Power Protection Handbook for IBM System i and System p

Transcription

Power Protection Handbook for IBM System i and System p Applications
Powerware 9910 UPS
International
July 2008
Table of Contents
Resources and Sales Tools on the Web: powerware.com/ibm ......................................................... 2
9 Power Problems and Their UPS Solutions..................................................................................... 3
UPS Topologies: Online, Line-Interactive, and Standby.................................................................... 4
Frequently Asked Questions ............................................................................................................. 5
Preventing UPS Problems................................................................................................................. 6
RoHS Compliant and pre-RoHS Part Number Cross Reference Chart ............................................. 7
Glossary of Power Terms.................................................................................................................. 8
Commonly-Used Acronyms............................................................................................................. 10
Recommended Powerware 9910 UPS by Application..................................................................... 11
How Much Battery Runtime Do You Need? .................................................................................... 12
Powerware 9910 UPS Models
Attributes at a Glance...................................................................................................................... 13
Powerware 9910-P14...................................................................................................................... 14
Powerware 9910-P16...................................................................................................................... 17
Powerware 9910-E30...................................................................................................................... 20
Powerware 9910-E33...................................................................................................................... 23
Powerware 9910-E64...................................................................................................................... 26
Powerware 9910-E65...................................................................................................................... 30
Powerware 9910-E83...................................................................................................................... 33
Powerware Software and Connectivity............................................................................................ 37
Note: Due to continuing product improvement programs, all specifications are subject to change
without notice. For the latest information, go to www.powerware.com/ibm.
Eaton, Powerware, ABM, LanSafe, ConnectUPS, and X-Slot are trade names, trademarks and/or
service marks of Eaton Corporation or its subsidiaries and affiliates. All other trademarks are
property of their respective owners.
www.powerware.com/ibm +44 (0) 845 177 3410
1
Resources and Sales Tools on the Web: powerware.com/ibm
The following information is available to you on the web or from your Eaton® representative. Please note that the web site
is updated more frequently than this handbook. Download the latest information from www.powerware.com/ibm.
Sales Tool/
Reference Chart
2
Description
9910 UPS Validator
Verify your IBM 9910 UPS e-config solution and ensure that you have the complete
list of components and options
e-Config Updates
See the latest release dates for the most recent versions of the e-config tool and
their respective changes
i5 Rack UPS Chart
Configure the appropriate Powerware 9910 UPS for your POWER (IBM i (i5/os))
and System i rack applications
p5 Rack UPS Chart
Configure the appropriate Powerware 9910 UPS for your POWER (AIX and Linux),
and System p rack applications
How to determine what parts are
included with your 9910 UPS
What to know what components are included with your 9910 UPS kit? Find out the
various components and options available for the 9910 UPS models
How much battery runtime do you
need
Calculate how much runtime you require and find out how many minutes of battery
back up time Powerware 9910 UPS models provide
IBM UPS Support Knowledge Base?
Have an application, product or power configurator question? Check out this data
base of frequently asked questions
IBM Feature Codes and Powerware
Part Number Cross Reference Chart
Wondering what an IBM Part Number, IBM Feature Code or Powerware part
number is? Find out with this cross-reference chart
Eaton Contact Information
Want to know how to contact your local Eaton representative? View the regional
Eaton Representative information
Powerware Power Protection Handbook for IBM 9910 International System i and System p Applications
9 Power Problems and Their UPS Solutions
3
UPS Topologies: Online, Line-Interactive, and Standby
Online UPS Technology
Standby UPS Technology
Online UPSs are designed to provide complete power
protection. They isolate equipment from all types of power
problems by continuously regulating the AC power for your
systems.
Standby UPSs are intended to provide a low price solution for
power failures, power sags and power surges. Utility power is
provided during normal operation. Utility voltage and frequency
changes are not regulated by the UPS and pass through to the
equipment. When voltage or frequency changes become too
severe, the UPS converts DC battery power to AC power to
run the equipment.
Online UPSs isolate equipment from harmonic distortions and
are strongly recommended for critical applications that must
meet the 5%maximum harmonic requirement (stated in major
computer manufacturer specifications and installation guides).
Battery conservation is an essential factor for a customer
deciding to purchase an online UPS. An online UPS uses the
battery less often than any other UPS technology, therefore
increasing the life expectancy of the battery. Eaton’s robust,
state-of-the-art online UPS provides superior protection for
your communication and networking systems.
Standby UPSs provide protection from simple power problems
as described in items 1, 2 & 3.
Note: Standby UPSs do not provide protection from power
problems 4 – 9 (see page 5).
Note: Online UPSs provide protection from all 9 power
problems listed on page 5.
Line-Interactive UPS Technology
Line-interactive UPSs offer basic power protection at midrange prices. In addition to protection against power failures,
power sags and power surges, line-interactive UPSs protect
against brownouts and electrical line noise. This design offers
low-grade voltage regulation by “boosting” the utility voltage up
or down before passing it through to your electronic system.
Note: Line-interactive UPSs do not provide protection from
power problems 6 – 9 (see page 5).
4
Frequently Asked Questions
1.
What happens if the UPS is overloaded? For example, if the
protected equipment and/or load draws more current than
the UPS can provide.
The UPS transfers the load to bypass (for a few minutes) until the
overload condition is reversed. If the overload condition
continues, the UPS automatically shuts down.
2.
What causes a UPS to be overloaded?
There are two possible answers: (1) the UPS was undersized
(e.g. the load is rated at 1200 VA but a 1000 VA UPS was
provided), or (2) the customer plugs more equipment into the UPS
than it was designed to handle.
3.
How do you convert watts to VA?
Multiply watts by the power factor 1.3.1000W = 1300 VA
4.
How do you convert amps to VA?
Multiply amps by voltage (230 volts in Europe). 10A x 230V =
2300 VA
5.
How long does it take for the UPS batteries to recharge?
On average it takes 10 times the discharge time for the UPS
batteries to recover. (A 30-minute battery discharge requires
about 300 minutes to recharge.) After each power outage, the
recharge process begins immediately. It is important to note that
the load is fully protected while the batteries are recharging.
However, if the batteries are needed during the recharge time, the
holdover time available will be less than it would have been if the
batteries were fully charged.
6.
Where can I get technical help?
®
Contact your territory representative, call the IBM UPS Hotline at
+44 (0) 845 177 3410, or visit powerware.com/ibm.
7.
What is the average lifespan of the batteries used in the
UPS?
®
The typical life of batteries in a Powerware UPS with ABM
technology is 4 to 6 years. Overall service life depends on a
number of factors, including temperature and the number of
battery discharges.
8.
Does the UPS need to have a load on it to charge its
batteries?
The UPS should have a minimum of 10% load for UPS to charge
its batteries. Once connected to a standard supply of electricity
(via input plug or hardwiring), your UPS should charge its
batteries regardless of how much load, if any, is attached to it.
9.
If my UPS is in storage, how often should I charge the
batteries?
If a UPS is in storage, we recommend that you plug it in every 6
months to prevent the batteries from becoming fully discharged
and significantly shortening their service life. We recommend that
you follow the same guidelines for charging external batteries.
10. I came across a spare, unused Powerware UPS that we had
in storage. Is it still operable?
If the UPS has been in storage for more than 6 months, the
batteries inside your UPS may be bad. If your UPS has been in
storage without any charge for longer than a year, it’s likely that
the batteries need to be replaced.
11. How can you be sure UPS batteries are in good condition in
order to insure they have maximum holdover in the event of
a power failure? What preventive maintenance procedures
should be done and how often should they be done?
The batteries used in the UPS and associated battery modules
and cabinets are sealed, lead-acid batteries often referred to as
maintenance-free batteries. While this type of is sealed and you
do not need to check the fluid level in the battery, they do require
some attention to assure proper operation. You should inspect the
UPS a minimum of once per year by initiating a self-test of the
UPS.
12. I already have surge protection. Why do I need a UPS?
Surge protection will not keep your business and phones
operational during a blackout. In addition, surge protectors do
nothing to improve the quality of power feeding your sensitive and
expensive telecom equipment. The Powerware UPS provides
perfect, clean power to your equipment at all times. Over time,
poor quality power will degrade your equipment.
13. What’s the difference between a surge protector and a UPS?
A surge protector provides just that—surge protection. In addition
to surge protection, a UPS continually regulates incoming voltage
and provides battery backup in the event of a power failure. You’ll
often see surge protectors plugged into a UPS for added surge
protection and additional output receptacles.
14. We have heard that UPS models greater than 750 VA cannot
be installed behind larger UPS models. Is this true?
