bottom 7 5 Grounding Configuration 480 or 600 VAC Input and Output Delta Source or Impedance Grounded Wye As previously mentioned Series 600T UPS modules require a bypass input neutral for sensing and monitoring With a wye connected input source the installer should always connect the building service neutral to the module output neutral to achieve this When the building service is delta connected however the installer must take special steps to ensure reliable UPS functioning If building service is ungrounded delta and there is no intent to operate with one corner of the delta grounded either on purpose or accidentally the UPS requires the Series 600T Artificial Neutral Kit for proper operation This kit uses a resistor network to create a reference point for the bypass input In this case the UPS output neutral must be bonded to the UPS ground See Figure 5 above If the building service is corner grounded delta or an impedance grounded wye the UPS requires the Series 600T Isolated Neutral Kit This kit uses control isolation transformers to create a reference point For this application the UPS output neutral must not be bond
94. ST C HN 9 31DN 335 AN311V8 I navi 335 311 8 OL 83 015 3 A8 ho gts l PEN H G3rlddns ai3dWnr A TT 2 943 PX E poe x 83108 253 wuz j 8 E Fa vid 82 I l 1 1 1 oa iC G I l 1 Ec ne edl 1 1 I 9 L 1919 San Bl San OL Tee 2 ve 9 82 I 1 3 T z 5 ui 1 ZA 83 03 8 eu BLVOIGNI 01 25 SINIT Q3HSV0 6 ig I 8 UN u 3 1 335 j 03 Sod 31 9 ONIMIA 1 A gt 8 lo es 333338 1103319 1 D mE 2 30 2 IVNDIS 81 an cuuyo A T_ O0Ave 915 didl Se 1 STOH 5 D uze Bu ALE lt dul quur 6 9 p VIT 0S uug vid Figure 53 Module Battery Disconnect 65 through 125 kVA 67 Liebert Series 600T UPS 65 225 kVA Single Module 9 090 60 919 64 88 3 3114 Fa DMINDSOI 0096 n d 9 ON 33030 ON A32 4009 531835 OMG 438 530 11
95. TH ALL APPLICABLE NATIONAL AND LOCAL ELECTRICAL CODES IMPROPER WIRING MAY CAUSE DAMAGE TO THE UPS OR INJURY TO PERSONNEL CAUTION All shielded cables non shielded cables non shielded control wires non shielded battery breaker control wires and non shielded remote control wires must be housed in individual separate steel conduits Placing multiple cables in the same conduit with other control or power wiring may cause system failure 9 2 Specific Connections Refer to the drawings in this manual and any other drawings provided by Liebert for this installation Make all of the following connections a AC power cables from input power source circuit breaker to UPS Module Input Observe phase rotation CAUTION See Section 7 of this Manual for an explanation of proper grounding techniques b AC power cables from bypass power source cir cuit breaker to UPS Module Bypass input Observe phase rotation c AC power cables from UPS Module Output to critical load Observe phase rotation NOTE If your installation includes a Maintenance Bypass Cabinet Switchboard or Panelboard some or all power cables will be terminated in these cabinet s Make sure all required wiring between UPS module and the optional cabinet s is completed Observe phase rotation d The UPS Module Output Neutral must be con nected to one common point and solidly grounded per requirements of the National Electrical Co
96. TO DO SO NEVER WORK ALONE A Caution indicates a condition that could seriously damage equipment and possibly injure personnel For example CAUTION Extreme care is necessary when removing shoring braces Do not strike the cabinet with hammers or other tools A Note emphasizes important text If the note is not followed equipment could be damaged or may not operate properly For example NOTE If the UPS system has a blown fuse the cause should be determined before you replace the fuse Contact Liebert Global Services Liebert Series 600T UPS 65 225 kVA Single Module 2 INSTALLATION CONSIDERATIONS Install your Series 600T UPS in accordance with the submittal drawing package and the following procedures A Liebert authorized representative must perform the initial system check out and start up to ensure proper system operation Equipment warranties will be voided unless system start up is performed by a Liebert authorized representative Contact your local Liebert sales representative or Liebert Global Services at 1 800 543 2378 to arrange for system start up CAUTION Read this manual thoroughly before attempting to wire or operate the unit Improper installation is the most significant cause of UPS start up problems Do not install this equipment near gas or electric heaters It is preferable to install the UPS in a restricted location to prevent access by unauthorized personnel
97. TOST 00281 H 18 81 NOILVdISSIG SNI 1003 1V3H 2 T38dNV3 ON 83080 ON A32 438 53 66 19 38 10 909161 88 a ea SIAJA alva BN AG 331n0DW ILINW 9 319 REWA ES ONIMVAC 3NITIAQU 31111 ON 133HS A8 NAVAT AJIA AUIS MAIN LN L 818 698 5815 2 2 LE Z YE r A 1 Li as v99D 6 69 SI N3dD ATINA 8000 HIIM LANISVO 40 Hld30 VIOL Nn ONTIONVH 14134 804 34 830 13 818 WOLLUS LINN S 3lvld 553939 3 38 HONDSHL ANINI 318V9 NOLLUS 9 401 0 S30v1d 2 ONITGNVH 3 1 1183 40 SI NIHLIM LANIGVD d333 S 002 1ND233 084 E EEE 1SnVHX3 NIV 804 38 838 LINN 3ADSV 33 8 3 019 b2 3 38 A ND 1 084 NI 381 838 553009 33 835 ANY NULLVTTWISNI S2 SN31114 eos 3 441 WEI 80103 2 3 IV r SUSLAWITIIW S3HONI NI 33V SNOISNAWIG S3LON 1 89 1 89 JU 331N32 40 N31N32 T 0 89 SID Gelb 8I2 201
