Go to page of
Similar user manuals
-
Power Supply
American Power Conversion BR1200
2 pages 0.46 mb -
Power Supply
American Power Conversion AP7862J
24 pages 1 mb -
Power Supply
American Power Conversion 240-320kW 480V
31 pages 1.6 mb -
Power Supply
American Power Conversion RS/XS 1500
2 pages 0.46 mb -
Power Supply
American Power Conversion 5000RMB
23 pages 0.76 mb -
Power Supply
American Power Conversion SUA3000XL
19 pages 1.02 mb -
Power Supply
American Power Conversion PD150G6F
84 pages 1.97 mb -
Power Supply
American Power Conversion 220 VAC
21 pages 0.39 mb
A good user manual
The rules should oblige the seller to give the purchaser an operating instrucion of American Power Conversion SYMINIF, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.
What is an instruction?
The term originates from the Latin word „instructio”, which means organizing. Therefore, in an instruction of American Power Conversion SYMINIF one could find a process description. An instruction's purpose is to teach, to ease the start-up and an item's use or performance of certain activities. An instruction is a compilation of information about an item/a service, it is a clue.
Unfortunately, only a few customers devote their time to read an instruction of American Power Conversion SYMINIF. A good user manual introduces us to a number of additional functionalities of the purchased item, and also helps us to avoid the formation of most of the defects.
What should a perfect user manual contain?
First and foremost, an user manual of American Power Conversion SYMINIF should contain:
- informations concerning technical data of American Power Conversion SYMINIF
- name of the manufacturer and a year of construction of the American Power Conversion SYMINIF item
- rules of operation, control and maintenance of the American Power Conversion SYMINIF item
- safety signs and mark certificates which confirm compatibility with appropriate standards
Why don't we read the manuals?
Usually it results from the lack of time and certainty about functionalities of purchased items. Unfortunately, networking and start-up of American Power Conversion SYMINIF alone are not enough. An instruction contains a number of clues concerning respective functionalities, safety rules, maintenance methods (what means should be used), eventual defects of American Power Conversion SYMINIF, and methods of problem resolution. Eventually, when one still can't find the answer to his problems, he will be directed to the American Power Conversion service. Lately animated manuals and instructional videos are quite popular among customers. These kinds of user manuals are effective; they assure that a customer will familiarize himself with the whole material, and won't skip complicated, technical information of American Power Conversion SYMINIF.
Why one should read the manuals?
It is mostly in the manuals where we will find the details concerning construction and possibility of the American Power Conversion SYMINIF item, and its use of respective accessory, as well as information concerning all the functions and facilities.
After a successful purchase of an item one should find a moment and get to know with every part of an instruction. Currently the manuals are carefully prearranged and translated, so they could be fully understood by its users. The manuals will serve as an informational aid.
Table of contents for the manual
-
Page 1
User's Manual SYMINIF SYMINIF-PD SYMSTRF SYMSTRF-PD[...]
-
Page 2
Important Safety Instructions! Important Safety Instructions! Important Safety Instructions! Important Safety Instructions! Important Safety Instructions! Please r ead this manual! V euillez lir e ce manuel! Bitte lesen Sie dieses Anleitungshandbuch! ¡Se ruega leer este manual de instrucciones! This User's M anual pro v ides safety , installa[...]
-
Page 3
Entire contents copyright © 1997 American Power Conversion. All rights reserved; reproduction in whole or in part without permission is prohibited. Symmetra, Power Array, SmartSlot, SmartCell and SNMP Adapter are trademarks of APC. Power- Chute and PowerDoctor are registered trademarks of APC. All other trademarks are the property of their respect[...]
-
Page 4
T able of Contents INTR ODUCTION The ory of Op erati on ............................................................................................................ ..... i Modes of Op era tion ............................................................................................................. ..... iii SAFETY INFORMA TION Symbols U s ed I[...]
-
Page 5
5. SET TING UP THE POWER ARRA Y Over vi ew of Se tup .............................................................................................................. ....... 5-1 Frame Le veling Procedure ....................................................................................................... . 5-1 Installing Batter y Modules ..........[...]
-
Page 6
The APC Symmetra TM Power Array is a scalable, redundant power protection sys- tem for multiple servers and business critical applications. This is an introduction to the Symmetra TM Power Array. Introduction[...]