No. If you are connecting a UPS to a source other than directly to
the utility, the source (such as another UPS or generator) must be
3 to 5 times larger than the smaller UPS.
15. How much capacity of a UPS should I use?
To allow for future expansion, we recommend that you install a
UPS at approximately 75% capacity. In addition, the batteries
degrade overtime so by over sizing you provide room for error. In
the powerware.com/ibm sizing tool we have included a “capacity
used” column.
16. How is battery runtime impacted if I reduce the load on the
UPS?
There can be a significant increase in runtime. Generally
speaking, a UPS that provides 5 minutes at full load will provide
15 minutes at half load.
17. Why is power quality such a problem today?
Today’s high-tech IT equipment and control units are much more
sensitive to electrical disturbances and are more important to the
critical functions of many businesses than in the past. As a result,
power quality problems today are more frequent and more costly
than ever.
18. Are power quality problems always noticeable?
No. In many cases, disturbances can cause imperceptible
damage to circuits and other components, a major cause of
premature equipment failure and problems like computer lockups.
Many power quality problems go unresolved resulting in lost
revenue and data.
5
Preventing UPS Problems
The following observations can help you avoid potential problems
with the sale and installation of a UPS. Observation #1 alone will
protect you from a large percentage of problems. If you have any
questions about this information, please contact your Eaton
consultant for IBM UPS sales.
1.
2.
3.
4.
6
Always be sure to advise the customer which wall receptacle
is required to plug in the UPS.
Only UPSs with power ratings up to 1500 VA plug into a standard
15-amp wall outlet. All others require a larger receptacle, which
must be installed by an electrician. Things will go more much
more smoothly if your customers are not waiting for this to be
done after all of their equipment has arrived.
Does your customer have the correct set of interconnecting
cords?
For some applications, it’s as simple as plugging the UPS into the
wall socket and plugging the loads into the UPS. However, IBM
9910 applications often require specific interconnecting cords in
order to complete installation. We recommend that you make that
determination before installation to avoid delays.
Be sure that the UPS has enough output receptacles.
If the UPS is not equipped with enough output receptacles, you
may need to add a PowerPass Distribution Module or choose
another UPS.
Adding batteries to the UPS provides additional battery
runtime only, not added capacity.
If a customer adds equipment to the configuration, a higher rated
UPS may be needed.
With larger UPS models particularly above 3 kVA and for 3-phase
UPS solutions, it is extremely important to make sure that you
review that site at which the UPS will be located. Here are a few
general guidelines:
5.
Make sure the UPS, batteries, and options will fit in the
allocated space.
Is there enough room for a technician to service the UPS? Some
customers have limited space.
6.
Does the UPS have adequate ventilation?
Most UPS models incorporate internal fans to cool the UPS but
they need to pull cooler air through the UPS to work effectively.
You should not install the UPS in a sealed container or small,
sealed room.
7.
Ensure that the UPS can be placed in its final position.
Will the UPS components fit through any doors? Are there any
stairs?
8.
Is the floor strong enough?
The UPS and its battery cabinets can be heavy so make sure that
the site has the proper floor loading capacity.
9.
Check to see if there is an adequate electrical supply near
the UPS.
Compare UPS fuse ratings (amps) and breaker types and
whether any electrical work may be needed (i.e. cabling to the
UPS terminal block input). The site may have its own electrical
contractors.
RoHS Compliant and pre-RoHS Part Number Cross Reference Chart
The Restriction of Hazardous Substances Directive (RoHS)
became European Law in February 2003. This directive restricts the use of six hazardous materials in the manufacture of various types
of electronic and electrical equipment. It is closely linked with the Waste Electrical and Electronic Equipment Directive (WEEE), which
sets collection, recycling and recovery targets for electrical goods and is part of a legislative initiative to solve the problem of huge
amounts of toxic e-waste.
RoHS restricts the use of the following 6 substances: Lead, Mercury, Cadmium, Chromium VI (Also known as hexavalent chromium),
PBB, PBDE
Throughout 2006 Eaton updated our domestic and international products to meet RoHS and WEEE standards. As part of this process,
most Powerware product part numbers were changed.
9910 Machine
Type
Description
RoHS Compliant
Pre-RoHS
IBM Part Number
IBM Part Number
UPS
P14
UPS, 950W/1400 VA, 230 Vac
39J4810
39J2533
P16
UPS, 1050W/1500 VA, 230 Vac
39J4812
04N6374
E30
UPS, 2100W/3000 VA, 208-240 Vac
42R8069
38P9297
E33
UPS, 2700W/3000 VA, 208-240 Vac
42R8065
21P7219
E64
UPS, 4200W/6000 VA, 208-240 Vac
42R8073
38P9298
E65
UPS, 4500W5000 VA, 208-240 Vac
42R8077
39J2534
E83
UPS, 8000W/10000 VA, 220-240 Vac
44V3923
-
EBM
6605
Extended Battery Module for P16
39J4813
04N6626
6643
Extended Battery Module for E33
42R8067
39J4815
6644
Extended Battery Module for E30
42R8071
38P9299
6645
Extended Battery Module for E64 & E65
42R8075
38P9300
6646
Extended Battery Module for E83 & E82
44V3921
-
Communication Options
2934
SNMP Card
39J4824
53P4619
2939
X-Slot Relay/Serial Card
42R4332
39J2627
42R4320
38P9301
42R4318
38P9302
IEC PowerPass Distribution Module for E64
42R4319
38P9303
PDU to UPS Power Cord
42R4331
Power Distribution Module
6570
NEMA PowerPass Distribution Module for
E30
6571
NEMA PowerPass Distribution Module for
E64
6572
Other Options
2973
2974
42R4333
2975
UPS Input (Mains) Power Cord
42R4335
2976
UPS Input (Mains) Power Cord
42R4336
7
Glossary of Power Terms
Ampere (A or Amp) – The unit of measure for the “rate of
flow” of electricity, analogous to “gallons per minute.”
VA x 0.7 (power factor) = Watts
Alternating Current (AC) – An electric current that reverses
its direction at regularly recurring intervals.
Arc – Sparking that results when undesirable current flows
between two points of differing potential. This may be due to
leakage through the intermediate insulation or a leakage path
due to contamination.
Audible Noise – A measure of the noise emanating from a
device at audible frequencies.
Backup Time – The amount of time the battery in a UPS is
designed to support the load.
Blackout – A zero-voltage condition lasting for more than two
cycles.
Electromagnetic Interference (EMI) – Electrical interference
that can cause equipment to work improperly. EMI can be
separated into conducted EMI (interference conducted through
cables out of the UPS) and radiated EMI (interference
conducted through the air).
Ground – A conducting connection, whether intentional or
accidental, by which an electric circuit or equipment is
connected to the earth, or to some conducting body of
relatively large extent that serves in place of the earth.
Harmonic – A sinusoidal component of an AC voltage that is
multiple of the fundamental waveform frequency. Certain
harmonic patterns may cause equipment problems.
Harmonic Distortion – Regularly appearing distortion of the
sine wave whose frequency is a multiple of the fundamental
frequency. Converts the normal sine wave into a complex
waveform.
Hertz (Hz) – A unit of frequency equal to one cycle per second.
BTU – British Thermal Unit. Used to measure heat dissipation.
Energy required to raise one pound of water one degree
Fahrenheit. One pound of water at 32 degrees F requires the
transfer of 144 BTUs to freeze into solid ice.
Brownout – A steady state of low voltage, but not zero
voltage.
Common Mode Noise – An undesirable voltage that appears
between the power conductors and ground.
Crest Factor – Usually refers to current. It is the mathematical
relationship between RMS current and peak current. A normal
resistive load will have a crest factor of 1.4142, which is the
normal relationship between peak and RMS current. A typical
PC will have a crest factor of 3.
Critical Equipment – Equipment such as computers,
communications systems or electronic process controls, whose
continuous availability is imperative.
Direct Current (DC) – An electric current in which the flow of
electrons is in one direction, such as supplied by a battery.
Double-Conversion – A UPS design in which the primary
power path consists of a rectifier and inverter. Double conversion isolates the output power from all input anomalies such
as low voltage surges and frequency variations.
Downtime – The time during which a functional unit cannot be
used because of a fault within the functional unit or within the
environment.
Electrical Line Noise – Radio frequency interference (RFI),
electromagnetic interference (EMI) and other voltage or
frequency disturbances.
8
High Voltage Spike – Rapid voltage peak up to 6,000 volts.
Hot-Swappable – The ability to change a module without
taking the critical load off the UPS.
i5 Server – The most current generation of the IBM System i™
family of general-purpose systems that supports the i5/OS™
Operating System/400, AIX®, and Linux® operating systems
and that provides application portability across all models.