98. UIPEMENT POUR ASSISTANCE APPELER LE DEPARTEMENT DE SERVICE A LA CLIENTELE DE LIEBERT DANGER Les accumulateurs plomb acide contiennent de la mati re comportant un certain risque Les accumulateurs doivent tre manipul s transport s et recycl s ou limin s en accord avec les lois f d rales provinciales et locales Parce que le plomb est une substance toxique les accumulateurs plomb acide devraient tre recycl s plut t qu limin s Il ne faut pas br l le ou les accumulateurs L accumulateur pourrait alors explos Il ne faut pas ouvrir ou endommager le ou les accumulateurs L lectrolyte qui pourrait s en chapper est dommageable pour la peau et les yeux Un accumulateur repr sente un risque de choc lectrique et de haut courant de court circuit Lorsque des accumulateurs sont manipul s les mesures pr ventives suivantes devraient tre observ es 1 Retirer toutes montre bagues ou autres objets m talliques 2 Utiliser des outils avec manchon isol 3 Porter des gants set des bottes decautchouc 4 Ne pas d poser les outils ou les pi ces m talliques sur le dessus des accumulateurs 5 Interrompre la source de charge avant de raccorder ou de d brancher les bornes de la batterie d accumulateurs 6 D terminer si l accumulateur est mis la terre par erreur Si oui d faire cette mise la terre Tout contact avec un accumulateur mis la terre peut se traduire en un choc lectri
99. W WIXVN T 41 88 3 2 ADVLIOA 915 33 4831 1 T3NVd 5 1 15 349838 11449 4 NOI1V90 1 8034 89 10 1 301 NOILISNNOS 81 03 JINGOW Sdn Dl 83338 2 LINGNOD 3WYS JHL NI 3 1 8 03 38 LON 5 SNNA ONISIA 81 03 ONISIM 83 84 4 341 8 435 NN 38 ISNN 583 18 A8 ONTAIM 81 3 TEV T SALON 4831 d3NVd SNIVIS 1 3 YY sk em V JIV130 335 We 11 1 30 4 18151 GROUND CONTROL POWER o OVERLOAD NEW ALARM o LOW BATTERY WARNING SYSTEM SUMMARY ALARM lt AMBIENT DVER TEMPERATURE LOAD ON UPS LOAD ON BYPASS BATTERY DISCHARGING A SNLYLS 31DW3 8 4 318939 9 133 3834 0 31144 3 3 53 1 40 1 31111 ON 1 33 5 Figure 45 Option Wiring Remote Status Panel Interface Liebert Series 600T UPS 65 225 kVA Single Module 2 010 20 809464 86 SAWN 3114 81926 VINSD JI1V2 ANIABI da 3 0696 14949179 I ON 83080 A32 66 20 0 0 809 6 86 salva ON OMG 4009 511335 CSNOILVSINNWWOSD Z 82S NOILdO Wal IVNINS3I 310W3 ONISIM 31414
100. W G9 3H3N 839 838 8 A08 0017651 001 HEN NI335 NI TN 001 HEN NI335 NI 1338 802 A802 S2 3H3N NIN39 NI 83W Ge 3H3N 839 838 009 009 S9 AHAN 839 NI 123NW S9 JH JN 839 NI Ta 08F 08 001 00T 3HCN NIN39 NI 83W 001 3HCN NIS3O9 NI 83W 802 802 Ge AHAN NIAS9 NI 83W Ge AHAN 319 NI 83W 009 A009 S9 AHAN NI2335 NITI R 69 3 3 839 838 8 08F v9 08 OOT AHN NI3I39 NI 83W O01 JHCN 839 NI 83W 802 802 Ga JH JN 839 83 Ge JH JN 839 83 009 A009 S9 AHAN NIXJ NIVSSAW 69 HN NI83O9 NI 83W 08 08F 26 69 001 JH JN 839 83 O01 3 JN 839 NI Ta 802 802 s 3 SDIN3A 1 1 INANI IN 88N 818 818 JOVI IDA JINGSHOS 323998 LINDAIO L3NISVO SSVdA8 3JONVNGLNIV Figure 58 Circuit Breaker Schedule Maintenance Bypass Cabinet 65 through 225 kVA Installation Manual 72 Appendix A Site Planning Data 65 225 kVA Single Module Systems MAINTENANCE BYPASS SWITCHGEAR OPTION MBB ASE G A 2 5 aa T xu 2 ui MiB TO LOAD UPS MODULE NN SBB Qo A 55 G FT s s O BYPASS AC INPUT l TS TK gt D s OO M C RECTIFIER cel UOB AC INPUT BATTERY Notes 1 Nominal recti
101. are properly grounded according to code requirements in your area If you have any questions concerning batteries battery racks or accessories contact Liebert Global Services at 1 800 543 2378 CAUTION Cables between batteries and modules should be run in matched pairs positive with negative Grouping like polarity cables together i e positive with positive and negative with negative can cause stress or damage to the cables conduit or buswork 7 CONFIGURING YOUR NEUTRAL AND GROUND CONNECTIONS Improper grounding is the largest single cause of UPS installation and start up problems This is not an easy subject since grounding techniques vary significantly from site to site depending on several factors The questions you should ask are What is the configuration of the input power source Most of the recommended schemes for UPS grounding require grounded wye ser vice The UPS system requires a bypass neu tral for sensing and monitoring the quality of the bypass input If the building service is ungrounded delta or corner grounded delta contact your Liebert representative to ensure your system includes the Artificial Neutral or Isolated Neutral kit Does the system have a bypass isolation transformer Systems with 480 VAC or 600 VAC input and 208 VAC output require a bypass isolation transformer In some cases it may be necessary to treat that transformer as a separately derived source with its own
102. cted alarm messages are also avail able for customer use through a set of contacts on a separate terminal board Wiring must be run in individual separate steel conduit i Emergency Power Off control wiring must be run in separate steel conduit j Communications wiring for site monitoring or for modem must be run in separate steel con duit k Power and control connections required for the Maintenance Bypass 1 Any additional special wiring required at the customer site 10 WIRING INSPECTION 1 Verify all power connections are tightened per the torque specifications in Table 2 Verify all control wire terminations are tight 2 Verify all power wires and connections have proper spacing between exposed surfaces phase to phase and phase to ground 3 Verify that all control wires are run in steel conduit separate from all power wiring Liebert Series 600T UPS 65 225 kVA Single Module 21 Power Wiring Terminals Factory Supplied Table 1 UPS MODULE CONNECTION TYPE 65 amp 80 kVA 100 225 kVA Bypass input wiring is top entry to busbars on top of the circuit breaker Rectifier input wiring is top entry directly to lugs on top of the input circuit breaker DC link and critical bus output connections are top entry to frame mounted lugs A bottom entry access plate is standard to enable the installer to pull AC cables and control wiring through the module to the connections on top
