General UPS Information Resources on the Web and Sales Tools: eaton.com/avaya ..................................................................... 1 UPS Sizing Tool ............................................................................................................................... 2 Top 10 Reasons to Sell an Avaya UPS ............................................................................................... 4 Avaya Online UPSs Increase the Reliability of Your Communications Systems ................................................................................................. 5 9 Power Problems and Their UPS Solutions........................................................................................ 6 UPS Topologies: Online, Line-interactive and Standby ......................................................................... 7 Features and Benefits of an Avaya Online UPS ................................................................................... 8 Pie Chart of Power Problems ............................................................................................................. 8 Avaya UPS Design Guidelines ........................................................................................................... 9 Frequently Asked Questions: General ............................................................................................... 11 Input Plug and Output Receptacle Chart .......................................................................................... 14 Glossary of Power Terms ................................................................................................................. 15 Commonly-used Acronyms .............................................................................................................. 18 Product Configuration Information SAP List for Avaya UPS ................................................................................................................. 19 Avaya Equipment Power Ratings ...................................................................................................... 20 Avaya UPS Basic Configurations: Plugs, Receptacles, and U Sizes...................................................... 27 Product Information 1000-2000 VA Online UPS ............................................................................................................ 28 3000 VA Online UPS ..................................................................................................................... 31 6000 VA Online UPS ..................................................................................................................... 35 8 and 12 kVA Online UPS .............................................................................................................. 39 20 kVA Online UPS........................................................................................................................ 43 Web/SNMP Card ............................................................................................................................ 46 UPS Environmental Probe .............................................................................................................. 47 eNotify Remote Monitoring ............................................................................................................. 48 750-1440 VA Line-Interactive UPS ................................................................................................. 49 Power Distribution Unit (PDU) ........................................................................................................ 54 18 and 36 kW DC Power System ..................................................................................................... 55 Table of Contents Please check eaton.com/avaya for the latest and most current information. eaton.com/avaya Version 16, 07/09
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General UPS Information
Resources on the Web and Sales Tools: eaton.com/avaya ..................................................................... 1
750-1440 VA Line-Interactive UPS ................................................................................................. 49
Power Distribution Unit (PDU) ........................................................................................................ 54
18 and 36 kW DC Power System ..................................................................................................... 55
Table of Contents
Please check eaton.com/avaya for the latest and most current information.
eaton.com/avaya
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General UPS
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1
Resources on the Web and Sales Tools: eaton.com/avaya
Americas home page on eaton.com/avaya
The following information is available to you on the web or from your UPS consultant.
Please note that the web site is updated more frequently than this handbook.
UPS Sizing Tool – An online sizing tool to help you with selecting the correct UPS.
Part Number Search – Find current and obsolete UPS products by entering the SAP, PEC, or part number.
Literature – Brochures, manuals, power information, and battery information.
Visio Stencils – Stencils for all Avaya UPS models.
Presentations – Customer and training presentations.
Proposal Documents – Product benefits, specs, pricing, pictures, and information for customer proposals.
Online Training – Training on Avaya UPS, key features and basic UPS concepts.
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UPS Sizing Tool
2. Select a UPS solution based on desired holdover time.
Sizing a UPS is as easy as 1-2-3.
1. Choose the equipment and quantity you want to protect.
The UPS Sizing Tool has been updated with load information for Cisco and Juniper equipment and a new
menu for Nortel loads. We will continue to update this tool to make configuring Avaya UPSs easier.
Equipment from Avaya, Cisco, Extreme Networks, Juniper and Nortel is included
List of UPS models based on battery runtime and price
View details on the UPS or download an Excel document for detailed quote information
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3. Print or email the quote and you are done! Write down the solution number to return to this
configuration in the future.
Every solution has a unique number (Be sure to save it!)
Email, print or download an Excel file
Download Visio stencils
Add options
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Top 10 Reasons to Sell an Avaya UPS
* The 500-1440 VA UPS is line-interactive.
When it comes to providing your customers with
the best possible power protection solution for your
Avaya telecommunications equipment, select the
best—an Avaya UPS.
1. Customers Need a UPS.
Did you know that customers on typical
commercial utility power experience an average
of four outages per year? So, remember, it is not
whether customers will need a UPS, but when
they will need it.
2. Online, Double-conversion Technology.*
Avaya UPSs feature a rugged design where
power is completely regenerated before
reaching the connected load so that no power
interruptions reach the connected equipment.
3. Extended Backup Times.
Avaya has custom solutions designed to provide
up to 8 hours of backup time.
4. Avaya Authorized and Approved.
Each Avaya labeled UPS is designed and tested
to meet the rigorous Avaya specifications of
telecommunications and ancillary equipment.
5. ABM® Technology.
Avaya UPS models feature Advanced Battery
Management, which doubles battery service life,
optimizes recharge time, and provides advanced
warning of the end of useful battery life.
6. Avaya UPS Sizing & Technical Support.
Selecting an Avaya UPS is easy with the UPS
sizing tool available on eaton.com/avaya. For just
about every Avaya system, there is an Avaya UPS
built to protect it.
7. SNMP Card.
Most Avaya models are equipped with the
Web/SNMP card for advanced communication
and monitoring capabilities. The Web/SNMP
card can be ordered as an option for the
remaining models.
8. Avaya UPS Sales Support.
Our dedicated sales support team is available
to work with you through every step of the sales
process. We can also provide valuable post-sales
support: 800-322-4877.
9. Avaya Preventive Maintenance.
All Avaya UPSs (purchased directly through
Avaya) come standard with preventive
maintenance to ensure that your systems
remain healthy.
