Emerson 7400 User's Manual
Contents
1. 27 Series 7400 Single Phase 14N UPS itur e Figure 12 Cable connection 50kVA 230V 1 Ph 28 Series 7400 Single Phase 14N UPS Figure 14 Cable connections for 105 kVA 230V 1 Ph 29 Series 7400 Single Phase 14N UPS Figure 15 Cable connection 25 40kVA 110V 1 Ph Figure 16 Cable connection 50kVA 110V 1 Ph 30 Series 7400 Single Phase 14N UPS Figure 18 Cable connections for 105 kVA 230V 1 Ph 3l Series 7400 Single Phase 1 N UPS 3 5 Battery Circuit Breaker Boxes A battery circuit breaker box houses the battery circuit breaker and its controller board and is used to connect the battery to the UPS in installations where the batteries are not contained in the standard battery cabinet It is most likely used with 60 125 kVA UPS models Several boxes of various current ratings are available and are similar in their design and content These are listed below 100 Amp C B 0120206014 for use with 25 40 kva models 160 Amp C B 0120206014 for use with 50 60 kva models 250 Amp C B 0120206014 for use with 80 kva models 400 Amp C B 0120206014 for use with 90 125 kva models UPS CABINET BATTERY CABINET Battery CB Interface Bd 100202120003 Figure 19 Battery C B box connections for 25 40kVA 1Ph UPS 32 Series 7400 Single Phase 1 N UPS Usually the box is fitted as close as possible to the batteries Figure 19 shows the details of the power and control2. Uninterruptible Power System 52 Series 7400 Single Phase 1 N UPS LED NUMBER LS1 NORMAL STATE ACTIONS TO BE TAKEN IF ABNORMAL If this led is OFF it signifies a problem either with the incoming mains supply or the rectifier section See accompanying alarm messages Check the following a Input isolator is closed b Input supply voltage is within 2096 of nominal c Input fuses are O K d Power supply fuses are OK Note LSI and LS2 on the AC Power Supply Board will be OFF if either of these fuses are ruptured e Mains sensing fuses on the High Voltage Interface board F4 F5 F6 are OK f Check that slide switch 12 on the UPS Logic Board is closed If the above checks prove satisfactory then seek qualified assistance If this led is OFF it signifies that either the battery circuit breaker is open or that the dc busbar voltage is below 320V dc For 80kVA to 125kVA models this voltage is 330V dc The battery circuit breaker will open automatically if the dc voltage falls below this level Check the following a Battery circuit breaker is closed b DC busbar voltage if not above 320V then carry out checks as per 151 mains failure above If the dc busbar voltage is greater than 320V and 330V dc for 80 125kVA models If you are unable to close the battery circuit breaker then seek qualified assistance If the battery circuit breaker trips as soon as mains power is disconnected then check the
3. one system operates in a redundant or non redundant configuration If a non redundant mode is selected the two static switch sections are effectively locked together in that both the static switches are turned off or on by a single control signal Thus if one module develops a fault when running its static switch control logic will transfer its output from the inverter to the static bypass line and simultaneously send a signal to the static switch control logic in the second module to do likewise This does not happen if the system is configured as a redundant system in which case the second module is allowed to continue supplying the load from its inverter when the first module trips its inverter off line Reverse current A reverse current monitor circuit detects current flowing into rather than out of the module s output terminals Such a condition can arise if a module develops an internal power fault or if for some reason the two modules become unbalanced and is liable to further damage the module and also degrade the load supply If a reverse current is detected the inverter on the affected module is immediately shut down and load transferred to the bypass supply depending on the system redundancy configuration Series 7400 Single Phase 14N UPS Bypass O Supply Mains Supply UPS O Output Supply 1 1PARALLEL CONTROL Maius INVERTER Supply Figure 4 Parallel control in a one plus one system B
4. This procedure should be followed if one plus one is to be powered down while continuing to supply load through the maintenance bypass line Note that during this procedure the load will be unprotected against mains supply disturbances once the inverter s has been switched off Step Action Response Ensure that LS3 is illuminated on the mimic panels indicating that the static bypass supply is healthy Press the Inverter OFF switch S6 on Mimic panel LEDs LS4 and LS6 should both modules extinguish on both modules and LS5 should illuminate to show that the load has been transferred to the static bypass line Note On a redundant system both Inverter OFF switches S6 must be operated before LS5 illuminates but in a non redundant system the Inverter OFF switch must be pressed on one module only before LS5 illuminates However as the load is transferred to the static bypass the second module should be turned OFF also Close the Maintenance Bypass Mimic panel LEDs No change Isolator on both modules Open the Output Isolator on both Mimic panel LED 155 should modules extinguish on both modules On each module Open the battery All the operator panel led indications circuit breaker followed by the input and messages should extinguish as Isolator and Static Bypass Isolator if the mains driven internal power separate For 110V systems Static supplies decay bypass isolator is mounted in auxiliary cubicles Isolate the UPS
5. When first summoned to the scene of a UPS fault your immediate action should be to observe and record the displayed messages mimic indications meter indications and the position of the UPS power isolator switches This should be completed before you touch any switch 51 Series 7400 Single Phase 1 N UPS Corrective Action When all the indications have been noted you should refer to the following fault interpretation charts and carry out the actions detailed against any led whose status is abnormal If you are unsure as to how to undertake the actions detailed or if several LED indications are abnormal and you are unable to distinguish between the likely cause and affects then seek immediate assistance from an approved service agent Fault Reporting Irrespective of whether fault rectification is successful or not report the fault occurrence to the nearest service agent who will then forward the details to the manufacturer This type of customer feedback is an important factor in maintaining high product reliability and also provides important data concerning the equipment field performance CAUTION The following diagnostic charts are designed for first aid troubleshooting only If a problem cannot be resolved by taking the actions given then fully trained assistance should be sought immediately Do not under any circumstances make internal circuit adjustments or interfere with the circuit boards in any other Way
6. circuit breaker is closed manually but it contains an undervoltage release coil which enables it to be tripped from the UPS control electronics following certain detects for faults It also has a magnetic trip facility for overload protection Series 7400 Single Phase 14N UPS 12 I3 l4 n Output Maintenance Static Input Isolator Bypass Bypass Isolator Isolator Isolator b 12 b Output Maintenance Static Input Isolator Bypass Bypass Isolator Isolator Isolator Maintenance Isolator Bypass Isolator Isolator Isolator Output Maintenance Static Isolator Bypass Bypass Isolator Isolator Isolator 9 289 4 gt 60 80 kVA 105 kVA Figure 3A Power Isolator identification for 230V output system Series 7400 Single Phase 14N UPS 12 I3 n Output Maintenance Input Isolator Bypass Isolator Isolator Output Maintenance Isolator Bypass Isolator 8 AZ 29 IN O Maintenance Input Maintenance Isolator Bypass Isolator Isolator Bypass Isolator Isolator Isolator 1250 ee A 1400 60 70 kVA 105 kVA Figure 3B Power Isolator identification for 110V output system 6 Series 7400 Single Phase 1 N UPS 12 6 One plus One Parallel Control When two of the standard 7400 modules just described are connected together to form a one plus one system each module is fitted with an additional circuit board which allows the two modules to communicate with each other Communication takes place via a single ribbon cable co
7. procedure 3 Isolate the UPS input mains supply externally also the bypass supply if a split bypass is in use and isolate the battery 4 Ensure that the UPS is totally powered down by checking for voltage at the mains input terminals battery connection terminals and output terminals and bypass mains input terminals in a split bypass configuration 5 Gain full access to the UPS interior by opening its internal hinged safety panel 48 Series 7400 Single Phase 1 N UPS 5 34 Extended Service 5 35 Battery Maintenance 6 Carry out a thorough examination of the UPS power components and sub assemblies paying particular attention to the following Electrolytic capacitors Check for signs of leakage buckling etc Magnetic components Check for signs of overheating security of fixture and signs of delamination Cables and Connections Check cables for chaffing fraying or signs of overheating Check that all printed circuit board connectors are secure Printed circuit boards Check the cleanliness and integrity of the circuit boards and replace if any signs of deterioration are found 7 Thoroughly clean inside the equipment enclosure using a vacuum cleaner and low pressure air to remove any foreign debris 8 Reconnectthe UPS input mains power 9 Start the UPS and transfer the load to the inverter following the appropriate operating procedure 1 If possible check the battery autonomy time by opening t
8. TE mi BATTERY OK a bk OK Go END OF mag Bla 215 nio END OF DISCHARGE x 5 Bis 5 Le DISCHARGE INVERTER g 5 z MIMIC STATUS LED Elan e gle e ne eo e T K AE B i 3NG of s lol all E 1 amp 8 3 SYNCHRO SU ol ES 2 all 8 Ho SYNCHRO S a 4 6 E Ok E 3 a 5 3 STATUS LEDD P t OK UPS 815 8 8 status eo 2 UPS STATUS LED p 8 B b LOAD ON E LOAD ON LOAD ON BYP 4 Aang LOAD ON BYPASS peer JE 5 8 Ei BYPASS TEMPERATURE i 2 TEMPERATURE OVERLOAD i 8 OVERLOAD 5 ME i MAINT BYP pee 5 5 ren MAINT BYP ENABLED g ENABLED STATIC BYPASS ta 5 1 0 5 ISOLATOR CLOSED re 5 y ISOLATOR CLOSED OUTPUT SWITCH 8H gt OUTPUT SWITCH CLOSED 9 CLOSED 10 10 SYNCHRO RELAY PH REUY synchro INHIBIT INVERTER ON OFF RELAY 0 AHH RELAY verter 1 a 8 a TERMINALS OF 4 3 TERMINALS OF INTERFACE PCB 3 INTERFACE PCB u TERMINALS OF RAM RM3 i RM2 Rm ey dica m i 3 1 Short terminal with the help of suitable wire lt 4 TERMINAL CONNECTION ABE GOING 2 Note that if this supply is not available RAM will not ES 3 function S S AS 3 USF 24 core 1 5mm multistrand cable for DURANO interconnection between RAM and Output interface Status of contacts is shown when