103. d AXINI dDl 818 2 e 15 3 IV Figure 16 Battery Power Pack 65 amp 80 kVA Installation Manual 30 9AT S0 10 919 6 88 3HVN 3114 81926 86 4 3 3NIANI ENV 83080 ON 38 4381 530 149 51 9 66 2 60 10 919 6 88 1003 511815 53 38 xum UR Gan V 3ZIS Ayd N3ADd AN311v8 n 1 30 1110 3 31111 ON 133HS A8 NAVA 4 18 ASAUD HIIM 15 Sellllll HIIM Sellllll HIIM A3IA 3015 A3IA IND33 A3IA IND 3d3 92 sre 08 s g l 9981 001v IH den ezez ooev szv zisdn d89en s z ogze oze z isan rn al ca 591 ogee Oi zisdn ru 6285 981 090 ozz zisan rq 5861 050 0 189 rw g9 n rn ALIAWSO S s 40 331N32 JD 331N32 T mE 838 13104 i 1H9I3M LINN AB3LLVE zs SIHDI3A JLYWIXO ddY T Ut 2 84
104. d L3NISVO 55 8 3ONVN3LINIVA D AIVI3QG NOILIANNOO 3 IDNIS 83 5 1714 83 5 114 LAN 2 SH3HSVA 17108 3THA31138 va_sna 80 WNIWSSL mav 1 8084 JIN130 NDILO3NNDO 501 ava sna VNIN231 3711437134 LAN 2 SW3HSVA INS 1704 GHSVA 1v14 83 5 1714 73407 701 8084 T JJA sna GVO WILTED 8V9 SSVdAS8 LNIVW AINGOW 5 9 INO N 2 8 V Hd 83 388 SSVdAg8 0 Sdn 8168 332338 OSI 55 4 8 3 55 3 8 LNIVN 3 INO 2 Hd X9074 8314 LAdLAD 3 Sdn CIN 83 388 OSI INIVW SSVdA8 LNIYW 8 5 5 12 4 v SNIBIA 123NNUO 3INI 31 44 5 1434311 A000 INDHIIM l3NISVO SSVdAH J INGOW Sdn INDJ T ON y v aw E aan ala HE 5 y ea dol MITA dol Figure 31 Line up Detail 100 225 kVA Space Saver with 3 Breake
105. de See Section 7 CAUTION UPS bypass and output neutral must be connected to only one common point in the UPS This neutral line must be grounded at the source e For Battery Cabinets DC power cables and ground from Battery Cab inet to UPS Module and between Battery Cab inets Observe polarity DC power cables should be installed in matched pairs positive and negative 20 Installation Manual NOTE DC power and battery circuit breaker con trol cables are provided with the Liebert brand Battery Cabinets Power cables are sized for interconnecting Battery Cabinets Battery Cabinets specified for bolting up to the UPS are shipped with power cables to connect the Battery Cabinet system to the UPS Module Field supplied cabling must be provided to connect stand alone Battery Cabinets to the UPS Module DANGER DO NOT MAKE ANY CONNECTIONS BETWEEN BATTERY TIERS IN THE BATTERY CABINET THESE CONNECTIONS WILL BE MADE BY THE LIEBERT GLOBAL SERVICES REPRESENTATIVE DURING START UP f For remote battery DC power cables and ground from battery to Module Battery Disconnect and then to UPS Module DC bus Observe polarity DC power cables should be installed in conduit with con ductors in matched pairs positive and nega tive g Module Battery Disconnect control wiring to UPS Module and between Battery Cabinets if applicable h Control wiring to Remote Monitor Panel if used Sele
106. ed by your Battery Cabinet location Cables Cables may be run between battery cabinets through cutouts in the top of the cabinets eliminating the need for external conduit runs Route cables before moving cabinets into final position for bolting together Remove top panels for access Refer to Figures 16 and 17 or your submittal drawings for instructions on wiring cabinets in parallel Grounding The battery cabinets have ground studs near the bus bar connections Use an equipment grounding conductor to connect the lugs of the cabinets together and to connect the cabinets to the ground bus bar in the UPS module CAUTION Cables between batteries and modules should be run in matched pairs positive with negative Grouping like polarity cables together i e positive with positive and negative with negative can cause stress or damage to the cables conduit or buswork Installation Manual 6 3 Open Rack Batteries When batteries other than Liebert Battery Cabinets are used a remote battery disconnect switch with overcurrent protection is required per the National Electrical Code Refer to Figures 53 and 54 Contact your Liebert sales representative 1 Install battery racks cabinets and batteries per manufacturer s installation and maintenance instructions Verify battery area has adequate ventilation and battery operating temperature complies with manufacturer s specification Ensure that battery racks
107. ed to the UPS ground 12 Installation Manual SERVICE UPS MODULE 1 ENTRANCE 1 3 BYPASS INPUT me NEUTRAL i GROUND ht gt z MAN INPUT A ED r CRITICAL LOAD GROUNDI NG ELECTRODE PER NEC 250 24 SERVICE ENTRANCE 2 UPS MODULE 2 38 BYPASS INPUT um 15 NEUTRAL INPUT N GROUND CRITICAL LOAD GROUNDI NG ELECTRODE PER NEC 250 24 POWER TIE SWITCHGEAR Figure 6 Preferred Grounding Configuration Power Tie Systems 7 6 Preferred Grounding Configuration 480 or 600 VAC Input and Output with Power Tie Switchgear Single Module Systems can be used with Power Tie switchgear to provide dual critical load busses The Power Tie switchgear permits transferring critical loads from one critical bus to the other so that one UPS module and associated breakers can be de energized for maintenance Certain configurations of Power Tie equipment also permit the operator to continuously parallel the output of the UPS modules In tied systems each UPS module must have its neutral solidly connected to its own building service neutral and to the Power Tie switchgear neutral See Figure 6 above NOTE It is essential to run a neutral connection between the tie switchgear and both UPS modules as shown in the illustration above Liebert Series 600T UPS 65 225 kVA Single Module
