ChlorideTrinergy™ - Emerson Network Power
Contents
1. 141 A 7 142 DA INVEIOMOULDUT uuu y uy 142 Dos SbdblC D DE e 143 4 Installation Manual 10H521941M10 rev 2 03 2013 Introduction Chloride Trinergy 1 INTRODUCTION This manual contains information about installing the Chloride Trinergy Uninterruptible Power System UPS and the batteries This equipment must be installed and operated by qualified personnel who are advised to read this manual before starting Afterwards the manual must be kept and referred to whenever work must be done on the UPS 1 1 Notes to the CE Declaration of Conformity Chloride Trinergy conforms to the following European directives 2006 95 EEC Directive of the council for adapting the legal requlations of member states on electrical equipment for use within specific voltage limits superseding the 73 23 EEC and successive amendments 2004 108 EEC Directive of the council for adapting the legal regulations of member states on electromagnetic compatibility superseding the 89 336 EEC and successive amendments Conformity is established through compliance with the following standards IEC EN 62040 1 IEC EN 62040 2 Additional information regarding adherence to these directives is included in appendices NSR and EMC to the Declaration of Conformity If needed the Declaration of Conformi2. m 10 hole from the top 1 mem z 1 i uL m B T m F rey E i B o RN 24 hole from the bottom Figure 44 15 Install the rear panels FRONT VIEW of the 200 kW MODULE 1 RIGHT and the 200 kw MODULE 2ND RIGHT Page 56 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 5 Assembly procedure for the THREE 200 kW MODULES LEFT 1 Remove the 200 kW MODULE 1 LEFT the 200 kW MODULE 2ND LEFT and the 200 kW MODULE 3RD di from their pallets by removing the mounting screws see Fig 17 on page 33 but only if the floor where Chloride Trinergy is to be installed is level Otherwise connect i 200 kW MODULES together without removing them from the pallets 2 Remove the rear panels from the 200kW MODULE 1 LEFT the 200kW MODULE 2P LEFT and the 200kW MODULE 3FD LEFT 3 Open the 21 coupling kit 4 Bring together and align the two 200 kW MODULES 200 kW MODULE 1ST LEFT with the 200 kW MODULE 2ND LEFT see Fig 28 on page 44 If the 200 kW MODULES were not removed from the pallets for the reasons stated above to move them together remove the extensions from the pallets and adjust the respective heights using the screws provided see Fig 26 on page 42 and Fig 27 on page 43 5 Mechanically secure together the
3. 107 Chloride Trinergy Preparation For INSTALLATION 6 5 AIR FLOW ee a n s aes s s 39 spores pps pea sea pe 3 ee c as E s a es ea 22 750 Connectivity angi 675 AIR FLOW AIR FLOW 675 C 8 G G 8 O NM OQ G G OG b Oo b 2 Ligen x Tim lH il8p a j J i iws xpxy GcI KWYI I I I III I IIIIIII II III II III SI IIII I I I I I I IIXTSICIHGG IIII ss 7 Figure 93 Chloride Trinergy 600 kW FRONT VIEW Page 108 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy O LL lt mi 1 gt k Q LL lt mi E f gt E et gt U 8 e UJ lt LL I j lt lt q E O gt 5 LL e i lt 18 Figure 94 Chloride 800 kW FRONT VIEW Installation Manual 10H521941M10 rev 2 03 2013 Page 109 Chloride Trinergy Preparation For INSTALLATION dh ho 4 AIR FLOW 2 B h 2 b d uf 4 rug AIR FLOW Connectivity panel OS EX AIR FLOW EU
4. 132 4 2 SIOE HIFEAieE PEOGEGCES EXS enit a u 132 4 3 Serial Interface for Service serial inputloutput X3 132 4 4 Serial Interface for Connectivity Products serial input output X6 132 4 5 Connector for external battery disconnector XT1 2 132 4 6 Ethernet RJ 45 Interface for Service and Commissioning X9 133 4 7 Connector for RPO input and output XT3 8 133 4 8 Customizable output input contact TB1 134 4 9 SUB D connector for parallel UPS connection X19A X19B 135 4 10 RJ 45 interface for synchronization with external signal X20 136 4 11 Battery Area Temperature sensor input 1 136 4 12 Connector for backfeed status output 2 137 5 OPTIONS u uy PHP 139 Sele ROMO Al UI 139 5 2 External battery circuit breaker or fused battery switch 139 5 DUSENI 139 5 4 Empty battery compartment 139 6 TECHNICAL DATA UPS DEVICES 141 SENA Fennec RI m I 141 gt
5. BOX 199 Norear to wall distance is required unless the power cables are routed from above in which case the distance must at least equal to the bending radius of the cables being used The UPS must be installed on a level floor suitable for electronic equipment The load carrying capacity of the floor must be sufficient to support the weight of the UPS see technical data table Technical data UPS devices on page 147 for more details Use the cable gland plate installed in the I O BOX to secure the power cables during installation If this is not possible contact the manufacturer for alternative suggestions The cable gland plates are illustrated below Installation Manual 10H521941M10 rev 2 03 2013 Page 11 Chloride Trinergy Preparation For INSTALLATION 67 42 A usss 2 M le 4 D 11 750 8605 50 Figure 3 200 kW MODULE DIMENSIONS BOTTOM VIEW Page 12 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy s Figure 4 200 kW MODULE WITH DOOR OPEN TOP VIEW Installation Manual 10H52194IM10 rev 2 03 2013 Page 13 Chloride Trinergy Preparation For INSTALLATION CABLE ENTRY AREA 450 A Sl i 5 Ss MM ee i n p a T oy i 4 1211 853 5 115 T
6. 96 22 4 atfei editae ayude e aiios use ONE 96 2 AZ UPS Output etu md eie ee vetu ss 97 Installation Manual 10H521941M10 rev 2 03 2013 3 Chloride Trinergy 2 13 Protec ON rsss uu u 99 2 12 PHY SICA AD DC Al AN GC sic amuta pauk a aqhapas 100 2 15 External power connections 106 PAM MI M unn na huwa Sa atis 107 2 16 Conp acting Hie DabEeries uui debes uuu oO ode ub dass 116 2 17 Connections between battery compartments and UPS 118 2 19 Handling Ee DaEEeEI8S u uuu uuu uu u uu 119 2 10 1 Rechardinqg Datter e Soana uuu vec n a vu Ra SUR Ua 119 2 19 2 REDIACING n RE SS pc notus ia easet ec NOUIS 119 2 18 3 Connecting external batteries 119 3 TRANSFORMING BATTERY CONNECTIONS 121 3 1 How to transform an I O BOX with centralized batteries into an I O BOX with PISIS Se uu u uy u a OO E 121 A CONNECTIVITY PANEL u u e eet ees eal evo nosse Coe Purse sete 131 4 1 Slot for Connectivity Products XS3
7. E Coo T m EIL lt 9 gt ng L s ose 3 aC L 3 Th zu 5 FU n mec k H n e WE ti 4 zs e s an eH n gt n a n ayo o n n n n o n l Nu I Figure 100 800 kW I O BOX FRONT VIEW CLEARANCE BETWEEN POWER CONNECTION BARS Battery terminal u Q cr im C cr a 2 Doc m o 95g Page 116 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Eo m 136 5 ul 1 W1 CUR 136 5 U2 v2 W2 TES 136 5 1781 5 1535 1185 100 1056 zn 378 5 2465 E 5 T Figure 101 POWER CONNECTIONS SIDE VIEW 800 kW I O BOX Installation Manual 10H521941M10 rev 2 03 2013 Page 117 Chloride Trinergy Preparation For INSTALLATION 7b 120 8 II ED P I T a a erbe a e um E E 5 l 1 74 74 Figure 102 800 kW I O BOX FRONT VIEW CLEARANCE BETWEEN POWER CONNECTION BARS Page 118 Installation Manual 10H521941M10 rev 2 03 2013 Preparation Fo
8. ai er P zT 1 k F F F m T T L LIE Ho E B E 4 4 i t TEE i am M e P L j geris Ph j I DA n T z eet EU JE d WAT EM 11 i I li z M ict tO ier asa c m E vr LI DE a Eon yen Fe E TRIS Li 1 n J a sa FERE m a 7 L Li E i T x TASTE Dus m un i n 1 dir EE P Ac 1 4 L a Mi 3 Tac co o E rd I r r T T F B T B NB 7 T m B B MH 8 F m NH BH ZH G r B E E T PF E 1 FW 124 n o gt V sO D a a E ae cats Um E rz jq m L r s a v mu Eral r E ur L 7 1 d u Figure 45 6 Open the K1L coupling kit Page 58 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 7 Install the Lexan poly carbonate to protect the r h rear upright of the 200 kW MODULE 1 LEFT keeping the rectangular recess facing downwards using two M6x12 Phillips cross head screws all contained in the kit see
9. A column to the left of the copper connection bars Install the Lexan panel FRONT VIEW to protect the bars Use four M6x12 Phillips cross head screws and 2 plates two M6x12 Phillips cross head screws on the upright of the 200 KW MODULE 1 LEFT and the new nylon rivets A contained in the K2L kit see Fig 37 on page 50 10 hole from the bottom 24 hole from the bottom Figure 37 15 Install the rear panels FRONT VIEW of the 200 kW MODULE 1 LEFT and the 200 kW MODULE 2ND LEFT Page 50 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 4 Assembly procedure for the TWO 200 kW MODULES RIGHT 1 Remove the 200 kW MODULE 1 RIGHT and the 200 KW MODULE 2ND RIGHT from their pallets by removing the mounting screws see Fig 17 on page 33 but only if the floor where Chloride Trinergy is to be installed is level Otherwise connect the 200 kW MODULES together without removing them from the pallets 2 Remove the rear panels from the 200kW MODULE 1 RIGHT and the 200kW MODULE 2ND RIGHT 3 Open the K2R coupling kit 4 Bring together and align the two 200 kW MODULES see Fig 38 on page 51 If the 200 kW MODULES were not removed from the pallets for the reasons stated above in order to move them together remove the extensions from the pallets and adjust the respective heights using the screws provided see Fig 26 on
10. DESCRIPTION DESCRIPTION AND TOP COUPLING COPPER BAR SHEET METAL NEUTRAL SPACER REAR COUPLING COPPER BAR SHEET METAL PHASE REAR COUPLING COPPER BAR LEXAN DISTRIBUTION COPPER BAR LEXAN PROTECTION NEUTRAL COPPER BAR BATTERY PHASE SPACER COPPER BAR COPPER BAR GARFILM PROTECTION CONTACT GREASE WASHER SERRATED TAPER M6 NYLON RIVET NYLON RIVET B PHILLIPS cross head SCREW M6x12 The kit contains a few more nuts and screws than are actually required to assemble the system Page 28 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy ASSEMBLY KIT FOR THE 200 kW MODULE 219 LEFT K2L DESCRIPTION AND COPPER BAR NEUTRAL SPACER COPPER BAR PHASE COPPER BAR NEUTRAL DESCRIPTION TOP COUPLING SHEEI METAL REAR COUPLING SHEET METAL REAR COUPLING LEXAN DISTRIBUTION COPPER BAR LEXAN COPPER BAR PROTECTION BATTERY PHASE SPACER COPPER BAR COPPER BAR GARFILM PROTECTION CONTACT GREASE WASHER SERRATED TAPER M6 24 NYLON RIVET NYLON RIVET B PHILLIPS cross head SCREW M6x12 G The contains a few more nuts and screws than are actually required to assemble the system Installation Manual 10H521941M10 rev 2 03 2013 Page 29 Chloride Trinergy Preparation For INSTALLATION ASSEMBLY KIT FOR THE 200 kW MODULE 3
11. Do not operate battery switch 059 when the inverter is ON Installation Manual 10H521941M10 rev 2 03 2013 Page 99 Chloride Trinergy Preparation For INSTALLATION 2 11 Current and suggested cable sizes For external wiring requirements see Table 5 on page 103 and Table 6 on page 104 See national and local rules for selection of conductor size Connect the line power supply cables to UPS terminals U V W N Connect the bypass line power supply cables to UPS terminals U1 V1 W1 N Connect the load to UPS terminals U2 V2 W2 N see Fig 90 on page 105 In the absence of a separate Bypass line power Supply connect jumpers between U and U1 V and V1 W and W1 The cable cross section indicated in Table 5 on page 103 and Table 6 on page 104 refers to the following conditions 1 1 70 C rated PVC copper cables 2 Cable routed in conduits for electrical installations Separate conduits for each line 3 Air temperature in the conduits not exceeding 30 C 4 Cable lengths up to 30 m 5 Stranded wires up to 35 mm and single wires above 35 mm Page 100 Notice For different conditions it will be necessary to verify whether cable dimensions meet the requirements of IEC 60287 Notice When selecting the cable it is important to take into account the voltage drop due to the cable length if the voltage drop exceeds 3 increase the cross section Notic
12. rev 2 03 2013 Page 137 Chloride Trinergy connectivity panel 4 1 Slot for Connectivity Products 53 This slot is the recommended interface for the SNMP Adapter ManageUPS NET This Adapter provides an independent external network interface for communication with connectivity products When a SNMP Adapter is inserted into XS3 interface X3 is connected to Slot XS3 to allow parameterisation of the SNMP Adapter if necessary The normal performance of X3 for service and placement into service may be reduced The Slot is SELV isolated from UPS primary circuits 4 2 Slotfor LIFE net Products XS6 This slot is the reserved interface for LIFE net modem card This card provides an independent external modem interface for communication with LIFE net service station Ask your local Emerson Network Power dealer for more details on LIFE net and its benefits for your UPS system When a LIFE net modem card is inserted into XS6 interface X6 is connected to Slot XS6 to allow parameterisation and diagnosis of the LIFE net modem card Normal performance of X6 is no longer possible The Slot is SELV isolated from UPS primary circuits 4 3 Serial Interface for Service serial input output X3 The service Interface is a SUB D 9 pin female connector for RS232 serial communication Its purpose is for service and placement into service only The Interface is SELV isolated from UPS primary circuits 4 4 Serial Interface for Connectivity P
13. 51 on page 64 10 hole from the M M i 24 hole from the bottom Figure 51 17 Install the rear panels FRONT VIEW of the 200 kW MODULE 1 LEFT of the 200 kW MODULE 2ND LEFT and of the 200 kW MODULE 3RD LEFT Page 64 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 6 Assembly procedure for the THREE 200 kW MODULES RIGHT 1 Remove the 200 kW MODULE 15 RIGHT the 200 kW MODULE 2ND RIGHT and the 200 kW MODULE 3RD RIGHT from their pallets by removing the mounting screws see Fig 17 on page 33 but only if the floor where Chloride Trinergy is to be installed is level Otherwise connect the 200 kW MODULES together without removing them from the pallets 2 Remove the rear panels from the 200kW MODULE 1 RIGHT the 200kW MODULE 2P RIGHT and the 200kW MODULE 38 RIGHT 3 Open the K2R coupling kit 4 Bring together and align the two 200 kW MODULES 200 kW MODULE 1 RIGHT with 200 kW MODULE 2ND m Fig 38 on page 51 If the 200 kW MODULES were not removed from the pallets for the reasons stated above in order to move them together it is necessary to remove the extensions from the pallets and adjust their respective heights using the screws provided see Fig 26 on page 42 and Fig 27 on page 43 5 Mechanically secure together the 200 kW MODULE 1 RIGHT and the 200 kW MODULE 2ND RIGHT Us