9. UPS ANNEXURE Inter C onnection cable details Any system essentially needs UPS module However many customers need auxiliary cubicles such as Input Isolation Transformers Battery Current Sharing Kit 1 1 Paralleling kit Bypass SCVS SVR or Bypass Line Transformers In case any of the auxiliary cubicle or combination of them is required amp ordered by the customer we would like to recommend following sequence in which the cubicles shall be located TXR TE TXR C ubicle 2 SVR Cubicle 1 or Battery Sharing Kit It should be noted that this is the recommended panel line up amp based on this line up we will provide all interconnection cables The interconnecting cables are supplied only if auxiliaries are in ENP s scope ENP is not responsible for supply of these interconnection cables in case the recommended Line up is altered It is presumed that a All the panels are in single line up b All the panels are placed in such a way that side covers are touching to each other c Location of UPS panels remain unchanged d In case any of the panel is not ordered its left hand side panel shall be shifted to ensure no gap between UPS amp other panels i e in case Transformer Cubicle is not required the SCVS or SVR wil be placed at the location of Transformer Cubicle We are enclosing the typical interconnection diagram which will remain unchanged for all permutations amp combinations of various options 57 Series 7400 S
10. When the emergency stop switch is pressed it disables the static switch block entirely so removing load power It also disables the rectifier and inverter and trips the battery circuit breaker Under normal circumstances it does not remove UPS input power since this is applied through a manually controller isolator however if the UPS input supply is connected via a circuit breaker having an electrical trip facility the emergency stop signal can be used to drive the external circuit breaker s trip circuit There are two LEDs contained within the switch panel area LS7 Alarm This led accompanies the audible alarm warning when any alarm condition is initiated The audible warning can be cancelled by the reset switch 5 but LS7 will mly extinguish after the alarmed condition has reverted to normal LS8 Inverter status This green led situated near the inverter ON switch illuminates when the inverter is selected ON 12 Series 7400 Single Phase 1 N UPS 12 io 12 10 ALARM EMERGENCY STOP ALARM INVERTER OFF OR FAILED ALARM OVER TEMPERATURE ALARM _ OVERLOAD ALARM BATTERY OPEN ALARM OUTPUT CB OPEN ALARM BYPASS CB OPEN ALARM RECTIFIER OFF OR FAILED ALARM UPS ON MAINTENANCE BYPASS ALARM INVERTER UNSYNCHRONISED ALARM BATTERY ON LOAD ALARM BYPASS OFF OR FAILURE ALARM LOAD ON BYPASS ALARM LOW BATT BATT UNDER VO
11. and respond to their appearance Mains failure Load on inverter Low battery and or battery circuit breaker open Load on mains bypass Load on maintenance bypass These alarm signals are provided by volt free relay contacts The 5400 Interface Board is fitted to the bottom of the UPS cabinet door and connected to the UPS control electronics by a ribbon cable FC17 in 25 40 kVA modules and FC13 in 50 125 kVA single phase modules which is fitted to all modules and normally stowed in the cable loom when this option is not used Two D type connectors are provided on the Interface Board to enable the above signals to be connected to the AS400 computer One connector CN1 has 9 pins and the other CN2 has 15 Figure 21 provides pin out details for these connectors Note Use one connector only i e don t use both connectors simultaneously In addition to the D type connectors the AS400 Interface Board also contains a number of volt free relays whose contacts provide a duplicate set of volt free alarm outputs that are connected to terminal block M1 as shown in figure 21 These outputs can be used to drive an external alarms monitoring device Note When using the above contacts for remote alarm annunciation the power supply for the remote indicators must be provided from an external power source Under no circumstances should the UPS internal low voltage supplies be used for this purpose The Interface Board has facilit
12. cable connections between the circuit breaker box and UPS itself These are similar to the connections made to the battery cabinet previously described As a safety precaution remove the battery fuse in the UPS before making the battery circuit breaker power connections Note The polarity of the battery connections in the 25 40 kVA UPS cabinets are reversed for 50 125kVA UPS modules UPS CABINET Dr c 680 KA NA BATTERY CABINET BatteryCB Interface Bd 0020 000 PLS ore nean Figure 20 Battery C B box connections for a typical 105 kVA 230V 1 PH UPS 33 Series 7400 Single Phase 14N UPS 34 Chapter 4 Optional Equipment Several items of optional equipment are available for fitting to the 7400 series UPS for the use by the customer as required These options are o IBM 5400 Interface o IBM 5400 Interface with 4 way output o Output Interface Board o Remote Alarms Board o Input filter In addition to these options it is possible for the customer to use an RS232 extension of the operator control panel fitted as standard for external indications Series 7400 Single Phase 1 N UPS 4 1 5400 Interface Board 2100215120003 4 11 AS400 Interface Board Outputs 4 12 Remote Control Inputs 4 13 Calibration The 5400 Interface board connects the five most operationally critical UPS alarms to an IBM AS400 computer which is designed to monitor such alarms
13. dc power supply fuses If this led is OFF it signifies either that the bypass supply is not within acceptable tolerances or that the bypass supply isolator is open Check that the bypass supply isolator is closed the supply is available and within specifications 53 Series 7400 Single Phase 1 N UPS LED NORMAL ACTIONS TO BE TAKEN IF ABNORMAL NUMBER STATE ON If this led is OFF it signifies that the inverter is not producing its correct output voltage Check the following a If OVERTEMPERATURE OR OVERLOAD alarm messages are active then after allowing the UPS to cool checking that the load current on the bypass line is not excessive press the reset switch on the UPS Logic Board Press the Inverter ON pushbutton If the dc busbar is below 320V 330V for 80 125 kVA then do checks as per 51 above Check that slide switch I3 is closed on the UPS Logic Board is closed If the inverter works OK when mains is available but not when mains is unavailable then check the dc power supply fuses If the above checks prove unsatisfactory then seek qualified assistance If this led is ON then it signifies that the load has been transferred to the static bypass supply and the output circuit breaker is closed This indication should be mutually exclusive with 156 described below check out LS6 actions If LS4 is also OFF then refer to 154 checks If LS6 is OFF but LS4 is ON then check the following a Ensure that the ou
14. ensure that all the LED s are healthy Power Supply The RAM contains a single phase 230V a c mains driven power supply Power is applied through a standard two pin mains connector located at the backside of the RAM This 2 pin male female type connector is marked as ND D The supply is rated to approximately 10 watts and hence can be tapped from any suitable source This generates required DC power supply for functional requirement of the RAM Once AC power is available to RAM POWER indicating LED on RAM starts glowing This indicates that RAM is ready for operation This power supply is used to reproduce UPS mimic and display alarms Mimic and Alarm Connections Refer figure 25 and 26 For connection of RAM signals to interface PCB two different connectors are provided marked as RM 1 and RM 2 RM 1 is a six pin male female connector and RM 2 is a 10 pin male female connector Both the connectors are with screwed terminals The connection diagram of both the terminals with interface PCB is as shown in connection diagram 24V d c supply is available on RM 3 This is required to be connected to M3 pin3 of Interface PCB This 24 volts supply is required to be looped on interface PCB as shown with star marked connections For connecting RAM and interface PCB s use multicore 1 5sq mm stranded conductor flexible copper cable RAM actually requires 16 such cores However it is advisable to provide spare cores and hence we recommend use
15. first aid repair WARNING Some of the instructions in the charts at the end of this chapter involve checking internal fuses This should be undertaken after the equipment has been shut down only by a trained electrician who is familiar with the layout and operation of the equipment and fully conversant with the areas of potential hazard There is no practical way of detecting an impending UPS malfunction Most problems do not emerge as a gradual performance degradation generally the UPS either works correctly or it will shut down and transfer the load to the bypass supply if applicable However it is important to maintain a regular record of the UPS meter indications as suggested in the maintenance instructions in order that any change in the system or load characteristics are readily identified In general the output voltage should be within 296 of nominal If the UPS has not operated on battery power within the previous ten hours the battery charge current should be typically less than 6A If any indication differs significantly from the typical figures given above the cause should be investigated Information concerning prevailing load conditions can prove useful when discussing problems with the service agent for example details of any particular load being started or shed at the time that the fault occurred Troubleshooting should be carried out methodically using the following guidelines Fault Identification
16. of 24 core cable For connection diagram of 1 1 UPS system refer figure 27 42 Series 7400 Single Phase 14N UPS oann 1Y38IN VLVL 3D ALM3dDHd JHL SI BHL W3LSAS San SIHIS 00 2 CL 1 HOI MOLINON NIVIV SLOWS LNOHIIM 3Sn YO NOLLJnOONd3H 03119 HO2d SI NOISSIM33d HOA HOTDOG O me 60000000000 OHW 5 5 1 1 N TL H LLL H Sdn T T SOLINOM WHVIV 3140N34 ss OLINON WHVIV BLONSE TE 934405 FIXER NN 08 3 OLIN SIGVLIOS XOLLOENNOO MANOS HIA TIVNA IIN HUY SUOLIINNOO AEL TIV Z Pa I 43 Figure 25 Remote alarm monitors for single module and 1 1 configuration Series 7400 Single Phase 1 N UPS OUTPUT INTERFACE PCB REMOTE ALARM MONITOR MOUNTED IN UPS SYSTEM LOCATED AT REMOTE PLACE 1 MAINS OK pacc MIMICSTATUS LED MAINS BYPASS VOLTS OK n 230V AC Supply BYPASS MIMICSTATUS LED LOAD ON BYPASS rali xr MIMICSTATUS LED RECTIFIER ACTIVE PHT mes RECTIFIER ERIT 2 M1 2 ACTIVE EE MIMICSTATUS LED BATTERY m2 5 kri 1 MIMICSTATUS LED LOAD ON INVERTER UP 1 1 FE sus O 8 M1 8 OK gt 5 6 ENDOF I DISCHARGE 72 13 INVERTER ok ALARM SIGNAL LED PREALARM END OF DISCHARGE SYNCHRO gu TE ALARW SIGN