Input Voltage Range – The voltage range within which a UPS
operates in “normal” mode and does not require battery power.
Inverter – UPS assembly that converts internal DC power to
output AC power to run user’s equipment. When the inverter is
supporting 100% of the load at all times, as with an online
UPS, there is no break from utility power to battery power.
Kilovolt Ampere (kVA) – An approximation of available power
in an AC system that does not take the power factor into
account.
Line-Interactive – An offline UPS topology in which the
system interacts with the utility line in order to regulate the
power to the load.
Load – The equipment connected to and protected by a UPS.
Logical Partition (LPAR) – (1) A set of key or RID pairs in a
non-partitioning index that are associated with a particular
partition. (2) A subset of a single system that contain resources
(processors, memory, and input/output devices). A logical
partition operates as an independent system. If hardware
requirements are met, multiple logical partitions can exist
within a system.
Glossary of Power Terms (continued)
Maintenance bypass – An external wiring path to which the
load can be transferred in order to upgrade or perform service
on the UPS without powering down the load.
Relay Communication – Communication between a UPS and
a computer through the opening and closing of solid-state
relays which are pre-defined to indicate UPS status.
Make-Before-Break – Operational sequence of a switch or
relay where the new connection is made prior to disconnecting
the existing connection, also soft-load-transfer switching
RS-232 – The standard for serial interfaces (serial refers to the
eight bits of each character successively sent down one wire)
used by most computers, modems and printers; a 25-pin
physical interface.
Noise – (1) A disturbance that affects a signal; it can distort the
information carried by the signal. (2) Random variations of one
or more
characteristics of any entity such as voltage, current or data.
(3) Loosely, any disturbance tending to interfere with normal
operation of a device.
Offline – Any UPS that does not fit the definition of online.
Line-interactive and standby topologies are offline.
Ohm – The unit of measurement for electrical resistance or
opposition to current flow.
Online – (1) A UPS that provides power to the load from its
inverter 100% of the time, regulating BOTH voltage and
frequency, usually double conversion topology.
Orderly Shutdown – The sequenced shutdown of units
comprising a computer system to prevent damage to the
system and subsequent corruption or loss of data.
Plug-and-Play – An electrical device that does not require
extensive setup to operate.
p5 Servers – The most current generation of the IBM System
p® server family that uses IBM’s POWERt architecture
designed for AIX and Linux.
Power Factor (PF) – The ratio of real power to apparent
power. Watts divided by VA. Most power supplies used in
communication and computer equipment have a power factor
of 0.7.
(PF = 0.7)
VA x PF = W
W/PF = VA
Power Sag – Low voltage (below nominal 230 volts).
Power Surge – High voltage (above nominal 230 volts).
Rackmount – Ability to mount an electrical assembly into a
standardized rack.
Rectifier – UPS component that converts incoming AC power
to DC power for feeding the inverter and for charging the
battery.
Redundancy – Duplication or repetition of elements in
electronic equipment to provide alternative functional channels
in case of failure.
Sine Wave – A waveform that represents periodic oscillations
of a pure frequency.
Single-Phase – Power system with one primary waveform.
Standby – UPS technology where power is applied to the load
directly from the utility under normal operation, but switched to
the inverter and battery for emergency support (offline
topology).
System I™ Server – One of a family of general-purpose
systems that supports IBM i5/OS and Operating System 400
and that provides application portability across all models.
Formerly known as iSeries server.
System p™ Servers – The IBM server family that uses IBM’s
POWER architecture designed for AIX and Linux operating
systems. Formerly known as pSeries server.
System x™ Servers – The product name of an IBM eServer™
product that emphasizes industry-standard server scalability
and self-managing server technologies. It is the successor to
the Netfinity® family of servers. Formerly known as xSeries
server.
Three-Phase – A power system with three primary voltage
waveforms spaced equally (in time) out of phase with each
other.
Total Harmonic Distortion (THD) – Describes how much the
circuit voltage deviates from a perfect sine wave. A poor
voltage THD is most often manifested in a “flat topped”
waveform that comes from the inability of a power source to
respond to the demands of highly non-linear loads.
Uninterruptible Power System (UPS) – An electrical system
designed to provide instant, transient-free back up power
during power failure or fault. Some UPSs also filter and/or
regulate utility power (line conditioning).
Volt/voltage (V) – Electrical pressure that pushes current
through a circuit. High voltage in a computer circuit is
represented by 1; low (or zero) voltage is represented by 0.
Volt Amps (VA) – Voltage x amps.
Volts Direct Current (Vdc)
Volts Alternating Current (Vac)
Watts (W) – The rate of doing electrical work.
W x 1.3 = VA.
9
Commonly-Used Acronyms
ABM
Advanced Battery Management
SNMP
Simple Network Management Protocol
AC
Alternating Current
THD
Total Harmonic Distortion
BBM
Break-Before-Make (Bypass Switch)
UL
Underwriter’s Laboratory
BDM
Bypass Distribution Module
UPS
Uninterruptible Power System
BTU
British Thermal Unit
USB
Universal Serial Bus
CSA
Canadian Standards Association
VA
Volt Amps
DC
Direct Current
VoIP
Voice Over IP
EBC
Extended Battery Cabinet
WAN
Wide Area Network
EBM
Extended Battery Module
EMEA
Europe, Middle East, Africa
HW
Hardwired
IEEE
Institute of Electrical And Electronics Engineers
IP
Internet Protocol
kVA
Kilovolt ampere
LAN
Local Area Network
MBB
Make-Before-Break (bypass switch)
MTBF
Mean Time Before Failure
MTTR
Mean Time To Repair
NEMA
National Electrical Manufacturers Association
NEC
National Electrical Code
PBX
Private Branch Exchange
PDM
Power Distribution Module
PPDM
PowerPass Distribution Module
PoE
Power Over Ethernet
PUE
Power Usage Efficiency
REPO
Remote Emergency Power-off
RFI
Radio Frequency Interference
RM
Rackmount
RoHS
Restriction of Hazardous Substances
SAN
Storage Area Network
10
Recommended Powerware 9910 UPS by Application
Server (power draw)
P16
P14
E30
z
z
z
z
z
z
z
z
E33
E64
E65
z
z
E83
POWER Systems
Power 520 (750W)
8204-E4A (AIX, Linux)
9407-M15 (IBM i, (i5/OS))
9408-M25 (IBM i, (i5/OS))
Power 550 (1,100W)
8204-E8A (AIX, Linux)
9409-M50 (IBM i, (i5/OS))
Power 570 (Watts vary)
9117-MMA (AIX, Linux)
9406-MMA (IBM i, (i5/OS))
2-4 core (up to 1400W)
5-8 core (up to 2800W)
9-12 core (up to 4200W)
13-15 core (up to 5600W)
2
Power 575 (up to 20,300W)
9125-F2A
2
Power 595 (up to 27,500W)
9119-FHA CEC & 3 I/O Drawers
z
z
z
z
z
z
z
z
z
System p, p5 and OpenPower
z
9110-510 Rack (475W)
z
9111-520 Tower (750W)
z
9111-520 Rack (750W)
z
9113-550 Tower (1,100W)
z
9113-550 Rack (1,100W)
z
7047-185 Tower (450W)
z
7037-A50 Tower (450W)
z
z
z
z
z
z
p5 9115-505 Rack (500W)
z
z
z
z
p5 9123-710 Rack (700W)
z
z
p5 9124-720 Tower (1592W)
z
z
z
p5 9131-52A Tower (750W)
z
z
p5 9116-561 Rack (1300W)
p5 9124-720 Rack (1592W)
z
z
z
z
z
z
p5 9110-51A Rack (625W)
p5 9111-285 Tower (750W)
z1
z1
z
z
p5 9131-52A Rack (750W)
z
p5 9133-55A Tower (1100W)
z
p5 9133-55A Rack (1100W)
z
z
z1
z
System i, i5
9405-510 Tower (600W)
z
z
9406-520 Tower (600W)
z
z
9406-520 Rack (600W)
z
z
z
9406-55x Tower (1,100W)
z
9406-55x Rack (1,100W)
z
9406-570 2–4 Way (1,300W)
9406-570 5–8 Way (2,600W)
z
z
z1
z
z
z
z
z
z
z
z
z
z
z
9406-570 9–12 Way (3,900W)
z
9406-570 13–16 Way (5,200W)
2
9406 595 (up to 27,500W)
1. Requires PDM FC 6572 for E64. 2. Contact +44(0) 845 177 3410 for UPS recommendation.
11
How Much Battery Runtime Do You Need?