14. Chloride Trinergy Preparation For INSTALLATION 2 7 2 List for materials kit ASSEMBLY KIT FOR THE 200 kW MODULE 1 RIGHT K1R DESCRIPTION AND lt NEUTRAL COPPER BAR COPPER BAR GROUND COPPER BAR PHASE SPACER COPPER BAR DISTRIBUTION COPPER BAR LEXAN PROTECTION NEUTRAL SPACER COPPER BAR PHASE ANGLE LEXAN COPPER BAR PROTECTION CONTACT GREASE DESCRIPTION COUNTER SUNK SCREW M6x25 WASHER SERRATED TAPER M6 PHILLIPS cross head SCREW M6x12 FLAT WASHER M12 SPLIT WASHER M12 BOLT M12x30 WIDE WASHER M6 SPLIT WASHER M6 BOLT M6x16 The kit contains a few more nuts and screws than are actually required to assemble the system Page 26 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy ASSEMBLY KIT FOR THE 200 kW MODULE 15 K1L DESCRIPTION DESCRIPTION AND 3 NEUTRAL COPPER BAR COPPER BAR GROUND PHASE SPACER COPPER BAR COPPER BAR DISTRIBUTION COPPER BAR LEXAN PROTECTION NEUTRAL SPACER COPPER BAR ANGLE LEXAN PHASE PROTECTION COPPER BAR CONTACT GREASE PHILLIPS cross head SCREW M6x12 WIDE WASHER M6 The kit contains a few more nuts and screws than are actually required to assemble the system Installation Manual 10H521941M10 rev 2 03 2013 Page 27 Chloride Trinergy Preparation For INSTALLATION ASSEMBLY KIT FOR THE 200 kW MODULE 299 RIGHT K2R
15. ITSM T 125 8000 14000 20000 26000 EN Inverter fuse rating 2 25 1072 EJ 2 Inverter to bypass and bypass to inverter transfer time with No break inverter synchronized with bypass Default transfer delay time inverter to bypass with inverter not synchronized with bypass ms 1 Nominal input voltage and input frequency 2 For tolerances see IEC EN 60146 1 or DIN VDE 0558 The data refer to 25 C ambient temperature 3 The efficiency rating refers to the UPS when it is in VFI mode with Circular Redundancy 4 Recommended average daily ambient temperature 35 C with maximum of 40 C for 8 hours as required by standard 2040 5 Ifa split input configuration is used the primary input and the bypass input must have a common neutral The neutral conductor may be connected only to bypass or primary line power but it must be present bypass and primary neutrals are connected inside the UPS 6 With input voltage at nominal value and voltage distortion THD 1 7 Nominal apparent power loads with PF gt 0 9 can be supplied with marginal limitation of other performance specifications Please contact the technical support team for further information 8 In case of different levels of overload see the specific overload curve 9 The presence of an inductor within the Power Interface block limits the short circuit current down stream of the UPS The max acceptable system short circuit curr
16. RIGHT K3R DESCRIPTION AND REAR COUPLING COPPER BAR SHEET METAL PHASE REAR COUPLING COPPER BAR LEXAN DISTRIBUTION COPPER BAR LEXAN PROTECTION NEUTRAL COPPER BAR BATTERY TOP COUPLING b 9 COPPER BAR SHEET METAL GARFILM T PROTECTION CONTACT GREASE DESCRIPTION COUNTER SUNKSCREW M6x25 77 PHILLIPS cross head SCREW M6x12 SPLIT WASHER M12 BOLI M12x30 WIDE WASHER M4 SPLIT WASHER M4 BOLT M4x60 NUT M4 The kit contains a few more nuts and screws than are actually required to assemble the system Page 30 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy ASSEMBLY KIT FOR THE 200 kW MODULE 3 LEFT K3L DESCRIPTION COPPER BAR COPPER BAR NEUTRAL COPPER BAR TOP COUPLING SHEET METAL CONTACT GREASE WASHER SERRATED TAPER M6 NYLON RIVET NYLON RIVET PHILLIPS cross head SCREW M6x12 FLAT WASHER M12 SPLIT WASHER M12 BOLT M12x30 WIDE WASHER M4 SPLIT WASHER M4 BOLT M4x60 NUT M4 REAR COUPLING SHEET METAL REAR COUPLING LEXAN DISTRIBUTION COPPER BAR LEXAN PROTECTION BATTERY COPPER BAR GARFILM PROTECTION T The kit contains few more nuts and screws than actually required to assemble the system Installation Manual 10H521941M10 rev 2 03 2013 Page 31 Chloride Trinergy Preparation For INSTALLATION 2 7 3 Assemb
17. hole 21 hole 29 see Fig 24 on page 40 Figure 24 Page 40 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 12 Remove from the back of the 200 kW MODULE 1 RIGHT the nylon rivet A column to the left of the copper connection bars Install the bar protection panel FRONT VIEW using two M6x12 Phillips cross head screws the new nylon rivets A all contained in the kit see Fig 25 on page 41 10 hole from the top 24 hole from the bottom Fiqure 25 13 Install the painted rear panel FRONT VIEW on the 200 kW MODULE 1 RIGHT Installation Manual 10H521941M10 rev 2 03 2013 Page 41 Chloride Trinergy Preparation For INSTALLATION 2 7 3 3 Assembly procedure for TWO 200 kW MODULES LEFT 1 Remove the 200 kW MODULE 1 LEFT and the 200 kW MODULE 2ND LEFT from their pallets by removing the mounting screws see Fig 17 on page 33 but only if the floor where Chloride is to be installed is level Otherwise connect the 200 kW MODULES together without removing them from the pallets 2 Remove the rear panels from the 200kW MODULE 1 LEFT and the 200kW MODULE 2P LEFT 3 Open the K2L coupling kit 4 Bring together and align the two 200 kW MODULES see Fig 28 on page 44 If the 200 kW MODULES were not removed from the pallets for the reasons stated above in order to move them toge
18. lt 3 Walk in Soft start 5 10 1 90 selectable Rectifier Hold off s 1 1 180 8 Installation Manual 10 521941 10 2 03 2013 147 Chloride Trinergy Technical data UPS devices Chloride Trinergy 49 00 300 31900 1200 6 3 Battery E Permissible battery voltage range V 396 to 00 VRLA 240 300 Number of cells Wet 240 300 NiCd 3 5 468 277 151025 22200 Batt recharge current setting range for 240 cells nominal 12 120 18 179 24 239 30 299 36 359 load A Batt recharge current setting range for 264 cells maximum 6 21 12 43 18 64 24 85 30 106 36 128 output load PF 1 A E power in discharge mode with nominal load 1123 V 396 End voltage of battery with 240 cells V End current of battery with 240 cells and nominal load A 1418 1891 2363 2836 DC AC Efficiency in discharge mode nominal active BE 2 6 4 Inverter output Nom apparent power 40 C ambient temp lagging or 200 1000 1200 leading load PF kVA 400 Nommaadiepower W 380 360 540 720 900 1080 Nominal output current Maximum activepower Kw 0 259 400 800 1000 10 ee Overload at Now for 10 min 125 Overload at Vout Now for 1 min 25 150 Short circuit current for 10ms lt 5s 300 150 Nominal output voltage V 400 380 415 selectable 3Ph Nominal output frequency
19. see Assembly procedure for kick plate on page 91 Page 80 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 9 Procedure to join the 200 kW MODULE RIGHT with the I O BOX 1 Position the I O BOX in the final installation area 2 Position the 200 kW MODULE 1 RIGHT near the box If the 200 kW MODULES were not removed from the pallets eliminate the pallets by removing the respective mounting screws see Fig 17 on page 33 Make sure the cables on the right of the I O BOX of the removable box are inside the cabinet to prevent crushing during positioning of the 200 KW MODULE 1 RIGHT 3 Mechanically secure the I O BOX to the 200 kW MODULE 1 RIGHT Secure the upper part of the 200 kW MODULE 1 RIGHT with the upper part of the I O BOX using the four M6x16 hexagonal bolts complete with wide and split washers included in the kit K1R see Fig 69 on page 81 Figure 69 e Secure the lower l h part of the 200 kW MODULE 1 RIGHT with the lower r h part of the I O BOX using two M12x30 hexagonal bolts complete with flat and split washers included in the kit one at the front and at the back see Fig 70 page 81 n G E k Et C rc D D E E k Figure 70 Installation Manual 10H521941M10 rev 2 03 2013 Page 81 Chloride Trinergy Preparation For INSTALLATION
20. 13 Cleaning the connection bars Using smooth emery paper clean the contact areas of the connection bars and remove any rust Spread grease on the contact areas of the connection bars 14 Installing the rear connection bars of phases U V W U1 V1 W1 U2 V2 W2 and neutral N Atotal of 3 copper bars coupled as follows must be secured to each copper bar located on the back of the 200 kW MODULE CORE 1 copper bar secured to the 200 KW MODULE 1 RIGHT to the 200 KW MODULE 2ND RIGHT and to the 200 kW MODULE 3RD RIGHT 1 copper bar secured to the 200 kW MODULE 1 RIGHT and to the 200 KW MODULE 2ND RIGHT 1 copper bar secured only to the 200 kW MODULE 1 RIGHT Everything must be secured using twenty M6x25 countersunk Allen screws complete with tapered toothed washers contained the kit see Fig 53 on page 67 15 Installing the battery connection rear bars Page 68 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Install the copper battery connection bars on the 200 kW MODULE 1 RIGHT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the kit see Fig 41 on page 54 Install the insulation component above battery copper connection bar and secure it to the Lexan guard using a nylon rivet B see Fig 42 on page 55 which is
21. 3RD RIGHT Page 70 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 7 Preparing the I O BOX I O BOX 1 Remove the I O BOX from the pallet by removing the mounting screws see 57 on page 71 for 400 kW I O BOX and for 800 1200 kW I O BOX Figure 57 Unpacking 400 kW and 800 1200 kW I O BOX 2 Remove the left and or right side panels FRONT VIEW depending on which side the 200 KW MODULES are to be connected together Installation Manual 10H521941M10 rev 2 03 2013 Page 71 Chloride Trinergy Preparation For INSTALLATION 3 Remove the moldings only from the side where the 200kW MODULE is to be connected see Fig 61 on page 75 Then mount the rear panel 12 ee sie Figure 58 4 The I O BOX is supplied complete with hexagonal bolts screwed into the inserts on the distribution bars to the right and left of the I O BOX phase neutral battery and ground bars To remove these screws first remove the secondary access panel Check the threads on the screws that have just been removed for signs of damage Page 72 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 5 Install the protective caps supplied with the I O BOX on the switch extension
22. 4 Secure the copper connection bars to the distribution bars on the back of the I O BOX Secure the copper phase bars to the right of the I O BOX using the eighteen M6x25 hexagonal bolts removed earlier see Fig 71 on page 82 Secure the copper neutral bar to the right of the I O BOX using two M8x25 hexagonal bolts removed earlier see Fig 71 on page 82 Secure the copper ground bar and the copper battery bars to the right of the I O BOX using six M8x20 hexagonal bolts removed earlier see Fig 71 on page 82 ti mW EY SLE Cl D i A E n ri Di SC F ue 7 s a i 1 1 Figure 71 Correctly tighten all the screws listed above Make the connections between the parallel cables and the RJ45 see Interconnecting the communication cables on page 97 6 Install the kick plate see Assembly procedure for kick plate on page 91 Page 82 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 10 Procedure for mounting the secondary access panels Remove the protective caps from the I O Box switch extension bars see Fig 62 on page 75 Mount the secondary access panels Remove all the circular discs from the switch panel see Fig 72 on page 83 Figure 2 Installation Manual 10H521941M10 rev 2 03 2013 Page 83 Chlorid
23. 4 12 Connector for backfeed status output XT2 This 2 pole screw connector activates an external magnetic contactor MC if the UPS detects backfeed current through the bypass in VFI mode This can be caused by a short circuit in the bypass thyristor branch of the UPS The external magnetic contactor must be provided by the customer see Backfeed protection on page 105 PIN 1 Backfeed switch n c Open when is detected PIN2 Backfeed switch common The maximum cable section is 0 75mm e The Interface is SEIV isolated from UPS primary circuits Warning N The output of the external backfeed circuit connected to XT2 must not exceed e 24 VDC 1A 160VAC 3A Warning N XT2 are voltage free contacts fully isolated from UPS primary circuits If a voltage higher than 40 V is applied to control an external disconnection device XT2 can no longer be considered safe Installation Manual 10H521941M10 rev 2 03 2013 Page 143 Chloride Trinergy connectivity panel Page 144 Installation Manual 10H521941M10 rev 2 03 2013 5 Chloride Trinergy 5 OPTIONS Some of the options listed in this section may modify the data on the standard technical data tables see Technical data UPS devices on page 147 It may not be possible to use certain options simultaneously on the same UPS 5 1 Remote alarm unit A remote alarm panel is available for displaying important individual
24. 591 593 2 CONNECT A JUMPER BETWEEN PINS 9 AND 10 OF CONNECTOR X1 ON BOARD AP80 3 REMOVE THE BATTERY SWITCH 059 THE AUXILIARY CONTACT AND THE SWITCH EXTENSION BAR Page 130 Installation Manual 10H521941M10 rev 2 03 2013 TRANSFORMING BATTERY CONNECTIONS Chloride Trinergy 4 REMOVE THE COPPER BARS FROM COMMON POINTS OF THE AND POLES n EM 71 SECOND LEFT FIRST RIGHT w 200 kW MODULE ET 200 kW MODULE FIRST LEFT 4 SECOND 200 kW MODUL 200 kW MODULE 6 THE CABLES 588 AND 589 MUST BE CONNECTED TO THE AND BARS OF THE FIRST 200KW MODULE ON THE LEFT RESPECTIVELY IF THIS IS NOT PRESENT CONNECT THE CABLES TO THE CORRESPONDING BARS OF THE FIRST 200KW MODULE ON THE RIGHT 7 THE TEMPERATURE SENSOR MUST BE INSTALLED IN EACH BATTERY CABINET IT IS SUPPLIED WITH THE 200KW MODULE AND IT MUST BE CONNECTED TO XT10 SEE FIG 88 ON PAGE 97 IT IS NECESSARY TO MODIFY THE SOFTWARE SETTINGS Installation Manual 10H521941M10 rev 2 03 2013 Page 131 Chloride Trinergy TRANSFORMING BATTERY CONNECTIONS 8 INSULATE THE COPPER BARS PREVIOUSLY ASSEMBLED WITH THE GARFILM SUPPLIED see Fig 109 on page 132 JOIN WITH CABLE TIE Figure 109 9 REMOVE THE BATTERY SWITCH HANDLE FROM THE SAFETY SECONDARY ACCESS PANEL AND FIT THE CLOSED DISC SUPPLIED WITH THE UPS SEE Fig 110 on page 132 Figure 110 Page 132 Installation Manual 10H521941M10 rev
25. Fig 46 on page 59 11t hole from the top 25 hole from the bottom Figure 46 Installation Manual 10H521941M10 rev 2 03 2013 Page 59 Chloride Trinergy Preparation For INSTALLATION 8 Install the copper ground bar using two M6x12 Phillips cross head screws all contained in the K1L kit to the r h rear upright of the 200 kW MODULE 1 LEFT in holes 10 and 11 starting from the highest hole see Fig 47 on page 60 i EON 2 2 2 Poem and the Ve m AE 11 hole from the top copper ground bar input phase copper bars Bypass indu phasdll p oO 4 copper bars 4 a 7 Neutral EE La 1 i x bat Output A hs A NL as fi 3 j r a a iia m 2 copper bars Battery and copper bars rui us xe eh f Figure 4 Check for the presence of threaded holes on the upper r h crosspiece of the 200 kW MODULE 1 LEFT These threaded holes are needed by the screws used to secure the 200 kW MODULE 15 LEFT 200 kW MODULE 2ND LEFT block to the I O BOX he holes which must be threaded starting from the first front hole of the outside upright are as follows hole 5 h