17. the module through ventilation grills located at the bottom of the front back and side panels and the door in the case of the 50 60 80 105 amp 120 kVA models and exhausted through grills located in the equipment roof When the equipment is located on a raised floor and bottom cable entry is used additional cooling air also enters the UPS via the floor void Clearances To allow adequate cooling air flow you should position the equipment with the following space around the back and sides o 25kVA 40kVA 1 PH Models 100mm required if the UPS is situated on a solid floor No space required if situated on a raised floor o 50kVA 125kVA 1 PH Models 100mm required in all cases The UPS modules do not require back access for maintenance servicing but where space permits a clearance of approximately 4 feet 1 2 meters will ease access to some component parts Clearance around the front of the equipment should be sufficient to enable free passage of personnel with the door fully opened If the equipment is to be located on a raised floor it should be mounted on a pedestal suitably designed to accept the equipment point loading The installation diagrams in the back of this manual identifies the location of the holes in the base plate through which the equipment can be bolted to the floor 22 Series 7400 Single Phase 1 N UPS 3 13 Battery Location In 25kVA to 125 kVA module installations the batteries associated with the UPS
18. to either an input FAILED supply failure an internal fault or an open input circuit breaker 55 Series 7400 Single Phase 1 N UPS DISPLAY MESSAGE UPS ON MAINTENANCE BYPASS INVERTER UNSYNCHRONISED BATTERY ON LOAD MAINS FAILURE LOAD ON BYPASS INTERPRETATION This is a status warning that the load is being powered through the maintenance bypass line and is unprotected from mains supply abbreviations Due to the fact that the UPS power supplies are fed by the input circuit breaker this message will disappear if the input isolator is opened and bypass isolator opened on a split bypass system while the load is on maintenance bypass supply This warns that the inverter is not synchronised with the bypass supply which is normally due to a problem with the bypass supply being outside an acceptable frequency window Do not switch OFF the inverter when this alarm is active or the load will experience a 20 millisecond power break This is a status warning that the battery is discharging It normally accompanies a MAINS FAILURE BYPASS FAILURE or RECTIFIER OFF OR FAILED message MAINS FAILURE or mains supply out of specified acceptable range Do not switch OFF the inverter while this indication is active or the load will lose its power This is a status warning that the load is being powered through the static bypass line and is unprotected from mains supply aberrations 56 Series 7400 Single Phase 1 N
19. 38 Fax 011 5757601 Pager 9632 100 300 KOLKOTA 77 A Raja Basant Roy Road KOLKOTA 700029 Tel 033 4646387 4647197 Fax 033 4667172 BANGALORE 501 C Wing Mittal Towers No 6 MG Road BANGALORE 560 001 Tel 080 55994543 5598825 5581448 Pager 080 96239888000 Fax 080 558 8546 Branch Offices BARODA 39 2 Arunodaya Society Alkapuri BARODA 390 005 Tel 0265 314296 330383 Fax 0265 314296 330383 CHANDIGARH 5 0 198 199 200 Sector 34A Near Labour Chowk CHANDIGARH Phone 0172 662 873 Mobile 9814100901 CHENNAI No 22 First Floor Gopal Krishna Road T Nagar CHENNAI 600 017 Tel 044 8231742 8221063 8228996 Fax 044 8231742 COCHIN Lakshmini No 36 2684 Veluthamma House Azad Road Kaloor COCHIN 682017 Tel 0484 341985 Fax 0484 341986 GOA 622 La Citadel Colony Dona Paula GOA 403 004 Tel c o 0832 220 723 GUWAHATI South Savania Ashram Road Ulubari GUWAHATI 781 007 Tel 0361 543848 Fax 0361 543270 Mobile 9864023587 J AMSHEDPUR Kashi kunj Road no 2 Gr Floor Contractor s area Bistupur JAMSHEDPUR 831 001 Tel 0657 437549 Fax 0657 437549 LUCKNOW 206 Sriram Tower Ashok Marg LUCKNOW Phone 0522 201467 Pager 9628 555091 Mobile 9839025563 NAGPUR 203 Ganga Apts 13 Giripeth NAGPUR 400 010 Phone Fax 0712 540423 548551 PUNE B 6 Shri Dwarka co op Society 467 Hare Krishna Ma
20. AL LED SYNC NOTOK 1 1 M2 11 5 TA AGED eR w oK a713 ALARM SIGNAL LED OVER TEMPERATURE 03 441 JUL ARR SNA TED INVERTER MOTOR ua LOAD ON Hi ALARM SIGNAL LED RECTIFIER NOT ACTIVE M1 13 4 UPS A Ll ALARM SIGNAL LED BATTERY NOT OK 6 m C gud ALARM SIGNAL LED MAINS VOLTAGE NOT OK M1 7 LOAD ON ALARM SIGNAL LED LOAD ON MAINT BYPASS 8 m BYPASS gt LT SUPPLY 9 w 10 over oL mi TEMPERATURE 12 RESET HH 24 V RM3 xou Er MAINT BYP ENABLED STATIC BYPASS ISOLATOR CLOSED OUTPUT SWITCH CLOSED SYNCHRO INHIBIT RELAY 11 a INVERTER ON OFF RELAY H44 TERMINALS OF INTERFACE PCB TERMINALS OF RAM NOTES l Shortterminal with the help of suitable wire 2 Note that if this supply is not available RAM will not function USF 24 core 1 5mm multistrand cable for interconnection between RAM and Output interface Status of contacts is shown when relay is Off Relay switches On when signal is received as per the description Figure 26 Interconnection diagram for single module RAM amp Output Interface PCB 44 Series 7400 Single Phase 1 N UPS OUTPUT INTERFACE PCB OUTPUT INTERFACE PCB MOUNTED IN MODULE 1 MOUNTED IN MODULE 2 1 1 MAINS OK p emm meme MAINS OK BYPASS RECTIFIER Em RECTIFIER ACTIVE 8 8 bY o ACTIVE s 5j 5 Se BATTERY
21. ATTERY OK PRE ALARM END OF DISCHARGE INVERTER OK M2 SYNCHRO OK LOAD ON UPS LOAD ON BYASS OVER TEMPERATURE OVERLOAD M3 MAINT BYPASS ENABLED STATIC BY PASSISOLATOR CLOSED SPLIT BYPASS OUTPUT SWITCH CLOSED SYNCHRO INHIBIT INVERTER ON OFF Figure 24 Output Interface Board 10021512002 Series 7400 Single Phase 1 N UPS 4 4 Remote Alarm Monitor RAM for Single Module amp 1 1 UPS System This will contain following items 1 Remote Alarm Monitor for Single Module 4270154000001 2 Remote Alarm Monitor for 1 1 Module 270154000003 This unit is always used in conjunction with Alarm interface PCB 3100215120002 only Remote Alarm Monitor enables the auxiliary alarm signals to be displayed at a remote station upto 200 meters from the main equipment The RAM is required to be mounted vertically This is ideally suitable for wall mounting However this also can be mounted inside a panel The cut out dimensions for the panel mounting are as shown in the clamps provided for wall mounting are required to be removed Refer drawing There are total 9 alarms provided on the RAM Each of the alarm initiates an audible alarm warning This is however subject to a short time delay to prevent the warning being activated by transient conditions Pressing the reset push button cancels the audible warning but the alarm indications remain until the condition is rectified A test push button is also provided to
22. IFIER INVERTER o Output Supply Input Output Supply Isolator Isolator 5 Battery Breaker BATTERY B BLOCK SCHEMATIC FOR 110V OUTPUT 1PH UPS SYSTEM Figure 2 Series 7400 UPS Isolator configurations 12 3 Bypass Supplies The circuit block annotated Static Switch in figure 2 contains an electronically controlled switching circuit which enables the critical load to be connected either to the Inverter output or to a Bypass power source via the static bypass line Normally the load is connected to the inverter but in the event of a UPS overload or inverter failure it is automatically transferred to the static bypass line due to static switch action Note that the Bypass supply should be in normal condition and enabled To provide a clean no break load transfer between the inverter output and static bypass line the inverter output and bypass supply must be fully synchronised during normal operating conditions This is achieved through the inverter control electronics which make the inverter frequency track that of the static bypass supply provided that the bypass remains within an acceptable frequency window The synchronising window is pre selected to 296 of nominal frequency giving an acceptable frequency window of 1Hz A warning message INVERTER UNSYNCHRONIZED is displayed on the operator control panel when the inverter and bypass supplies are not synchronized A second manually controlled Maintenance by
23. LT Figure 9 Display messages LCD Display An LCD display capable of showing two rows of 40 characters is used to indicate the UPS operating parameters warnings and alarms A DIP switch fitted to the display microprocessor board enables the displayed language to be easily selected to English French Italian Spanish or German The lower row of characters are used to display metered parameters which include output or bypass voltage frequency or current together with battery current amp voltage and autonomy time for SMF batteries only Warning and alarm messages are displayed on the upper row of characters The ALARM led and audible warning accompany all alarm messages but are not activated by warning messages In all cases the message automatically resets when the alarmed or warning condition reverts to normal When two or more alarm or warning conditions are active simultaneously the appropriate messages are displayed in a cyclic fashion with each message appearing on the display for approximately for 10 seconds Battery Circuit For all Models battery circuit breaker can be provided either in Breaker auxiliary cubicle or in a separate box This box is designed to be wall mounted and is connected between the UPS and battery bank Battery Cabinet The batteries associated with the UPS are generally housed in a Rack purpose built cabinet rack located alongside but not attached to the main U
24. PS System 42 Maintenance 47 Introduction 47 Safety Precautions 47 Scheduled Maintenance 47 Daily checks 47 Weekly checks 48 Annual Service 48 Extended Service 49 Battery Maintenance 49 Troubleshooting 51 Troubleshooting UPS systems 51 Operating parameters and limitations 51 General troubleshooting procedure 51 Display Panel Message Interpretation 55 ANNEXURE 57 Chapter 1 General Description 1 1 Introduction 1 2 Design Concepts 12 1 Redundant vs Non Redundant configuration The Uninterruptible Power Supply system is connected between a critical load such as digital drives amp automation distributed digital Process Control System telecom equipment programmable logic controller mission critical applications computer and its three phase mains power supply Being designed to furnish a well regulated 1 PH output power supply under all rated load and input supply conditions the system offers the users the following advantages Increased power quality The UPS has its own internal voltage and frequency regulator circuits which ensure that its output is maintained within close tolerances independent of voltage and frequency variations on the mains power lines Increased noise rejection By rectifying the input AC power to DC power and then converting it back to AC any electrical noise present on the input mains supply line is effectively isolated from the UPS output therefore the critical load sees only cl