To meet customer needs of continued operation during power outages, Powerware 9910 UPS solutions
offer options that can extend battery runtimes beyond 60 minutes. In today's 24x7 business environment,
continued availability along with application and safety considerations must be taken into account and
estimated when calculating UPS battery runtimes.
For example, a typical battery runtime is 15 minutes. The recommended formula used to calculate runtime
is: Runtime (calculated in minutes) = business + system application shutdown + safety
Example
Business needs
System (application) shutdown
Safety margin
Total battery runtime required
=
=
=
=
5
6
4
15
Business needs: Approximately 80% of power outages are less than 5 minutes in duration. Using 5
minutes will ensure that if the typical power outage is less than 5 minutes, the application will not start a
premature or unrecoverable shutdown. In the example, 5 minutes is used.
System shutdown: The National Power Laboratory (1990-1995) Power Quality Report indicates there
may be consecutive power outages before power continuity is fully restored. By doubling the
system/application time, you allow for two consecutive power outages to occur while providing an
adequate reserve of battery runtime to initiate a safe system shutdown during the second power outage.
In the example, it takes the application 3 minutes to shut down. Doubling the shutdown time results in 6
minutes.
Safety margin: Allows for natural battery charge cycles, temperature variations and aging. Also take into
account variations in business needs. In the example, 4 minutes is used.
Find the correct UPS model then select the runtime required. If the power consumption of the equipment
to be protected is unknown, use the maximum load (Watts) number given for the UPS.
For example, if the load requires less than 2,100 Watts and the runtime is 15 minutes, a valid UPS will be
the E30 with one Extended Battery Module providing 25 minutes of battery backup (autonomy) runtime at
the E30 maximum capacity of 2,100 watts.
Note: The runtime is total (standard internal batteries and optional EBMs), not additive.
Battery Runtime in Minutes
UPS
Model
P14
P16
E30
E33
E64
E65
E82
12
Maximum
Watts
Supported
950
1050
2100
2700
4200
4500
8000
Standard
(Internal)
Battery
5
8
5
5
10
7
5
+1 EBM
37
25
25
30
24
12
+2 EBMs
70
38
49
52
46
27
+3 EBMs
106
54
69
76
67
36
+4 EBMs
144
70
90
102
89
45
EBM
Feature
Code
None
6605
6644
6643
6645
6645
6646
Attributes at a Glance
Attribute
P14
P16
E30
E33
E64
E65
E83
IBM Part Number
39J4810
39J4812
42R8069
42R8065
42R8073
42R8077
44V3923
Vac Input/Output
230
230
208-240
208-240
208-240
208-240
220-240
Maximum Output (Watts)
950
1050
2100
2700
4200
4500
8000
Maximum Output (VA)
1400
1500
3000
3000
6000
5000
10000
Level of Protection (Series)
5
9
9
5
9
5
9
Tower Form Factor
z
z
z
z1
Rackmount Form Factor
z
z
z
z
z
Rack Height (U)
2
2
5
3
6
ABM Technology
z
z
z
z
z
z
z
Hot-Swappable Batteries
z
z
z
z
z
z
z
Hot-Swappable Electronics
Module
z
Maintenance (Service)
Bypass
z
z1
z
Load Segments
z
z
z
z
z
z
Extended Battery Modules
z
z
z
z
z
z
EBM Feature Code
—
6605
6644
6643
6645
6645
6646
EBM IBM p/n
—
39J4813
42R8071
42R8067
42R8075
42R8075
44V3921
z2
z
z
z
z
z
X-Slot™ Communication
Cards
PowerPass FC 6572 (IEC
z
Receptacle Sets)
1. Requires PowerPass Distribution Module FC 6572. 2. P16 have X-Slot Relay Card factory installed. Includes UPS to AS/400
communications cable.
13
Powerware 9910-P14
950 Watt/1400 VA, 230 Vac UPS
Features and Benefits
• Low cost power protection for entry- to mid-level desk side servers
• Extends battery service life and provides advanced warning of the end of
useful battery life with ABM technology
• Regulates power fluctuations with Buck and Boost voltage regulation
• Protects equipment connected by network or phone wiring from ”back door”
power surges with a network transient protector
• Minimizes downtime with hot-swappable batteries
• Single SKU supports POWER (AIX, Linux and IBM i (i5/OS)) and System i and System p
• AS/400 (System I, i5) and serial connectivity enhances communication capability
• Tested and approved by IBM to assure out-of-box usability
• Includes premium IBM warranty
P14 Model Guide
Model
Number
IBM Number
Power Out
(Watts/VA)
Input
Connection
Output
Connections
Dimensions
(HxWxD, in/mm)
Unit
Weight
(lb/kg)
950/1400
IEC-320-C14
(6) IEC-320-C13
7.6 x 5.9 x 15.4/
193 x 150 x 390
37/16.8
230 Vac1; 50/60 Hz auto-sensing
9910-P14
39J4810
1. 230V default, also user-selectable for 220 and 240V with rear panel DIP switches.
P14 Battery Runtimes Chart (in Minutes)
Load
UPS Internal Batteries
128W/200 VA
58
192W/300 VA
41
320W/500 VA
28
402W/600 VA
19
500W/750 VA
14
603W/900 VA
10
670W/1000 VA
8
804W/1200 VA
6
938W/1400 VA
5
Note: This guide provides typical application information. Battery times are approximate
and may vary with equipment, configuration, disk access, battery age, temperature, etc.
14
P14 Technical Specifications*
Electrical Input
Nominal Voltage
230 Vac (user selectable to 220 Vac)
Online Voltage Range
±20% for nominal voltage at full load
Nominal Input Frequency
45–65 Hz, 50/60 Hz; auto-sensing
Input Protection
Reset-able circuit breaker
Connection
IEC-320-C14
Electrical Output
Power Levels
950W/1400 VA
Online Regulation
-10%, +6% of nominal voltage
On Battery Voltage Regulation
±5% of nominal voltage; -10% after low battery warning
On Battery Frequency Regulation
±0.1 Hz of nominal frequency
Voltage Wave Shape
Sine wave (during normal and battery operation)
Connections
(6) IEC-320-C13
Indicators and Controls
Front Panel LEDs
Power on, on battery, overload, and battery fault
Front Panel Buttons
On/off and alarm silence/self-test
Communication Port
DB-9 female (UPS ships with communication cable); USB Interface Adapter is
optional
Battery
Battery Type
Sealed, maintenance-free lead-acid; starved electrolyte
Battery Description
(3) 12V, 9 Ah
Battery Recharge
<3 hours to 90% capacity
Battery Runtime
See Battery Runtimes table
Start-On-Battery
Startup with UPS batteries in absence of utility power
General
Topology
Line-interactive
Diagnostics
0.68
Dimensions and Weight
See Model Guide
Network Transient Protector
In and out RJ-11 jack for telephone/modem protection or RJ-45 for 10BaseT network
cable; UL497A tested
Environmental and Safety
Operating Temperature
0°C to 40°C (32°F to 104°F) UL tested at 25°C (77°F)
Transit/Storage Temp.
-15°C to 55°C (5°F to 131°F)
Heat Dissipation
189 BTU/hr, maximum
Audible Noise
<45 dBA typical
Relative Humidity
5% to 95% noncondensing
Safety Markings
UL, cUL, and CSA
Safety Conformance
UL 1778, CAN/CSA C22.2, No. 107.1
EMC Markings
FCC Class B; 230V models also CE (EN50091-2) and C-Tick
Surge Suppression
ANSI C62.41 Category A (formerly IEEE 587)
Immunity
IEC 801-2, -3, -4
* Due to continuing product improvement programs, specifications subject to change without notice.
15
What’s Included with the P14 UPS
• 950W/1400 VA, 230V UPS
• Serial Cable, DB-9 to DB-9 (6 ft/1.8m)
• AS/400 Interface Cable (6 ft/1.8m)
• USB Cable, DB-9 to USB (6 ft/1.8m)
• Powerware 5115 UPS User’s Guide
• Powerware (9910-P13 and P14) Communication Options for IBM Applications Manual
• Powerware Software Suite CD
• Service and Support Manual for IBM Applications
P14 Applications Matrix
Various options are available depending on application. For System i or System p applications,
consult chart below to select appropriate feature codes to order with the P14 UPS.