26. Figure 32 8 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the ground bar on the 200 kW MODULE 1 LEFT and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 2ND LEFT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 1 zi LEFT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Spread grease on the contact area of the copper ground bar installed on the 200 kW MODULE 1 LEFT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 2ND LEFT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 1 LEFT Installation Manual 10H521941M10 rev 2 03 2013 Page 47 Chloride Trinergy Preparation For INSTALLATION 9 Cleaning the connection bars Using smooth emery paper clean the contact areas of the connection bars spacers and remove any rust Spread grease on the contact areas of the connection bars and spacers 10 Starting from the top install the COPPER GROUND BAR ground connection using two M6x12 Phillips cross head screws see Fig 33 on page 48 11 Install the copper ground b
27. INSTALLATION CABLE ENTRY AREA 224 447 Figure 13 1200 kW I O BOX DIMENSIONS TOP VIEW WITH TOP CABLE GLAND PLATE FRONT a 9 45 J Figure 14 1200 kW I O BOX DIMENSIONS BOTTOM VIEW WITH POSITION OF THE FEET Page 20 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy FRONT Y CABLE ENTRY AREA 532 Figure 15 1200 kW I O BOX BOTTOM VIEW WITH BOTTOM CABLE GLAND PLATE Installation Manual 10H521941M10 rev 2 03 2013 Page 21 Chloride Trinergy Preparation For INSTALLATION Figure 16 1200 kW I O BOX WITH DOOR OPEN TOP VIEW Page 22 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 Installation instructions 2 7 1 Possible configurations m go VO BOX 600 800kW WO BOX 1000 1200kW m LF Z Table 1 COMPONENT AVAILABLE B OQ Table 2 CONFIGURATION WITH 400 kW I O BOX Installation Manual 10H521941M10 rev 2 03 2013 Page 23 Chloride Trinergy Preparation For INSTALLATION 200kW JALOOL VA 3 UK Table 3 CONFIGURATION WITH 800 kW I O BOX Page 24 Installation Manual 10H52194IM10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Mili LLLELLH u Table 4 CONFIGURATION WITH 1200 kW I O BOX Installation Manual 10H521941M10 rev 2 03 2013 Page 25
28. Ri iu a kW SECOND j THIRD RIGHT FIRST RIGHT kW 4 200 MODULE 200 kW 2 i i Wt UB n SECOND LEFT THIRD RIGHT FIRST RIGHT an 200 kW kW MODULE cs ALL 200 MODULE FIRST LEFT jm LEFT ml Dea A 200 kW MODULE kW MODULE 200 PRADA MODULE 6 THE CABLES 588 AND 589 MUST BE CONNECTED TO THE AND BARS OF THE FIRST 200KW MODULE ON THELEFT RESPECTIVELY IF THIS IS NOT PRESENT CONNECT THE CABLES TO THE CORRESPONDING BARS OF THE FIRST 200KW MODULE ON THE RIGHT 7 THE TEMPERATURE SENSOR MUST BE INSTALLED IN EACH BATTERY CABINET IT IS SUPPLIED WITH THE 200KW MODULE AND IT MUST BE CONNECTED TO XT10 SEE FIG 88 ON PAGE 97 IT IS NECESSARY TO MODIFY THE SOFTWARE SETTINGS Page 134 Installation Manual 10H521941M10 rev 2 03 2013 TRANSFORMING BATTERY CONNECTIONS Chloride Trinergy 8 INSULATE THE COPPER BARS PREVIOUSLY ASSEMBLED WITH THE GARFILM SUPPLIED see Fig 111 on page 135 Figure 111 9 REMOVE THE BATTERY SWITCH HANDLE FROM THE SAFETY SECONDARY ACCESS PANEL AND FIT THE CLOSED DISC SUPPLIED WITH THE UPS SEE Fig 112 on page 135 Figure 112 Installation Manual 10H521941M10 rev 2 03 2013 Page 135 Chloride Trinergy TRANSFORMING BATTERY CONNECTIONS Page 136 Installation Manual 10H521941M10 rev 2 03 2013 connectivity panel Chloride Trinergy 4 CONNECTIVITY PANEL Chloride Trinergy is equipp
29. bars see Fig 62 on page 75 Figure 59 6 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the copper distribution bars on the right and left of the I O BOX phase neutral battery and ground bars and remove any rust d read grease on the contact area of the copper distribution bars on the right and left of the I O BOX phase neutral battery and ground bars If the 200kW MODULES LEFT and RIGHT are joined to the I O BOX at the front the I O BOX must be prepared according to the following sequence 7 If the 200kW MODULES LEFT and RIGHT are joined to the I O BOX at the front the I O BOX must be prepared according to the following sequence If the 200kW MODULES LEFT and RIGHT are joined to the I O BOX at the side the following sequence is not necessary Installation Manual 10H521941M10 rev 2 03 2013 Page 73 Chloride Trinergy Preparation For INSTALLATION 8 Remove the painted front left part see Fig 63 on page 76 remove only in case of 1 LEFT module Figure 60 Page 74 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Figure 61 1 3 8 i o Figure 62 Installation Manual 10H521941M10 rev 2 03 2013 Page 75 Chloride Trinergy Preparation For INSTALLATION 9 Remove the sheet metal parts indicated in Fig 63 o
30. contained in the K2R kit Install the copper battery connection bars on the 200 kW MODULE 2ND RIGHT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K2L kit see Fig 43 on page 55 Install the insulation component above the battery copper connection bar and secure itto the Lexan quard using a nylon rivet B see Fig 54 on page 69 which is contained in the K3R kit Figure 54 Install the copper battery connection bars on the 200 kW MODULE 3RD RIGHT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K3R kit see Fig 55 on page 69 Fiqure 55 Installation Manual 10H521941M10 rev 2 03 2013 Page 69 Chloride Trinergy Preparation For INSTALLATION 16 Remove from the back of the 200 kW MODULE 2ND RIGHT the nylon rivet A column to the left of the copper connection bars Install the Lexan panel FRONT VIEW to protect the bars Use eight M6x12 Phillips cross head screws 4 plates two M6x12 Phillips cross head screws on the upright of the 200 kW MODULE 1 RIGHT and the new nylon rivets A contained in the kit see Fig 56 on page 70 10 hole from 24 hole from the bottom the bottom Figure 56 17 Install the rear panels FRONT VIEW of the 200 kW MODULE 1 RIGHT of the 200 kW MODULE 2ND RIGHT and of the 200 KW MODULE
31. of this note is to provide information and warnings on a potential risk to the operational integrity of an installed UPS system as posed by the presence of foreign material inside or in the vicinity of the UPS module and its associated auxiliary equipment components This risk is especially high if conductive materials find their way inside the UPS module or the associated auxiliary equipment components The risk potentially involves damage to the installed UPS equipment and subsequent degradation or loss of power to the connected critical site load Emerson Network Power applies the highest safety standards in equipment design to ensure that no live parts are exposed to external contact and also to ensure that the equipment is protected against the introduction of foreign bodies during operation built to IP20 with optional filters available for special conditions However it is not possible for Emerson Network Power to ensure that foreign bodies will not be introduced during on site installation or when the UPS doors amp covers are open and the electrical terminals are exposed to allow power line connections to be made by the electrical contractor installer It is also not uncommon to have other personnel working in the same UPS equipment room during on site installation Such personnel sometimes work above the UPS equipment and associated auxiliary equipment components To prevent major disruption to site operations and risk to p
32. page 103 and para 6 5 on page 149 If a single differential breaker is installed ahead of the UPS any fault in the installation grounding system will result in the interruption of power to both the line power input and the direct line Table 5 Conductor cross sections of standard UPS menter 327 654 981 1308 1635 3 2x 0 2x180 2x240 3x240 4x240 Conductor cross section mm Bypass Power line Load Nominal current A 2 290 580 870 1160 1450 2x 0 2x180 2x240 3 240 4 240 Conductor cross section mm 9 Battery external Max current at 1 8V cell 240 cells A 435 870 1300 1735 2170 Conductor cross section mm 3 2x120 2x240 3x240 4x240 5x240 Neutral from line power to load N N2 Coefficient for oversizing the Lo Neutral line conductor when non linear load is supplied Earth Conductor cross section mm 1x120 1x240 3x120 2x240 3x240 Type of connector Type of connector connector BUSBARS 1 For a nominal voltage of 380V multiply the current value by 1 05 for 415V multiply by 0 96 2 Overload current specified in the para 6 on page 147 3 To select the cross section see the actual installation data and national and local codes To allow a 200 kW MODULE to be added to the I O BOX in the future the cables and protection device s must conform to the rating of the I O BOX The protection must be set to the true rating accordi
33. the screws that secure the 200 kW MODULE 1 LEFT to the I O BOX The holes which must be threaded starting from the first front hole of the outside upright are as follows hole 5 hole 13 hole 21 hole 29 see Fig 20 on page 36 FRONT Figure 20 Page 36 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 12 Remove from the back of the 200 kW MODULE 1 LEFT the nylon rivet A column to the left of the copper connection bars Install the bar protection panel made of Lexan FRONT VIEW using two M6x12 Phillips cross head screws and new nylon rivets A all contained in the K1L kit see Fig 21 on page 37 TTL 11 24 hole from the bottom Figure 21 13 Install the painted rear panel FRONT VIEW of the 200 kW MODULE 1 LEFT Installation Manual 10H521941M10 rev 2 03 2013 Page 37 Chloride Trinergy Preparation For INSTALLATION 2 7 3 2 Assembly procedure for the 200 kW MODULE 1 RIGHT 1 Remove the 200 kW MODULE 1 RIGHT from the pallet by removing the special mounting screws see Fig 17 on page 33 2 Remove the rear panel Fig 22 on page 38 from the 200kW MODULE 1 right 3 Open the K1R coupling kit the Lexan corner guard to protect the corner from contact with the distribution bars The rectangular recess must face downwards see Fig 22 on page 38 Use two M6x12 Phill
34. v Wo ET X i FLOW p GIC E AIR FLOW oh tet tet 5B o Boh amp h hb Figure 95 Chloride Trinergy 1000 kW FRONT VIEW Page 110 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy AIR FLOW AIR FLOW AIR i Connectivity panel AIR FLOW AIR FLOW AIR FLOW Figure 96 Chloride Trinergy 1200 kW FRONT VIEW Installation Manual 10H521941M10 rev 2 03 2013 Page 111 Chloride Trinergy Preparation For INSTALLATION 2 15 External power connections To install the power cables Make sure that the UPS is isolated before removing panels access the external electrical connections open the front door of the 1 0 BOX and remove the secondary access panel see Fig 92 on page 107 and Fig 96 on page 111 First connect the ground cable PE to the UPS ground connection Route the input and output cables bus bars through either the top or bottom of the cabinet to the UPS terminals See from Fig 97 to Fig 104 and from Fig 5 to Fig 16 for wiring access information and terminal locations Top and bottom cable gland plate for AC and DC input and output cables Remove panel to drill or punch conduit holes IMPORTANT no power cable strain relief is installed inside the I O BOX During installation make sure that cable clamps are placed
35. valve regulated battery Valve regulated cells are not sealed The amount of gas given off is less than for flooded cells but when planning the battery installation allowance must be made for adequate ventilation and heat dissipation Valve regulated cells are not completely maintenance free They must be kept clean and their connections must be checked periodically to ensure they are tight and that there is no evidence of corrosion It is inevitable that batteries will lose some charge during transportation and storage Before attempting a capacity test make sure the batteries are fully charged as this may take several hours Cell performance typically improves after a few discharge recharge cycles Notice The battery charger can be configured for different types of batteries and different numbers of cells The technical data table chapt 10 lists the type of batteries that can be used and the number of the cells for which the battery charger is configured The maximum charging current is selectable and depends on the rating of the UPS and its operating conditions chapt 10 Several charging methods depending on the type of battery are available and can be configured by authorized personal only Installation Manual 10H521941M10 rev 2 03 2013 Page 123 Chloride Trinergy Preparation For INSTALLATION 2 17 Connections between battery compartments and UPS The cable for connecting the UPS to the battery cabine
36. 2 03 2013 TRANSFORMING BATTERY CONNECTIONS Chloride Trinergy 1200 kW STANDARD CONFIGURATION all of LI 4 T7 Y x a 1 amp L ET 0 mn m R t 91 m TK a _ Ea Pm A LM er EET E ERI st i 5 rs 1 1 2 1 E IF 4 E 1 I UO La i o oto V S aa i fal 1 w a i EM 1 Tr na a W E hr a M TY b 5 uve P ja ba 1 F t i 1 1 DISCONNECT THE CABLES FROM THE AUXILIARY CONTACT ON THE BATTERY SWITCH QS9 591 593 2 CONNECT A JUMPER BETWEEN PINS 9 AND 10 OF CONNECTOR X1 ON BOARD AP80 3 REMOVE THE BATTERY SWITCH QS9 THE AUXILIARY CONTACT AND THE SWITCH EXTENSION BAR Installation Manual 10H521941M10 rev 2 03 2013 Page 133 Chloride Trinergy TRANSFORMING BATTERY CONNECTIONS 4 REMOVE THE COPPER BARS FROM COMMON POINTS OF THE AND POLES 1 1 41 ri dE V lii En Cea i ba 3 irt pt m ue E p n m ENS THIRD LEFT 200 SECOND RIGHT
37. 2 12 1 Use of differential protection devices Notice Differential current breakers The UPS does not require differential protection devices connected ahead of it However when these devices are installed in compliance with local regulations note that separate DCBs in the line power and bypass line power circuits may trip unexpectedly thus interrupting the power supply to the unit Therefore if a DCB must be installed only one should be used for both primary and bypass inputs _ In parallel distributed systems only one common differential protection device should be installed ahead of the point where the line divides into the UPS primary and Bypass line power circuits If separate DCBs are installed in different configurations they may trip unexpectedly _In order to guarantee correct distribution in the neutral cables installation personnel shall make sure that the lengths of the cables are as equal as possible However if the bypass lines lead from sources that are electrically isolated from each other a differential protection device may be installed on each line In this case and in cases when the load is supplied from the Bypass via the Bypass Static Switch the isolated sources should be connected in parallel A case by case analysis should be made as to whether any resulting imbalance between the currents on the Bypass lines is compatible with the respective protection devices A differential device installed on the prima