-
Page 7
Thank Y ou! Thank y ou for in vesting in the S ymmet ra TM P ow er A rray . Please read this User's Manual thoroughly prior to installing the sys- tem. It provides important information about installing and using the Symmetra TM safely and effe ctivel y . Symmetra TM Overview The Symmetra TM is a high-performance, uninterruptible power “ arr[...]
-
Page 8
ii Power Pr ocessing System The power processing system delivers conditioned AC output power with a low disto rtion sinewav e . U nder normal operat- ing conditions, power is received from the AC utility power source, conditioned by the power processing system, and de- livered to the load equipment. In the event of an AC utility source failure, the[...]
-
Page 9
iii Modes of Operation The P ower Array functions in one of four modes of operation, depending on user commands, the status of the AC utility voltage, and the condition of the Symmetra TM itself. The four modes are Load-Disconnect, On-Line, On-Battery , and By - pass. The P owerV iew interface reports the operating mode. Load-Disconnect Mode In the[...]
-
Page 10
On-Battery Operating Mode Whe n in the on-battery mode, the P ower Array dra ws DC power from the battery source, converts it to conditioned AC power that is then delivered to the load equipment. Symmetra TM typically enters this mode in the event of a utility power failure. It will also operate in the on-battery mode during a user initiated batter[...]
-
Page 11
Definitions The following definitions are used in this manual and will be helpful in understanding Symmetra TM . Redundancy - Indicates the presence of one or more extra modules, allowing the system to sustain a fault and continue to pr ov ide full prot ection t o the load. T o be fully redundant, the system should be configured with a redundant in[...]
-
Page 12
Important Safety Information Read this safety information in its entirety, before proceeding with the installation & operation of the Symmetra TM Power Array. Safety Information[...]
-
Page 13
Symbols Used In This Manual The following symbols appear in this User's Manual : CA UTION/D ANGER - Caution indicates risk of bodily harm. Danger indicates that a risk of elec- trical shock is present and the associated proce- dures should be follo wed carefull y . “ST AND BY MODE” - The sy stem e nable switch, and the input circuit break [...]
-
Page 14
Safety Safety-2 n CA UTION: Risk of Electr ical Shock and Energy Hazard, 120V , 7.2 Ah battery module. Before r eplacing battery modules, remove conductive jewelry such as chains, wrist watches and rings. High short circuit current through conductive materials could cause severe burns. n CA UTION: Do not dispose of batteries or battery mod- ules in[...]
-
Page 15
This chapter provides an illustrated descrip- tion of the Symmetra TM Power Array sys- tem, and each of the modular components. Before proceeding, examine the illustration below. It depicts a MasterFrame (16kVA) Power Array as it appears during normal operating conditions. The grill covers are correctly installed, and the Powerview Interface is mou[...]
-
Page 16
The Power Array Frame The Symmetra TM Po wer Ar ray frame serves as the base for the modular components of the system. The MiniFrame pro- vides bays for three power modules, and two battery mod- ules. The MasterFrame provides bays for five power mod- ules, and four battery modules. Both frames provide one bay at the top right that houses the main i[...]
-
Page 17
1-2 Chapter 1 - Physical Representation Powerview User Interface The P owerview incorp orates a 4 x 20 alphanumer ic L CD screen with four navigation keys, four LED status indicators, and an audible alarm beeper . The displa y co mmunicates with the P ow er Array via a local RJ45 connector cable that is hardwired into the top po w er module ba y . [...]
-
Page 18
Main Intelligence Module (MIM) The MIM is the onboard c omput er for the P ower Array sys- tem. It gathers and processes data, including monitoring the condition of each of the modules. Fig 1-6 Main Intelligence Module The P owerV iew functions as the user inter face f or the MIM, and is used to access data, and to configure the system. When a redu[...]
-
Page 19
Rear View of a Power Array The rear of a MiniFrame system is displa yed belo w . The r ear of a M aste rFrame is similar . Each of the components ar e described in a section that follows: System Enable Switch The syste m enable switch r egulates inte rnal power to the P ower Ar ray . I t does not power the load. W h en switc hed to the “ on ” p[...]
-
Page 20
This chapter provides the site requirements for a Symmetra TM Power Array system. Included are structural and environmental requirements, weights, dimensions and the heat output of a functioning system. Chapter Two Site Preparation[...]