10. Avaya Brand Recognition.
The Avaya name commands respect and your
customers will have a complete Avaya solution.
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Avaya Online UPSs Increase the Reliability of Your Communications Systems
Avaya Online UPSs
Avaya’s online UPS solutions from 1000 VA to
20 kVA can help you avoid damage due to power
problems. Utility irregularities (such as spikes,
surges, brownouts, blackouts, etc.) are corrected
before they are passed on to telecommunications
and networking systems. Without a UPS, power
problems are not corrected and can cause
devastating problems to your data, systems and
equipment.
Increase System Reliability
Avaya UPSs increase your customers’ systems
reliability, protect their hardware and data, and
provide backup power. Avaya online UPSs:
•regulatevoltage
•offeradvancedbatterymanagement
capabilities
•arecompatiblewithallotherAvayaAC
products.
UPS Selection Criteria
Two important factors to consider when choosing
a UPS are:
1. The size of your load.
2. The amount of backup time needed for your
systems.
For example, in the event of an extended power
outage you may want to have your system
programmed to automatically shutdown your less
critical equipment to conserve power for your
phones. Also, the location of your equipment may
determine the number of UPSs needed; sometimes
it is simpler to place a few UPSs strategically
throughout your business than it is to connect
everything to a single UPS. (Access a quick UPS
sizing tool at eaton.com/avaya.)
The Online Advantage
Online UPSs are the optimal solution for customers’
telecommunications systems, call centers,
medium to large networks and servers. The Avaya
online design provides the highest level of power
protection available and is the ideal choice for
communications systems and critical computing
applications, such as ECLIPS Solutions.
Online UPSs protect against all types of power
contamination and continuously create clean sine
wave power for your customers’ systems. Brownouts,
power spikes, surges, line noise, frequency
variations, and other power problems are eliminated
before they reach the connected equipment.
How does an online UPS work? First, incoming
utility AC power is converted to DC power. While a
small portion of this DC power is used to charge the
battery, the rest travels to the inverter. The inverter
then produces new, continuous 120 volt sine wave
AC power, which keeps the communications systems
up and running. With online technology, the inverter
operates continuously, regardless of the state of the
utility power.
With the online design, the batteries are held in
reserve and are available when the customer needs
them most—during a complete power outage. The
Avaya online design uses the battery less than any
other UPS technology. In fact, it only goes to battery
if the voltage dips below 80 volts or above 144
volts, thus increasing the life of the battery and the
UPS itself. See page 5 for additional information.
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9 Power Problems and Their UPS Solutions
Power Problem Definition Cause and Results UPS Solution
(1) Power Outage A total loss of utility power
Can be caused by a number of events: lightning strikes, downed power lines, grid over-demands, accidents and natural disasters.
Standby Line-interactive Online
(2) Power Sag Short term low voltage
Triggered by the startup of large loads, utility switching, utility equipment failure, lightning and power service that’s too small for the demand. In addition to the crashes, sags can damage hardware
Standby Line-interactive Online
(3) Power Surge Short term high voltage
With voltages above 110% of nominal, surges can be triggered by a rapid reduction in power loads, heavy equipment being turned off, or by utility switching. The results can potentially damage hardware.
Standby Line-interactive Online
(4) Brownout Reduced line voltage for extended periods of a few minutes to a few days
Can be caused by intentional utility voltage reduction to conserve power during peak demand periods or other heavy loads that exceed supply capacity
Line-interactive Online
(5) Electrical Line Noise High frequency waveform that piggybacks on the line waveform
Can be caused by either RFI or EMI interference generated by transmitters, welding devices, SCR driven printers, lightning, etc
Line-interactive Online
(6) High Voltage Spike Instant and dramatic increase in line voltage
Can be caused by lightning strikes and can send line voltages to levels in excess of 6,000 volts. A spike almost always results in data loss or hardware damage to unprotected systems.
Online
(7) Frequency Variation A change in frequency stability
Resulting from generator or small co-generation sites being loaded and unloaded. Frequency loss, system crashes and equipment damage.
Online
(8) Switching Transient Instantaneous high voltage increase impressed on the power line waveform
Normal duration is shorter than a spike and generally falls in the range of nanoseconds.
Online
(9) Harmonic Distortion Distortion of the normal line waveform, generally transmitted by nonlinear loads.
Switch-mode power supplies, variable speed motors and drives, copiers and fax machines are examples of nonlinear loads. Harmonic distortion can cause communication errors, overheating and hardware damage.
Online
Normal Sine Wave
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There are three main UPS technologies used in the market place; standby, line-interactive and online. Avaya online UPSs protect your customers from the nine most common power problems present in any work environment. They provide superior protection for communications and networking systems with extended battery holdover times. Below is a brief explanation of each UPS topology.
Online 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. 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. Avaya’s robust, state-of-the-art online UPS provides superior protection for your communication and networking systems. Note: Online UPSs provide protection from all 9 power problems listed.
Line-interactive UPS Technology
Line-interactive UPSs offer basic power protection at mid-range 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 voltage regulation by “boosting” the utility voltage up or down before passing it through to your electronic system.
Unlike standby models, a line-interactive UPS regulates incoming voltage fluctuations. As a result, they provide a higher degree of protection. In comparison to an online UPS, line-interactive models do not provide the same level of isolation from power disturbances. Line-interactive models are often a very cost-effective solution for small-to-medium size businesses and branch offices. Note: Line-interactive UPSs provide protection from power problems 1 – 5 (see page 4).
Standby UPS Technology
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. 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 4).