38. 200 KW MODULE 3RD LEFT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 2ND LEFT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 1 LEFT 13 Cleaning the connection bars Using smooth emery paper clean the contact areas of the connection bars remove any rust Spread grease on the contact areas of the connection bars 14 Installing the rear connection bars of phases U V W U1 V1 W1 U2 V2 W2 and neutral N Atotal of 3 copper bars coupled as follows must be secured to each copper bar located on the back of the 200 kW MODULE 1 copper bar secured to the 200 kW MODULE 1 LEFT to the 200 kW MODULE 2ND LEFT and to the 200 kW MODULE 3RD LEFT 1 copper bar secured to the 200 KW MODULE 1 LEFT and to the 200 kW MODULE 2ND LEFT 1 copper bar secured only to the 200 kW MODULE 1 LEFT Everything must be secured using twenty M6x25 countersunk Allen screws complete with tapered toothed washers contained in the K3L kit see Fig 47 on page 60 15 Installing the battery connection rear bars Install the copper battery connection bars on the 200 kW MODULE 1 LEFT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the kit see Fig 34 on page 49 Install the insulation component above the battery cop
39. 200 kW MODULE 1 LEFT and the 200 kW MODULE 2ND LEFT Use the two M12x30 hexagonal bolts complete with washers and nuts contained in the K2L kit to secure in the lower part of the cabinets the frame of the 200 kW MODULE 1 LEFT to the 200 KW MODULE 2ND LEFT see Fig 29 on page 45 Use the steel plate and fourteen M6x12 Phillips cross head screws contained in the K2L kit to secure the upper part of the 200 KW MODULE 1 LEFT with the 200 kw MODULE 2ND LEFT see Fig 30 on page 45 Use the vertical quard in Lexan keeping the rectangular recess facing downwards 2 plates and four M6x12 Phillips cross head screws contained in the K2L kit to secure further the rear of the 200 kW MODULE 1 LEFT with the 200 kW MODULE 2ND LEFT see Fig 31 on page 46 Installation Manual 10H521941M10 rev 2 03 2013 Page 57 Chloride Trinergy Preparation For INSTALLATION Use four M4x60 hexagonal bolts complete with washers and nuts contained in the K3L kit to secure the side upright of the 200 kW MODULE 1 LEFT to the side upright of the 200 kW MODULE 2ND LEFT Then use four M4x60 hexagonal bolts complete with washers and nuts contained in the K3L kit to secure the side upright of the 200 kW MODULE 2ND LEFT to the side upright of the 200 kW MODULE 3RD LEFT see Fig 45 on page 58 5 8 Q LLL IM ba x uv 1 EN eee Seg 1 7
40. 2013 Preparation For INSTALLATION Chloride Trinergy 8 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the copper ground bar on the 200 kW MODULE 1 RIGHT and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 2ND RIGHT phases U V W U1 V1 W1 U2 V2 W2 N and and remove rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 1 al RIGHT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Spread grease on the contact area of the copper ground bar installed on the 200 kW MODULE 1 RIGHT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 2ND RIGHT 9 Cleaning the connection bars Using smooth emery paper clean the contact areas of the connection bars spacers and remove any rust Spread grease on the contact areas of the connection bars and spacers 10 Starting from the top install the COPPER GROUND BAR ground connection using two M6x12 Phillips 55 screws see Fig 40 on page 53 11 Install the copper ground bar using two M6x12 Phillips cross head screws all contained in the kit to the r h rear upright of the 200 kW MODULE 1 RIGHT in holes 10
41. 3 Page 9 Chloride Trinergy Preparation For INSTALLATION 2 4 1 Installation altitude The maximum operating altitude of the UPS without derating is 1000 m At higher altitudes the load must be reduced according to Fig 1 100 90 USV5106a 80 Load in 70 1000 2000 3000 Installation altitude in m Figure 1 Permissible load dependent on installation altitude 2 5 Access to service area and cooling system When installed the UPS can only be accessed from the front All front doors have a maximum aperture of 90 The area must have sufficient space for installation procedures to be carried out Access doors must be wide enough to permit unobstructed transport of the device Preparation For INSTALLATION on page 9 To allow correct air flow for the cooling system leave a minimum distance of 500 mm between the top of the cabinet and the ceiling of the installation area The UPS air intake is at the front and the air outlet is on the top see Fig 2 on page 10 AIR FLOW OUTLET AIR FLOW INTAKE Figure 2 IN OUT AIR FLOW 200 kW MODULE Page 10 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 6 Installation and footprint The external dimensions of the single components are as follows Rating Width Depth Height Shipping kVA mm mm mm Weight 200 kW MODULE 6 5 860 5 400 kW 800 kW I O BOX 1200 kW I O BOX
42. 3L kit to secure Installation Manual 10H521941M10 rev 2 03 2013 Page 61 Chloride Trinergy Preparation For INSTALLATION further the rear of the 200 kW MODULE 3RD LEFT with the 200 kW MODULE 2ND LEFT 200 kW MODULE 1 LEFT block see rig 31 on page 46 Use four 4 60 hexagonal M complete with washers and nuts contained in the K3L kit to secure the side uprights of the 200 kW MODULE see Fig 45 on page 58 12 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the copper ground bar on the 200 kW MODULE 1 LEFT and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 3RD LEFT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 2ND LEFT phases U V W U 1 V1 W1 U2 V2 W2 N and and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 1 2t LEFT phases U V W U1 V1 WT U2 V2 W2 N and and remove any rust Spread grease on the contact area of the copper ground bar installed on the 200 kW MODULE 1 LEFT Spread grease on the contact area of the copper bars located on the back of the
43. 435 Figure 6 400 kW I O BOX DIMENSIONS BOTTOM VIEW WITH POSITION OF THE FEET Page 14 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy FRONT Y CABLE ENTRY AREA Figure 7 400 kW I O BOX BOTTOM VIEW WITH BOTTOM CABLE GLAND PLATE Installation Manual 10H521941M10 rev 2 03 2013 Page 15 Chloride Trinergy Preparation For INSTALLATION Figure 8 400 kW I O BOX WITH DOOR OPEN TOP VIEW Page 16 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy FRONT Y CABLE ENTRY AREA Figure 9 800 kW I O BOX DIMENSIONS TOP VIEW WITH TOP CABLE GLAND PLATE FRONT Y Th i KN Bali ms i l Bes 4 25 i I 11 rd 1 853 5 En sala 1 1 1 E 488 18 5 w gt 4 510 Figure 10 800 kW I O BOX DIMENSIONS BOTTOM VIEW WITH POSITION OF THE FEET Installation Manual 10H521941M10 rev 2 03 2013 Page 17 Chloride Trinergy Preparation For INSTALLATION CABLE ENTRY AREA Figure 11 800 kW I O BOX BOTTOM VIEW WITH BOTTOM CABLE GLAND PLATE Page 18 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Figure 12 800 kW I O BOX WITH DOOR OPEN TOP VIEW Installation Manual 10H521941M10 rev 2 03 2013 Page 19 Chloride Trinergy Preparation For
44. 8 3 37 47 1 56 5 Btu h 32155 64310 96465 128620 160775 192930 45 14851 Soe 357 doy 56 6 452 33894 67787 101681 135574 169468 203361 Heat dissipation a Romal Float mode kW 3 0 6 1 9 1 12 2 15 2 18 3 Btu h 10392 20784 31176 41568 51959 62351 output gag VI Recharge mode at max See recharging if 97 12 d current kW Btu h 12130 24261 36391 48522 60652 72783 VED Float mode kW 2 0 4 0 6 1 8 1 10 1 12 1 Btu h 6893 13786 20679 27572 34465 41358 IP20 Protection degree with doors open see para 2 6 on page T gt 3 4 5 7 Frame color RAL Scal x kg see para 2 6 on page 11 3480 40 7 ee j S6 95 C O O ____ EPIS Cy Top Bottom MM LL Operating Temperature 2 0 40 2010370 Max relative humidity 20 C without condensation Up to 95 Up to 1000 above M S L Max altitude above sea level without derating m at higher altitudes unit complies with 62040 3 Immunity to electrical interference IEC EN 62040 2 EMC CLASS IEC EN 62040 2 Class C3 Nominal voltage V 4 wire Ph N Input voltage range V 250 460 Power line configuration 3Ph N 50 60 selectable 10 Input current E max input current 6
45. AC Power for Business Critical Continuity TM Chloride Trinergy from 200 to 1200 kW Installation Manual M CHLORIDE EMERSON 4 Chloride Trinergy UNINTERRUPTIBLE POWER SUPPLY INSTALLATION MANUAL 10H521941M10 rev 2 Chloride Trinergy All rights including rights of translation reproduction by printing copying or similar methods even of parts are reserved Violaters will be liable for damages All rights including rights deriving from patent license or registration of utility model or design are reserved Delivery subject to availability Right to make technical modifications is reserved Chloride Trinergy may differfrom the model displayed on the front cover Page 2 Installation Manual 10H521941M10 rev 2 03 2013 Chloride Trinergy 1 INTRODUC TION eT 5 1 1 Notes to the CE Declaration of Conformity 5 T 2 Symbols arid DICE OG AIMS uuu uyu um aeos ura 5 CUMS USOC 5 Fa C DEDI 5 1 22 Static Bypass SWIC uu uu aaa n 5 13323 Oualitied DETSOMNME 5 5 TA DOCUMIEMEATION C 6 1 5 Information about the pr
46. Hz 50 60 selectable Voltage stability in steady state condition for input variations 2 AC amp DC and step load 0 to a nominal load E Voltage stability in dynamic condition for i p variations amp TS DC and step load 0 to a nominal load and vice versa SNS SEES U O Voltage stability in steady state with nominal load imbalance 3 0 0 100 n Synch in bypass line 1 2 3 4 selectable power Synch with internal 0 clock 41 Frequency slew rate Hz s 1 1 1 Output frequency stability UL LIII S __ _ l lt Output voltage distortion at 100 nominal linear load lt Output voltage distorsion ref non linear load as per IEC 3 EN62040 3 Max Load Crest Factor without derating Ipk Irms Phase angle accuracy with al Toads degrees Phase angle accuracy with 100 unbalanced loads degrees Neutral conductor size 1 5 x nominal current Available output power at various 25 C 110 ambient temperatures of BOTT ac Page 148 Installation Manual 10H521941M10 rev 2 03 2013 Technical data UPS devices Chloride Trinergy Chloride Trinergy 400 300 1000 3200 6 5 Static bypass Voltage range 10 5 to 15 selectable 50 60 selectable Frequency range 1 2 3 4 selectable 125 150 700 1000 Maximum overload capacity l t 125 C Nj KA 1280 2880 5120 8000 11520 8 3 10 ms SCR
47. ODULE 1 RIGHT 200 kW MODULE 2ND RIGHT block see Fig 48 on page 61 If the 200 kw MODULES were not removed from the pallets for the reasons stated above in order to move them together it is necessary to remove the extensions from the pallets and adjust the respective heights using the screws provided see Fig 26 on page 42 and Fig 27 on page 43 Installation Manual 10H521941M10 rev 2 03 2013 Page 67 Chloride Trinergy Preparation For INSTALLATION 11 Mechanically secure the 200 kW MODULE 3RD RIGHT to the 200 kW MODULE 1 RIGHT 200 kW MODULE 2ND block Use the two M12x30 hexagonal bolts complete with washers and nuts contained the kit to secure in the lower part of the cabinets the frame of the 200 kW MODULE 1 RIGHT to the 200 kW MODULE 2ND RIGHT 200 kW MODULE 1 RIGHT block see Fig 29 on page 45 Use the steel plate and fourteen M6x12 Phillips cross head screws contained in the K3R kit to secure the upper part of the 200 kW MODULE 3RD RIGHT with the 200 kW MODULE 2ND RIGHT 200 KW MODULE 1 RIGHT block see Fig 30 on page 45 Use the vertical guard in Lexan while keeping the rectangular recess facin downwards 2 plates and four M6x12 Phillips cross head screws contained in the K3R kit to secure further the rear of the 200 kW MODULE 3RD RIGHT with the 200 kW MODULE 2ND RIGHT 200 kW MODULE 1 RIGHT block see Fig 31 o
48. ODULES LEFT 57 2 7 3 6 Assembly procedure for the THREE 200 kW MODULES 65 2 7 9 4 Preparing O t testet ra C at eoo vage ted 71 2 7 3 8 Procedure to join the 200 kW MODULE LEFT with the I O BOX 79 2 7 3 9 Procedure to join the 200 kW MODULE RIGHT with the I O BOX 81 2 7 3 10 Procedure for mounting the secondary access panels 83 2 7 3 11 Assembly procedure for the side panels on the 200kW MODULE 84 2 7 3 12 Assembly procedure for kick plate 85 2 8 Interconnecting the communication cables 91 2 9 Maximum lenght of the cables 93 2 19 Electiical preparatioiis y unuy 93 2 11 Current and suggested cable sizes 94 2 12 External protection devices 95 2 12 1 Use of differential protection devices 95 2 12 2 Pririaby line DOWeT Np Ul ee io ocu D 96 2 12 2 BVpass MMe DOWER IDE e u eod o Ue
49. Output Battery terminal GND d os E 2 M e e sp e 7 a L lt L i I LI de PT Fr a a L a y Ii e 9261 1 CFT LLL x E E cl Neutral bar Figure 97 POWER CONNECTIONS FRONT VIEW 400 kW I O BOX Installation Manual 10H521941M10 rev 2 03 2013 Page 113 Chloride Trinergy Preparation For INSTALLATION m um n o 1415 1102 75 840 Figure 98 POWER CONNECTIONS SIDE VIEW 400 kW I O BOX Page 114 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Figure 99 400 kW I O BOX FRONT VIEW CLEARANCE BETWEEN POWER CONNECTION BARS Installation Manual 10H521941M10 rev 2 03 2013 Page 115 Chloride Trinergy Preparation For INSTALLATION Line power input 287 Neutral RES cs Hats as att y E EX roll ef 2 ate s u x n q a LU n n 1 om P dis Dd m lee if 1 LI aon a mel Re ia n o aE Ty ll al m all l E i UJ lt 72 CU Un Un HI
50. S9 5 REPOSITION THE INSULATOR SUPPORT THE AUXILIARY CONTACT AND THE SWITCH EXTENSION BAR Installation Manual 10H521941M10 rev 2 03 2013 Page 127 Chloride Trinergy TRANSFORMING BATTERY CONNECTIONS 6 REINSTALL THE BARS REMOVED FROM THE BATTERY SWITCH IN THE NEW POSITION eau MOD wee MODULE MODULE 7 THE CABLES 588 AND 589 MUST BE CONNECTED TO THE AND BARS OF THE FIRST 200KW MODULE ON THE LEFT RESPECTIVELY IF THIS IS NOT PRESENT CONNECT THE CABLES TO THE CORRESPONDING BARS OF THE FIRST 200KW MODULE ON THE RIGHT 8 THE TEMPERATURE SENSOR MUST BE INSTALLED IN EACH BATTERY CABINET IT IS SUPPLIED WITH THE 200KW MODULE AND IT MUST BE CONNECTED TO XT10 SEE FIG 88 ON PAGE 97 IT IS NECESSARY TO MODIFY THE SOFTWARE SETTINGS 9 INSULATE THE COPPER BARS PREVIOUSLY ASSEMBLED WITH THE GARFILM SUPPLIED see Fig 107 on page 128 JOIN WITH CABLE TIE Figure 107 Page 128 Installation Manual 10H521941M10 rev 2 03 2013 TRANSFORMING BATTERY CONNECTIONS Chloride Trinergy 10 REMOVE THE BATTERY SWITCH HANDLE FROM THE SAFETY SECONDARY ACCESS PANEL AND FIT THE CLOSED DISC SUPPLIED WITH THE UPS SEE Fig 108 on page 129 Figure 108 Installation Manual 10H521941M10 rev 2 03 2013 Page 129 Chloride Trinergy TRANSFORMING BATTERY CONNECTIONS 800 kW STANDARD CONFIGURATION 1 DISCONNECT THE CABLES FROM THE AUXILIARY CONTACT ON THE BATTERY SWITCH 059
51. TALLATION 3 Secure the front kick plate FRONT VIEW using 2x M6x12 Phillips cross head screws see Fig 85 on page 96 Figure 85 4 Secure the rear kick plate FRONT VIEW using 2x M6x12 Phillips cross head screws see Fig 86 on page 96 Figure 86 5 Use painted plug snaps on both the kick plates and the external panels Page 96 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 8 Interconnecting the communication cables 1 Remove the 200 kW MODULE and I O BOX connectivity cover panel see Fig 87 on page 97 200 kW MODULE I O BOX Figure 87 200 kW MODULE and I O BOX 2 Connect the parallel and RJ45 cables see Fig 88 on page 97 and Fig 89 on page 98 X19 A ol lo 1 4 Jo Cc l k4 b X3 1 2 X9 XT3 8 XT4 X19 B X20 XT10 X12 X6 X11 X10 Figure 88 200 kW MODULE Connectivity panel Installation Manual 10H521941M10 rev 2 03 2013 Page 97 Chloride Trinergy Preparation For INSTALLATION S S 2522520 LL ca ca lt lt 2 A lt h x x 4 PARALLEL 15 WIRES SIGNAL SUPPLY 15 WIRES Figure 89 INTERCONNECTING THE PARALLEL and RJ45 CABLES Page 98 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 3 Replace the 200 kW MODULE and I O BOX connectivity cover panels 2 9 Maximum