108. en the power is turned Off dangerously high potentials may exist at the capacitor banks and at the batteries ONLY qualified service personnel should perform maintenance on the UPS system When performing maintenance with any part of the equipment under power service personnel and test equipment should be standing on rubber mats The service personnel should wear insulating shoes for isolation from direct contact with the floor earth ground Unless all power is removed from the equipment one person should never work alone A second person should be standing by to assist and summon help in case an accident should occur Four types of messages are used throughout the manual to stress important text Carefully read the text below each Danger Warning Caution and Note and use professional skills and prudent care when performing the actions described by that text A Danger signals immediate hazards resulting in severe personal injury or death For example DANGER A DANGER SIGNALS IMMEDIATE HAZARDS WHICH WILL RESULT IN SEVERE PERSONAL INJURY OR DEATH A Warning signals the presence of a possible serious life threatening condition For example WARNING LETHAL VOLTAGES MAY BE PRESENT WITHIN THIS UNIT EVEN WHEN IT IS APPARENTLY NOT OPERATING OBSERVE ALL CAUTIONS AND WARNINGS IN THIS MANUAL FAILURE TO DO SO COULD RESULT IN SERIOUS INJURY OR DEATH DO NOT WORK ON OR OPERATE THIS EQUIPMENT UNLESS YOU ARE FULLY QUALIFIED
109. eries can be stored for up to six months without any appreciable deterioration Self discharge rate of the batteries is approximately 3 per month when the batteries are stored in temperatures of 15 C to 25 C 59 F to 77 F If the Battery Cabinet must be stored for longer than six months contact Liebert Global Services Installation The Battery Cabinet s can be located conveniently to the left side of the 65 225 kVA UPS module The front access only design eliminates side and rear service clearance requirements Re Installation If it later becomes necessary to move the Battery Cabinet to another location contact Liebert Global Services to inspect the internal battery hold down straps Environment Locate the Battery Cabinet in a clean dry environment Recommended temperature range for optimum performance and lifetime is 20 25 C 68 77 F 10 11 Service Clearance Allow front access to the Battery Cabinet at all times for maintenance and servicing Electrical codes require that the Battery Cabinet be installed with no less than 3 feet 1 meter of clearance at the front of the cabinet when operating Side and rear panels do not require service clearance Side Panels Remove protective side panels to connect battery cabinets together Do not remove the shield plate explained below Shield Plate The shield plate in 125 kVA Battery Cabinets should be on the side toward the UPS system Move the shield if requir
110. ervices number 1 800 543 2378 Please have the following information available Part Number Serial Number kVA Rating kW Rating Date Purchased Date Installed Location Input Voltage Output Voltage Battery Reserve Time TABLES Table 1 Power Wiring Terminals Factory Supplied us 22 Table 2 Torque Specifications uice hen eee Sat a huahua ER PE nt E ERE eS Dane 22 Table 3 Eaeld Supplied bugs l l p a pee d 23 Table 310 16 NEC Allowable Ampacities of Insulated Conductors kk ke kek 24 FIGURES Figure 1 Preferred Grounding Configuration 480 or 600 VAC input and output 8 Figure 2 Alternative Grounding Configuration 480 or 600 VAC input and output 9 Figure 3 Preferred Grounding Configuration 480 or 600 VAC input and 208 VAC output 10 Figure 4 Preferred Grounding Configuration 208 VAC input and output 11 Figure 5 Preferred Grounding Configuration with Delta Source Input 12 Figure 6 Preferred Grounding Configuration Power Tie Systems 13 Figure 7 Preferred Battery Cabinet Grounding Configuration 14 Figure 8 Typical One Line Diagrams for SMS with Standard Dual Input 16 Figure 9 Typical One Line Diagrams of SMS with optional single input 17 Figure 10 Typical One Line
111. fier AC input current considered continuous is based on full rated output load Maximum current includes nominal input current and maximum battery recharge current considered noncontinuous Continuous and noncontinuous current limits are defined in NEC 100 Maximum input current is controlled by current limit setting which is adjustable Values shown for maximum setting are 125 of nominal input current Standard factory setting is 115 2 Nominal AC output current considered continuous is based on full rated output load Maximum current includes nominal output current and overload current for 10 minutes 3 Bypass AC input current considered continuous is based on full rated output load 4 Feeder protection by others in external equipment for rectifier AC input and bypass AC input is recommended to be provided by separate overcurrent protection devices 5 UPS output load cables must be run in separate conduit from input cables 6 Power cable from module DC bus to battery should be sized for a total maximum 2 0 volt line drop measured at the module at maximum discharge current 7 Grounding conductors to be sized per NEC 250 122 Neutral conductors to be sized for full capacity per NEC 310 15 b 4 for systems with 4 wire loads and half capacity for systems with 3 wire loads 8 Rectifier AC Input 3 phase 3 wire plus ground AC Output to Load 3 phase 3 or 4 wire plus ground Bypass AC Input 3 phase 3 or 4 wire plus gro
112. gt a m m m m m m m lt lt lt lt lt lt lt lt z 2 r X z lt lt X lt 3 lt lt lt ee uc y c oc c amp oo uU 5 ou 2 oO s v c c y c cy oc amp a aoa 6 aaa oO b di 33 3831 1 SaWOLSND Dl 31895 DONILO3NNDON3INI Gal ddNS 83 115 3 Figure 48 Option Wiring Customer Alarm Interface Installation Manual 62 9 M 20 01 809464 86 JAVN 3114 81926 VINDAT WI 3 a TT38dWV2 f na ON 83080 A33 AO 33 5830 eqe 1 9 3OVN3INI MUSNGS 3811834431 ANAL 198 P 310 ON OMG NAA IS NE N23 A8 40 I 2 3T4IH3S 31111 ON 133Hs AS NAVA S3a023 1914193713 W307 IVNOIIVN HLIM 8 NI 38 LSAW ONIAIM VW 37409 q0 I3IHS alvd 3151 1 HLIM 58 113 0 1334 001 HLONAT 318939 WNWIXYW 001 IN3NSQ29 391 HA 915 2 901d WNIWSSL 805 35 SeNLVssdWal 8311 8 IVNOILdO 40 NDILVOD WVaOVIO 11 30 NOILOSNNOD 81 03 3 Sdn OL 3834338 T SION SUSN3S ASSLIVa mjuj 0981 aS c 22 PET o E DE gt gt an Bc Ee Me 8 5 35 dW31 AN311V4 OL 318939 9 133 3831 031 144 83 015 3 Figure 49 Option Wiring