Watts
Vac
Expected Battery Runtime
(in Minutes)
600
200-240
10
9111-520
600
200-240
10
9123-710
475
200-240
14
9110-510, 9123-705
400
200-240
19
7047-185
600
200-240
10
IBM Server
i5, System i
9406-520, 9405-520
p5, System p and OpenPower
16
Powerware 9910-P16
1050 Watt/1500 VA, 230 Vac UPS
• Isolates connected equipment from all incoming power problems to provide
the highest degree of protection with rugged, online design
• Significantly increases battery service life and gives you advanced warning of
the end of useful battery life with ABM technology
• Prolongs backup time with Extended Battery Modules
P16 Model Guide
Model
Number
IBM Number
Power Out
(Watts/VA)
Input
Connection
Output
Connections
Dimensions
(HxWxD, in/mm)
Unit
Weight
(lb/kg)
1050/1500
IEC-320-C141
(6) IEC-320-C13
3.5 x 17 x 19.4/
89 x 432 x 493
50/23
—
—
—
3.5 x 17 x 19.4/
89 x 432 x 493
65/29.5
230 Vac; 50/60 Hz auto-sensing
9910-P16
39J4812
Extended Battery Module (EBM)
9910-6605
39J4813
1. P16 includes (3) IEC-320-C13 to IEC-320-C14 interconnecting cords.
P16 Battery Runtimes Chart (in Minutes)
Load
+1 EBM
+2 EBMs
+3 EBMs
+4 EBMs
280W/400 VA
46
177
331
501
682
490W/700 VA
25
96
180
272
370
585W/850 VA
21
76
142
214
292
700W/1000 VA
16
61
115
174
237
875W/1250 VA
11
46
87
131
179
1050W/1500 VA
8
37
70
106
144
Note: This guide provides typical application information. Battery times are approximate and may vary with equipment,
configuration, disk access, battery age, temperature, etc.
17
P16 Technical Specifications*
Electrical Input
Nominal Voltage
230 Vac
Input Voltage Ranges
150–288V (without using batteries)
Input Power Factor
>0.95 typical
Frequency
50/60 Hz, auto-sensing
Frequency Range
46–65 Hz
Electrical Output
On Utility Voltage Regulation
±3% of nominal
±3% of nominal
Efficiency
89–92% depending on load
Frequency Regulation
±3 Hz online; ±1 Hz on battery
Load Crest Factor
3 to 1 ratio
Communications
Communication Port
Relay port standard; optional X-Slot cards available
Communication Cable
6-ft AS/400 communication cable included
Battery
UPS Internal Battery Type
9 Ah, sealed, maintenance-free lead-acid
Battery Runtime
See Battery Runtime Chart
Battery Replacement
Hot-swappable UPS internal batteries and external batteries modules
Recharge Time
<2 hours from complete discharge to 80% capacity at nominal line conditions
Start-On-Battery
Allows start of UPS without utility input
General
Topology
True online, double-conversion
Diagnostics
Full system self-test on power up
UPS Bypass
Automatic on overload or UPS failure
See Model Guide
Ambient Operating Temperature
0°C to 40°C (32°F to 104°F) 0°C to 25°C (32°F to 77°F)
Heat Dissipation
645 BTU/hr maximum
Leakage Current
<0.6 mA typical
Storage Temperature
0°C to 25°C (32°F to 77°F)
Relative Humidity
Audible Noise
<45 dBA typical
Safety Markings
CSA, VDE, CE, S, D, N, FI, B NOM, R
EMC Compliance
FCC Class B and VCCI Class II, 3000 FCC Class A
Surge Suppression
IEEE/ANSI C62.41 Category B (formerly 587)
REPO Port
Meets NEC code 645-11 intent and UL requirements
In and out jack for models only or 10BaseT network cable protection. UL497A tested
18
What’s Included with the P16 UPS
• 1050W/1500 VA, 230V UPS
• Powerware 9125 UPS User’s Guide
• Powerware 9125 Installation Guide for IBM Applications
• X-Slot Relay Interface Adapter Card User’s Guide
• X-Slot RIA Quick Start Guide
• AS/400 Interface Cable (6 ft/1.8m)
• (3) IEC-320-C13 to IEC-320-C14 Equipment Power Cords
• (2) Pedestals (Black)
P16 Options
Various options are available depending on application. For POWER (IBM i, i5/OS)), System i
applications, consult chart below to select appropriate feature codes to order with the P16 UPS.
Description
IBM Feature
Code
IBM Part
Number
POWER
(IBM i, i5/OS),
i5-System i Tower
Worldwide
(up to 4 EBMs)
6605
39J4813
Yes
19
Powerware 9910-E30
2100 Watt/3000 VA, 208-240 Vac UPS
• Isolates connected equipment from all incoming power problems to provide
the highest degree of protection with rugged, online design
• Conserves valuable rack space with compact 2U form factor
• Significantly increases battery service life and gives you advanced warning
of the end of useful battery life with ABM technology
• Prolongs backup time with 2U Extended Battery Modules
• Optional interface/communication cards expand control of application
E30 Model Guide
Model
Number
IBM
Number
Power Out
(Watts/VA)
Input
Connection
Output Connections
Dimensions
(HxWxD, in/mm)
Unit
Weight
(lb/kg)
3.5 x 17 x 19.4/
89 x 432 x 493
34/15
7 x 17 x 19.4/
178 x 432 x 493
68/31
3.5 x 17 x 19.4/
89 x 432 x 493
65/29.5
208-240 Vac; 50/60 Hz auto-sensing
9910-E30
42R8069
2100/3000
Varies1
9910-E30
+ FC 6570
42R8069 +
42R4 320
2100/3000
Varies
—
—
(4) IEC-320-C13,
(1) IEC-320-C19
(4) 6-20R,
(2) 5-20R,
(2) L6-15R
Extended Battery Module
9910-6644
42R8071
—
1. E30 input (mains) connection varies by country. Optional input (mains) connection type IEC-309 P+N+G 32 Amp (FC
2976) available. See Line Cord Options table.
E30 Battery Runtimes Chart (in Minutes)
Load
+1 EBM
+2 EBMs
+3 EBMs
+4 EBMs
875W/1250 VA
16
57
90
150
200
1050W/1500 VA
13
55
72
120
160
1750W/2000 VA
7
28
48
68
88
2100W/3000 VA
5
25
38
54
70
Note:This guide provides typical application information. Battery times are approximate and may vary with equipment,
E30 UPS Rear Panel
20
What’s Included with the E30 UPS
• 2100W /3000 VA, 208-240V UPS
• E30 Accessory Kit (IBM Part Number 42R8070)
-
UPS Safety Manual
Powerware 9125 (2500–3000 VA) UPS User’s Guide
Powerware 9125 (9910 E30) Installation Guide for IBM Applications
Powerware Software Suite CD
Serial Cable, DB-9 to DB-9 (6 ft/1.8m)
Serial Cable, RJ-45 to DB-9 (6 ft/1.8m)
Four IEC 320-C13 to C14, 10A equipment power cords (6.6ft/2m)
One IEC 320-C19 to C20, 16A equipment power cord (14.8ft/4.5m)
(4) Pedestals
(4) Pedestal Mounting Screws (M4 x 10 mm)
(2) Chrome Rack Handles
(4) Rack Handle Screws (#8-32 x 0.5”)
Rail hardware kit
E30 Options
consult chart below to select appropriate feature codes to order with the E30 UPS.
POWER
(IBM i),
System i
Tower
NEMA
POWER
(AIX,
Linux),
System p
Tower IEC
POWER
(AIX,
Linux),
System p
Tower
NEMA
POWER
(AIX,
Linux),
System p
Rack WW
POWER
(IBM i),
System i
Rack WW
Description
IBM
Feature
Code
IBM Part
Number
POWER
(IBM i),
System i
Tower IEC
ConnectUPS-X Web/SNMP Card
29341
39J4824
No
No
Yes2
Yes2
Yes
No
2939
1
42R4332
Yes
Yes
No
No
No
Yes
6644
2
42R8071
Yes
Yes
Yes
Yes
Yes
Yes
—
42R8072
Yes
Yes
Yes
Yes
Yes
Yes
2974
42R4333
No
No
No
No
Yes
Yes
X-Slot Relay/Serial Card Kit
(up to 4 EBMs)
EBM Accessory Kit
(1 per FC 6644)
1. Maximum one FC 2934 or 2939 per E30 UPS. 2. ConnectUPS-X Web/SNMP Card required if implementing Logical Partitions (LPARs) on POWER Systems (AIX or
Linux), p5 or System p.