52. UPS messages The connecting cable must not exceed 300m 5 2 External battery circuit breaker or fused battery switch This option consists of a circuit breaker or fused battery switch with an auxiliary contact which allows the UPS to monitor its status via a dedicated input contact It is housed in a wall mounted box and is typically designed for use with rack mounted battery systems 5 3 Dust filters This option improves the air intake protection level from IP20 to IP40 for specific applications such as dusty environments The filter is housed in the UPS compartment IP20 5 4 Empty battery compartment These compartments consist of compartment Disconnecting device Safety panel Connection terminals e UPS battery connecting cables for adjacent installation One size is available Width Depth Height Net Weight kg TypeB 1020 1780 including front handle without handle 830 mm Installation Manual 10H521941M10 rev 2 03 2013 Page 145 Chloride Trinergy OPTIONS Page 146 Installation Manual 10H521941M10 rev 2 03 2013 Technical data UPS devices Chloride Trinergy 6 TECHNICAL DATA UPS DEVICES UPS model Chloride Trinergy Power kVA 200 400 600 800 1000 1200 1 System data 50 load VFI Up to 95 6 AC AC efficiency with resistive load 100 load VFI 9 Up to 95 5 without recharging current 2 VI Up to 98 3 VFD Up to 99 Float mode kW 9 4 18 8 2
53. and 11 starting from the highest hole see Fig 40 on page 53 Check for the presence of threaded holes on the upper I h crosspiece of the 200 kW MODULE 1 RIGHT These threaded holes are needed by the screws used to secure the 200 kW MODULE 151 RIGHT 200 kW MODULE 2ND RIGHT block to the I O BOX The holes which must be threaded starting from the first front hole of the outside upright are as follows hole 5 hole 13 hole 21 hole 29 see Fig 20 on page 36 10t hole from the top ENTE irte RT jh err LT TII T oer i copper ground bar Li IT MEM Power line input phase copper bars Bypass input phase nn a Neutral copper bar il Output phase 0 copper bars 5 Battery and copper bars Figure 40 Installation Manual 10H521941M10 rev 2 03 2013 Page 53 Chloride Trinergy Preparation For INSTALLATION 12 Installing the rear connection bars of phases U V W U1 V1 W1 U2 V2 W2 and neutral N Atotal of 3 copper bars coupled as follows must be secured to each copper bar located on the back of the 200 kW MODULE 1 copper spacer bar 1 copper bar secured to the 200 kW MODULE 1 RIGHT and to the 200 kW MODULE 2ND RIGHT e 200 kW MODULE 1 RIGHT Everything must be secured using twenty M6x25 countersunk Allen screws complete with tapered toothed washers con
54. anger due to their electrical charge and chemical composition Therefore observe the handling instructions provided by the battery manufacturer These usually can be found in the material which is included in the shipment 2 18 1 Recharging batteries Notice When recharging follow the instructions printed on the packaging 2 18 2 Replacing batteries Notice Before replacing batteries make sure the new batteries are fully charged 2 18 3 Connecting external batteries Warning N If a battery has been disconnected and must be reconnected the battery isolator may be reconnected only after you have made certain that voltage with the correct polarity is present in the intermediate circuit see Connecting the batteries on page 122 Installation Manual 10H521941M10 rev 2 03 2013 Page 125 Chloride Trinergy Preparation For INSTALLATION Page 126 Installation Manual 10H521941M10 rev 2 03 2013 TRANSFORMING BATTERY CONNECTIONS Chloride Trinergy 3 TRANSFORMING BATTERY CONNECTIONS 3 1 How to transform BOX with centralized batteries into an I O BOX with distributed batteries 400 kW 1 REMOVE THE COPPER BARS CONNECTED TO THE BATTERY SWITCH QS9 STANDARD CONFIGURATION 2 DISCONNECT THE CABLES FROM THE AUXILIARY CONTACT ON THE BATTERY SWITCH 59 591 593 3 CONNECT A JUMPER BETWEEN PINS 9 AND 10 OF CONNECTOR X1 ON BOARD AP80 4 REMOVE THE BATTERY SWITCH Q
55. ar using two M6x12 Phillips cross head screws all contained in the K1L kit to the r h rear upright of the 200 kW MODULE 1 LEFT in holes 10 and 11 starting from the highest hole see Fig 33 on page 48 T 2 JI a E Power line input Ag V i Popa p ss phase copper bars WT 1 Bypass input phase gt 01184 copper bars 1 ign d ry WT Icha am Neutral NE E copper bar P gt 6 4 zr er m ane a P va Tu a Output phase p vs E copper bars T 5 TE rh zm EUN TIE T UA s di 4 sa a I copper bars i8 4 a 2 Figure 33 Check for the presence of threaded holes on the upper r h crosspiece of the 200 kW MODULE 1 LEFT These threaded holes are needed by the screws used to secure the 200 kW MODULE 15 LEFT 200 kW MODULE 2ND LEFT block to the I O BOX The holes which must be threaded starting from the first front hole of the outside upright are as follows hole 5 hole 13 hole 21 hole 29 see Fig 20 on page 36 12 Installing the rear connection bars of phases U V W U1 V1 W1 U2 V2 W2 and neutral N A total of 3 copper bars coupled as follows must be secured to each copper bar located on the back
56. ded in the appropriate battery manufacturers manuals The battery safety information contained in this section consists of key considerations which must be taken into account when designing the installation and may affect its outcome depending on local conditions Warning Special care should be taken when working with the batteries associated with the TRINGERGY When all the batteries are connected together the total voltage exceeds 500V It is very important to make sure that the batteries are separately installed ina specially designed lockable dedicated battery cabinet or battery room Warning In the event of malfunction the battery shelves and or cabinet or battery holders may become live Notice The requirements of EC directives are met when battery compartments with Original accessories are used If other batteries are used make sure that the applicable EC directives are met and that conformance is declared The UPS must still be parameterized with the service software and equipped with an all pole disconnecting device and fuses as per table 5 Conductor cross sections of standard UPS on page 103 When dimensioning the battery cables note the connection tolerances at terminals Warning MAKE SURE THE POLARITY IS CORRECT Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Notice l The most common battery type used in UPS installations is the
57. e If the UPS supplies predominantly non linear loads the cross section of the PEN conductor must be oversized by a factor of 1 5 Notice To avoid electrical interference power cables primary input bypass input battery output load cables should be routed separately communication and data lines should be routed using proper conduits and kept separate from all power cables Notice The cross section of the ground cables indicated in Table 5 on page 103 and Table 6 on page 104 is approximate only It must be selected in accordance with national and local rules and coordinated with protection devices installed ahead of the UPS Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 12 External protection devices This device is equipped with manual switches intended only for Service Bypass and Internal Service operations It is therefore essential that the customer install external protection devices at the installation site These must be installed near the unit and labelled as the line power separation device for the UPS see IEC EN 62040 1 Warning N The following label must be displayed on all switching devices installed in the same electrical system as the UPS even when they are located far from the area where the system is located according to European standard IEC EN 62040 1 MAKE SURE THE UNINTERRUPTIBLE POWER SYSTEM IS ISOLATED BEFORE WORKING ON THIS CIRCUIT
58. e 200 kW MODULE 1 LEFT to the 200 kW MODULE 2ND LEFT see Fig 29 on page 45 Figure 29 Use the steel plate top coupling sheet metal and fourteen M6x12 2M cross head screws contained in the K2L kit to secure the upper part of the 200 kW MODULE 1 LEFT to the 200 kW MODULE 2ND LEFT see Fig 30 page 45 Figure 30 Installation Manual 10H521941M10 rev 2 03 2013 Page 45 Chloride Trinergy Preparation For INSTALLATION Use the vertical guard in Lexan rear coupling kit with the rectangular recess facing downwards 2 plates and four M6x12 Phillips cross head screws contained in the K2L kit to secure further the rear of the 200 kW MODULE 1 LEFT with the 200 kw MODULE 2 0 LEFT see Fig 31 on page 46 11t hole from the top A a a bye i eat wie m AES EE 25th hole from the bottom Figure 31 6 Open the K1L coupling kit Page 46 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy un the Lexan corner quard to protect the corner from contact with the distribution bars The rectangular recess must face downwards see Fig 32 on page 47 Use two M6x12 Phillips cross head screws contained together with the Lexan guard in the kit 11 hole from the top 25th hole from If the bottom
59. e Trinergy Preparation For INSTALLATION Mount the secondary access panel see Fig 73 on page 84 then replace the handles that were removed before see Fig 74 on page 84 Figure 3 Figure 4 Page 84 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 11 Assembly procedure for the side panels on the 200kW MODULE Mount the left side panel FRONT VIEW that was removed from the I O BOX on the 200kW MODULE following the instruction below 1 Remove the M5 nuts washers included Installation Manual 10H521941M10 rev 2 03 2013 Page 85 Chloride Trinergy Preparation For INSTALLATION 2 Move one of the supports on the opposite side then secure both the supports using M5 nuts washers included that was previously removed i ell No La FH z Page 86 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 3 Secure the left side panel FRONT VIEW using 12 M6x12 Phillips cross head screws gy fu n n 2 n n 2 n n n 2 n n r b E io oy D 5 2 15 P 7 D 5 7 15 Y e 7 D 5 7 15 Y dk 4 Use painted snap plugs on external panels Installation Manual 10H521941M10 rev 2 03 2013 Page 87 Chloride Trinergy Preparation For INSTALLATION Mount the right side panel FRONT VIEW that was removed f
60. e para 2 15 on page 112 Mains Supply Bypass Mains Supply External 2 External Protection Protection 7 Protection Disconnector Battery External Protection DEAE External Protection To loads Figure 90 EXTERNAL PROTECTION DEVICES Installation Manual 10 521941 10 2 03 2013 Page 105 Chloride Trinergy Preparation For INSTALLATION 2 14 Physical appearance Legend OS INPUT LINE POWER SWITCH QS2 BYPASS LINE POWER SWITCH QS3 MAINTENANCE BYPASS SWITCH QS4 OUTPUT SWITCH QS9 BATTERY SWITCH AIR FLOW Qs battery input Connectivity panel Figure 91 Chloride Trinergy 200 kW FRONT VIEW Page 106 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION AIR FLOW 05 battery 5 b b 9 2 b a 9 b a 5 b a b a 5 2 5 2 b a3 e p a 5 off 675 450 Connectivity panel Chloride Trinergy AIR FLOW Qs battery input 675 Figure 92 Chloride Trinergy 400 kW FRONT VIEW Installation Manual 10H521941M10 rev 2 03 2013 9 1 p 99 5 7 5 o 5 5 5 4 9 S 5 G 5 S S 5 9 5 5 U 5 9 9 lt 9 e
61. e the two M12x30 hexagonal bolts complete with washers and nuts contained in the K2R kit to secure in the lower part of the cabinets the frame of the 200 kW MODULE 1 RIGHT to the 200 kW MODULE 2ND RIGHT see Fig 29 on page 45 Use the steel plate and fourteen M6x12 Phillips cross head screws contained in the kit to secure the upper part of the 200 kW MODULE 1 RIGHT with the 200 kW MODULE 2ND Fig 30 on page 45 Use the vertical quard in Lexan keeping the rectangular recess facing downwards 2 plates and four M6x12 Phillips cross head screws contained in the K2R kit to secure further the rear of the 200 kW MODULE 1 RIGHT with the 200 kW MODULE 2ND RIGHT see Fig 31 on page DT Use four M4x60 hexagonal bolts complete with washers and nuts contained in the K3L kit to secure the side upright of the 200 kW MODULE 1 RIGHT to the side upright of the 200 kW MODULE 2ND RIGHT Then use four M4x60 hexagonal bolts complete with washers and nuts contained in the K3L kit to secure the side upright of the 200 kW MODULE 2ND RIGHT to the side upright of the 200 kW MODULE 3RD RIGHT see Fig 45 on page 58 6 Open the K1R coupling kit Installation Manual 10H521941M10 rev 2 03 2013 Page 65 Chloride Trinergy Preparation For INSTALLATION 7 Install the Lexan poly carbonate to protect the l h rear upright of the 200 kW MODULE 1 RIGHT while keeping the rectangular rece
62. ed with the following interfaces XS3 Slot for Connectivity Products X3 will be switched to 53 to parameterize Connectivity Products XS6 Slot for LIFE net modem Serial Interface for Service xe Serial Interface for external LIFE net XT1 2 4 pole screw connector Pin 1 and 2 to monitor the external battery disconnector X9 RJ 45 Ethernet Interface for Service and Placement into service only Mr 4 pole screw connector for EPO Input XT4 not used TB1 2x16 pole screw connectors for input and output contacts X19A B 2x15 pole connectors for parallel UPS connection X20 RJ 45 Interface for synchronization with external signal XT3 2 pole screw connector 1 2 pin EPO Output XT1 2 pole Battery Area Temperature sensor input XT2 2 pole screw connector for Backfeed output contact x X19 A xm XT xs3 xs6 gt o L air 2 XT1 2 X9 XT3 8 19 XT2 Figure 113 I O BOX 400 1200 kW Connectivity panel CONNECTOR TERMINAL IDENTIFICATION X3 SUB D 9 pin female X6 SUB D 9 pin male Po 40 20 o le e e X19A SUB D 15 pin female X19B SUB D 15 pin male 50 40 20 lo 5e 5 14 139 RONDO Vo 90 1 2 XT3 8 screw connector 4 pole XT1 XT2 screw connector 2 uopper row INPUT CONTACT lower row OUTPUT CONTACT Installation Manual 10H521941M10
63. ent is limited by the ITSM thyristor ratings For further details contact supplier Emerson Network Power Service General conditions of technical data table The data shown are approximate and refer to an ambient temperature of 25 C and nominal input and output conditions unless otherwise specified Not all data shown apply simultaneously Data apply to the standard version unless otherwise specified For test conditions and measurement tolerances not specified in the table see the Witness Test Report procedure Notice Read and heed the information provided on the device labels Installation Manual 10H521941M10 rev 2 03 2013 Page 149 Chloride Trinergy Technical data UPS devices Page 150 Installation Manual 10H521941M10 rev 2 03 2013 Ensuring The High Availability Of Mission Critical Data And Applications Locations Emerson Network Power EMEA Via Leonardo Da Vinci 16 18 Zona Industriale Tognana 35028 Piove di Sacco PD Italy Tel 39 049 9719 111 Fax 39 049 5841 257 marketing emea emersonnetworkpower com Chloride World Headquarters Via Fornace 30 40023 Castel Guelfo BO Italy Tel 39 0542 632 111 Fax 39 0542 632 120 enquiries chloride emerson com United States 1050 Dearborn Drive P O Box 29186 Columbus OH 43229 Tel 1 614 8880246 Asia 7 F Dah Sing Financial Centre 108 Gloucester Road Wanchai Hong Kong Tel 852 2572220 Fax 852 28029250 Emerson Net