-
Page 21
Space and W eight Considerations All P ower Arra y fr ames are 24” wide and 27” deep . Refer to table 4-1 for dimensions and weights of fully loaded systems. T ab le 2-1 P ower A rra y Dimensions and W e ights (F ully Loaded with Modules) Make sure there is adequate space and structural integrity to support the ful ly loaded frame. R e fer to f[...]
-
Page 22
2-2 Chapter 2 - Site Preparation[...]
-
Page 23
Because the installation process begins on the loading dock, this chapter provides the procedures for inspecting the Symmetra TM Power Array frame and modular components when they arrive. It includes procedures for moving the frame to the installation site, removing it from the pallet, and preparing the frame and the modules for installation. Chapt[...]
-
Page 24
Initial Inspection The Symmetra TM Pow er A rray system is shipped on pallets. The system frame is bolted to one pallet, and the modules are boxed, and stacked on one or two additional pallets. Check For Damage 1. Inspect the Packaging - for damage or signs of mishan- dling before moving the pallets. If damage is detected, note it on the Bill of La[...]
-
Page 25
3-2 Chapter 3 - Unpacking and Installing Frame Remove Packing Materials Note: It is recommended that all packaging materials be re- moved, and temporarily stored, in case any of the system com- ponents must be returned to the factory . 1. Remove the Shipping Bands - Using appropriate precau- tions, carefully cut the plastic shipping bands. 2. R emo[...]
-
Page 26
Chapter Four Wiring Requirements & Procedures This chapter is addressed to the licensed electrican who will install the input, output and remote emergency power off hardwiring connections. Circuit requirements and minimum wire gauges are included.[...]
-
Page 27
Symmetra TM Wiring n Al l power and cont rol wir ing must be installed by a lic e ns e d e lec t r ic ian onl y . A ll input, output and e mer- gency power off wi ring must comply with the National Elect ric Code (NEC) and applicable local codes. n It is highly recommended that flexible metal conduit be used whe n hard wir ing the Power A rray . Th[...]
-
Page 28
Input Wiring n V er ify that all incoming line voltage (utility p ower) and low voltage (control) circuits ar e de-energ ized, and locked out before installing cables or making connec- tions, whe ther in the junction box or to the Symmetra TM Po w e r Ar ra y. n Al ways verify that all batter y modules are r emoved and all batte ry ex tension frame[...]
-
Page 29
Fig 4-4 I nput W iring P athwa y 4. Connect input wires to the input t erminal block c onnec- tions labelled L1, L2/N and Gr ound as show n in figure 4-5. Make sure ther e ar e no loose strands and that the terminal connection scr ews are s ufficiently tightened. Connections are the same for 208V or 240V inc oming v oltages. Not e: In N orth Americ[...]
-
Page 30
Fig 4-6 V oltages Delivered to the O utput T erminal Block . Fig 4-7 Output W ir ing N e utral G round Bond Output Over curr ent Pr otection Symmetra TM requires output voltage o ve rcurrent pr otection in acco rdance with the rating s in table 4-2. If an optional PDU is installed on the P ower A rray , the panel circuit break er acts as the ove rc[...]
-
Page 31
Fig 4-9 Output W iring Configuration for 120V/208V/240V O utput V oltages Fig 4-8 Output W ir ing C onfiguration for 120V/240V Output V oltages Chapter 4 - Electrical Requirements and Pr ocedur es 4-5[...]
-
Page 32
output wiring to the output terminal connections. Make s ure there are no loose strands and that the terminal c onnection screws are s ufficiently tightened. Gr ounding Electr ode (Optional) If instal ling an optional grounding electrode, use the 1/2” knockout in the ou tput wir ing panel, and attach the ground- ing electrode t o the output termi[...]
-
Page 33
REPO Switch Installation n V er ify that all incoming line voltage (utility p ower) and low voltage (control) circuits ar e de-energ ized, and locked out before installing cables or making connec- tions, whether in the junct ion box or to the Symmetra TM Po w e r Ar ra y. n Al ways verify that all batter y modules are r emoved and all batte ry ex t[...]
-
Page 34
4-8 Chapter 4 - Electrical Requirements and Pr ocedur es 5. Make sure ther e are no loose strands and that the terminal connection scr ews are s ufficiently tightened. 6. Af ter the electrical wiring test/checklist is complet ed (end of this chapt er), replac e the REPO acc ess panel. Contact Closur e REPO Switch Connection Connect the c ontact clo[...]