E30 Line Cord Options
Feature Code
9866
9867
9868
9871
9872
9874
9875
Description
C19 to CEE 7 VII (16 Amp)
C19 to SABS 164 (16 Amp)
C19 to CEI 23-16 (16 Amp)
C19 to IEC-309 P+N+G (16 Amp)
C19 to SII 32-1971 (16 Amp)
C19 to SAA-AS 3112 (16 Amp)
C19 to IEC 60083-A5 (16 Amp)
21
E30 Technical Specifications*
Electrical Input
Nominal Voltage
208, 220, 230 and 240 Vac
Input Power Factor
>0.95 typical
Frequency
Frequency Range
46–65 Hz
Electrical Output
±3% of nominal
±3% of nominal
Efficiency
89–92% depending on load
±3 Hz online; ±1 Hz on battery
Load Crest Factor
3 to 1 ratio
Communications
Communication Port
RS-232 communication port standard; optional X-Slot cards available
Communication Cable
6-ft Serial (DB-9 to DB-9) and 6-ft (RJ-45 to DB-9) cables included
Battery
Battery Runtime
Battery Replacement
Recharge Time
<2 hours from complete discharge to 80% capacity at nominal line conditions
Start-On-Battery
General
Topology
Diagnostics
UPS Bypass
See Model Guide
0°C to 40°C (32°F to 104°F)
Storage Temperature
0°C to 25°C (32°F to 77°F)
Relative Humidity
Heat Dissipation
186666 BTU/hr, maximum
Leakage Current
<0.6 mA typical
Audible Noise
<45 dBA typical
REPO Port
In and out jack for models only or 10BaseT network cable protection. UL497A tested
Safety Markings
CSA, VDE, CE, S, D, N, FI, B, NOM, R
EMC Compliance
FCC Class B and VCCI Class II, 3000 FCC Class A
Surge Suppression
IEEE/ANSI C62.41 Category B (formerly 587)
22
Powerware 9910-E33
2700 Watt/3000 VA, 208-240 Vac UPS
• 0.9 power factor delivers more real output power in order to power more servers than another UPS
of equivalent VA rating
• Conservers valuable space with 2U rack height
• Hot-swappable batteries and power module allow you to service or replace batteries and
electronics without interrupting power to protected loads or removing the UPS from the rack
• Significantly increases battery service life and gives you advanced warning of the end of useful
battery life with ABM technology
• Prolongs backup time with Extended Battery Modules
E33 Model Guide
Model
Number
IBM Number
Input
Connection
Output
Connections
Dimensions
(HxWxD, in/mm)
Unit
Weight
(lb/kg)
2700/3000
varies2
(9) IEC-320-C13,
(1) IEC-320-C19
3.5 (2U) x 17.5 x 24.5/
89 x 440 x 610
89/40.4
—
—
—
3.5 (2U) x 17.5 x 24.5/
89 x 440 x 610
100/45.5
Power Out
(Watts/VA)
9910-E331
42R8065
9910-6643
42R8067
1. E33 includes (4) IEC-320-C13 to IEC-320-C14 and (1) IEC-320-C19 to C20 interconnecting cords. 2. E33 input
(mains) connection varies by country. Optional input (mains) connection type IEC-309 P+N+G 32 Amp (FC 2976)
available. See Line Cord Options table.
Load
+1 EBM
+2 EBMs
+3 EBMs
+4 EBMs
15
103
146
190
1350W/1500 VA
61
5
69
90
2700W/3000 VA
25
49
23
Electrical Input
Nominal Voltage
208, 220, 230, and 240 Vac
154–288V
Frequency
Frequency Range
46–65 Hz
Electrical Output
-10% to +6% of nominal
±5% RMS
Voltage Wave Shape (on battery
Sine wave
Output Protection
Short circuit protection
Battery
Battery Type
Sealed, maintenance-free lead-acid
Battery Runtime
Battery Replacement
Recharge Time
<3 hours to 90% usable capacity
Start-On-Battery
General
Diagnostics
UPS Bypass
No bypass, internal bypass
Transfer Time
2-4 ms typical
See Model Guide
Communications
User Interface
Front control panel
Audible Alarms
For UPS alarm conditions, including: On Battery, Low Battery, Overload, & UPS fault
UL497A, in/out jacks RJ-45
REPO Port
X-Slot Interface
RS-232 Single-Port Serial Card (standard); other options available
Cable
6-ft communication (DB-9 to DB-9) cable included
Power Management Software
Powerware Software Suite CD-ROM (bundled with UPS)
0 to 40°C (32 to 104°F)
Storage Temperature
-15 to 50°C (5 to 122°F)
Relative Humidity
Heat Dissipation
695 BTU/hr, maximum
Lightning & Surge Protection
ANSI/IEEE C62.41 (IEEE 587), IEC61000-4-5
Surge Energy Rating
480 Joules
Audible Noise
<40 dBA typical
Altitude
3000m (10,000 ft) without derating
Safety Certifications
UL; cUL; NOM; C-Tick; CE mark
EMC Compliance
FCC Part 15, EN50091-2, Class A
24
• 2700W/3000 VA, 208–240V UPS
• Powerware 5125 (2500–3000 VA) UPS User’s Guide
• Powerware 5125 (9910 E33) Installation Guide for IBM Applications
• (4) IEC-320-C13 to IEC-320-C14, 10A Equipment Power Cords (6 ft/1.8m)
• (1) IEC-320-C19 to IEC-320-C20, 16A Equipment Power Cord (14.8ft/4.5m)
• (1) IBM PDU (FC types supported: #7188, #9188, #5889 or #7109) to IEC-320-C20 [formerly FC 2974]
Power Cord (6ft/1.8m)
• Powerware Software Suite CD
• Serial Cable, DB-9 to DB-9 (6 ft/1.8m)
• Bag of Cord Retention Clips
• Mounting handle and screws
• Rail hardware kit
E33 Options Matrix
Description
IBM Feature
Code
IBM Part
Number
POWER
(AIX, Linux),
System p Rack
Worldwide
POWER (IBM i),
System i Rack
Worldwide
29341
39J4824
Yes
No
42R4332
No
Yes
42R8067
Yes
Yes
2939
(up to 4 EBMs)
6643
1
1. Maximum one FC 2934 or 2939 per E33 UPS. ConnectUPS-X Web/SNMP Card required if implementing Logical Partitions (LPARs)
on POWER Systems (AIX or Linux), p5 or System p.
Feature Code
9866
9867
9868
9871
9872
9874
9875
Description
C19 to CEE 7 VII (16 Amp)
C19 to SABS 164 (16 Amp)
C19 to CEI 23-16 (16 Amp)
C19 to IEC-309 P+N+G (16 Amp)
C19 to SII 32-1971 (16 Amp)
C19 to SAA-AS 3112 (16 Amp)
C19 to IEC 60083-A5 (16 Amp)
25
Powerware 9910-E64
4200 Watt/6000 VA, 208-240 Vac UPS
• Isolates connected equipment from all incoming power problems to
provide the highest degree of protection with rugged, online design
• Conservers valuable space with compact design
• Significantly increases battery service life and gives you advanced warning of the end of useful
battery life with ABM technology
• Prolongs backup time with 3U Extended Battery Modules
E64 Model Guide
Model
Number
IBM
Number
Power Out
(Watts/VA)
Input
2
Connection
Output
Connection
Dimensions
(HxWxD, in/mm)
Unit
Weight
3
(lb/kg)
L6-30AR
(1) L6-30R
8.75 (5U) x 17 x 24.9/
219 x 432 x 633
206/93.6
9910-E64
1
42R8073
4200/6000
5.25 (2U) x 17 x 24.75/
169/76.8
133 x 432 x 628
1. Base configuration of the E64 consists of E64 Accessory Kit (IBM p/n 42R8074) and two UPS internal battery trays
(IBM p/n 42R4316). 2. Input power cord is 1.5 ft/0.5m. Requires input power cord supplied by IBM. Types vary. See
Line Cord Options table. 3. Weight includes batteries.