64. esence of foreign materials the vicinity of UPS SqUIDNYSRUIistallaliollS u uu yuana wamaqa 6 2 PREPARATION FOR INSTALLATION 9 2 Nez MANS OL 9 2 2 Delivery aNd s or age unusapa 9 2 3 Unpacking and unloading the cabinets from the pallet 9 2A ENVIFOMMMENCAl CON GILI ONS a den eoru 9 2 AN 10 2 5 Access to service area cooling system 10 246 installation did TOOL DIMMING ences estos a xe 11 2 4 Astalan IS EEHIC LIONS u uu 23 2 7 T Possible cConHgutdtloris 23 TUTTI 26 2 7 9 ASS HIDIV DEOCEGUES saa E Sii vids 32 2 7 3 1 Assembly procedure for the 200 kW MODULE 1ST LEFT 33 2 7 3 2 Assembly procedure for the 200 kW MODULE 1ST RIGHT 38 2 7 3 3 Assembly procedure for TWO 200 kW MODULES LEF1 42 2 7 3 4 Assembly procedure for the TWO 200 kW MODULES RIGHT 51 2 7 3 5 Assembly procedure for the THREE 200 kW M
65. ews see Fig 19 on page 35 10t hole from the top copper ground bar Power line input phase copper bars Bypass input phase copper bars 11 hole from the top Neutral copper bar Output phase copper bars Battery and copper bars Figure 19 8 Installing the copper phase bars see Fig 19 on page 35 Foreach phase connection use two copper phase spacer bars as de two spacers between the electrical connection in the module and the copper phase bar Secure the copper bar and the two spacers with two M6x25 counter sunk Allen screws complete with tapered toothed washers All material is contained in K1L Installation Manual 10H521941M10 rev 2 03 2013 Page 35 Chloride Trinergy Preparation For INSTALLATION 9 Installing the neutral copper bars see Fig 19 on page 35 Put the two neutral spacers between the neutral copper bar and the electrical connection in the module Secure the copper bar and the two spacers with two M6x25 counter sunk Allen screws complete with tapered toothed washers All material is contained in K1L 10 Mounting the rear battery interconnection bars Mount the battery interconnecting bars in the first left hand 200 kW MODULE using 4 x M6x25 Allen screws complete with tapered toothed washers see Fig 19 on page 35 11 Check for the presence of threaded holes on the upper r h crosspiece of the 200kW MODULE 1 LEFT These threaded holes are needed for
66. ge 33 Chloride Trinergy Preparation For INSTALLATION het the Lexan corner guard to protect the corner from contact with the distribution bars The rectangular recess must face downwards see Fig 18 on page 34 Use two M6x12 Phillips cross head screws contained together with the Lexan protection panel in the kit 11 hole from the top 25th hole from the bottom Figure 18 5 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the ground bar on the 200 kW MODULE 1 LEFT and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 1 M LEFT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Spread grease on the contact area of the copper ground bar installed on the 200 kW MODULE 1 LEFT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 1 LEFT Page 34 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 6 Cleaning the connection bars Using smooth emery paper clean the contact areas of the connection bars and spacers and remove any rust Spread grease on the contact areas of the connection bars and spacers 7 Starting from the top install the COPPER GROUND BAR ground connection using two M6x12 Phillips cross head scr
67. h events If the UPS is left running operational at the completion of placement into service and testing the room similarly needs to be kept clean to prevent foreign bodies from entering the UPS module via its forced air flow Emerson Network Power will not accept liability or pay damages deriving from accidents caused by the introduction of conductive foreign bodies into the UPS module or associated auxiliary equipment components which occured before or after the unit is placed into service in its operating environment Installation Manual 10H521941M10 rev 2 03 2013 Page 7 Chloride Trinergy Introduction Page 8 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 PREPARATION FOR INSTALLATION 2 1 Transport The equipment must be kept upright at all times and handled with care Damage may be caused if it is dropped or subjected to severe impact When moving the equipment with a forklift secure it against tilting 2 2 Delivery and storage The goods have been checked thoroughly before shipment On receipt check the packaging and make sure the contents are undamaged Any damage or missing parts must be reported to the supplier within 8 days of delivery 2 3 Unpacking and unloading the cabinets from the pallet The utmost care must be taken when removing the packaging to prevent damage to the equipment Check all packaging materials to ensure that no important items are di
68. imary circuits 4 7 Connector for RPO input and output XT3 8 XT3 Connector for RPO input and output XT3 8 This 4 pole screw connector allows Switching off the UPS from a remote source e g push button Providing feedback to an external supervision system regarding the status of the UPS RPO active To perform a remote emergency power off it is necessary to connect an emergency stop button to the UPS via a shielded cable not exceeding 20m in length The switch must be CLOSED under normal operating conditions and be equipped with a mechanism that maintains the OPEN position after it has been pressed If this button is not installed a jumper lead must be connected between pins 1 and 2 For an indication of RPO status connect pin 3 and pin 4 to an external supervision system To ensure compliance of the wiring installation with European Harmonized Document HD384 4 46 S1 an Emergency Switching Device E S D must be installed after the UPS As soon asthe cause of the emergency which triggered the switch is removed switch off all UPS switches input output battery disconnector and all external battery switches and repeat the start up procedure in chap 4 UPS switching procedures User Manual Explanation 12 RPO INPUT CONTACT active when open XT3 8 ph RPO Status CONTACT Open when RPO is active The maximum cable section is 0 75 The Interface is SEIV isolated from UPS primary ci
69. ips cross head screws contained together with the Lexan guard in the K1R i E 11 hole from the top 25 hole from the bottom Figure 22 5 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the ground bar on the 200 kW MODULE 1 RIGHT and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 1 i RIGHT phases U V W U1 V1 U2 V2 W2 N and and remove any rust Page 38 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Spread grease on the contact area of the copper ground bar installed on the 200 kW MODULE 1 RIGHT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 1 RIGHT 6 Cleaning the connection bars Using smooth emery paper clean the contact areas of the connection bars and spacers and remove any rust Spread grease on the contact areas of the connection bars and spacers 7 Starting from the top install the COPPER GROUND BAR ground connection using two M6x12 Phillips cross head screws see Fig 23 on page 39 10 hole from the top 11t hole from the top copper ground bar _ Power line input phase copper bars Bypass input phase copper bars Neutral copper bar Output pha
70. lenght of the cables 1 The maximum length of the battery cabinet temperature sensor cable is 50m 2 The maximum length of the cable used to connect the various systems in parallel is 25m 2 10 Electrical preparations Warning N For reasons of safety the secondary access panel MUST NOT BE REMOVED If for any reason it is necessary to remove this panel the entire installation must be switched off and de energized otherwise complete safety cannot be quaranteed The UPS is connected to 400 230 V three phase power lines DC voltages above 500 V are also found in the battery circuit Installation must only be carried out by qualified personnel in accordance with these operating instructions and both national and local electrical codes Since UPS devices create a large leakage current connect the device to ground prior to placement into service Improper connection can damage the device and lead to injuries and even death Warning N With regard to electromagnetic conformance the device was developed in accordance with product standard IEC EN 62040 2 The UPS must be protected against overvoltages on the line power supply in excess of those at which it was tested Over voltages in the power supply system may occur for several reasons including lightning strikes ON OFF switching of inductive or capacitive loads such as power transformers or capacitor banks and short circuit shutdowns Notice QS2 and QS4 are used for disconnecting
71. ly procedure IDENTIFICATION OF 200 kW MODULE 200 kw 200kw 200kw 200kw 200kW MQDULE MODULE MODULE MODULE MODULE 374 LEFT 1 LEFT 1 RIGHT 2 RIGHT 3 RIGHT Material provided for the technician to install the UPS Torque wrench setting Screw size Procedure for preparing the contact surfaces of the removable conductors Smooth emery paper Contact grease type Electrolube 2G CG52B or Gluesser GLEB 1 Vacuum cleaner Ladder Notice The Phillips cross head screws used in this installation thread the hole the first time they are inserted Once they have been removed they must be tightened correctly the next time they are inserted to avoid damaging the thread created previously For this reason we advise you to tighten them using a screwdriver or to replace them with metric pitch screws if available Page 32 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 1 Assembly procedure for the 200 kW MODULE 1 LEFT 1 Remove the 200 kW MODULE 1 LEFT from the pallet by removing the special mounting screws see Fig 17 on page 33 Figure 17 UNPACKING THE 200 kW MODULE 2 Remove the rear panel Fig 18 on page 34 from the 200kW MODULE 1 left 3 Open the K1L coupling kit Installation Manual 10H521941M10 rev 2 03 2013 Pa
72. m UPS primary circuits Warning This interface and its function are for authorized Emerson Network Power service technicians only Do not remove any connected cable from this interface or connect any cable to it Installation Manual 10H521941M10 rev 2 03 2013 Page 141 Chloride Trinergy connectivity panel 4 10 RJ 45 interface for synchronization with external signal X20 This Interface is used to communicate with an external synchronization device such as MBSM It can be used to synchronize the outputs of multiple UPS devices even when they do not supply a common output This enables an external static switching device e g CROSS to commutate between UPS outputs in the event of a malfunction without creating synchronization problems Warning N This interface and its function are for authorized Emerson Network Power service technicians only Do not remove any connected cable from this interface or connect any cable to it The Interface is SELV isolated from UPS primary circuits 4 11 Battery Area Temperature sensor input XT1 Explanation XT1 connector Figure 114 Connector for cable from external battery temperature sensor Input for battery area temperature sensor see Fig 114 on page 142 The interface is 2 pole screw terminal Phoenix 1 5 2 STF that accepts wires up to 0 75mm Page 142 Installation Manual 10H521941M10 rev 2 03 2013 connectivity panel Chloride Trinergy
73. n case of output short circuit see Static bypass on page 149 for thyristor 1 ratings To allow for component tolerances the external protection device 1 rating should not exceed 80 of the thyristor lt rating 3 Pre arc l t rating must be higher than that of the Inverter fuse already installed inside the UPS see Static bypass on page 149 for pre arc l t ratings so that the Inverter fuse will blow in case of an overcurrent caused by an internal failure In this case the load is supplied by the Bypass To allow for component tolerances the external protection device pre arc lt rating should be at least 20 higher than that of the Inverter fuse 2 12 4 Battery input These should be capable of protecting the battery against short circuits and should take into account the maximum current drain during discharge at 1 65V per cell see Table 5 on page 103 These devices should be installed as close as possible to the battery Page 102 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 12 5 UPS Output line Since load s can be supplied through the Uninterruptible Power System from two sources the ratings of the following supplies should be taken into account when designing the output line protection system Supply from inverter see Table 5 page 103 and para 6 4 on page 148 Supply from bypass static switch and maintenance bypass static switch see Table 5 on
74. n page 46 Use four M4x60 hexagonal bolts complete with washers and nuts contained in the K3R kit to secure the side uprights of the 200 kW MODULE see Fig 45 on page 58 12 Cleaning electrical connection contact areas Using smooth emery paper clean the contact area of the copper ground bar on the 200 kW MODULE 1 RIGHT and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 3RD RIGHT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 2ND RIGHT phases U U1 V1 W1 U2 V2 W2 N and and remove any rust Using smooth emery paper clean the contact area of the copper bars located on the back of the 200 kW MODULE 1 a RIGHT phases U V W U1 V1 W1 U2 V2 W2 N and and remove any rust Spread grease on the contact area of the copper ground bar installed on the 200 kW MODULE 1 RIGHT e Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 3RD RIGHT Spread grease on the contact area of the copper bars located on the back of the 200 KW MODULE 2ND RIGHT Spread grease on the contact area of the copper bars located on the back of the 200 kW MODULE 1 RIGHT