25. PS equipment It is possible to install batteries of various types and capacities in the cabinet rack to obtain required autonomy characteristics 13 Series 7400 Single Phase 1 N UPS 1 3 Safety Precautions 131 General In common with other types of high power equipment dangerous voltages are present within the UPS and battery enclosure The risk of contact with these voltages is minimised as the live component parts are housed behind a hinged lockable door Further internal safety screens make the equipment protected to IP20 standards No risk exists to any personnel when operating the equipment in the normal manner following the recommended operating procedures All equipment maintenance and servicing procedures involve internal access and should be carried only by trained personnel 13 2 Batteries Battery manufacturers supply details of the necessary precautions to be observed when working on or in the vicinity of a large bank of battery cells These precautions should be followed implicitly at all times Particular attention should be paid to the recommendations concerning local environmental conditions and the provision of protective clothing first aid and fire fighting facilities 133 TestEquipment When the battery is charge it is earth referenced about it is mid point e g if the battery is being charged at 432V the battery extremities will be at 216V and 216V with respect to neutral earth When using mains power
26. Seri es 7400 Single Phase UPS system Single module an 1 N expandable User Manual 5 EMERSON EMERSON Network Power India Pvt Ltd Dear Customer Please accept our thanks for giving us the privilege to serve you by choosing a L iebert make U PS If this is your first Liebert U PS we hope it is the beginning of a long relationship which delivers valueto your organisation If you already own and usea L iebert w eare doubly honoured by your decision of continuing this relationship It is our constant endeavour to partner you for thegrow th and success of your business Thisphilosophy is reflected in our M ission statement To deliver value through Air amp Power Quality solutions to achieve customer delight Please do give us feedback to help us realize our M ission Emerson Network Power India Private Limited IMPORTANT This manual contains information concerning the installation operation and maintenance of the Series 7400 1Phase Uninterruptible Power System UPS for the single module and one plus one Systems All relevant parts of the manual should be read prior to commencing installation The UPS must be commissioned by an engineer approved by the manufacturer or his agent before being put into service Failure to observe this condition will invalidate any implied warranty The Series 7400 1 Phase UPS has been designed for Commercial Industrial use only The Series 7400 1Phase UPS is not de
27. The 7400 series UPS incorporates an optional automatic boost charge facility which can be used in systems containing non sealed lead acid batteries If this type of battery is used in your installation you may notice that the battery charger voltage will be greater than its nominal 432Vdc when the mains supply returns from a prolonged outage This is the normal response of the boost charge facility the charger voltage should return to normal after a few hours 15 Series 7400 Single Phase 1 N UPS How to turn ON the System from a Shut down condition Complete this actions on one module at a time This procedure should be followed when turning on the one plus one system from a fully powered down condition i e where the load is not being initially supplied through the internal Maintenance Bypass supply Step Action Close the module s Output Isolator and check that the UPS input mains supply and bypass supply if separate is turned on externally Close the input Isolator and Static Bypass Isolator if separate Wait 20 seconds then close the battery circuit breaker This is located inside the battery cabinet if used or is otherwise located adjacent to the battery racks Press the battery metering selector switch B Response Mimic panel LEDs LS1 LS3 and LS5 should illuminate immediately to indicate that the load is being supplied through the static bypass line Note Ina Redundant Module system LS5 will not ill
28. al blocks M1 M3 enable the alarm signals generated within the UPS to be connected by means of volt free changeover relay contacts to a remote monitoring device Note When using the above contacts for remote alarm annunciation the power supply for the remote indicators must be provided from an external power source Under no circumstances should the UPS internal low voltage supplies be used for this purpose Both board have facilities to accept two remote control inputs as shown in figures 23 and 24 One remote input allows the inverter to be shut down transferring the load to the bypass supply and the other enables the inverter synchronisation feature to be inhibited This facility is valid only for single module The inverter synchronisation inhibit feature is most often used if the UPS is powered from a standby generator when the input mains supply fails and the generator frequency is unstable The external control signals 12V 24V should be connected to terminal block M2 as shown Once again the voltage applied to these terminals must be generated by an external power source and not taken from the UPS internal low voltage supplies M3 LOAD ON BYASS BATTERY ON LOAD MAINSFAILURE OVERLOAD OVERTEMPERATURE M2 LOW BATTERY MAINT BYPASSENABLED INVERTER UNSYNCHRONISED COMMON ALARM UPSOK 40 Figure 23 Output Interface Board 2100215120007 Series 7400 Single Phase 14N UPS 1 MAINSVOLTAGE OK RECTIFIER ACTIVE B
29. ansformer T1 and input choke L1 during shipment This should be removed when the UPS has been placed in its final position Also PCB door is fixed with ztype clamps which should be removed CAUTION Ensure the stabilising bar fitted to the output transformer T1 is removed before proceeding with the installation Ensure removal of z type clamps used for fixing PCB door 24 Series 7400 Single Phase 1 N UPS 3 3 Connecting UPS Power Cables WARNING gt Before cabling up the UPS ensure that you are aware of the location and operation of the external isolators that connect the UPS Input Bypass supply to the mains distribution panel Check that these supplies are electrically isolated and post any necessary warning signs to prevent their inadvertent operation 3 3 1 Cable Entry Cables can enter the UPS modules and battery cabinet either from below or through either side Side entry is made possible by removing blanking pieces fitted in the side ventilation grills to reveal the cable entry holes This cable entry method allows the equipment to be positioned on a solid floor without the need for cable trenching and also allows cables to pass from one module to the other when positioned side by side 3 3 2 Cable Rating When connected as a one plus one Non Redundant system the UPS modules input and output cables must be rated to suit the supported load rather than the individual module s power rating This is due to the poss
30. ation The 4 way AS 400 Interface board connects fiver critical UPS alarms to four output terminal blocks M1 4 as shown in figure 22 These alarm signals can be connected to a IBM AS 400 computer designed to monitor such alarms or to a Remote Alarm Monitor panel The alarms monitored are Mains failure Load on Inverter Low battery and or battery circuit breaker Load on mains bypass Load on maintenance bypass The signals commonly interfaced with the AS400 are o Mains failure o Load on inverter or UPS ON o Low battery These alarm signals are provided by volt free relay contacts Note When using the above contacts for remote alarm annuciation the power supply for the remote indicators must be provided from an external power source Under no circumstances should the UPS internal low voltage supplies be used for this purpose The 4way 5400 Interface Board is also positioned in the UPS cabinet below the power isolators and connected to the UPS control electronics by a ribbon cable FC17 in 25 40 kVA modules and FC13 in 50 125k VA single phase modules connected to CN1 The Interface Board has facilities to accept two remote control inputs as shown in figure 22 One remote input allows the inverter to be shut down transferring the load to the bypass supply and the other enables the inverter synchronisation feature to be inhibited This facility is valid only for single module The inverter synchronisation inhib
31. attery charge current sharing The illustration in figure 4 shows a dedicated battery installation for each module however it is possible to fit an option kit which allows the two modules in a one plus one system to share a common battery Such an installation is shown in figure 5 overleaf Series 7400 Single Phase 1 N UPS STATIC RECTIFIER INVERTER SWITCH UPS BATTERY Supply Common Batt Panel AAA E em 0 CONTROL IFIER STATIC RECT INVERTER SWITCH Figure 5 Common Battery configuration 127 Common Battery A Common battery option kit contains DCCT DC Current Transformers which are fitted to the battery power lines and monitored by the parallel control logic Each module monitors its battery charge current and compares it with the charge current provided by the other module This enables a module to match its charge current to that of its partner by effecting fine voltage control over the rectifier section The components used by the Common Battery Option are contained in a separate cabinet known as the Common Battery Panel Series 7400 Single Phase 1 N UPS Uninterruptible Power System EE Figure 6 Operator Control Panel 12 8 Operator Control The operator control panel is divided into three functional areas Panel Mimic indications Control switches and LCD display panel Uninterruptible Power System Figure 7 Mimic Panel Mimic I