113. ivement un gallon 4 litres d eau Le m lange de bicar bonate de soude devra tre ajout jusqu ce qu il n y ait plus apparence de r action mousse Le liquide r siduel devra tre net toy l eau et la surface concern e devra tre ass ch e Liebert Series 600T UPS 65 225 kVA Single Module 6 2 Battery Cabinets Optional battery cabinets are available from Liebert and other qualified vendors Consult your submittal package for details The same model battery cabinet may be paralleled in multiple cabinet strings for additional capacity Battery capacity in minutes at your installation will depend on cabinet model number of cabinets and amount of critical load on the UPS 1 Handling The Battery Cabinet weighs up to 5100 pounds Fork lift slots are provided in the base of 100 225 KVA cabinets for easy handling Fork lift forks or a pallet jack can be used between the casters of the 65 and 80 kVA battery cabinets Cabinet Inspection Remove all panels and visually inspect the batteries bus connections and cabinet for any damage If any foam blocks were placed between shelves to restrain movement during shipment remove them now Exercise caution voltage is present within the Battery Cabinet even before installation If there are signs of damage do not proceed Call Liebert Global Services at 1 800 542 2378 Battery Storage The batteries used in the Battery Cabinet retain their charge well The batt
114. n should check the phase rotation 5 Power cables must be rated for less than 2 volts line drop at maximum rated system current 6 Use 75 C copper wire Select wire size based on the ampacities in Table 310 16 and associated notes of the National Electrical Code NFPA 70 reprinted on page 24 of this manual CAUTION The weight of power cables must be adequately supported to avoid stress on bus bars and lugs The following restraining method is recommended to both to support cable weight and control cable movement during external fault conditions Wrap line cables together at 6 inches and 12 inches from the terminals with 5 wraps of 3 8 inch nylon rope or equivalent tensile strength of 2000 pounds Support remainder of cable with 5 wraps every 6 inches or 1 wrap every 1 inch 7 If site equipment includes a backup generator and automatic transfer switch es consult the manufacturers of those devices for information on sizing and interfacing to the UPS system 8 The installing contractor can remove the access plates from the top left or top right sides of the UPS in order to cut entry holes for conduit For units with bottom entry cable access there is a separate third access plate in the base of the unit under the cable access wireway CAUTION After cutting holes in the access plates be certain that no foreign matter metal shavings sawdust insulation or wire fragments etc remains inside the UPS
115. oduce 208 VAC For Canadian customers the UPS modules usually have 600 VAC input and output The same principles apply if the connected load is an isolation transformer feeding various loads Figure 1 above shows a typical installation Notice that the UPS module main input and bypass input are connected to a grounded wye service In this configuration the UPS module is not considered a separately derived source The UPS module output neutral is solidly connected to the building service neutral which is bonded to the grounding conductor at the service entrance equipment The isolation transformers in the PDUs are considered a separately derived source Therefore the PDU neutral should be bonded to the PDU grounding conductor and connected to a local grounding electrode in compliance with NEC 250 26 Advantages of this configuration include A measure of common mode noise attenua tion since the isolation common mode rejec tion occurs as close to the load as practical i e at the PDU The UPS module can be located remotely from the PDU without compromising com mon mode noise performance By using UPS modules with 480 VAC input and output and creating 208 VAC at the PDU smaller and less costly power feeders can be used and less voltage drop as a percent of nominal occurs NOTE Impedance grounded wye sources must be grounded in accordance with Section 7 5 Installation Manual SERVICE ENTRANC
116. on Manual 36 0 1 209264 88 3 3714 81926 1 803 3NIAI 2 19 aoi a ON We ON A33 1 q Ml 1 209262 88 310 9 4009 5 31835 l3NISVO 83 80 45 814 SSVdA8 HIIM VA 08 3 89 N31SAS 3 9NIS 11 130 dN 3 1 31111 8 3 338 530 53 38 3 UN N23 A8 AHI 1 30 1 BN 433845 A8 NAVA 53003 318133 3 3 NV WNOLLWN HLIA 33 8033 NI 38 LSNW ONINIA TW 9 381 81 03 Od AVI BH4X SSVdAE 9nd 3 00 san geno NO N 2 8 V Hd 3339338 SSVdAg 3 Sdn OX EX 2 DO 338 AVI SSVdA8 STIVLAC 011100 804 1N3WdIn83 40 39314 3 3 40 9 0 10 3 4 Dl 83438 084 ND AINO 1 084 NI 3810838 88333 32IAN3S NV NULLVTIVISNI P DNIMIA 123NNU2N3INI 03114 5 48 383 1 NULLVNODIJND2 3 V NI 319301 38 LSNN SI3NIEVO TW 1838311 03 8 38 8 NDILO3NNDON3INI TY 2 GIBT IRDHII O Q371V1SNI 8 3