75. n page 76 Fig 64 on page 77 and Fig 65 on page 78 Remove the screws to remove the sheet metal Remove the screws only with 200kW MODULE on the RIGHT to remove the sheet metal only with 200kW MODUE on the LEFT Figure 63 I O BOX FRONT VIEW WITHOUT PAINTED PANELS Page 76 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION 13 I F car rum HI n Figure 64 I O BOX SIDE VIEW Installation Manual 10H521941M10 rev 2 03 2013 Chloride Trinergy These screws must only be loosened only with 200kW MODULE on the LEFT Page Chloride Trinergy Preparation For INSTALLATION These screws must only be loosened only with 200kW MODULE on the RIGHT IL a Hs Figure 65 I O BOX SIDE VIEW Attention these sheet metal parts will be reinstalled later Page 78 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 8 Procedure to join the 200 kW MODULE LEFT with the I O BOX 1 Position the I O BOX in the final installation area 2 Position the 200 kW MODULE 1 LEFT near the box If the 200 kW MODULES were not removed from the pallets eliminate the pallets by removing the respective mounting screws see Fig 17 on page 33 3 Mechanically secure the I O BOX to the 200 kW MODULE 1 LEFT Secure the up
76. ng to the number of 200 kW MODULES installed The following table lists the tightening torque for the hex head terminal connection screws supplied with the UPS Installation Manual 10 521941 10 2 03 2013 Page 103 Chloride Trinergy Preparation For INSTALLATION Table 6 Screw size I O BOX devices nominal power kW Primary Power line Bypass Power line Load Battery external Battery external 12 35 12 40 Neutral from line power to load 2 Ground 00 Table 7 Tightening torque Page 104 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 13 Backfeed protection To prevent electric shock hazards caused by backfeed through the electronic static switch an external disconnector must be installed in conformance with Product Standard IEC EN 62040 1 The UPS generates a logic command at XT2 see Fig 113 on page 137 to ensure that the disconnector operates correctly In case of single line feeder the disconnector must be installed ahead of the UPS primary and bypass inputs When this disconnector is activated the UPS switches to Battery Mode The PE and N terminals must be connected in accordance with the requirements of the local line power distribution system TN C TN S TN C S IT etc Forinstance in TN C installations the PEN conductor from the supply transformer must be connected to the UPS PE and N terminals se
77. of the 200 kW MODULE 1 copper spacer bar 1 copper bar secured to the 200 kW MODULE 1 LEFT and to the 200 kW MODULE 2ND LEFT 1 copper bar secured only to the 200 kW MODULE 1 LEFT Everything must be secured using twenty M6x25 countersunk Allen screws complete with tapered toothed washers contained in the K2L kit see Fig 33 on page 48 Page 48 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 13 Installing the battery connection rear bars Install the copper battery connection bars the 200 kW MODULE 1 LEFT using four M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K1L kit see Fig 34 on page 49 Figure 34 Install the insulation component above the battery copper connection bar and secure it to the Lexan guard using a nylon rivet B see Fig 35 on page 49 which is contained in the K2L B Fiqure 35 Installation Manual 10H521941M10 rev 2 03 2013 Page 49 Chloride Trinergy Preparation For INSTALLATION Install the copper battery connection bars on the 200 kW MODULE 2ND LEFT using four M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K2L kit see Fig 36 on page 50 gt e a m Pa 2 14 Remove from the back of the 200 kW MODULE 2ND LEFT the nylon rivet
78. ole 13 hole 21 hole 29 see Fig 20 on page 36 9 Open the K3L coupling kit Page 60 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 10 Bring together and align the 200 kW MODULE 3RD LEFT with the 200 kW MODULE 1 LEFT 200 kW MODULE 2ND LEFT block see Fig 48 on page 61 If the 200 kW MODULES were not removed from the pallets for the reasons stated above in order to move them together it is necessary to remove the extensions from the pallets and adjust the respective heights using the screws provided see Fig 26 on page 42 and Fig 27 on page 43 Figure 48 11 Mechanically secure the 200 kW MODULE 3RD LEFT to the 200 kW MODULE 1 LEFT 200 kW MODULE 2ND LEFT block Use the two M1 2x30 hexagonal bolts complete with washers and nuts contained in the K3L kit to secure in the lower part of the cabinets the frame of the 200 kW MODULE 1 LEFT to the 200 KW MODULE 2ND LEFT 200 kW MODULE 1 LEFT block see Fig 29 on page 45 Use the steel plate and fourteen M6x12 Phillips cross head screws contained in the K3L kit to secure the upper part of the 200 kW MODULE 3RD LEFT with the 200 kW MODULE 2ND LEFT 200 KW MODULE 1 LEFT block see Fig 30 on page 45 Use the vertical quard in Lexan keeping the rectangular recess facing downwards 2 plates and four M6x12 Phillips cross head screws contained in the K
79. on the gland plate Connect the ground cable PE First connect the ground cable PE to the UPS ground connection Connect the three line power input phases to U V W and connect input Neutral to bar Connectthe three line power input phases to U1 V1 W1 and connect input Neutral to bar N Connect the three line power input phases to U2 V2 W2 and connect input Neutral to ar N Connect the battery cables to C D Notice Make sure that the line power and load conductors are connected to the UPS as a clockWise right hand 3 phase system Notice 1 For TN C distribution system connect an insulated jumper between UPS ground andthe UPS Neutral connector See local Standards and regulations for the correct jumper cross section Connect line power supply cable PEN to the UPS Neutral connector Page 112 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION 2 15 1 Power connections Chloride Trinergy The power connections see Fig 97 on page 113 and Fig 104 on page 120 on the front of the UPS are U V W LINE POWER INPUT U1 VI BYPASS LINE POWER SUPPLY only at the standard UPS type N NEUTRAL BAR PEN N CONNECTION POINT FOR PRIMARY LINE POWER BYPASS LINE POWER AND OUTPUT LOAD NEUTRALS U2 V2 W2 UPS OUTPUT TO LOAD D C BATTERY TERMINALS e GROUND Line power input Bypass UPS
80. ous functions The Interface is SEIV isolated from UPS primary circuits Bypass Active Warning N The maximum rating of the Output contacts must not exceed 24 Volts and 1 A Page 140 Installation Manual 10H521941M10 rev 2 03 2013 connectivity panel Chloride Trinergy Input Contacts upper connector PIN1 left Input 1 24 VDC OUT Selectable PIN2 Input 1 24 VDC signal PIN3 Input 2 24 VDC OUT Selectable PIN4 Input 2 24 VDC signal PIN5 Input 3 24 VDC OUT Selectable PIN6 Input 3 24 VDC signal Input 4 24 VDC OUT Selectable PIN8 Input 4 24 VDC signal The maximum cable section is 0 75mm2 and the signal must interference suppressed All Input contacts can be programmed using Service software The Interface is SELV isolated from UPS primary circuits Warning N To drive the inputs use no voltage contacts Do not use voltages supplied by an external power supply The Interface is SEIV isolated from UPS primary circuits Warning N This interface and its function are for use by authorized Emerson Network Power service technicians only Do not remove any connected cable or connect any cable to this interface 4 9 SUB D connector for parallel UPS connection X19A X19B This interface is used for paralleling 2 or more UPS units with each other It enables data exchange between UPS electronics so that the UPS can provide a common output The Interface is SEIV isolated fro
81. page 42 and Fig 27 on page 43 Em Figure 38 Installation Manual 10H521941M10 rev 2 03 2013 Page 51 Chloride Trinergy Preparation For INSTALLATION 5 Mechanically secure together the 200 kW MODULE 1 RIGHT and the 200 kW MODULE 2ND RIGHT Use the two M12x30 hexagonal bolts complete with washers and nuts contained in the K2R kit to secure in the lower part of the cabinets the frame of the 200 kW MODULE 1 RIGHT to the 200 kW MODULE 2ND RIGHT see Fig 29 on page 45 Use the steel plate and fourteen M6x12 Phillips cross head screws contained in the K2L kit to secure the upper part of the 200 kW MODULE 1 RIGHT to the 200 kW MODULE 2ND RIGHT Fig 30 on 45 Use the vertical guard Lexan keeping the rectangular recess facing downwards 2 plates and four M6x12 Phillips cross head screws contained in the K2R kit to secure further the rear of the 200 kW MODULE 1 RIGHT with the 200 KW MODULE 2ND RIGHT see Fig 31 on page 46 6 Open the K1R coupling kit the Lexan corner guard to protect the corner from contact with the distribution bars The rectangular recess must face downwards see Fig 39 on page 52 use two M6x12 Phillips cross head screws contained together with the Lexan guard in the K1R 11t hole from the top 25 hole from the bottom Figure 39 Page 52 Installation Manual 10H521941M10 rev 2 03
82. per connection bar and secure it to the Lexan guard using a nylon rivet see Fig 35 on page 49 which is contained in the K2L kit Install the copper battery connection bars on the 200 kW MODULE 2ND LEFT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K2L kit see Fig 36 on page 50 Page 62 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Install the insulation component above the battery copper connection bar and secure it to the Lexan guard using a nylon rivet see Fig 49 on page 63 which is contained in the K3L kit Figure 49 Install the copper battery connection bars on the 200 kW MODULE 3RD LEFT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K3L kit see Fig 50 on page 63 Figure 50 Installation Manual 10H521941M10 rev 2 03 2013 Page 63 Chloride Trinergy Preparation For INSTALLATION 16 Remove from the back of the 200 kW MODULE 2ND LEFT the nylon rivet A column to the left of the copper connection bars Install the Lexan panel FRONT VIEW to protect the bars Use eight M6x12 Phillips cross head screws and 4 plates two M6x12 Phillips cross head screws on the upright of the 200 kW MODULE 1 LEFT and the new nylon rivets A contained in the kit see Fig
83. per r h part of the 200 kW MODULE 1 gt LEFT with the upper I h part of the I O BOX using the four M6x16 hexagonal bolts complete with wide and split washers included in the kit see Fig 66 on page 79 Figure 66 Secure the lower r h part of the 200 kW MODULE 1 LEFT with the lower I h part of the I O BOX using two M12x30 theo bolts complete with flat and split washers included in the kit K1L one at the front and one at the back see Fig 67 on page 79 1 in 1 TN Figure 6 Installation Manual 10H521941M10 rev 2 03 2013 Page 79 Chloride Trinergy Preparation For INSTALLATION 4 Secure the copper connection bars to the distribution bars on the back of the I O BOX Secure the copper phase bars to the left of the I O BOX using the eighteen M6x25 hexagonal bolts removed earlier see Fig 68 on page 80 Secure the copper neutral bar to the left of the 1 0 BOX using two M8x25 hexagonal bolts removed earlier see Fig 68 on page 80 Secure the copper ground bar and the copper battery bars to the left of the 1 0 BOX using six M8x20 hexagonal bolts removed earlier see Fig 68 on page 80 TA Rm d e Figure 68 Properly tighten all the screws listed above 5 Make the connections between the parallel cables and the RJ45 see Interconnecting the communication cables on page 97 6 Install the kick plate
84. r INSTALLATION 59 joel jee E spas Sogol pes Chloride Trinergy Line power input Neutral bar Battery terminal Figure 103 POWER CONNECTIONS FRONT VIEW 1200 kW I O BOX Installation Manual 10H521941M10 rev 2 03 2013 Page 119 Chloride Trinergy Preparation For INSTALLATION ki Ne Ld dr m 9 9 3 Sli T zum EL oe 1474 ic 1191 981 841 297 5 E 244 FE H TB ad Figure 104 POWER CONNECTIONS SIDE VIEW 1200 kW I O BOX Page 120 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 1 i j vp gt k n BE Led wo TE EB Figure 105 1200 kW I O BOX FRONT VIEW CLEARANCE BETWEEN POWER CONNECTION BARS Installation Manual 10H521941M10 rev 2 03 2013 Page 121 Chloride Trinergy Preparation For INSTALLATION 2 16 Connecting the batteries The UPS is equipped with a separating device for the DC battery power connection gt Page 122 Before connecting the batteries please read the notice and warning label on the UPS or battery compartment Notice Full safety instructions on the use and maintenance of UPS batteries are provi
85. rcuits Warning N The RPO connected to XT3 must not exceed e 24 VDC 1A 160VAC 3A Warning N XT3 are voltage free contacts that are fully isolated from the UPS primary circuits If a voltage higher than 40 V is applied to control an external disconnection device XT3 can no longer be considered safe Warning N The external push button must be voltage free and isolated from all sources and GND The external RPO supervisor Input must not exceed 24 Volts and 20mA Installation Manual 10H521941M10 rev 2 03 2013 Page 139 Chloride Trinergy connectivity panel 4 8 Customizable output input contact TB1 This 2x16 pole screw connector permits connection of 6 individual configurable output contacts Each contact is rated for 24 VDC at 1 A The max potential difference between the pins must not exceed 24 VDC Output Contacts lower connector PIN1 left Normally closed 2 Normally open PIN3 Normally closed PIN4 Normally open 5 Normally closed Low Battery 6 Normalyopen Normalyopen PIN7 Normally closed Fail PIN8 Normally open PINS Common to PIN1 PIN8 11 Normally closed Selectable 12 Normally open PIN13 Common to PIN11 PIN12 PIN14 Normally closed PINTS Normally open 16 Common to PIN14 PIN15 maximum cable section is 0 75mm e These contacts can be customized by qualified technicians only to perform vari
86. roducts serial input output X6 The service Interface is a SUB D 9 pin male connector for RS232 serial communication It is used for communications with external LIFE net modem e g GSM modem or other special Emerson Network Power applications The Interface is SELV isolated from UPS primary circuits 4 5 Connector for external battery disconnector XT1 2 This 4 pole screw connector can be used to connect an external battery breaker status switch Its purpose is surveillance of an external battery cabinet If the external battery breaker is not equipped with a device for indicating its status PIN1 and PIN2 must be connected together PIN Explanation PIN 1 2 right Battery Switch Input Contact Closed when battery is connected maximum cable section is 0 75mm e The Interface is SEIV isolated from UPS primary circuits Warning AN The external battery breaker status switch must be voltage free and isolated from all sources and GND Page 138 Installation Manual 10H521941M10 rev 2 03 2013 connectivity panel Chloride Trinergy 4 6 Ethernet RJ 45 Interface for Service and Commissioning X9 This interface is a 10 100 MBit auto negotiation full half duplex Ethernet Interface for LAN communication with Emerson Network Power service software This allows the setup and implementation of UPS parameters such as Battery detail and performance of the UPS The Interface is SELV isolated from UPS pr