-
Page 35
q 6. U sing the P owerV ie w displa y , read and reco rd the re - ported input voltage fr om the startup screen. (“122V in ” in figure 4-16 indicates that the inpu t voltage is 122V .) No te : The Po werV iew may display one or more messag es such as “Number of Batter y Mod ules Changed. ” Press the ESC key until the star tup scree n appear[...]
-
Page 36
4-10 Chapter 4 - Electrical Requirements and Pr ocedur es[...]
-
Page 37
Set up procedures include leveling the frame, installing the battery and power modules and connecting the Powerview user interface. Chapter Five Setting Up The Power Array[...]
-
Page 38
Setup of Power Array After the wiring connections have been installed and checked by the electrican, the P ower Arra y is ready for the installation of the battery and power modules. After they are installed, the louvered cover grills are replaced onto the frame, and the P owerV iew user int erface is mount ed on the frame. Frame Leveling Pr ocedur[...]
-
Page 39
Installing the Battery Modules n Each battery module weighs 60 lb. Battery module installation and handling requires two people to lift the module. Pr ocedure for Battery Module Installation 1. Clear all battery module bays of any debris. Make sure the alignment tr acks are c lear , and free of obstruct ion. Fig 5-2 Location of Battery Module Bays [...]
-
Page 40
Installing the Power Modules The vertical column of bays at the left of the frame house the power modules. See Figure 5-5. Pr ocedur e for Power Module Installation 1. Clear all power module bays of debris. Make sure the alignment groov es are clear , and free of obstr uction. No te : The P o werView cab le must be held up and out o f the way , whi[...]
-
Page 41
Chapter 5 - System Setup 5-4 Installing the Main Intelligence Module (MIM) The main intelligence module is factory installed. The follow- ing procedures is provided in the event that the module is removed, or needs to be replaced. Pr ocedur e for Main Intelligence Module (MIM) Installation 1. The main intelligence module fits into a bay at the uppe[...]
-
Page 42
Installing the PowerView Interface An 18” RJ45 cable (supplied) is provided in bay “L1. ” It is used to c onnect the P owe rV iew to the P ower Arra y . Use the fo llow- ing proc edure t o install the P owerV iew interfac e to the fr ont of the frame. 1. Remove the cover grill from the top level of the frame. 2. Feed the end of the RJ45 cable[...]
-
Page 43
Chapter 5 - System Setup SmartSlot TM Interface Accessories SmartSlot TM bays at the rear of the frame accomodate up to four accessory cards. SmartSlot TM cards are available through the dealer , or b y calling APC at 1-888-809-TECH. Note: APC has enhanced the SmartSlot TM Accessories to func- tion with Symmetra TM . Before installing any SmartSlot[...]
-
Page 44
Installation T est The following test procedure is intended to ensure that the MIM, RIM and the power and battery modules have been correctly installed. It will verify that the Symmetra TM is re- sponding correctly and is ready to deliver power to the load equipment. It is intended that the installer of the Symmetra TM system will perform this test[...]
-
Page 45
q 6. Press the down arrow key to scroll to the power mod- ule status screen. See figure 5-19. Fig 5-19 Power Status Screen V erfiy that the number of power modules reported (3 in figure 5-19) is the same as the actual number of power modules that are installed. V erify that the number of “ bad” modules re- ported is zero. The first line of the [...]
-
Page 46
q 10. Place the Symmetra TM into Bypass by following the screen sequence in figure 5-23. Fig 5-23 Initiate a Self-T est Sequence The Bypass LED should light, and the P o werV iew display wil l indicate that the Symmetra TM is bypassed. q 11. Return the Symmetra TM to the on-line mode of opera- tion by following the screen sequence in figure 5-24. F[...]
-
Page 47
5-10 Chapter 5 - System Setup[...]
-
Page 48
Chapter Six PowerView Display The PowerView Display is used to control the Power Array, configure functionality, monitor system components, set alarm thresholds, and to compile and review a log of power events. The Powerview contains the audible and visual alarms that are initiated when an alarm event occurs.[...]
-
Page 49
The PowerView Display The P owerV iew Display is the primar y user interface for the Symmetra TM P ower Array system. It is used to control the P ower Array , to configure the functionality , mo nitor the sys- tem, set alarm thresholds, and it performs as the audible and visual alarm. Physical Featur es of the Power view The P owerV iew Display inc[...]