117. onnect the battery cabinet system to the UPS Refer to Figures 16 17 DANGER A BATTERY INTERCELL CONNECTION ON EACH TIER IS DISCONNECTED FOR SAFETY DURING SHIPMENT DO NOT COMPLETE THESE CONNECTIONS THE LIEBERT GLOBAL SERVICES REPRESEN TATIVE WILL COMPLETE THESE CON NECTIONS AS PART OF START UP AN IM PROPERLY INSTALLED UNIT CAN RESULT IN INJURY TO PERSONNEL OR DAMAGE TO EQUIPMENT CAUTION Be sure polarity is correct when wiring the Battery Cabinet to the connected equipment positive to positive negative to negative If polarity is not correct fuse failures or equipment damage can result CAUTION DC power cables should be installed in conduit with conductors in matched pairs positive and negative NOTE Inspection of the battery installation is a service that can be provided by Liebert A Battery Specialist can perform a detailed inspection of the entire battery system to ensure it meets current IEEE standards This inspection service is reeommended because batteries are a critical part of the UPS system Liebert Series 600T UPS 65 225 kVA Single Module 19 9 WIRING CONNECTIONS 9 1 Warnings DANGER VERIFY THAT ALL INCOMING HIGH AND LOW VOLTAGE POWER CIRCUITS ARE DE ENERGIZED AND LOCKED OUT BEFORE INSTALLING CABLES OR MAKING ELECTRICAL CONNECTIONS ALL POWER CONNECTIONS MUST BE COMPLETED BY A LICENSED ELECTRICIAN EXPERIENCED IN WIRING UPS EQUIPMENT AND IN ACCORDANCE WI
118. ove by the appropriate factor shown below Temp F 21 25 1 08 1 05 1 04 1 08 1 05 1 04 70 77 26 30 1 00 1 00 1 00 1 00 1 00 1 00 78 86 31 35 91 94 96 91 94 96 87 95 36 40 82 88 91 82 88 91 96 104 41 45 71 82 87 71 82 87 105 113 46 50 58 75 82 58 75 82 114 122 51 55 41 67 76 41 67 76 123 131 56 60 58 be j oou 58 1 132 140 61 70 33 8 I deus 33 58 141 158 71 80 4 ium s db see llo sis 41 159 176 Unless otherwise specifically permitted in Section 240 3 of this Code the overcurrent protection for conductor types marked with an asterisk shall not exceed 15 amperes for No 14 20 amperes for No 12 and 30 amperes for No 10 copper or 15 amperes for No 12 and 25 amperes for No 10 aluminum and copper clad aluminum after any correction factors for ambient temperature and number of conductors have been applied Reprinted with permission from NEC 1999 NFPA the National Electrical Code Copyright 1998 National Fire Protection Association Quincy MA 02269 This reprinted material is not the complete and official position of the National Fire Protection Association on the referenced subject which is represented only by the standard in its entirety 24 Installation Manual 5A 20 10 909262 88 3WVN 3114 81926 88 31 3 3NIA2I da DWINUB3C 0696 14998119 04461 08 81 46656 69091 S
119. q 1 66 22 v0 60 919 6 88 ENS 105 DOS ace S3A3M M 34 0 ON SAC ON N23 8 AHS l93NNHOJSIG A8dllVv8 FINCOW ONIMVST 3NITLInU d EE 7 31111 UN 133HS _ NAVA 88013 03 NOh062 9 ADA 3 083 JAY SONT 089 OT ONIMIS AB3LIVS 40 LNIOdGIW 39338 OL 35 d Dd 331N33 SUBNV3AE VOS 00 803 JONVY LNSWLSACGY AHL AO WAWINIW 3Hl 4 NV 583 358 V0021 009 804 BONVS 8 0 JHL 40 INIDdGIN 3Hl 19 135 38 5 ONILLAS dIdl SDOD3NVINVISNI 23 351V338 11 3813 8 8489 SAI OST SI LHOISM 3LVWIXUNddV 002 4 NI WIWOSE DMY 0 b 0001 VOOE NU 06 9 0 E E SI IZIS 9 NULLO3NNDO 318v2 9 SIHL NO NADHS SV SAOLINANOI 11 381 3 8314 8 3Hl OL AlIOVdWv 63 40 s3dWnr 31409 v MMY 15 83 018 3 IHL 0381 838 SI NOILVM DIJNDO 310d DAL V 383 SNDOLLVOLlddV 803 3 38 AVAD SI HSINLA SNDIL93NND2 ONINIA 71314 804 301 084 5 3SV3 138 39 4 83 0 3TA8F V NV SLOVLNOD ABVIJIX V H V 2 53 OMA 009 339338 XXXX9E HW 34 4 38 85 3 388 LINDAN 2 I J AND ONLINNEN 6848 TWA 803 318V110S SI HOIHM G3CIADSd 38 50 3 3 I HAN cm 0 2 SILON NOIIVSNOIINOS 31 d OAL MULED _ anger SUL 834045 3 2931178
120. que La possibiliti de tels chocs sera r duite si de telles mises la terre sont d branch es pour la dur e de l installation ou de l entretien Les accumulateurs plomb acide pr sentent un risque d incendie parce qu ils g n rent des gaz l hydrog ne Les proc dures suivantes devront tre respect es 1 NE PAS FUMER lorsque pr s des accumulateurs 2 NE PAS produire de flammes ou d tincelles pr s des accumulateurs 3 D charger toute lectricit statique pr sente sur votre corps avant de toucher un accumulateur en touchant d abord une surface m tallique mise la terre DANGER L lectrolyte est un acide sulfurique dilu qui est dangereux au contact de la peau et des yeux Ce produit est corrosif et aussi conducteur electrique Les proc dures suivantes devront tre observ es 1 Porter toujours des v tements protecteurs ainsi que des lunettes de protection pour les yeux 2 Si l lectrolyte entre en contact avec la peau nettoyer imm diatement en rin ant avec de l eau 8 Si l lectrolyte entre en contact avec les yeux y arroser imm diatement et g n reusement avec de l eau Demander pour de l aide m dicale 4 Lorsque l lectrolyte est renvers e la surface affect e devrait tre nettoy e en utilisant un agent neutralisant ad quat Une pratique cou rante est d utiliser un m lange d approxima tivement une livre 500 grammes de bicarbonate de soude dans approximat
121. r MBC 45 Liebert Series 600T UPS 65 225 kVA Single Module DAT 20 91 409464 88 3 3714 81926 8 03 3NIA I 2 1009 S3IS3S T138d4WV2 ON 83080 ON 38 l3NISVO SSVdA amp J NYNILNIYW 83 388 DAC 438 830 349 5 1 66 15 90 91 09464 88 ONY LANIGVO SAWAOASNVAL SSVdAH HLIA 53131 a 31vq ON OMG p m ON N23 8 HI WALSAS 3 319 5 T 40 i 3 430 dN INIT 31111 ON 133HS A8 38IM 81 03 SNA GVO 3111 83 3 55 4 8 LNIVW YINYDASNVIL 081 03 3 8 3 SSVdAB VENO 83009 18133 3 0 3MI 081 03 n14 NWJX SSVdAE VAd AT 3199 ANI 3 Sdn 1 HLIM 39NVG3D22OV NI 38 LSNW SNISIA 9 ND N O 8 V Hd 339388 SSVdA8 AINGOW Sdn 8I8 3329338 OSI SSVdA8 VI SSVdAS LNIVW 3 9 N 2 8 V Hd A3074 WNIWSSL 1NdIND 3AINGOW Sdn CIN 335388 OSI INIVW SSVdA amp 8 LNIVW 8 SHN13G 11100 INO N O 8 V Hd HV9 55 4 8 LNIVW COX EX 2X DO YWAX 55 8 1N3WdIn93 40 33314 HOV3 JD 9 8 3Hl Dl 83438 8 13 3 DL 084 Nn A ND LNOY4 NI Q3NInO3N