87. rom the I O BOX on the 200kW MODULE following the instruction below 1 Remove the M5 nuts washers included Page 88 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 Move one of the supports on the opposite side then secure both the supports using M5 nuts washers included that was previously removed ep ET EI ae e ey w x Installation Manual 10H521941M10 rev 2 03 2013 Page 89 Chloride Trinergy Preparation For INSTALLATION 3 Secure the right side panel FRONT VIEW using 12 M6x12 Phillips cross head screws 4 Use painted snap plugs on the kick plates Page 90 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 7 3 12 Assembly procedure for kick plate 200 kW MODULE 1 rss the sheet metal section to the left rear support FRONT VIEW using a M6x12 Phillips cross head screw see Fig 75 on page 91 Figure 5 the sheet metal section to the left front support FRONT VIEW using a M6x12 Phillips cross head screw see Fig 76 on page 91 Figure 76 Installation Manual 10H52194IM10 rev 2 03 2013 Page 91 Chloride Trinergy Preparation For INSTALLATION 3 Secure the left kick plate FRONT VIEW using 2x M6x12 Phillips cross head screws see Fig 77 on page 92 Figure 77 o the sheet metal
88. roperty and personnel including the possibility of a fatality each site s facility manager or construction manager must prevent foreign bodies from being introduced into the UPS module and associated auxiliary equipment components All UPS modules and associated auxiliary equipment components are thoroughly inspected by Emerson Network Power engineers prior to placement into service and testing on site When conductive foreign bodies are identified our engineers are instructed to interrupt all work until the equipment and the area have been thoroughly cleaned of any contaminants However the person responsible for the site must ensure that the UPS module and associated auxiliary equipment components and the immediate surroundings are kept clean and free from any possible conductive material such as metal foil food wraps cable shields washers and other hardware scrap metal swarf and dust Installation Manual 10H521941M10 rev 2 03 2013 Introduction Chloride Trinergy If the UPS system is shut down after placement into service amp testing are completed the UPS room must be kept clean to avoid the possibility during restart of the considerable volume of air flow produced by UPS operation to dislodge and or drag any foreign bodies into the equipment which would result in system failure and possible supply interruption to the critical site load and several hours of downtime resulting from the damage typically associated with suc
89. ry and bypass inputs supply senses the total earth leakage current due to the presence of RFI filters on the UPS and the leakage on the loads connected to the UPS To avoid spurious operation the following must be taken into consideration when selecting differential protection devices for installation on input lines 1 Nominal earth leakage value total UPS leakage current load leakage current In nominal conditions the typical UPS earth leakage current exceeds 3A N B According to the product standard see IEC EN 62040 1 the maximum UPS earth leakage current must not exceed 5 of the nominal input current 2 The device must be equipped with delayed operation greater than 300 mS 3 The type of differential switch used must conform to product regulation IEC EN 62040 1 Installation Manual 10H521941M10 rev 2 03 2013 Page 101 Chloride Trinergy Preparation For INSTALLATION 2 12 2 Primary line power input These should be capable of protecting the primary AC line power supply ahead of the UPS It should be able to handle the maximum input current of the UPS see Table 5 on page 103 and to interrupt the circuit at its maximum current level during a short circuit 2 12 3 Bypass line power input Bypass line power input protection devices must have the following characteristics 1 Maximum current rated in accordance with the values in Table 5 on page 103 2 12 rating lower than the thyristor rating in order to protect it i
90. scarded The cabinets are bolted to the wooden pallet To remove the pallet and place the cabinets in the final installation position and perform the following procedure Warning N See weight of cabinets in Installation and footprint on page 11 If unpacking and unloading instructions are not closely followed the cabinets could cause serious injury Warning N Do not tilt cabinets more than 10 from vertical Lift the cabinets only with a forklift or damage may occur If you do not plan to use the UPS within seven days of delivery be sure to store it under the proper conditions f the batteries or the equipment to be stored they must be kept in a clean dry environment and away from extremes of temperatures and free from corrosion see Packing materials must be disposed of in accordance with the applicable laws in the country where the UPS is installed 2 4 Environmental conditions The UPS must be installed vertically on a level and even surface and in an area protected from extremes of temperature water and humidity Do not stack the units or place objects on top of them The operating temperature range of the UPS is 0 C 40 C see para 6 1 on page 147 for further information The ideal environmental temperature range is 15 C to 25 C The battery life is specified for 20 C Each increment of 10 C above 25 C reduces the expected life by 50 Installation Manual 10H521941M10 rev 2 03 201
91. se copper bars Battery and copper bars Figure 23 8 Installing the copper phase bars see Fig 23 on page 39 For each phase connection use two copper phase spacer bars rs two spacers between the electrical connection the module and the copper phase bar Secure the copper bar the two spacers with two M6x25 counter sunk Allen screws complete with tapered toothed washers All material is contained in K1R 9 Installing the neutral copper bars see Fig 23 on page 39 e Put the two neutral spacers between the neutral copper bar and the electrical connection in the module Installation Manual 10H521941M10 rev 2 03 2013 Page 39 Chloride Trinergy Preparation For INSTALLATION Secure the copper bar and the two spacers with two M6x25 counter sunk Allen screws complete with tapered toothed washers All material is contained in K1R 10 Mounting the rear battery interconnection bars Mount the battery interconnecting bars in the first right hand 200 kW MODULE using 4 x M6x25 counter sunk Allen screws complete with tapered toothed washers see Fig 23 on page 39 11 Check for the presence of threaded holes on the upper l h crosspiece of the 200kW MODULE 1 RIGHT These threaded holes are needed for the screws used to secure the 200 kW MODULE 1 RIGHT to the O BOX The holes which must be threaded starting from the first front hole of the outside upright are as follows hole 5 hole 13
92. section to the right rear support FRONT VIEW using a M6x12 Phillips cross head screw see Fig 78 on page 92 Figure 78 Page 92 Installation Manual 10 521941 10 2 03 2013 Preparation For INSTALLATION Chloride Trinergy D the sheet metal section to the right front support FRONT VIEW using a M6x12 Phillips cross head screw see Fig 79 on page 93 Figure 9 6 Secure the right kick plate FRONT VIEW using 2x M6x12 Phillips cross head screws see Fig 80 on page 93 IU Vi I Figure 80 Installation Manual 10H521941M10 rev 2 03 2013 Page 93 Chloride Trinergy Preparation For INSTALLATION 7 Secure the front kick plate FRONT VIEW using 2x M6x12 Phillips cross head screws see Fig 81 on page 94 Figure 81 8 Secure the rear kick plate FRONT VIEW using 2x M6x12 Phillips cross head screws see Fig 82 on page 94 Figure 82 9 Use painted snap plugs on the kick plates Page 94 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy I O BOX 1 Secure the left kick plate FRONT VIEW using two M6x12 Phillips cross head screws see Fig 83 on page 95 Figure 83 2 Secure the right kick plate FRONT VIEW using two M6x12 Phillips cross head screws see Fig 84 on page 95 Figure 84 Installation Manual 10H521941M10 rev 2 03 2013 Page 95 Chloride Trinergy Preparation For INS
93. ss facing downwards using two M6x12 Phillips cross head screws all contained in the kit see Fig 52 on page 66 11th hole from the top 25 hole from the bottom Figure 52 Page 66 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 8 Install the copper ground bar using two M6x12 Phillips cross head screws all contained in the kit to the I h rear upright of the 200 kW MODULE 1 RIGHT in holes 10 and 11 starting from the highest hole see Fig 53 on page 67 LAT fro the top copper Ve Mc we Power line input Vett W 44 hase copper bars i J a Bypass input dee V phase copper bars rd 4 1 lt Neutral 41 Pg copper bar E ki V2 a Output phase 14 a o l w2 A copper bars Battery 7 H1 5 I Figure 53 Check for the presence of threaded holes on the upper h crosspiece of the 200 kW MODULE 1 RIGHT These threaded holes are needed by the screws used to secure the 200 kW MODULE 151 RIGHT 200 kW MODULE 2ND RIGHT block to the I O BOX The holes which must be threaded starting from the first front hole of the outside upright are as follows hole 5 hole 13 hole 21 hole 29 see Fig 20 on page 36 9 Open the K3R coupling kit 10 Bring together and align the 200 kW MODULE 3RD RIGHT with the 200 kW M
94. tained in the K2R kit see Fig 40 on page 53 13 Installing the battery connection rear bars Install the copper battery connection bars on the 200 kW MODULE 1 RIGHT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the kit see Fig 41 on page 54 Figure 41 Page 54 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Install the insulation component above the battery copper connection bar and secure it to the Lexan guard using a nylon rivet B see Fig 42 on page 55 which is contained in the K2R kit Figure 42 Install the copper battery connection bars on the 200 kW MODULE 2ND RIGHT using two M6x25 countersunk head Allen screws complete with tapered toothed washers which are contained in the K2R kit see Fig 43 on page 55 Figure 43 Installation Manual 10H521941M10 rev 2 03 2013 Page 55 Chloride Trinergy Preparation For INSTALLATION 14 Remove from the back of the 200 kW MODULE 2ND LEFT the nylon rivet A column to the left of the copper connection bars Install the Lexan panel FRONT VIEW to protect the bars Use four M6x12 Phillips cross head screws and 2 plates two M6x12 Phillips cross head screws on the upright of the 200 kW MODULE 1 RIGHT and the new nylon rivets A contained in the K2R kit see Fig 44 on page 56
95. ther remove the extensions from the pallets and adjust the respective heights using the screws provided see Fig 26 on page 42 and Fig 27 on page 43 1 Loosen this nut 2 Adjust the height using these nuts which are positioned at each corner of the 200 kW MODULE Figure 26 Page 42 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy Remove the pallet extension from the side that will be positioned next to the corresponding unit 1 Loosen this nut NET UND aL a a 6 n n e A UE af 1 a g a M 5 en oe ee a J rm gt Tia Po Eme n 4 E ri Z e ire E A 3 Remove pallet extension 2 Remove these screws from the front and the back Figure 27 Installation Manual 10H521941M10 rev 2 03 2013 Page 43 Chloride Trinergy Preparation For INSTALLATION Figure 28 Page 44 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 5 Mechanically secure together the 200 kW MODULE 1 LEFT and the 200 kW MODULE 2ND LEFT Use the two M12x30 hexagonal bolts complete with washers and nuts contained the K2L kit to secure in the lower part of the cabinets the frame of th
96. ts are not supplied They can be provided by the manufacturer upon special request A battery area temperature sensor is supplied as standard equipment and includes a connecting cable with length of 7 meters The battery area temperature sensor should be installed adjacent to the UPS see Fig 97 Fig 98 Fig 99 Fig 100 Fig 101 Fig 102 Fig 103 Fig 104 Fig 105 for the position of the battery input connections inside the UPS Make the ground connections Connect the battery area temperature sensor to connector XT1 the connectivity panel see Fig 113 on page 137 The wires that connect the temperature probe must be shielded and routed in dedicated conduits that are separate from the power cables Connect the two wires if installed that monitor the status of the external battery disconnector to XT1 2 in the connectivity panel see Fig 113 on page 137 These wires must be routed in a dedicated conduit that is separate the power cables To improve noise immunity use twisted pairs or shielded wires Warning N Before the system starts make sure that UPS battery connection polarity is correct Wrong connections can damage the system and endanger operator safety Figure 106 EXTERNAL BATTERY CONNECTIONS Page 124 Installation Manual 10H521941M10 rev 2 03 2013 Preparation For INSTALLATION Chloride Trinergy 2 18 Handling the batteries Warning N Batteries are a potential source of d
97. ty can be requested from Emerson Network Power 1 2 Symbols and pictograms The following symbols and pictograms are used in this handbook Warning N Indicates instructions which if not followed may result in danger to life safety the reliability of your device or data security Notice Indicates additional information and tips Indicates a step that you must carry out 1 3 Terms used 1 3 1 Service bypass A switch that provides continuous supply to the load via the bypass input power line during maintenance work also referred to as the maintenance bypass 1 3 2 Static Bypass switch A thyristor switch which connects the load directly to the power line also referred to as a static switch or static bypass 1 3 3 Qualified personnel Personnel who are familiar with the installation assembly commissioning and operation of the product and are qualified to carry out these procedures 1 3 4 Display Control panel that includes graphic symbols and data which show the status of the machine push buttons to operate the UPS Installation Manual 10H521941M10 rev 2 03 2013 5 Chloride Trinergy Introduction 1 4 Documentation structure These instructions may be supplemented with additional sheets that describe specific extensions or options 1 5 Information about the presence of foreign materials in the vicinity of UPS equipment installations A Page 6 Warning The purpose
98. work Power The global leader in enabling Business Critical Continuity EmersonNetworkPower com ACPower Embedded Computing Outside Plant Racks amp Integrated Cabinets Connectivity 27 Embedded Power Power Switching amp Controls Services DCPower M Infrastructure Management amp Monitoring M Precision Cooling Surge Protection Emerson Business Critical Continuity and Emerson Network Power are trademarks of Emerson Electric Co or one of its affiliated companies 02010 Emerson Electric Co
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