-
Page 50
Navigation Keys The four navigation k e ys located on the fr ont of the P o werv iew interface are used to move through the screen menus, select menu items, and to either access information, or change sys- tem parameters. A small arrow at the left side of the display screen indicates which menu item or parameter is selected. The navigation k eys ar[...]
-
Page 51
The Startup Screen When the sy stem enab le switch is switched to the “ on ” p osi- tion, the “Star tup Screen ” appears. See figure 6-2. This screen is the factory default, and can be user configured to display other information. N ote that all P owerV iew screens will “t ime out” a fter t en m inute s of i nac tiv it y . It rea ppe ar[...]
-
Page 52
Chapter 6 - The PowerView Display 6-4 Setup n Set the system shutdown parameters n Set the alarm thresholds n Set input/output frequency sync range n Set system to either go, or not go to bypass if frequency sync is out of range when a power module failure occurs n Set “self test at powe r up ” on or off n Set system ID n Set output voltage n C[...]
-
Page 53
Chapter Seven Configuring & Operating the Symmetra TM This chapter includes the procedures to use the PowerView to configure the system, and to initiate delivery of conditioned power to the load equipment. You will use the PowerView interface to set the configuration variables and alarm thresholds, and to review the status of the components of [...]
-
Page 54
Intr oduction The following pages comp rise the inital configuration of the Symmetra TM system. Read and follo w these steps carefully . When they are c ompleted, the Po wer A rray syste m will b e configur ed to pr ovide optimal power p rot ection for the data cente r , o r other load equipment. The following pr ocedu res assume that the P owe r A[...]
-
Page 55
Step 3 : Review Status Conditions In this step , the status conditions of the Po wer Array are ac- cessed with the P o werV iew. Status information is used as “r efer ence ” informat ion about the c ondition of the P ower Array , and the modular components. Review the following status screens for co ntent. Status information is accessed via the[...]
-
Page 56
% Load With No Redundancy Status Scr een Fig 7-6 P ercent Load W ith N o R edundancy S tatus Screen % Load A ssuming N o Redundancy - displays the per cent of the total P ower A rray capacit y that is required b y the load. The total P ower Array capacit y is defined by the number of power modules installed, multiplied by 4kV A and is limited by th[...]
-
Page 57
Step 4 : Perform a Self T est A P o wer Array self test measures syst em performanc e by se- quentially placing each power module on battery , and then briefly placing all of the power modules on battery . 1. The following sequence on the P owerV iew w ill initiate a system sel f test: Fig 7-13 Initiat e a Self T est Sequence 2. The P owe rV iew di[...]
-
Page 58
Step 6 : Configure Alarms Specific alarm parameters can be configured into the P o werV iew . Follo w this pr ocedur e to set the alarm thresh- olds that best fit the data center req uireme nts. U se the follo wing sequence on the P ow erV iew to open the alarm thresholds selection screen : Fig 7-16 Opening the A larm Thresholds Selection Sc reen A[...]
-
Page 59
Step 7 : Review Diagnostic Information The P o werV iew allows the user to ac cess an exte nsiv e set of self-diagnostics information. F ollow this proc edure to re- view the diagnostic screens. The following sequenc e on the P owerV iew opens the diag- nostics menu scree n: Fig 7-18 Opening the D iag nostics Menu Sc reen Diagnostics Menu Scr een F[...]
-
Page 60
The modular components of the Power Array are user replaceable. This chapter provides the procedures for identifying and replacing a failed module, and for verifying that the new module is installed and functioning properly. A toll-free telephone number is provided that can be used to contact APC for replacement modules. Chapter Eight Module Replac[...]
-
Page 61
Module Replacement The battery modules, power modules, intelligence module and the redudant intelligence module are user replaceable. If any module fails, and is protected with at least one functioning “r edundant” module, it can be “ hot-swapped, ” meaning the failed module can be replaced without interrupting power to the load equipment. [...]
-
Page 62
Battery Module Replacement The following section provides the procedure for replacing a battery module. Removing a Battery Module n The battery module weighs appro x. 60 lbs. T wo people are required to lift and handle a battery module. 1. Remove the grill cover from in front of the module to be replaced. Note that the module bays are labeled to co[...]
-
Page 63
Power Module Replacement The following section provides the procedure for replacing a power module. Removing the Power Module 1. Remove the grill cover from in front of the module to be replaced. Note that the module bays are labelled to corre- spond with the P owerV iew display . 2. If replacing a non-redundant power module, or if the power module[...]