UPS Topologies: Online, Line-interactive and Standby
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Features and Benefits of an Avaya Online UPS
Pie Chart of Power Problems
Surges
10%
Blackouts
14%
Spikes
22%
Source: National Power Laboratory (NPL) as reported in Teleconnect, November 1995
This pie chart shows the type of common power problems that can affect communications and
networking systems.
Sags
54%
Features Benefits
1. Converts alternating current (AC) to direct
current (DC) then regenerates AC to the
protected equipment
Guarantees total isolation between input voltage
and the protected equipment, and constantly
provides voltage and frequency regulation.
2. Inverter is online during normal operation •Assuresapurevoltageandfrequencyoutput
to the protected equipment all the time, not
just during power outages.
•PoweroutputfromUPSremainswithin
±3% of nominal voltage.
3. Zero transfer time when switching from
utility to battery
Prevents power loss to the protected equipment
when utility power is interrupted.
4. Wide input voltage window (85-144 Vac
on low voltage models and 176-276 Vac
on high voltage models)
Results in negligible battery usage during
brownouts; thus a longer battery service life,
increased reliability, and reduced maintenance.
5. Automatic internal bypass circuit Provides alternate power path to protected
equipment keeping the load on in the event
of UPS failure or equipment overload.
6. Low output voltage distortion (THD <5%) Eliminates damage to protected equipment’s
power supply.
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1. What equipment will this UPS protect?
In order to size a UPS properly, you must know
what is going to be plugged into it. If there are
multiple pieces of equipment, you need to add
them up to determine their total VA rating and
the appropriate UPS. It is also very important
to choose a UPS with the correct output
receptacles.
The output receptacles are the receptacles into
which the equipment being powered by the
UPS will plug. A hardwired output is available
on 6000 VA and larger UPS models. Hardwired
outputs are generally useful if you want the UPS
output to be distributed via electrical panels.
Using an electrical distribution panel allow for
flexibility with receptacles types. If there is no
other UPS that fits your receptacle and power
requirements, you may need to hardwired the
UPS. Hardwired UPS models typically require
the use of a certified electrician to wire the
UPS to the electrical distribution panel and
this could be a more costly option for some
customers.
2. Can I install small UPS models behind larger UPS
models?
If you are installing a smaller UPS behind a
larger UPS, you must consider the total potential
power of the smaller UPS as well as other
loads that will be powered by the larger UPS.
For example, if you are plugging a 1500 VA
UPS into a 10,000 VA UPS, you must consider
the 1500 VA load of the smaller UPS rather
than just the load that is plugged into it. In
addition, the larger UPS must be at least five
times larger than the smaller UPS. This design
guideline must be followed due to charging
capacity that may be required by the smaller
UPS, any anomalies associated with the building
power, and to avoid overheating or potential over
loading of the larger UPS which may result in
failure of the all UPS models in the string.
3. Can I use a UPS and a generator together?
Yes. Similar to a UPS, a generator provides
backup power. However, when utility power
fails a UPS detects the condition and switches
to battery backup to keep supplying power to
the protected loads. Meanwhile, the auxiliary
generator starts up within 10-15 seconds; time
may vary by generator type. However, a generator
does not actively condition or regulate voltage
the way a UPS does. The use of a UPS provides
the seamless transfer to battery power and the
generator provides the long-term backup power.
In addition, a generator might not regulate
the output voltage properly when powering a
lightly loaded UPS. Is your UPS carrying loads
at 80-90% load of its power rating or closer
to 15-20% of its rating? Some generators are
designed with intelligent input filters to mitigate
this effect, but this still must be taken into
consideration.
For UPS models with power ratings below 150
kVA, you want to oversize your generator by as
much as 200% because very small generators
don’t often provide enough kinetic energy to
provide a smooth transition. You can't size a
generator in a 1:1 match to the UPS and expect
efficient results. As a general rule of thumb,
auxiliary generators will be sized at 1.5 times
the size of the output rating of the UPS in kW,
but it should be somewhat higher for gasoline or
gas powered generators.
4. How much battery backup time does the
customer want?
Does your customer want 5 minutes? An hour?
6 hours? This question is critical to sizing the
UPS properly. Adding batteries to the UPS
provides additional battery runtime only,
not added capacity.
Avaya UPS Design Guidelines
The following design guidelines must be reviewed and followed prior to ordering the appropriate UPS.
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5. Always be sure 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 smoothly if your customers are not waiting
for this to be done after all of their equipment
has arrived. Most small computers and rack-
mounted computers run on normal 120 volt, 15
amp electrical service. Some computers have
a power cord that requires a higher voltage of
208V or 240V. In such cases, you will need a
3000 VA or larger UPS.
6. Find out the dimensions of the UPS and include
any battery cabinets.
Make sure that the installation site has enough
space available.
7. Does the UPS have adequate ventilation?
Avaya UPS models use internal fans to cool the
UPS. You should not install the UPS in a sealed
container or small, sealed room.
8. Ensure that the UPS can be placed in its final
position.
Will the UPS components fit through doors?
Are there any stairs? Please consult the
eaton.com/avaya Web site for detailed
UPS dimensions and specifications.
9. Is the floor strong enough to support the UPS and
battery cabinets?
The UPS and its battery cabinets can be heavy
so make sure the site has the proper floor
loading capacity.
10. 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.
11. When using a hardwired UPS, it is absolutely
critical that the installation wiring be performed
by a certified electrician.
A hardwiring option is available on 6000 VA and
larger UPS models. For details associated with
wiring the hardwired UPS, please consult your
UPS manual or visit eaton.com/avaya for further
assistance. If a power failure occurs with
an incorrectly wired UPS, it could destroy the
power supplies of any equipment that is being
powered by that UPS.