122. rs to perform maintenance Check installation drawings for location of breakers Check with local codes c Verify that there is adequate clearance above all cabinets to allow exhaust air to flow without restriction 2 feet minimum unobstructed 4 Connect the cabinets internal cables and bus bars if applicable 6 BATTERY INSTALLATION 6 1 Battery Safety Precautions Battery installation and servicing should be performed or supervised by personnel knowledgeable of batteries and the required precautions Keep unauthorized personnel away from batteries Be sure to observe the grounding recommendations in Section 7 when installing batteries When replacing batteries use the same number and type of batteries CAUTION Lead acid batteries contain hazardous materials Batteries must be handled transported and recycled or discarded in accordance with federal state and local regulations Because lead is a toxic substance lead acid batteries should be recycled rather than discarded Do not open or mutilate the battery or batteries Released electrolyte is harmful to the skin and eyes It may be toxic Do not dispose of battery or batteries in a fire The battery may explode A battery can present a risk of electrical shock and high short circuit current The following precautions should be observed when working on batteries 1 Remove watches rings or other metal objects Use tools with insulated handles
123. s drawings Figures 11 13 and 35 39 for location of the various power connections within the UPS CAUTION 2 Power and control wiring must be separated Observe local state and national electrical codes Verify utility power and its overcurrent protection rating will accommodate the UPS input rating including battery recharging A safety ground wire must be run from building ground to ground point in the UPS Module Cabinet the Battery Cabinet and the Power Tie switchgear cabinet See Sections 7 1 through 7 7 The grounding conductor shall comply with the following conditions of installation a The insulated grounding conductor must be sized in accordance with the NEC and local codes It must be green with or without yellow stripes and be installed as part of the branch circuit that supplies the unit or system b The grounding conductor described above is to be grounded to earth at the service equip ment or if supplied by a separately derived system at the supply transformer or motor generator set in accordance with the instructions in Section 7 of this Manual c The attachment plug receptacles in the vicinity of the unit or system are all to be of a grounding type and the grounding con ductors serving these receptacles are to be connected to earth ground at the service equipment 4 Observe clockwise phase rotation of all power wiring Phase A leads Phase B leads Phase C A qualified electricia
124. tinned and run in individual separate steel conduit Control wiring must be separated from power wiring In addition each control wiring cable group should be run in a separate conduit to minimize control signal interference If your system has any installed options special wire lists will be included in your Submittal Drawing Package Contact your Liebert Sales Representative for assistance if the Submittal drawings have been lost or misplaced All control cable groups are connected to different Interface Modules IF Ms inside the UPS Figure 29 shows the typical location of each IFM inside the UPS The position of a particular IFM may be different for your UPS depending upon the model and the installed options NOTE The UPS control and communication wiring are considered Class 2 circuits by NEC standards However NEC Class 1 wiring methods are required for these circuits to ensure proper operation of the UPS 8 3 Battery Wiring Power wiring to the Battery Cabinet connects positive negative and ground power cables from the Battery Cabinet to the associated UPS Connection of the UPS to the Battery Cabinet serves to both charge and discharge the batteries when needed The battery disconnect circuit breaker requires a control cable Liebert Battery Cabinets include power and control cables to join multiple cabinets together into a system Additional field supplied power or control wiring might be necessary to c
125. tions which meet all the following criteria The facility has Wye connected service The module rectifier input and bypass input are fed from the same source The connected load is strictly 3 wire such as one or more PDUs and does not require a neutral from the UPS Special precautions are taken to prevent trip ping the ground fault interruptors The time delay should be set to at least 30 cycles to pre vent tripping when the UPS performs a transfer or retransfer operation CAUTION Failure to properly set the ground fault interruptors could cause loss of power to the critical load Liebert Series 600T UPS 65 225 kVA Single Module BYPASS TRANSFORMER cH _enouno SERVICE ENTRANCE GROUND LOCAL GROUND NG ELECTRODE PER NEC 250 30 POWER DISTRIBUTION UPS MODULE 4 4 4 CRITICAL LOAD Se meleke PER EC 250 24 Figure 3 Preferred Grounding Configuration 480 or 600 VAC input and 208 VAC output 7 3 Preferred Grounding Configuration 480 or 600 VAC Input 208VAC Output and Isolated Bypass Another configuration in this power range is the Single Module System with 480 or 600 VAC input 208 VAC output a Bypass Isolation Transformer and a connected load consisting of multiple distribution panelboards or switchboards Figure 3 above shows a typical installation The Bypass Transformer provides isolation and steps down the voltage