32. cord the battery charge current 3 Measure and record the UPS output voltage on all three phases 4 Measure and record the UPS output line currents If these are significantly different from the values previously logged then if possible record the size type and location of any additional load connected to the UPS supply since the previous inspection This type of information could prove useful to the troubleshooting engineer should a problem occur If any of the above indications differ greatly from the previously logged values for no apparent reason then you should contact the Customer Service amp Support Department at the address given at the front of this manual for advice The equipment should be thoroughly cleaned and the following checks carried out annually This entails working inside the equipment in regions containing hazardous voltages A manufacturer trained engineer is fully aware of the hazards concerned and will carry out this procedure with the load connected to the maintenance bypass supply however if the customer decides to carry out this service procedure himself it is imperative that the UPS be totally shut down and isolated from the input mains supply and bypass supplies and batteries using the procedure given below We therefore strongly recommend that the annual service is carried out by trained personnel 1 Carry outthe weekly checks detailed above 2 Shut down the UPS following the recommended operating
33. ean power Power blackout protection If the mains power fails the UPS continues to power the critical load from its battery source leaving the load immune from power disturbances The one plus one system comprises two standard 7400 series UPS modules which are modified to allow their outputs to be connected in parallel These can then be used in a redundant or non redundant configuration as explained below In a non redundant module configuration the system is sized such that both UPS modules are required to feed the potential load and if one of the two modules develops a fault or is for some reason shut down the other module automatically shuts down also Note In such an event the load is transferred to an unprocessed bypass supply as described later In a redundant module configuration the system is sized such that the potential load can be provided by just one of the two modules Under normal circumstances both modules are operational and share the load current equally but if one module develops a fault or is shut down the second module is able to take over the full load demand and continue to provide it with processed backed up power The advantages of a redundant system over a non redundant system in terms of overall system reliability are self evident Changing a one plus one system s configuration between redundant and non redundant is quite straightforward being carried out by configuration links on the ci
34. ed test equipment such as oscilloscopes in the UPS high voltage area always use a differential mode of operation to avoid the need to disconnect the oscilloscope frame earth 134 Personnel When working inside the UPS trained personnel only it is recommended that protection be worn to prevent eye damage should an electrical arc be struck by mishandling or severe electrical fault Some of the power components are very heavy If their removal is necessary ensure that sufficient manpower is available otherwise use adequate mechanical handling equipment When working in the general area of the UPS where high voltages are present a second person should be standing by to assist and summon help in case of accident 14 Chapter Operating Instructions 2 1 Introduction 211 2 12 2 13 Redundant Module System Non Redundant Module System General Notes Starting and stopping the one plus one system is straightforward however the modules response depends on whether it is configured as a Redundant or Non Redundant system The operating procedures are the same irrespective of the selected redundancy mode in simple terms you start stop one module and then repeat the operation on the second module The difference in the system response concerns the point at which the load is transferred between the bypass and uninterruptible i e inverter supplies and is summarised below Starting When starting a redundant modu
35. equipment are usually contained in a purpose built battery cabinet rack which sits alongside the main UPS equipment Sealed maintenance free batteries are normally used in this type of installation Due to their increased capacity the batteries associated with larger UPS installations are usually too big to be mounted in a single cabinet and are either rack mounted or fitted in multiple or bespoke battery cabinets Such installations may utilise non sealed lead acid cells requiring regular attention and impose their own environmental requirements Pedestals are required for the battery cabinets when they are located on raised floors in the same way as for the UPS cabinets Where battery racks are used they should be sited and assembled in accordance with the battery manufacturer s recommendations In general batteries require a well ventilated clean and dry environment at reasonable temperatures to obtain efficient battery operation Battery manufacturers literature provide detailed safety measures to be observed when employing large battery banks and these should be studied and the proposed battery installation checked to verify compliance with the appropriate recommendations The batteries are connected to the UPS through a circuit breaker which is manually closed and electronically tripped via the UPS control circuitry If the batteries are cabinet mounted this circuit breaker is fitted within the cabinet however if the batt
36. eries are rack mounted or otherwise located remote to the main UPS cabinet then the battery circuit breaker must be mounted as near as possible to the batteries themselves and the power and control cables connected to the UPS using the most direct route possible Emerson Network Power India Pvt Ltd offer a purpose designed remote battery circuit breaker box containing the circuit breaker and its necessary control board as a standard option kit 3 2 Preliminary Checks Before you install the UPS hardware you should carry out the following preliminary checks 1 Verify that the UPS room satisfies the environmental conditions stipulated in the equipment specification paying particular attention to the ambient temperature and air exchange system 2 Remove any packaging devices debris then visually examine the UPS and battery equipment for transit damage both internally and externally Report any such damage to the shipper immediately 3 Verify that the shipment is complete e g that the battery contains the correct number of cells etc Report any discrepancy immediately 4 When you are satisfied that the equipment is complete and in good condition move it to its proposed final position 23 Series 7400 Single Phase 1 N UPS Note If side cable entry is to be used ensure that the blanking plates are removed before finally fixing the cabinet position 5 All UPS models have a stabilising bar fitted to the output tr
37. etails of the necessary precautions to be observed when working on or in the vicinity of a large bank of battery cells These precautions should be followed implicitly at all times Particular attention should be paid to the recommendations concerning local environmental conditions and the provision of protective clothing first aid and fire fighting facilities TEST EQUIPMENT When the battery is under charge it is earth referenced about its mid point e g if the battery s being charged at 460V the battery extremities will be at 230V and 230V with respect to neutral earth When using mains powered test equipment such as oscilloscopes in the UPS voltage area always use a differential mode of operation to disconnect the oscilloscope frame earth PERSONNEL When working inside the UPS trained personnel only it is recommended that protection be worn to prevent eye damage should an electric ware be struck by mishandling or severe electrical fault Some of the power components are very heavy If their removal is necessary ensure that sufficient manpower is available otherwise use adequate mechanical handling equipment When working in the general area of the UPS where high voltages are present a second person should be standing by to assist and summon help in case of accident INDEX 1 General Description 1 1 1 Introduction 1 1 2 Design Concept 1 1 2 1 Redundant vs Non redundant configuration 1 1 2 2 7400 Module De
38. he input isolator I1 with the UPS on load Close the input isolator immediately the DC busbar voltage falls to 325V note that at 320V the battery circuit breaker will trip and the load will transfer to bypass Ensure that the available battery autonomy time meets the installation specifications We recommend that ALL the input output power cables and their connections are checked periodically As this requires the UPS to be completely shut down such a check should be carried out on an opportunity basis but at an interval not exceeding 2 years The batteries used with the UPS are generally of a sealed valve regulated type and the only maintenance requirement is to ensure that the cells are kept clean and dry Maintenance procedures appropriate to both valve regulated and un sealed batteries vary and should be obtained from the battery manufacturer 49 Series 7400 Single Phase 14N UPS 50 Chapter 6 Troubleshooting 6 1 Troubleshooting UPS systems 6 11 Operating Parameters and Limitations 6 12 General Troubleshooting Procedure The UPS contains complex electronic control circuits that require a firm understanding in order to carry out comprehensive fault diagnosis and repair of the equipment The following information aims to provide a trained user with sufficient knowledge to understand the nature of a fault through the correct interpretation of the accompanying alarms and indications and to carry out any necessary
39. ibility of connecting the full load to the mains via the Maintenance Bypass line of one module In a Redundant system this is unnecessary as each module is individually rated to support the full load and the input output cables can be sized to suit the modules rating according to the table given below NOMINAL CURRENT AMPS 1 PH UPS UPS RATING INPUTMAINS BYPASS OUTPUT BATTERY 380v 415v sov 230 25 Series 7400 Single Phase 1 N UPS 3 3 3 Cable Connections 3 34 Cabling Procedure In the 25 40kVA UPS 1 PH models the input mains bypass cables UPS output cables and battery cables are connected to busbars located behind a safety cover just below the power isolator switches as shown in figure 11 A terminal block is used for connecting the control cables to the battery circuit breaker and the external emergency stop facility For the 50 to 125 kVA 1PH models the power cables are connected either directly to their respective circuit breakers or to busbars which are themselves connected to the circuit breakers See figure 12 14 For 110V systems Static bypass isolator is located in auxiliary cubicles which is usually in scope of Emerson Network Power India Pvt Ltd Generally it is mounted in SCVS SVR cubicles The cable connection details for the same are given in figures 15 18 Once the equipment has been finally positioned and secured connect the power cables as described in the following p