Avaya UPS Design Guidelines - continued
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Frequently Asked Questions: General
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 (120 volts in the US).
10A x 120V = 1200 VA
5. What is the difference between single-phase and
three-phase power?
The AC electric power sent out from a power
station is commonly three-phase. Single-phase
power can be drawn from a connection across
one of these lines and a neutral line. Virtually
all PCs and small electrical devices use single-
phase power available from standard 10A or
15A power points. Higher power industrial
motors or large air-conditioning systems often
use three-phase power and cannot be powered
by plugging them into standard 10A or 15A
power points.
6. 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.
7. How are the phone systems affected by
inconsistent power?
Fluctuating power is a waste of valuable time
and money. If customers expose their telephone
systems (and any other electronic equipment)
to inconsistent utility power, they are vulnerable
to hardware and software damage, data
corruption and communication breakdown. The
time and cost of replacing equipment, as well
as the business lost during breakdown and
replacement, can greatly affect a company’s
bottom line.
8. Where can I get technical help?
Contact your territory representative, call the
Avaya UPS Hotline at 1-800-322-4UPS (4877),
or visit eaton.com/avaya.
9. Can the UPS supporting my S8700 notify me via
e-mail when it is running on battery power?
Yes. The Web/SNMP card in your UPS can
send out email messages to up to 4 customer-
selected addresses.
10. What is the average lifespan of the batteries used
in the UPS?
The typical life of batteries in an Avaya online
UPS is 4 to 6 years. Overall service life depends
on a number of factors, including temperature
and the number of battery discharges.
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Frequently Asked Questions: General – continued
11. Does the UPS need to have a load on it to charge
its batteries? My understanding that 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.
12. 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.
13. I came across a spare, unused Avaya 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.
14. 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 battery 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.
15. 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 Avaya UPS
provides perfect, clean power to your equipment
at all times. Over time, poor quality power will
degrade your equipment.
16. Does the Avaya online UPS condition or regulate
incoming voltage fluctuations?
Yes. The Avaya online UPS keeps the power
which it passes on to the connected load to a
very tight ±3% of nominal voltage and does so
without using battery power.
17. What is the smallest Avaya UPS I can get?
The smallest UPS that you can get is a 500
VA UPS model. It is labeled as an Eaton unit,
but it is a part of Avaya's product offering. The
smallest UPS with the Avaya label is rated at
1000 VA.
18. 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.
19. 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
over time so by oversizing you provide room for
error. In the avayaups.com sizing tool we have
included a “capacity used” column.
20. 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.
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Frequently Asked Questions: General – continued
21. What’s the difference between a generator and
a UPS? Would I ever use a UPS and a generator
together?
Similar to a UPS, a generator provides backup
power. However, it takes a while for the
generator to kick on in the event of a power
outage. By the time it gets going, the damage
has most likely been done. In addition, a
generator does not actively condition or regulate
voltage the way a UPS does. Many customers
often use both a UPS and a generator together.
The UPS provides the seamless transfer to
battery power and the generator provides the
long-term backup power.
22. Why is power quality such a problem today?
Today’s high-tech VoIP equipment is 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.
23. 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. Many power quality problems
go unresolved and result in lost revenue and
data.
24. How old is my UPS?
There is no way to determine the age of an
Avaya UPS by simply looking at it. However, all
Avaya UPS units have a rating label on them. If
you write down the serial number (S/N) and part
number (P/N) and email them to AvayaUPS@
Eaton.com or call us at 1.800.322.4877,
we will send the date that the UPS was
manufactured.
25. What is the difference between a BDM, PPDM, and
a PDM?
All three are essentially the same thing. They are
modules that allow you to replace a UPS without
shutting down the UPS or the equipment
connected to it. In addition, these modules
provide different sets of output receptacles:
1000-1500 VA UPS: BDM
(Bypass Distribution Module)
3000 VA UPS: PDM
(Power Distribution Module)
6000 VA UPS: PPDM
(PowerPass Distribution Module)
26. Can I install small UPS models behind larger
UPS models?
If you are installing a smaller UPS behind
a larger UPS, you must consider the total
potential power of the smaller UPS as well as
other loads that will be powered by the larger
UPS. For example, if you are plugging a 1500
VA UPS into a 10,000 VA UPS, you must
consider the 1500 VA load of the smaller UPS
rather than just the load that is plugged into it.
Battery type Sealed lead acid maintenance free. VRLA 12V/9 Ah (UPS and EBM batteries)
Battery replacement Hot-swappable internal and external batteries
Start-on-battery Allows start of UPS without utility input
Communications
Serial port RS-232 (cable provided for interface to power management software)
USB port HID standard, for communicating with Windows 98 and ME computers
Relay output DB-9 Dry Contact—common alarm as standard
Four-post rail kits are included with all UPS and battery modules
Product
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REPO port REPO is used to shut down the UPS from a distance. This feature can be used for shutting down the load and the UPS by thermal relay, for instance in the event of room overtemperature. When REPO is activated, the UPS shuts down the output and all its power converters immediately. The UPS remains on to alarm the fault.