-
Page 64
8-4 Chapter 8 - Module Replacement Main Intelligence Module Replacement The following section provides the procedure for replacing the main intelligence module. Removing the Main Intelligence Module 1. Remo ve the grill cov er from the top lev el of the P owe r Array . Note: The intelligence module resides under the redundant intelli- gence module,[...]
-
Page 65
As the Symmetra TM monitors the system, it reports various messages on the display, including alarm status, changes in system configuration, etc. This chapter provides a list of these messages and what each of them means. It provides the appropriate corrective action for each of the messages. Note that more than one of these messages may occur at o[...]
-
Page 66
w e i V r e w o P e g a s s e M g n i n a e M n o i t c A e v i t c e r r o C p U - t r a t S d e g n a h c s e l u d o m r w P # . N O t s a l e c n i s s a h e l u d o m r e w o p e n o t s a e l t A m o r f d e v o m e r r o , d e d d a n e e b a r t e m m y S e h t M T t s a l e h t e c n i s s a w d n a m m o c N O r w P e h t e m i t . d e u [...]
-
Page 67
w e i V r e w o P e g a s s e M g n i n a e M n o i t c A e v i t c e r r o C l a r e n e G s u t a t S . d e s a e r c n i s e i r e t t a b f o # s a h e l u d o m y r e t t a b e n o t s a e l t A . m e t s y s e h t o t d e d d a n e e b . y r a s s e c e n n o i t c a e v i t c e r r o c o N . d e s a e r c e d s e i r e t t a b f o # s a h e [...]
-
Page 68
w e i V r e w o P e g a s s e M g n i n a e M n o i t c A e v i t c e r r o C e l u d o M e r u l i a F e l u d o M y r e t t a B d a B d n a , d e l i a f s a h e l u d o m y r e t t a b A . t n e m e c a l p e r s e r i u q e r e l u d o m r o f 8 r e t p a h c o t r e f e R . e r u d e c o r p t n e m e c a l p e r e l u d o M r e w o P d a B d [...]
-
Page 69
w e i V r e w o P e g a s s e M g n i n a e M n o i t c A e v i t c e r r o C s s a p y B n i k c u t s r o t c a t n o c s s a p y B . n o i t i s o p e n i l - n o a r t e m m y S M T - n o e h t n i k c u t s s i o t o g t o n n a c d n a , n o i t i s o p e n i l . s s a p y b , r e d i v o r p e c i v r e s t c a r t n o c r u o y l l a C : t [...]
-
Page 70
w e i V r e w o P e g a s s e M g n i n a e M n o i t c A e v i t c e r r o C l a r e n e G t l u a F p m e T l a n r e t n I , t l u a F s t i m i l l a m r o n d e d e e c x e e r o m r o e n o f o e r u t a r e p m e t e h T . t o h o o t s i s e l u d o m y r e t t a b . s e l u d o m d e t a e h r e v o e h t e c a l p e R e l u d o m r o f 8 [...]
-
Page 71
9-6 Chapter 9 - PowerView Display Messages[...]
-
Page 72
A comprehensive index of all terms and concepts Index[...]
-
Page 73
Index A Alarms Configuring, 7-5 Po w e r V i e w, 6 - 1 Threshold status, 7-4 A udible alarm, sile ncing, 7-5 B Battery extension connector Description, 1-4 Battery modules Description, 1-2 Installation, 5-2 Ordering replacement, 8-1 Replacement procedure, 8-2 V erification, 8-2 BTU output, 2-1 C Capacity definition (v) D Diagnostics screens Batter[...]
-
Page 74
Index P P ackaging , 3-1 P ower distribution unit, 1-4, 4-6 P ow er off procedure, safet y-1 P ower module Description, 1-2 Installation, 5-3 Ordering information, 8-1 Replacement procedure, 8-3 V erificat ion, 8-3 P owering the loads, 7-2 P owering the Symmetra TM , 7-1 P owerV iew display Description, 1-2, chapter 6 Installation, 5-5 LED indicato[...]
-
Page 75
Entire contents copyright © 1997 American Power Conversion. All rights r eser ved; repr oduction in whole or in part without perm ission is prohibited. Symmetra, Power Array , SmartSlot, and PowerView are r egister ed trademarks of APC. All other trademarks are the pr operty of the ir respective owners. T oll fr ee technical support: 1-888-809-TEC[...]