40. ies to accept two remote control inputs as shown in figure 21 One remote input allows the inverter to be shut down transferring the load to the bypass supply and the other enables the inverter synchronisation feature to be inhibited This facility is valid only for single module The inverter synchronisation inhibit feature is most often used if the UPS is powered from a standby generator when the input mains supply fails and the generator frequency is unstable The external control signals 12V 24V should be connected to terminal block M2 as shown in figure 21 Once again the voltage supplied to these terminals must be generated by an external power source and not taken from the UPS internal low voltage supplies When fitting the AS400 interface board to the 7400 series ensure that link SH 1 is in position 1 2 36 Series 7400 Single Phase 1 N UPS 5400 INTERFACE BOARD Part No 100215120003 Inverter off Mains or Rectifier Failure Load on Inverter Low Battery 9 10 11 Load on Mains 12 13 Load on Maintenance Bypass 15 S400 Mi A p RL11 CN1 9 Mains or Rectifier r CN2 9 Failure RL21 CN1 8 Load on Inverter CN2 2 RL31 CN1 7 Low Battery CN2 10 RL41 CN1 6 Load on Mains CN2 3 RL51 CN1 5 Common 0V CN2 11 Figure 21 AS400 Interface Board Outputs 37 Series 7400 Single Phase 1 N UPS 4 2 4 WAY AS 400 Interface Board 100201120004 4 2 1 Remote Control Inputs 4 2 2 Calibr
41. ined throughout this manual are read and FULLY UNDERSTOOD before touching any UPS internal component part 5 3 Scheduled Maintenance 5 3 1 Daily Checks The UPS utilises solid state components which are not subject to wear with the only moving parts being the cooling fans Scheduled maintenance requirements beyond ensuring that the environmental conditions remain suitably cool and clean are therefore minimal However a well documented periodic program of inspection and preventive maintenance as suggested below will help to ensure optimum equipment performance and may serve to detect certain minor malfunctions prior to them developing into a major fault Carry out a daily walk by inspection of the UPS checking the following points 1 Carry out a spot check of the operator control panel ensuring that all mimic LED indications are normal all metered parameters are normal and no warning or alarm messages are present on the display panel 2 Check for obvious signs of overheating 3 Listen for any noticeable change in audible noise 4 Ensure that the ventilation grills around the UPS are unobstructed 5 If possible log the results of the inspection noting any discrepancies from the norm 47 Series 7400 Single Phase 1 N UPS 5 3 2 Weekly Checks 5 3 3 Annual Service Carry out the following checks from the mimic panel and log the results 1 Measure and record the battery float charge voltage 2 Measure and re
42. ingle Phase 14N UPS 58
43. input supply from the mains distribution panel to make the UPS safe for work to be carried out internally WARNING The following points will be live within the UPS Bypass supply input terminals Maintenance Bypass Isolator switch Static Bypass Isolator Switch if fitted UPS output terminals 18 How to totally Power down the System This procedure should be followed only if the one plus one AND LOAD are to be completely powered down Step Action Press the Inverter OFF switch S6 on both modules Open the battery circuit breaker Open the input isolator and static bypass isolator also For 110V systems Static bypass isolator is mounted in auxiliary cubicles Response Mimic panel LEDs LS4 and LS6 should extinguish and LS5 should illuminate to show that the load has been transferred to the static bypass line Note In a Non Redundant Module system LS5 and LS6 will also changeover on the second module LEDs LS2 M imic panel should extinguish All the operator panel led indications and messages should extinguish as the mains driven internal power supplies decay IMPORTANT The Maintenance Bypass Isolator may be operated at any time when the UPS is powered down to connect disconnect each load to the raw maintenance bypass supply if required Emergency Stop The emergency stop pushbutton is located behind a hinged safety shield to prevent inadvertent operation When this switch i
44. it feature is most often used if the UPS is powered from a stand by generator when the input mains supply fails and the generator frequency is unstable The external control signals 12V 24V should be connected to the terminal block M1 as shown in figure 22 Once again the voltage applied to these terminals must be generated by an external power source and not taken from the UPS internal low voltage supplies When fitting the AS400 interface board to the 7400 series ensure that link SH 1 is in position 1 2 38 Series 7400 Single Phase 1 N UPS ca AS400 INTERFACE BOARD Part No 100201120004 Control Inputs Synchro off Inverter off M3 M4 M5 1 7 1 7 1 1 1 1 Common Common RET 2 Mains or Rectifier Ri Mains or Rectifier Failure Failure RL9 RL4 3 UPS UPS On RL6 RL1 4 Low Battery Low Battery RL8 RL3 5 Load on Mains Load on Mains 6 Load on Maintenance Load on Maintenance Bypass Bypass RL10 RL5 7 Load on Inverter Load on Inverter Outputs from M2 M5 to Remote Alarm or AS400 Figure 22 Four output AS400 Interface Board 39 Series 7400 Single Phase 1 N UPS 4 3 Output Interface Remote Alarms Board 100215120007 amp 100215120002 4 3 1 Alarm Outputs 4 3 2 Remote Control Inputs Two remote alarm boards shown in figure 23 amp 24 similar in function and differing only in their connections to the termin
45. le system the load is transferred from the bypass to the inverter of the first module as soon as the first module is started and its inverter is brought on line When the second module is started its static bypass line is totally inhibited due to the first module being on line and the second module will not be connected to the load until its inverter is operational and fully synchronised with the first module Stopping When the first module is stopped its static bypass is inhibited because the load will be fully maintained by the inverter of the second module When shutting down the second module the static bypass lines of both modules will be turned on as soon as its inverter is stopped That is both modules will provide load power through their paralleled bypass lines Starting In a Non Redundant module system both modules must be running before the load is transferred to their paralleled inverters Therefore when the first module is started the load will remain connected to its static bypass line Stopping The load will be transferred to the static bypass lines in both modules simultaneously as soon as the inverter stops in the first module to be shut down Note 1 All the user controls and indicators mentioned these in these procedures are identified in chapter 1 Note 2 The audible alarm may annunicate at various points in these procedures It can be cancelled at any time by pressing the Alarm Reset pushbutton Note 3
46. ndications Six LEDs are mounted on a single line diagram to represent the various UPS power paths These LEDs which are annotated in figure7 show the current UPS operational status and should be interpreted as detailed below LSI Input supply OK Rectifier operative This led illuminates when the input isolator I1 is closed the input supply is within 2096 of nominal voltage and the rectifier is operative LS2 Battery volts OK This led illuminates when the battery circuit breaker is closed and the battery voltage is within the UPS operating range 320V 432V nominal 330V 445V nominal for the 80 to 125 kVA Models LS3 Bypass supply OK This led illuminates when the static bypass supply in within 1096 of its nominal voltage and the static bypass isolator is closed LS4 Inverter output OK This led illuminates when the inverter is operating and its output is within a preset acceptable voltage window n case of battery on boost this voltage can go upto 475V 10 Series 7400 Single Phase 1 N UPS MEASUREMENTS NT ALARM MEME INVERTER EMERGENCY arr JE EN EST ES EAT 11 Figure 8 Control Panel Switches LS5 Load on bypass This led illuminates when the output isolator is closed and the load is connected to the bypass via the static switch LS6 Load on Inverter This led illuminates when the output isolator is closed and the load is connected to the inverter via the
47. ndir P ath Model Colony Off University Road PUNE 411006 020 5676975 5670709 Fax 020 4004020 SECUNDARABAD Plotno 4 Sardar Patel Road SECUNDARABAD 500 003 Tel 040 7717263 7719196 Fax 040 7806502 Safety Procedure WARNING This is a class A UPS product In a domestic environment this product may cause radio interface in which case the user may be required to take additional measures WARNING HIGH EARTH LEAKAGE CURRENT EARTH CONNECTIONS 15 ESSENTIAL BEFORE CONNECTING THE INPUT SUPPLY This equipment must be earthed in accordance with local electrical codes WARNING THIS UPS DOES NOT INCORPORATE AUTOMATIC BACKFEED PROTECTION A WARNING LABEL MUST BE FITTED TO ALL EXTERNAL PRIMARY POWER ISOLATIONS STATING INSULATE THE UNINTERRUPTIBLE POWER SYSTEM BEFORE WORKING ON THIS CIRCUIT GENERAL As with other types of high power equipment dangerous voltages are present within the UPS and battery enclosure The risk of contact with these is minimised as the live component parts are housed behind a hinged lockable door Further internal safety screens make the equipment protected to IP20 standards No risk exists to any personnel when operating the equipment in the normal manner following the recommended operating procedures All equipment maintenance and servicing procedures involve internal access and should be carried out only by trained personnel BATTERIES Battery manufacturers supply d
48. nnected between the modules as illustrated in figure 4 Note Modifying a standard module for use with a one plus one system also involves replacing certain other circuit boards with modified versions and relocating certain minor assemblies This means that although it is not impossible to modify an existing 7400 module to form part of a one plus one system it is not a straightforward proposition The inter module parallel control responsibilities are complex but can be summarised as follows S ynchronisation As the outputs from both UPS modules are connected together to provide a single load supply it is imperative that the inverters are fully synchronised both in frequency and phase This is achieved by digitally locking the two inverter control oscillators Similarly as has already been mentioned it is necessary for the inverters to be synchronised to the bypass supply to enable a no break transfer to be achieved when the static switch transfers the load to the bypass supply The inverter control oscillators are therefore not only locked together but are also made to track the bypass frequency Current sharing The parallel control circuit compares the module s output current with that of its partner and is thereby able to effect current sharing between the modules by making fine adjustments of an individual module s output voltage Redundancy configuration A link in the parallel control logic determines whether the one plus