Communication card Web/SNMP card included for direct control and monitoring in SNMP-based networks, monitoring of UPS status and meters through Web browser interface
Environmental
Safety markings UL, CUL, VCCI
EMC markings FCC Class B, EN55022 Class B
Audible noise <50 dB
Ambient operating temperature 0°C (32°F) to +40°C (104°F)
Storage temperature -20°C (-4°F) to +40°C (104°F) with batteries and -25°C (-13°F) to +55°C (131 °F) without batteries
Relative humidity 5–90% non-condensing
Heat dissipation (BTU/hr) 1000 VA: 500 (normal mode); 674 (on battery) 1500 VA: 750 (normal mode); 1,011 (on battery)
1. Due to continuing product improvement programs, specifications are subject to change without notice.
Bypass Distribution Module: 1000 and 1500 VA UPS
The Bypass Distribution Modules (BDMs) are designed to enhance the reliability and flexibility of the 1000
and 1500 VA Avaya UPS. BDMs allow you to upgrade or replace the UPS while continuously providing
power to your protected equipment. The BDM also provides surge protection for the critical loads if UPS is
not present and provides surge protection for your laser printer without taxing the UPS. BDMs can be used
in both tower and rack-mount configurations.
Note: In a rack configuration, the BDM does not take up additional rack space and only creates an
extension of the depth of the unit.
UPS Rear Panel: 1000 and 1500 VA Online UPS
(6) 5-15R REPO USB
Communication bay (Populated with Web/SNMP Card -
not shown here)
Relay Port RS-232 Input cord with 5-15P
EBMs are connected through the front of the UPS
EBM connections are made via the front of the UPS. See the user manual for detailed instructions.
3000 VA 700465420 L5-30P (6) 5-20R and (1) L5-30R 3.4 (2U) x 17.2 x 23.6 69.2
PDM 700465537 L5-30P (6) 5-20R and (1) L5-30R 3.5 (2U) x 17.5 x 23.9 20.0
Optional Extended Battery Module
EBM 700465487 - - 3.4 (2U) x 17.2 x 23.6 84.0
Battery Backup Times (in minutes)1: 3000 VA Online UPS
Load (VA/Watts)
Internal Batteries +1 EBM +2 EBMs +3 EBMs +4 EBMs
3000/2100 5 25 47 72 100
2250/1575 8 37 72 102 137
1500/1050 13 60 100 165 223
750/525 34 138 228 326 438
1. Battery backup times are approximate and may vary with connected equipment, battery age, temperature, etc.
Product
Information
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Technical Specifications1
General
Topology True online, double conversion
User interface Graphical LCD with blue backlight and text in English, French, German, Russian and Spanish
LEDs Four status-indicating LEDs: power on, on battery, bypass and alarm
Diagnostics Full system self-test
UPS bypass Automatic bypass
Physical
UPS Dimensions, HxWxD UPS: 3.4 (2U) x 17.2 x 23.6 in / 87 x 438 x 600 mm PDM: 3.5 (2U) x 17.5 x 23.9 in / 89 x 445 x 607 mm EBM: 3.4 (2U) x 17.2 x 23.6 in / 87 x 438 x 600 mm
Weights UPS: 69.2 lb / 31.4 kg PDM: 20.0 lb / 9.1 kg EBM: 84.0 lb / 38.1 kg
Rail kit 4-post rail kit for 19-inch racks included with all UPS and battery modules
Electrical input
Input plug UPS: L5-30P PDM: L5-30P
Nominal voltage 120V
Voltage range 90–138 Vac (with load PF of 0.7)
Power draw of UPS 25A
Dedicated circuit breaker rating 30A
Frequency 50/60 Hz
Frequency range 45–65 Hz
Electrical output
Power rating 3000 VA / 2700 watts
Output receptacles UPS: (6) 5-20R and (1) L5-30R BDM: (6) 5-20R and (1) L5-30R
Battery type Sealed lead acid maintenance free. VRLA 12V/9 Ah (UPS and EBM batteries)
Battery replacement Hot-swappable internal and external batteries
Start-on-battery Allows start of UPS without utility input
Communications
Serial port RS-232 standard, for interface to power management software
USB port HID standard, for communicating with Windows 98 and ME computers
Four-post rail kits are included with all UPS and battery modules
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Relay output Common alarm standard
REPO port REPO is used to shut down the UPS from a distance. This feature can be used for shutting down the load and the UPS by thermal relay, for instance in the event of room overtemperature. When REPO is activated, the UPS shuts down the output and all its power converters immediately. The UPS remains on to alarm the fault.
Communication card Web/SNMP card included for direct control and monitoring in SNMP-based networks, monitoring of UPS status and meters through Web browser interface
Environmental
Safety markings UL, CUL, VCCI
EMC markings FCC Class B, EN55022 Class B
Audible noise <50 dB
Ambient operating temperature 0°C (32°F) to +40°C (104°F)
Storage temperature -20°C (-4°F) to +40°C (104°F) with batteries and -25°C (-13°F) to +55°C (131 °F) without batteries
Relative humidity 5–90% non-condensing
Heat dissipation (BTU/hr) 1,257 (normal mode); 1,755 (on battery)
1. Due to continuing product improvement programs, specifications are subject to change without notice.
UPS with PDM
The Power Distribution Modules (PDMs) are designed to enhance the reliability and flexibility of the 3000
VA Avaya UPS. PDMs allow you to upgrade or replace the UPS while continuously providing power to your
protected equipment. The PDM also provides surge protection for the critical loads if UPS is not present
and provides surge protection for your laser printer without taxing the UPS. PDMs can be used in both
tower and rack-mount configurations.
Product
Information
PDM: 3000 VA UPS
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UPS Rear Panel: 3000 VA Online UPS with Power Distribution Module (PDM)
UPS input connection L5-30R (6) 5-20R
USB RS-232
Communication bay (Populated with Web/SNMP card - not shown here)
REPORelay portL5-30R(6) 5-20R (connects to UPS input
connection on PDM)
Input cord with L5-30P (connects to UPS input connection on PDU)
PDM power cord with L5-30P (plugs into L5-30R wall socket)
Bypass switch
UPS output connection
EBMs are connected through the front of the UPS
PDM
UPS
EBM connections are made via the front of the UPS. See the user manual for detailed instructions.