9910-6645
42R8076
—
—
—
Load in Watts
+1 EBM
+2 EBMs
+3 EBMs
+4 EBMs
186
271
362
108
178
237
70
122
19
125
168
2800
49
86
13
96
128
3500
37
65
10
76
102
4200
30
52
1400
38
2100
34
E64 UPS Rear Panel
26
• 4200W/6000 VA, 208–240V UPS
• (2) UPS Internal Battery Trays (IBM Part Number 42R4316)
-
UPS Safety Manual
UPS Lower Front Panel (Bezel) Black
Powerware 9125 (5000/6000 VA) UPS User’s Guide
Battery Retaining Bracket
(2) Battery Retaining Bracket Screws (M4 x 10 mm)
(4) Pedestals
(4) Pedestal Mounting Screws (M4 x 10 mm)
Feature Code
1424
1426
1427
Description
L6-30R to IEC-309 P+N+G (32 Amp)
L6-30R to PDL Australia (30 Amp)
L6-30R to PDL New Zealand (30 Amp)
27
Electrical Input
Nominal Voltage
208, 220, 230, and 240 Vac
Frequency
Input Power Factor
>0.96 in any mode
Frequency Range
50 Hz: 47–53 Hz; 60 Hz: 57–63 Hz
Electrical Output
±3% of nominal
±3% of nominal
Efficiency
>85% online mode; >90% high-efficiency mode
±3 Hz online; +1 Hz on battery; +3 Hz high-efficiency mode
Load Crest Factor
3 to 1 ratio
Communications
Communication Port
RS-232 communication port standard; optional X-Slot cards available
Communication Cable
Two (2) 6-ft communication cable included (DB-9 to DB-9 and RJ-45 to DB-9)
included
Battery
EBM Battery Type
Battery Type
Battery Runtime
Battery Replacement
Recharge Time
<2 hours from complete discharge
Start-On-Battery
General
Topology
Diagnostics
UPS Bypass
See Model Guide
0°C to 40°C (32°F to 104°F)
Storage Temperature
0°C to 25°C (32°F to 77°F)
Relative Humidity
Heat Dissipation
Audible Noise
<45 dBA typical; <50 dBA (on battery)
REPO Port
Safety Markings
UL, cUL, VDE, CE, NOM, NYCE, GS
EMC Compliance
FCC-A, VCCI-A, BSMI-A, C-Tick, CE Compliance
Surge Suppression
ANSI C62.41 Category B3, and EN61000-4-5 Level 3 Criteria B
28
E64 Applications Matrix
Description
NEMA PowerPass Distribution
Module
IEC PowerPass Distribution
Module
#7188, #9188, #5889 or #7109
PDU to UPS power cord 14-feet of
4-feet (respectively)
UPS Input Power Cord
POWER
(IBM i),
System i
Tower
NEMA
POWER
(AIX,
Linux),
System p
Tower
IEC
POWER
(AIX,
Linux),
System p
Tower
NEMA
POWER
(AIX,
Linux),
System p
Rack WW
POWER
(IBM i),
System i
Rack WW
IBM
Feature
Code
IBM Part
Number
POWER
(IBM i),
System i
Tower
IEC
6571
42R4318
No
Yes
No
Yes
No
No
42R4319
Yes
No
Yes
No
No
No
2972 or
2973
25R2555 or
42R4331
No
No
No
No
Yes
Yes
Varies
Varies
Yes
Yes
Yes
Yes
Yes
Yes
6572
3
Options
(up to 4 EBMs)
EBM Accessory Kit (1 per FC
6645)
2934
1
39J4824
No
No
Yes
Yes
Yes
2
2939
1
42R4332
Yes
Yes
No
No
No
Yes
6645
42R8075
Yes
Yes
Yes
Yes
Yes
Yes
—
42R8076
Yes
Yes
Yes
Yes
Yes
Yes
No
1. Maximum one FC 2934 or 2939 per E64 UPS. 2. ConnectUPS-X Web/SNMP Card required if implementing Logical Partitions (LPARs) on POWER Systems
(AIX or Linux), p5 or System p. 3. Used with 6572 EMA Power Cord Kit consists of two IEC-320-C13 to NEMA 5-15P power cords (6 ft/1.8m), four IEC-320-C13 to
NEMA 6-15P power cords (6 ft/1.8m), and two IEC-320-C19 to NEMA 6-20P power cords (14 ft/4.4m).
29
Powerware 9910-E65
4500 Watt/5000 VA, 208-240 Vac UPS
• High power, low profile design ideal for dense i5, p5,
System i, System p and Power configurations
• Supports multiple PDUs (1–3 PDUs in a non-redundant power configuration and
2–6 PDUs in a dual-redundant power configuration)
• Maximizes 32A 1-phase input (mains) power connection capacity by providing 4500
watts of output power
• Single SKU supports System i and System p
• Optional interface/communication cards expand control of application
E65 Model Guide1
Model
Number
IBM Number
Power Out
(Watts/VA)
Input
Connection2
Output
Connections
Dimensions
(HxWxD, in/mm)
Unit
Weight
(lb/kg) 3
L6-30P
(1) L6-30R,
(4) IEC-320-C13,
(4) IEC-320-C19
5.25 x 17.5 x 26/
133.5 x 444 x 660
161/67
9910-E651
42R8077
4500/5000
5.25 x 17.5 x 24.75/
169/76
133.5 x 444 x 620
1. Base configuration for the E65 consists of the E65 Accessory Kit (IBM p/n 42R8078) and two UPS Internal Battery Trays
(IBM p/n 39J2536). 2. Input power cord is 1.5ft/0.5 m. Requires input power cord supplied by IBM. Types vary. See Line Cord
Options table. 3. Weight includes batteries.
9910-6645
42R8075
—
—
—
Load in Watts
+1 EBM
+2 EBMs
+3 EBMs
+4 EBMs
303
452
612
169
1800
26
204
274
79
138
19
156
210
2250
61
106
15
125
168
2700
49
85
13
110
142
3150
43
73
8
76
89
4050
27
52
7
67
80
4500
24
46
900
30
59
Electrical Input
Nominal Voltage
200/208, 220, 230, and 240 Vac
160–288V
Frequency
Frequency Range
46–54 Hz for 50 Hz; 56–64 Hz for 60 Hz
Electrical Output
-10% to +6% of nominal
±5% RMS
Voltage Wave Shape (on battery
Sine wave
Output Protection
Short circuit protection
Battery
Battery Type
Battery Runtime
Battery Replacement
Recharge Time
<3 hours to 90% usable capacity
Start-On-Battery
General
Electrical Power Module
Replacement
Diagnostics
UPS Bypass
Internal bypass
Yes, hot-swap
Transfer Time
4 ms typical, 6 ms max
Overload (normal operation)
100-102% indefinite, 103-112% 2 minutes and >112% 12 line cycles
See Model Guide
Communications
User Interface
Front control panel
Audible Alarms
For various UPS alarm conditions, including: On Battery, Low Battery, Overload, and
UPS Fault
REPO Port
Communication Ports
Native USB and serial port
X-Slot Interface
Empty; other X-Slot options available
Cable
6-ft communication cable included
10 to 40°C (50 to 104°F)
Storage Temperature
-25 to 55°C (-13 to 131°F)
Relative Humidity
Heat Dissipation
Surge Energy Rating
High-energy 6500A peak
Audible Noise
<45 dBA typical
Altitude
UL; cUL; NOM; C-Tick; CE marking, TUV/VDE, GS
EMC Compliance
FCC Part 15, EN50091-2, Class A
31
• 4500W/5000 VA, 208–240V UPS
• (2) Battery Trays (IBM Part Number 39J4828)
• Accessory kit (IBM Part Number 42R8078) consisting of
-
UPS Front Panel (Bezel) Black
Powerware 5125 (5000/6000 VA) User’s Guide
UPS Safety Manual
Rail Hardware Kit
REPO Connector Plug 10A, 2-pin
E65 Options
Description
IBM Feature
Code
IBM Part
Number
POWER
(AIX, Linux),
System p
Rack
Worldwide
POWER
(IBM i),
System i
Rack
Worldwide
Rack Mounting Bracket Kit
—
42R4322
Yes
Yes
39J4824
Yes
No
#7188, #9188, #5889 or #7109 PDU to UPS
power cord 14-feet or 4-feet (respectively)
UPS Input Power Cord
2
2934
1
2939
1
42R4332
No
Yes
2972 or 2973
25R2555 or
42R4331
Yes
Yes
Varies
Varies
Yes
Yes
42R8075
Yes
Yes
42R8076
Yes
Yes
42R4333
Yes
Yes
(up to 4 EBMs)
6645
EBM Accessory Kit (1 per FC 6645)
-
2974
3
3
1. Maximum one FC 2934 or 2939 per E65 UPS. 2. UPS input power cord varies according to country requirements. 3. Used to connect
a 7188/9188/5889/7109 PDU to the C19 outlet.