49. pass Isolator on both modules then Press the Inverter ON switch S7 on both modules Note The inverters of both modules are inhibited if either modules Maintenance Bypass Isolator is closed Response Mimic panel LEDs LS1 and LS3 should illuminate immediately to indicate that the input and bypass supplies are healthy Inverter will not turn ON unless output isolator is closed Inverter will not turn ON for 1 1 configuration at this stage Inverter will not turn ON at this stage with output isolator open if modules are in 1 1 configuration Mimic panel LED LS2 should illuminate The display should indicate a positive battery charging current Mimic panel LED LS4 should extinguish Mimic panel LED LS5 should illuminate to indicate that load is connected to the static bypass line Note In a Redundant Module system LS5 will not illuminate on the second module to be started as its static bypass line is inhibited Mimic panel LEDs 154 Inverter OK and LS6 Load on Inverter should illuminate after approximately 30 seconds NB In a Non Redundant Module system LS6 will not illuminate on the first module to be started until you reach this point in starting the second module LS5 should extinguish at the same time as LS6 illuminates LS7 alarm should extinguish 17 Series 7400 Single Phase 1 N UPS How to turn OFF the System but continue to provide Load power through the Maintenance Bypass
50. pass supply is also incorporated into the UPS design Its purpose it to enable the critical load to be powered from the mains bypass supply while the UPS is shut down for maintenance or troubleshooting Note The load is unprotected against mains power supply aberrations or failure when it is connected to either the static bypass or maintenance bypass supply Series 7400 Single Phase 1 N UPS 12 4 UPS Power Switch Configuration 12 Battery Circuit Breaker Figure 2 ilustrates what is known as the Split Bypass configuration This is the standard configuration for all 1PH Models In the Split Bypass configuration the static bypass line is switched by a separate isolator to a dedicated Bypass power source which also feeds the maintenance bypass line The power switch locations in the various 7400 models are shown in Figure 3 With the exception of the maintenance bypass isolator all the isolators shown must be closed during normal UPS operation Although it cannot be classified as a power the reset switch may be used as a part of the UPS operating procedure Fitted to the UPS Logic Board the reset switch is used by the operator to re transfer the load to the inverter following a detected overload or overtem perature fault The battery is connected to the DC Busbar through a circuit breaker fitted inside the battery Cabinet Rack or located adjacent to the batteries where a battery Cabinet Rack is not used This
51. rcuit board which governs the modules parallel control operation Series 7400 Single Phase 1 N UPS Bypass Supply Mains 1 12 2 7400 Module Design a c d c a c STATIC paid RECTIFIER INVERTER O Output SWITCH Supply BATTERY Figure 1 Series 7400 UPS Single Module Block Diagram As previously mentioned each of the two modules forming the one plus one system is basically a standard single module 7400 series UPS This section describes an individual module s operating principles the effects of the additional parallel control facilities on the standard module are described later The UPS basically operates as an AC DC AC converter see figure 1 The first conversion stage from AC to DC uses a 3 Phase fully controlled SCR bridge rectifier to convert the incoming mains supply into a regulated 432V DC busbar The DC busbar produced by the rectifier provides both battery charging power and power to the inverter section which is of a transistorised IGBT based pulse width modulation PWM design and provides the second conversion phase i e reconverting the DC busbar voltage back into an AC voltage waveform During normal operation both the rectifier and inverter sections are active and provides regulated load power whilst simultaneously float charging the battery In the event of a mains power failure the rectifier becomes inoperative and the inverter is powered solely from the battery Cri
52. relay is Off Relay switches On when signal is received as per the description Figure 27 Interconnection diagram for single module RAM and UPS Interface PCB 1 1 System 45 Series 7400 Single Phase 14N UPS 46 Chapter 5 Maintenance 5 1 Introduction This chapter contains the procedures necessary to effect general maintenance of the UPS module and battery Certain procedures entail gaining internal access to the UPS and should only be undertaken by a competent engineer who is familiar with the operation and layout of the equipment and understands the areas of potential hazard If you have any doubts concerning safety or the method carrying out any procedure then contact an approved service agent for assistance or advice If the locally approved agent is known to you then you should contact the Customer Services amp Support department at the address shown at the front of this manual The manufacturer offers customer training at a nominal fee if required Such training can range from a one day operator course to in depth training on maintenance and troubleshooting lasting several days and can be carried out at the manufacturer s plant or at the customer premises 5 2 Safety Precautions When working on the UPS remember that the equipment contains live voltages at ALL TIMES unless it is externally isolated from the mains supply bypass supply and batteries It is essential that the safety and precautionary notes conta
53. rocedure Study the connection diagrams in figures 19 amp 20 and positively identify the diagram relevant to your equipment before commencing cabling 1 Verify that the UPS equipment is totally isolated from its external power source and allthe UPS isolators are open 2 On each module connect the input supply cables between the mains distribution panel and the UPS input mains terminals ENSURE CORRECT PHASE ROTATION 3 Connect the UPS bypass supply cables between the bypass distribution panel and the UPS bypass supply terminals on each module 4 Connect the output terminals of both modules together in parallel ENSURE CORRECT PHASE PHASE CONNECTION R R amp N Then connect the UPS output cables between the paralleled UPS output terminals and load distribution panel Note If the UPS is to be commissioned before the load equipment is ready to receive power then SAFELY isolate the load cables 5 On each module connect the battery cables between the UPS battery terminals and its associated battery circuit breaker see figures 19 amp 20 As a safety precaution remove the battery fuse in the module until the arrival of the commissioning engineer OBSERVE THE BATTERY CABLE POLARITY WARNING Do not attempt to close the Battery Circuit Breaker before the equipment has been commissioned Series 7400 Single Phase 1 N UPS 10 Connect the safety earth and any necessary bonding earth cables to
54. s not producing its FAILED correct output voltage either because it has been switched OFF or due to an internal fault The alarm will accompany other alarms such as OVERLOAD LOAD ON BYPASS OVERTEMPERATURE Overtemperature is sensed by a normally closed thermostat 909 C operating fitted to each inverter heatsink If an overtemperature condition arises the audible alarm will accompany this message the inverter stops and load transfers to bypass after 3 minutes OVERLOAD The inverter overload has an inverse load time characteristic i e it will accept 12596 overload for 10 minutes and 150 for 60 seconds If this characteristic is exceeded then the load transfers to the bypass supply the inverter stops and the overload alarm annunciates The OVERLOAD alarm will annunciate as soon as the load exceeds 100 96 of the UPS rating and the load will transfer to bypass some time later depending on the degree of overload present BATTERY C B OPEN This is a status indication only Note that UPS if operating with the battery circuit breaker open and the mains power fails then the UPS output will also fail together with load power Also check battery fuses OUTPUT C B OPEN This is a status alarm This output isolator must be selected CLOSED at all times except when operating on the maintenance bypass supply RECTIFIER OFF This alarm is active whenever the battery charger rectifier is OR not producing its correct output voltage due
55. s pressed both modules are electronically shut down and both battery circuit breakers are tripped Power is removed from the critical load but pressing the emergency stop pushbutton will not remove the modules input mains supply unless an external contactor controlled via the emergency stop pushbutton is fitted in the mains supply line Series 7400 Single Phase 1 N UPS 19 Series 7400 Single Phase 14N UPS 20 Chapter 3 Installation Procedure 3 1 Introduction WARNING Do not apply electrical power to the UPS equipment before the arrival of the commissioning engineer WARNING The UPS equipment should be installed by a qualified engineer in accordance with the information contained in this chapter and the drawing package shipped inside the UPS cabinet WARNING BATTERY HAZARDS gt Special care should be taken when working with the batteries associated with this equipment When connected together the battery terminal voltage willexceed 400Vdc and is potentially lethal Eye protection should be worn to prevent injury from accidental electrical arcs If a sealed battery leaks electrolyte or is otherwise physically damaged it should be placed in a container resistant to sulphuric acid and disposed of in accordance with local regulations If electrolyte comes into contact with the skin the affected area should be washed immediately This chapter contains information regarding the positioning and cabling of