External battery module Up to four per 9135, rail kits included for rack mounting
Battery recharge time Six hours to recover 90 percent of nominal backup time after 100 percent RCD load discharge
Battery replacement Hot-swappable internal and external batteries
Start-on-battery Allows start of UPS without utility input
Four-post rail kits are included with all UPS and battery modules
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Communications
Serial port RS-232 (cable provided for interface to power management software)
USB port HID standard
Relay output DB-9 Dry Contact—common alarm as standard
Communication card Web/SNMP card included for direct control and monitoring in SNMP-based networks, monitoring of UPS status and meters through Web browser interface
Software LanSafe UPS monitoring and management software
Environmental
Safety markings UL, NOM, NYCE
EMC markings FCC-A, VCCI-A, BSMI-A, C-Tick, CE Compliance
Audible noise Max 46 dB
Ambient operating temperature 0°C (32°F) to +40°C (104°F)
Storage temperature -20°C (-4°F) to +40°C (104°F) with batteries and -25°C (-13°F) to +55°C (131°F) without batteries
Relative humidity 5–90% non-condensing
Heat dissipation (BTU/hr) Normal: 1350 Battery: 1960 High efficiency: 450
1. Due to continuing product improvement programs, specifications are subject to change without notice.
UPS Rear Panel: 6000 VA Online UPS
(4) L6-30R
Communication bay (Populated with Web/SNMP
card - not shown here)
REPO EBM RJ-11 connector
Input cord with L6-30P EBM battery connector
USB port
RS-232 port
Relay port
Product
Information
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PowerPass Distribution Modules: 6000 VA UPS
The PowerPass Distribution Modules (PPDMs) are designed to enhance the reliability and flexibility of the
6000 VA Avaya UPS. PPDMs allow you to upgrade or replace the UPS while continuously providing power
to your protected equipment. The PPDM also provides surge protection for the critical loads if UPS is not
present and provides surge protection for your laser printer without taxing the UPS. PPDMs can be used in
both tower and rack-mount configurations.
UPS with PPDM, L5-30R (default)
L5-30R
PPDM output circuit breaker
(8) 5-15R
UPS
UPS with PPDM, L6-30R and L14-30R
L6-30P
L14-30R L6-30R
PPDM output circuit breaker
(4) 5-15R
UPS
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Product
Information
8 and 12 kVA Online UPS
Typical Applications: Definity Communication
Systems, Associated Adjunct Products, Other
PBX Systems, Voicemail Systems, Multidesktop
Environments, and Video.
Benefits
• Isolatesconnectedequipmentfromallincoming
power problems to provide the highest degree of
protection with rugged, online design
• Providesflexibleruntimeswithoptional
extended battery solutions
• Lowersyourutilitybillwithenergy-efficient
operation
• DoublesbatteryservicelifewithABMtechnology
• Deliversenhancedreliabilitywithredundant
configurations
Maintenance Bypass Module
The 8 and 12 kVA UPS comes standard with a
wall-mount bypass switch allowing you to service
or replace the UPS without shutting down the
equipment connected to it. It is also equipped
with the following output receptacles:
(4) 5-15R
(2) L6-20R
(2) L14-30R
3-high UPS withInternal Battery
Optional 3-high EBMs
Optional Extended Battery Cabinet (EBC)
also available
Bypass Switch
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Model Selection Guide: 8 and 12 Online UPS
Model1 SAP CodePower Out (kVA/kW)
Input Connection
Output Connection
Installed Dimensions (HxWxD in.)
Installed Weight (lb.)
Standard UPS Models
8 kVA (3-high) w/64 Battery and Maintenance Bypass Module
3-high EBM 700434681 N/A N/A N/A 47.8 x 12.0 x 33.7 7103
Extended Battery Cabinet
700434699 N/A N/A N/A 79 x 80 x 32 7,565
1. 50/60 Hz auto-sensing. All models can be used for frequency/phase conversion with de-rated 80% load. Please refer to User’s Guide for details. 2. An input neutral is required for all configurations. 3. Weight is installed weight; add 47 lb. (2-high battery models) or 50 lb. (3-high UPS/battery models) to determine shipping weight.
Battery Backup Times (in minutes)1: 8 and 12 kVA Online UPS
1. Battery times are approximate and may vary with equipment, configuration, battery age, temperature, etc. If you have a UPS with one or more EBMs, you must run the “ERM Configuration Tool,” which can be found on the Software Suite CD shipped with the UPS. It is also posted on the eaton.com/avaya site.