126. to the bypass inputs The Bypass Transformer and the UPS module together constitute a separately derived system since there is no direct electrical connection between the input service entrance circuit conductors and the output circuit conductors The bonding of the neutral to the grounding conductor can theoretically be done at either the UPS module or the Bypass Transformer However we recommend bonding at the Bypass Transformer because the UPS module will sometimes be powered down for maintenance and its output transformer will be out of the circuit The neutral should be bonded to ground and a local grounding electrode should be installed at the Bypass Transformer per NEC 250 30 Features of this configuration include The UPS receives its bypass neutral from the Bypass Transformer The output is isolated from the input circuit conductors and Some amount of common mode noise attenu ation can be obtained for sensitive loads f the NOTE UPS module and Bypass Transformer are The illustration above shows a wye connected source but the same grounding scheme would apply for a delta source at the service entrance located close to sensitive loads 10 Installation Manual SERVICE ENTRANCE POWER DISTRIBUTION UPS MODULE 3 BYPASS INPUT NEUTRAL 52 MAIN INPUT GROUND lt o i l lt o Ge
127. und Module DC Input from Battery 2 wire positive and negative plus ground 9 All wiring is to be in accordance with National and Local Electrical Codes 10 Minimum overhead clearance is 2 feet above UPS 11 Top and bottom cable entry standard through removable access plates However SpaceSaver versions of the 100 225 kVA modules are 8 narrower 48 vs 56 and are top entry only Tables show SpaceSaver modules where available Cut access plates to suit conduit size 12 Control wiring and power cables must be run in separate conduits Control wiring must be stranded tinned conductors 13 7 maximum reflected input harmonic current and 0 92 lagging input power factor at full load with optional input filter Liebert Series 600T UPS 65 225 kVA Single Module A 1 Series 600T Single Module Systems 208 Volt Input Inverter Or Required Maximum Maximum Floor AC Bypass AC Battery Battery Heat Loading Output Rectifier AC Output Discon Current Dissipa Dimen Approx Lb Sq ft UPS Rating Voltage Options Input Current Current nect At End Of tion sions Weight Concen Input Input Rating Discharge BTU Hr Inches LB trated kVA kW VAC Filter Xformer Nom Max Nom Max Amperes Amperes Full Load WxDxH unpacked Loading 65 52 208 NO NO 184 229 180 226 175 141 14 390 34x32x68 1 900 25
128. unt 69 Circuit Breaker Schedule 65 through 225 70 Circuit Breaker Schedule Battery Cabinets 65 to 500 KVA 71 Circuit Breaker Schedule Maintenance Bypass Cabinet 65 through 225 kVA 72 INSTALLATION 1 SAFETY PRECAUTIONS Read this manual thoroughly paying special attention to the sections that apply to you before working with the UPS Retain this manual for use by installing personnel Under typical operation and with all UPS doors closed only normal safety precautions are necessary The area around the UPS system should be kept free from puddles of water excess moisture or debris Special safety precautions are required for procedures involving handling installation and maintenance of the UPS system or the battery Observe all safety precautions in this manual before handling or installing the UPS system Observe all precautions in the Operation and Maintenance Manual before and during performance of all maintenance procedures Observe all battery safety precautions before working on or near the battery This equipment contains several circuits that are energized with high voltage Only test equipment designated for troubleshooting should be used This is particularly true for oscilloscopes Always check with an AC and DC voltmeter to ensure safety before making contact or using tools Even wh
129. vINNDJITVO 3NIASI T138d4WV2 pm ON 83080 TIN A38 OAG 338 S3d 4 9 5 66 12 80 1 609262 88 ud oe 3 38 8 2490 EE L3NISVO 83 8045 84 SSVdAG ON N23 AB AHS ONIAVa 3NITLRU 1401 33THHOS gt 31111 ON 133451 A8 NMYAT AOWA Sood NAUHS 8 9 685 SI N3dU ATNA 8000 HLIM 13 8 3 490 143 104 8 MIND SINGOW Sdn JHL JU 3015 GINVH 1HO9IS 3Hl OL 1104 OL 3 91530 SI LI 011 8 91 4 03 3 15 V LON SI I3NISVO 83 80 45 81 SSVdAH JHL 9 96 581 248 KAINO 13NI8SVO SAWAOASNVAL SSVdA8 1 913 XD lddV ONTIGNVH 3 IHA 31183 4 SI NIHLIM 13NISVO 433 LSAVHX 81 303 38 838 LINN 3AUSV SINVAVAID WNWINIW 019 F2 MIND 1ND33 NI 38 838 55333 331 835 ANY 1 15 31IHA 430 Wal 80103 2 58313 11 4 S3HONI NI 38 SNOISNSWIC SALON MAINA ACIS SAWADASNVAL SSVdAg8 LINN 40 1 83 avd 833 45 ID8 13 18 3 8 X 68 8 8T X S 38 844 A8LN3 LINGNOD 4 4 AMAIA 1 83 269 6 099 0 92 GE y
130. x32x68 1 800 338 80 64 600 YES NO 72 90 77 96 175 173 15 940 34x32x68 1 850 347 80 64 600 NO YES 79 98 77 96 175 173 18 995 34x32x68 2 430 456 80 64 600 YES YES 73 91 77 96 175 173 19 770 34x32x68 2 480 465 80 64 208 NO NO 78 97 222 278 175 174 16 445 34x32x68 2 050 384 80 64 208 YES NO 72 90 222 278 175 174 17 200 34x32x68 2 100 394 80 64 208 NO YES 79 99 222 278 175 174 20 290 34x32x68 2 680 503 80 64 208 YES YES 73 92 222 278 175 174 21 075 34x32x68 2 730 512 100 80 600 NO NO 97 121 96 120 225 216 18 980 48x33x79 2 450 223 100 80 600 YES NO 90 112 96 120 225 216 18 920 48x33x79 2 520 229 100 80 600 NO YES 98 123 96 120 225 216 23 745 48x33x79 3 075 280 100 80 600 YES YES 91 114 96 120 225 216 24 715 48x33x79 3 145 286 100 80 208 NO NO 97 122 278 347 225 217 20 550 48x33x79 2 750 250 100 80 208 YES NO 90 113 278 347 225 217 21 500 48x33x79 2 820 256 100 80 208 NO YES 99 124 278 347 225 217 25 265 48x33x79 3 375 307 100 80 208 YES YES 92 115 278 347 225 217 26 345 48x33x79 3 445 313 125 100 600 NO NO 121 151 120 150 250 270 23 725 48x33x79 2 600 236 125 100 600 YES NO 112 140 120 150 250 270 24 900 48x33x79 2 670 243 125 100 600 NO YES 123 154 120 150 250 270 29 680 48x33x79 3 200 291 125 100 600 YES YES 114 143 120 150 250 270 30 895 48x33x79 3 270 297 125 100 208 NO NO 122 152 347 434 250 271 25 690 48x33x79 2 900 264 125 100 208 YES NO 113 141 347
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