56. sign 2 1 2 3 Bypass Supplies 3 1 2 4 UPS Power Switch Configuration 4 1 2 5 Battery circuit breaker 4 1 2 6 One plus one parallel control 7 1 2 7 Common Battery 9 1 2 8 Operator Control Panel 10 1 2 9 Battery Circuit Breaker 13 1 2 10 Battery cabinet rack 13 1 3 Safety Precautions 14 13 1 General 14 1 3 2 Batteries 14 1 3 3 Test Equipment 14 1 3 A Personnel 14 2 Operating Instructions 15 2 1 Introduction 15 211 Redundant Module System 15 2 1 2 Non Redundant Module System 15 2 1 3 General Notes 15 3 Installation Electrical 21 3 1 Introduction 21 3 11 Equipment Positioning and Environmental considerations 22 3 1 2 Raised floor installation 22 3 13 Battery Location 23 3 2 Preliminary Checks 23 3 3 Connecting UPS Power Cables 25 3 3 1 Cable entry 25 3 3 2 Cable rating 25 3 3 3 Cable connections 26 3 3 4 Cabling procedure 26 3 4 Battery Circuit Breaker Boxes 32 4 1 4 1 1 4 1 2 4 1 3 4 2 4 2 1 4 2 2 4 3 4 3 1 4 3 2 4 4 5 1 5 2 5 3 5 3 1 5 3 2 5 3 3 5 3 4 5 3 5 6 1 6 1 1 6 1 2 6 2 Optional Equipment 35 5400 Interface Board 410021512003 36 5400 Interface board outputs 36 Remote control inputs 36 Calibration 36 4 W ay AS400 Interface Board 2100201120004 38 Remote control inputs 38 Calibration 38 Output Interface Remote alarms Board 100215120007 amp 3100215120002 40 Alarm Outputs 40 Remote control inputs 40 Remote Alarm Monitor RAM for Single Module and 1 1 U
57. signed for direct use in any life support application If you encounter any problem with the procedures contained in this manual you should seek immediate assistance from Emerson Network Power India Pvt Ltd Sales Office from whom the equipment was purchased Alternatively contact the Emerson Network Power India Pvt Ltd Customer Service amp Support department at the address shown below EMERSON NETWORK POWER INDIA PRIVATE LIMITED Plot No C 20 Road No 19 Wagle Industrial Estate Thane 400 604 INDIA Phone 491 22 5807000 5802388 Fax 491 22 5800829 5828358 Emerson Network Power India Pvt Ltd pursues a policy of continual product development and reserves the right to change the equipment without notice Q Copyright 2001 by Emerson Network Power India Pvt Ltd Unauthorized reproduction prohibited All rights reserved REGISTERED AND HEAD OFFICE EMERSON EMERSON NETWORK POWER INDIA PVT LTD PLOT NO C 20 ROAD NO 19 WAGLE INDUSTRIAL ESTATE THANE 400 604 MAHARASHTRA INDIA TELEPHONE 00 91 22 5807000 5802388 FAX 00 91 22 5800829 5828358 ZONAL OFFICES MUMBAI B 414 424 Bhaveshwar Arcade opp Shreyas cinema LBS Road Ghatkopar W MUMBAI 400 086 Tel 022 5002318 5002294 5002437 Fax 022 5002415 Pager 9623 988 000 Mobile 9820030917 9820030915 NEW DELHI 18 14 WEA Pusa Lane Karol Baug NEW DELHI 110 005 Tel 011 5724706 5781878 5781071 5744774 57664
58. static switch Control switches Seven tactile switches are located on the Operator Panel together with an emergency stop push button which is fitted with a safety cover to prevent inadvertent operation Switch S1 Vo Output volts When this switch is pressed the lower line of the LCD Display shows the output phase voltage w r t neutral Switch S2 Fo Output frequency When this switch is pressed the lower line of the LCD Display shows the output frequency Switch S3 lo Output current When this switch is pressed the lower line of the LCD Display shows the output current Switch S4 B Battery When this switch is pressed the lower line of the LCD Display shows the battery voltage and current Note that a discharging current is symbolised by a preceding minus sign plus autonomy time is displayed according to 96load for SMF batteries Switch S5 Alarm reset Pressing this switch cancels the audible alarm The alarm led and messages will remain active if a detected fault condition is still present Switch S6 Inverter OFF Pressing this switch turns OFF the inverter and causes the load to be transferred to the static bypass supply Series 7400 Single Phase 1 N UPS Switch S7 Inverter ON Pressing this switch activates the inverter and causes the load to be transferred to the inverter side of the static switch after the inverter voltage has had time to stabilise Switch S8 Emergency Stop
59. the copper earth busbar located on the floor of the equipment below the power connections Note The earthing and neutral bonding arrangement must be in accordance with local and national codes of practice Connect the battery circuit breaker control cables between the UPS auxiliary terminal block and battery circuit breaker controller board as shown in figures 19 amp 20 If an external emergency stop facility is to be used then remove the link between terminals 4 and 5 of the auxiliary terminal block and connect the normally closed remote stop circuit between these two terminals Note Terminals 8 and 9 on the auxiliary terminal block are connected to a pair of normally closed contacts on the UPS emergency stop button and will go open circuit when the emergency stop pushbutton is pressed These terminals can be used to control an external circuit breaker connected in the UPS input mains supply line to isolate the UPS input power when the emergency stop button is pressed Connect one plus one parallel control ribbon cables between the Parallel Interface boards of both modules Connect one ribbon cable between sockets CN1 on one board and CN2 on the other and connect the second ribbon cable between the remaining CN1 and CN2 sockets Refer figure 10 Maintenance bypass switch auxiliary wires at terminals 10 amp 11 should be connected to other module terminals 10 amp 11 Figure 10 Connecting the parallel interface cables
60. the one plus one UPS equipment and batteries Because every site has its peculiarities it is not the aim of this chapter to provide step by step installation instructions but to act as guide as to the general procedures and practices that should be observed by the installing engineer 21 Series 7400 Single Phase 1 N UPS 3 11 Equipment positioning and environmental considerations 3 12 Raised Floor Installation The UPS cabinets can be moved by fork lift or crane Fork lift apertures are provided in the sides of the base plate and are accessible after removing blanking covers fitted to the side panel ventilation grills Roof mounted eye bolts are fitted to enable the cabinet to be crane handled These can be removed once the equipment has been finally positioned WARNING Ensure that the UPS weight is within the designated S W L of any handling equipment See the UPS specification for weight details Do not move the battery cabinet with the batteries fitted The UPS module should be located in a cool dry clean air environment with adequate ventilation to keep the ambient temperature within the specified operating range If necessary a system of extractor fans should be installed to aid cooling air flow and a suitable air filtration system used where the UPS is to operate in a dirty environment Cooling air flow All the models in the 7400 range are forced cooled with the aid of internal fans Cooling air enters
61. tical load power is maintained under these conditions until the battery is fully discharged whereupon the UPS shuts down The end of battery discharge is assumed when the battery voltage falls to 320Vdc In case of 80 to 125 kVA 1 PH models the end of discharge is taken as 330Vdc The period for which the load can be maintained following a mains power failure is known as the system s Autonomy Time and is dependent upon both the battery A Hr capacity and the applied percentage load t is usual in larger installations to provide an alternative UPS input power source from a stand by generator when the mains supply fails Once such a generator has been brought on line and the UPS input power has been re established the batteries immediately begin to recharge Modern generators can be started and brought on line very quickly and where such a facility is incorporated into the UPS installation it results in short battery discharge periods and correspondingly rapid recharge times Series 7400 Single Phase 1 N UPS Maintenance Bypass Isolator ola Maintenance Bypass Line Bypass Bypass Isolator Supply Static Bypass Line Mains VES Suppl RECTIFIER INVERTER o Output PP Input Output Supply Isolator b Isolator Battery Y Breaker BATTERY A BLOCK SCHEMATIC FOR 230V OUTPUT 1PH UPS SYSTEM m Maintenance Bypass Line Maintenance Bypass Bypass Isolator Supply OLGA Static Bypass Line Bypass Isolator UPS Mains RECT
62. tput isolator is closed then press the Reset button on the UPS Logic Board b Ensure that slide switch I3 on the Static Switch Logic Board is in the AUTO position If the above checks prove unsatisfactory then seek qualified assistance Note that in one plus one system configured with a redundant module it is possible for one of the two modules to shut down due to fault for example without turning on its static switch In fact when in a redundant module configuration a module s static switch is disabled whenever its partnering module is on line Therefore in the event of a fault you are likely to see 154 155 amp LS6 all OFF Series 7400 Single Phase 14N UPS 6 2 Display Panel Message Interpretation The following table lists the various messages displayed on the operator panel together with a description of their interpretation DISPLAY MESSAGE INTERPRETATION EMERGENCY STOP This alarm indicates that the UPS was shut down by means of the local or remote if fitted emergency stop pushbutton which of course is normally due to operator action investigate why the emergency stop pushbutton was pressed If the emergency stop pushbutton was not pressed then check the continuity of the remote emergency stop line if fitted and if no remote emergency stop line is fitted then check that a link is connected between terminals 3 and 4 of the UPS auxiliary terminal block INVERTER OFF OR This alarm is active whenever the inverter i
63. uminate on the second module to be started as its static bypass line is inhibited The inverter should start automatically once the DC Busbar reaches its working voltage after about 30 seconds and when this occurs LS4 inverter OK will illuminate followed by LS6 load on inverter Note In a Non Redundant module system LS6 will not illuminate on the first module to be started until you reach this point in starting the second module Note that LS5 will extinguish when LS6 illum inates Mimic panel LED LS2 should illuminate and LS7 alarm should extinguish The display should indicate a positive battery charging current 16 Series 7400 Single Phase 1 N UPS How to turn ON the System from a Maint power down condition Complete this action on module at a time This procedure should be followed to start the one plus one from a MAINTENANCE power down condition i e where the load is being initially powered through the internal maintenance bypass supply Step Action Check that the UPS mains supply and bypass supply if separate is turned on externally Close the input isolator and static bypass isolator if separate For 110V systems Static bypass isolator is mounted in auxiliary cubicles Wait 20 seconds then close the battery circuit breaker Press the battery metering selector switch B S4 Press the Inverter OFF pushbutton S6 Close the Output Isolator Open the Maintenance By
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