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Product
Information
Additional Specifications1: 8 and 12 kVA Online UPS
Electrical Input
Topology True double-conversion online UPS
Nominal Input Voltage 200-240V with neutral
Input Voltage Range -15%, +10% from nominal at 100% load without depleting battery
Operating Frequency 50/60 Hz (45 to 65 Hz)
Input Power Factor >0.99typical,>0.96frequencyconverter
Output Voltage Regulation ±1% static; ±5% dynamic at 100% resistive load change, <1 ms response time
Efficiency 90%, typical
Battery
Battery Type 9 Ah, sealed, lead-acid, maintenance-free
Battery Replacement Field-replaceable
Charger Default is 3.4A per battery string. Charger current is configurable from 0.5A to 25A per string with an overall maximum of 34A (limited by input current)
Start-On-Battery Allows start of UPS without utility input
Web/SNMP Card/ Two slots for connectivity Communication Slot cards; one slot occupied by Web/SNMP card
Power Management Bundled Software Suite CD Software
Environmental and Physical
Heat Dissipation 5582 BTU/hr. maximum online (normal operation) 5294 BTU/hr. maximum during battery operation
Floor Loading (Point Loading)
3-high UPS: 148 lb/in 3-high EBM: 178 lb/in
Floor Loading (Distributed Loading)
3-high UPS: 278 lb/ft 3-high EBM: 335 lb/ft
Operating Temperature 50ºF to 104ºF
Optimum Temperature 77ºF for Optimum Battery Performance
Storage Temperature 32ºF to 77ºF
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Recommended 59ºF to 77ºF Storage Temperature
Relative Humidity 0–95%, non-condensing
Audible Noise <53 dBA at 1 meter (noise less room) typical
Altitude 9,843 ft. (3,000m) operating with derating; 32,810 ft. (10,000m) during transportation
Certifications
Safety Certifications NOM-0190SCFI-1993,UL 1778, CSA C22.2, No. 107.3; EN 5502 Class A (CISPR22 Class A) and IEC 60950; IEC 62040-1-1
Quality IEC 62040-2, FCC Part 15, ICES-003, VCCI
Markings ISO 9001: 2000 and ISO 14001:1996
Safety Certifications UL, cUL, CSA, CE and NOM-NYCE
1. Due to continuing product improvement programs, specifications are subject to change without notice.
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Product
Information
20 kVA Online UPS
Typical Applications: Definity Communication
Systems, Associated Adjunct Products, Other
PBX Systems, Voicemail Systems, Multidesktop
Environments, and Video
Benefits
• Isolatesconnectedequipmentfromallincoming
power problems to provide the highest degree of
protection with rugged, online design
• Providesflexibleruntimeswithoptionalextended
battery solutions
• Lowersyourutilitybillwithenergy-efficient
operation
• DoublesbatteryservicelifewithABMtechnology
• Deliversenhancedreliabilitywithredundant
configurations
• Comesstandardwithabypassswitch
Model Selection Guide: 20 kVA Online UPS
Model1 SAP CodePower Out(kVA/kW)
Input Connection
Installed Dimensions (HxWxD, in.)
Installed Weight (lb.)
Standard UPS Models
20 kVA UPS w/Internal Battery
700434715 20 / 18 Hardwired 66.0 x 20.0 x 34.1 1,1602
Additional Components
EBM 36 700434723 N/A N/A 66.0 x 20.0 x 34.1 1,105
EBM 72 700434731 N/A N/A 66.0 x 20.0 x 34.1 2,060
EBC A 700434756 N/A N/A 60 x 120 x 323 10,9503
EBC B 700434764 N/A N/A 73 x 210 x 31.54 15,4004
UPS Maintenance Bypass/ Parallel Tie Cabinet, Wall Mount LV
700434749 N/A N/A 48.0 x 20.0 x 5.8 66.0
1. 50/60 Hz auto-sensing. 2. Weight is installed weight; add 70 lb. to determine shipping weight. 3. EBC A is shipped as 3 separate cabinets and then installed on site. 4. EBC B is shipped as 5 separate cabinets and then installed onsite.
OptionalEBM
UPS with Internal Battery
Optional Extended Battery Cabinet (EBC) also available.
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Additional Specifications1: 20 kVA Online UPS
Electrical Input
Topology True double-conversion online UPS
Nominal Input Voltage 208/120V, 220/127V +15%, -20%
Operating Frequency 50/60 Hz (45 to 65 Hz)
Input Power Factor >0.99typical
Input Current Distortion 5% THD
Electrical Output
Nominal Output Voltage 208/120 Vac, 220/120 Vac; An input neutral is required
Output Voltage Regulation
±1% static; ±4% dynamic at 100% step load recovery within 1 ms response time
Efficiency 91%, typical
Battery
Battery Type 9 Ah, sealed, lead-acid, maintenance-free
Battery Replacement Must be replaced by a qualified service tech
Charger Default is 3.4A per battery string. Charger current is configurable from 0.5A to 25A per string with an overall maximum of 34A (limited by input current)
Start-On-Battery Allows start of UPS without utility input
Web/SNMP Card/ Two slots for connectivity Communication Slot cards; one slot occupied by Web/SNMP card
Power Management Bundled Software Suite CD Software
Environmental and Physical
Recommended From front of cabinet: 36 Clearances in. working space. From back of cabinet: 6 in. From right of cabinet: Refer to local codes for right side service access (minimum 24 in.)
Operating Temperature 50ºF to 104ºF Optimum Temperature 77ºF for Optimum Battery Performance
Storage Temperature 59ºF to 77ºF
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Product
Information
Relative Humidity 0–95%, non-condensing
Audible Noise <58 dBA at 1 meter depending on load
Altitude 9,843 ft. (3,000m) operating with derating; 32,810 ft. (10,000m) during transportation
Certifications
Safety Certifications IEC 62040-1-1, IEC 60950, EN 62040-1-1, UL 1778, NOM-0190SCP8-1993
Quality ISO 9001: 2000 and ISO 14001:1996
Markings UL, cUL, NOM-NYCE
1. Due to continuing product improvement programs, specifications are subject to change without notice.
Battery Backup Times (in minutes)1: 20 kVA Online UPS
(VA/Watts)UPS with Internal Batteries
Plus (1) EBM 36
Plus (1) EBM 72
Plus (2) EBM 72
Plus (3) EBM 72
20000 / 18000 18 56 82 114 160
19000 / 17100 19 58 85 117 175
18000 / 16200 20 62 88 120 189
17000 / 15300 22 66 92 130 204
16000 / 14400 24 71 96 142 219
15000 / 13500 26 75 101 154 234
14000 / 12600 28 79 105 166 249
13000 / 11700 31 84 110 178 265
12000 / 10800 35 88 114 201 280
11000 / 9900 38 94 119 256 319
10000 / 9000 42 101 134 251 355
7500 / 6750 58 117 188 347 471
5000 / 4500 90 188 294 543 610
1. Battery times are approximate and may vary with equipment, configuration, battery age, temperature, etc. If you have a UPS with one or more EBMs, you must run the “ERM Configuration Tool,” which can be found on the Software Suite CD shipped with the UPS. It is also posted the eaton.com/avaya site.