Feature Code
1424
1426
1427
32
Description
L6-30R to IEC-309 P+N+G (32 Amp)
L6-30R to PDL Australia (30 Amp)
L6-30R to PDL New Zealand (30 Amp)
Powerware 9910-E83
8000 Watt/10000 VA, 220-240 Vac UPS
• High power, low profile design ideal for dense i5, p5 or Blades
• System i, System p and Power configurations
• Supports multiple PDUs (1–5 PDUs in a non-redundant power
•
•
•
•
•
configuration and 2-10 PDUs in a dual-redundant power
configuration)
Maximizes 63A input (mains) power connection capacity by providing 8000
watts of output power
Single SKU supports System i and System p
Optional interface/communication cards expand control of application
Tested and approved by IBM to assure out-of-box usability
Includes premium IBM warranty
E83 Model Guide
Model
Number
IBM
Number
Power Out
(Watts/VA)
Input
Connection2
Output
Connections
Dimensions
(HxWxD, in/mm)
Unit
Weight
(lb/kg) 3
IEC309 P+N+G
63A
(1) IEC309
P+N+G 63A,
(4) IEC-320-C19
10.5 x 17.2 x 30/
266 x 437 x 762
254/115
9910-E831
44V3923
8000/10000
5.25 x 17.2 x 23.9/
179/81
133.5 x 437 x 607
1. Base configuration for the E83 consists of the E82/E83 Accessory Kit (IBM p/n 44V3919) and four UPS Internal Battery
Trays (IBM p/n 44V3920). 2. Input power cord is 9.9ft/3m. 3. Weight includes batteries.
9910-6646
44V3921
—
—
—
UPS Internal
+1 EBM
+2 EBMs
+3 EBMs
+4 EBMs
Batteries
1000
80
137
189
275
365
2000
31
61
99
138
181
3000
18
38
68
92
121
4000
12
27
52
69
90
5000
9
21
42
55
72
6000
7
17
35
46
60
7000
6
14
31
40
51
8000
5
12
27
35
45
Load in Watts
33
E83 Rear Panel
• 8000W/10000 VA, 220V nominal, optional 208, 230–240V UPS
• (4) Battery Trays (IBM Part Number 44V3920)
• (Internal) Accessory Kit (no IBM PN)
- Mounting Brackets front and rear
- Rails (left, right) and hardware
• (External) Accessory kit (IBM Part Number 44V3919) consisting of:
- Powerware 9140 (9910 E82 & E83) Installation Guide for IBM Applications
- User’s Guide CD (in Nine languages)
- Powerware Software Suite CD
- Serial Cable, RJ-45 to DB-9 (6 ft/1.8m)
- Serial Cable, DB-9 to DB-9 (12 ft/3.6m)
- REPO Connector Plug 10A, 2-pin
E83 Options
IBM Part
Number
POWER
(AIX, Linux),
System p Rack
Worldwide
POWER
(IBM i),
System i
Rack
Worldwide
Description
IBM Feature
Code
2934
1
39J4824
Yes
No
2939
1
42R4332
No
Yes
(up to 4 EBMs)
6646
44V3921
Yes
Yes
EBM Accessory Kit (1 per FC 6646)
-
44V3922
Yes
Yes
42R4333
Yes
Yes
2974
2
1. Maximum one FC 2934 or 2939 per E83 UPS. ConnectUPS-X Web/SNMP Card required if implementing Logical Partitions (LPARs)
on POWER Systems (AIX or Linux), p5 or System p. 2. Used to connect a 7188/9188/5889/7109 PDU to the C19 outlet.
34
Electrical Input
Nominal Voltage
220 default, optional; 200, 208, 230, and 240 Vac
220/230/240; 174-288V or 200/208; 160–253V,
Frequency
Frequency Range
45-65Hz
Default Frequency
60Hz
Maximum Input Current at Nominal
Utility Voltage
48A
Noise Filtering
MOVs and line filter for normal and common mode noise
Connections
9.9ft/3-meter IEC309 P+N+G 63A (363P6W) power cord
Input Power Factor
>0.99
Input Mode
Single-phase with input power cord. Three-phase input available when input power
cord removed.
Electrical Output
Regulation
Nominal Outputs
Output Overload
Voltage Waveform
Output Receptacles
Nominal output voltage +/- 2% Static, +/- 10% Dynamic
200/208/220/230/240
(voltage configurable or auto-sensing)
45/48/45/43/41A
9/10/10/10/10 kVA
7.2/8/8/8/8 kW
100-110%: Activates Overload alarm
110-130%: load transfers to Bypass mode after 1 minute
130-150%: load transfers to Bypass mode after 1 second
>150%: load transfers to Bypass mode after 100 ms
Normal mode: Sine wave; <3% THD with linear load;
<5% with nonlinear load
(4) IEC-320-C19, 16A
(1) IEC309 P+N+G 63A (363C6W)
Battery
Battery Type
Sealed, maintenance-free, valve-regulated, lead-acid
Monitoring
Advanced monitoring for earlier failure detection and warning
Configuration
(32) 12V, 5 Ah
Battery Runtime
Battery Replacement
Charging (in minutes) to 80% usable
capacity at nominal line voltage after
full load discharge
UPS Internal Batts
266
Start-On-Battery
+1 EBM
336
+2 EBMs
368
+3 EBMs
398
+4 EBM
419
General
Battery Module Replacement
Yes, hot-swap
Diagnostics
UPS Bypass
Internal bypass
See Model Guide
Communications
User Interface
Front control panel, with two-line graphical LCD with backlight
Languages
User selectable
For various UPS alarm conditions, including: On Battery, Low Battery, Overload, and
UPS Fault
Audible Alarms
REPO Port
Communication Ports
Native USB and serial port (DB-9)
X-Slot Interface
Empty; other X-Slot options available
Cable
Two (2) 6-ft communication cables (DB-9 to DB-9 and RJ-45 to DB-9) included
35
0 to 40°C (32 to 104°F)
Storage Temperature
-20 to 50°C (-4 to 122°F)
Relative Humidity
Heat Dissipation
2066 BTU/hr (605.5W) maximum
Surge Energy Rating
High-energy 6500A peak
Audible Noise
<55 dBA at 5 feet with battery fully charged, without horn
Altitude
Leakage Current
<3.5 mA
Surge Suppression
ANSI C62.41 Category B3
UL 1778; CSA C22.2, No. 107.3; EN and IEC 62040-2; NOM-019-SCFI-1993;
Agency Markings
cULus, cUL, NOM, CE
EMC Compliance
FCC Part 15, EN 50091-2, ICES-003
Seismic
Uniform Building Code (UBC) and Bellcore for Zone 4 Earthquake
36
Powerware Software and Connectivity
Power management software unifies and centralizes UPS management Bundled with every
Powerware 9910 UPS, Powerware LanSafe power management software gives you control and visibility
over all your UPS systems, using an intuitive, graphical interface and SNMP (Simple Network
Management Protocol). You can securely monitor UPS and battery performance over your LAN or the
Web, establish prioritized shutdown of network devices and client/server applications, test all networked
UPS systems from one node, analyze trends and network conditions, and stay informed of potential power
problems by pager and e-mail.
Seamlessly integrate UPSs into the IBM Director Management Console with Powerware
Extensions for IBM Director Management System
Powerware Extensions allow administrators to monitor UPSs in the network, in real-time and obtain
advance notice on critical elements of server power management, such as UPS battery status, load level,
temperature and alarms for battery replacement. Monitor, diagnose, configure, set alarms, schedule selftests, check battery, gather inventory information, and control Powerware UPSs network wide from a
single console within IBM Director.
Connectivity options offer maximum flexibility
Connectivity options are available to suit nearly any communication requirement. The Powerware are
equipped with an RS-232 serial communication port, some with built-in USB port to interface with power
management software. You can customize your UPS by adding any of the following X-Slot interface
options for other types of communication:
ConnectUPS Web/SNMP Interface Card (FC 2934) enables direct control and
monitoring in SNMP-based networks, plus the ability to monitor UPS status and
meters through a Web browser (includes built-in switch hub). Use with IBM
POWER Systems (AIX, Linux), p5/System p server, OpenPower, or System x
server with virtualization LPARs and/or Network (Web server) connection (UPS as
a node).
Relay-Serial Card and Cable Kit (FC 2939) provides DB-9 and DB-25 serial
interface between the UPS and IBM POWER Systems (IBM i (i5/OS)), System i
(AS/400) server and Serial Server (Microsoft Windows, Linux, AIX, or other
operating systems).
Includes:
One (1) UPS to Server (i, i5, System i, iSeries, AS/400 type) communication cable
DB-25 to DB-9 (30’/9.1m). Requires IBM provided #1827 interface cable.
One (1) UPS to Server (serial) communication cable DB-9 to DB-9 (6’/1.8m).
37
UNITED STATES
8609 Six Forks Road
Raleigh, NC 27615 U.S.A.
Toll Free: 1.800.925.4426
or 919.872.3020
www.powerware.com/ibm
Eaton, Powerware, ABM, LanSafe,
ConnectUPS, and X-Slot are trade
names, trademarks and/or service
marks of Eaton Corporation or its subsidiaries and affiliates. All other trademarks are property of their respective
owners.
©2008 Eaton Corporation
All Rights Reserved
Printed in USA
9910INT
July 2008

Power Protection Handbook for IBM System i and System p

Transcription

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