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Web/SNMP Card
The ConnectUPS Web/SNMP card enables you
to monitor and control remote UPSs from web
browsers or industry standard network management
systems. The Web/SNMP card inserts into the slot
on the back of your Avaya UPS, supports real-time
web and SNMP (Simple Network Management
Protocol) communication over 10/100BaseT
Ethernet connections.
Benefits
• Supportsreal-timemonitoringandcontrol
of UPSs across the network
• Deliversalarmnotificationsthroughemail,
to mobile phones, pagers, or SNMP traps
• Enablesmonitoringandcontrolviaweb
browsers, SNMP-compliant network management
systems or power management software
• Enablesrapididentificationandanalysis
of critical power conditions
• Logsandgraphsdetailedhistoricaldata
to analyze trends
• Enablesorderlyshutdownandrestartof
remote UPSs
• Usesstandardcommunicationprotocols
on 10Mb and 100Mb Ethernet networks
Web/SNMP Card UPS Compatibility Matrix
Compatible UPS Card SAP Code UPS with Embedded Card UPS with card SAP Code750 and 1440 Line-interactive UPS
700404759 No* N/A
1000 VA Online UPS 700471782 Yes 700465289
1500 VA Online UPS 700471782 Yes 700465305
3000 VA Online UPS 700471782 Yes 700465420
6000 VA Online UPS 700471790 Yes 700465446
8 kVA Online UPS 700404759 Yes 700470016
12 kVA Online UPS 700404759 Yes 700470024
20 kVA Online UPS 700404759 Yes 700434715
* UPS ships with RS-232 serial port and USB port. Optional slot available for Web/SNMP card.
Description Card providing remote monitoring and control of Avaya UPSs
Hot-swap Batteries Replace batteries without shutting down the UPS or connected equipment
General
Topology Line-interactive
Mounting Hardware All hardware included for 1U rackmount, 0U sidemount, and wallmount installations
Transfer Time 2-4 ms typical
Diagnostics Self-test at power up
Overload 110% overload, shutdown after 3 (normal operation) minutes; 150% overload, shut down 10 cycles
Communications
User Interface LED status display with AC power on, load Group, Overload, On Battery an General Alarm indicators Site Wiring Fault Indicator on rear panel.
Audible Alarms For various UPS alarm conditions, including: On Battery, Low Battery, Overload, UPS fault
Network transient Protector UL 497A, In/out jacks RJ45 (high voltage models network protection) & RJ11
Optional Communication Card Web/SNMP card
Standard Communications 1 x RS-232 Serial Port & 1 x USB Port; 6-foot communications cable included
Power Management Software Software Suite CD (bundled with UPS)
Safety Conformance UL 1778; UL497A; cUL (CAN/CSA C22.2, No. 107.1)
EMC Compliance FCC Part 15 subpart J Class A, ICES-003
RoHS Compliance Yes
Operating Temperature 0 to 40°C (32 to 104°F)
Storage Temperature -15 to 50°C (5 to 122°F)
Surge Suppression ANSI C62.41 Category A (formerly IEEE 587)
Audible Noise Less than 40 dBA typical
Altitude Up to 3000M (10,000 ft) without derating
1. Due to continuing product improvement programs, specifications are subject to change without notice
Battery Backup Times Battery Runtimes (in minutes)1: 750 and 1440 VA UPS
Load 750 VA 1440 VA200 VA / 130W 37 76
300 VA / 190W 25 58
500 VA / 320W 13 28
600 VA / 400W 9 21
750 VA / 520W 6 16
900 VA / 600W - 11
1000 VA / 670W - 9
1200 VA / 800W - 8
1440 VA / 1000W - 5
1. Battery times are approximate and may vary with equipment, configuration, battery age, temperature, etc. If you have a UPS with one or more EBMs, you must run the “ERM Configuration Tool,” which can be found on the Software Suite CD shipped with the UPS. It is also posted on the eaton.com/avaya site.
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A 5-15P Line Cord (6 ft.) B USB Port C RS-232 Serial Port D Network Transient Protector E Load Segments 1 and 2
F (4) 5-15R Outlets G DIP Switches (voltage configuration) H Site Wiring Fault Indicator I X-Slot (for Web/SNMP Card)
A
I
B C D E
FGH
Adding Additional Output Receptacles: 750 and 1440 VA UPS
If you need more output receptacles for all of the equipment that you want to protect, use the rackmount Power Distribution Unit (PDU) for ten additional 5-15R outlets. You can also use the PDU on its own without connecting to a UPS for simple power distribution. The PDU plugs into one of the UPS rear panel output receptacles:
PDU Connected to the 750 and 1440 VA UPS
Rear Panel: 750 and 1440 VA UPS
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Product
Information
Frequently Asked Questions: 750 and 1440 VA UPS
1. What color is the UPS?
Black.
2. Does the UPS ship with all mounting hardware
to mount the UPS to the wall and into 19- and
23-inch rack enclosures?
Yes.
3. Is this new UPS an online UPS like the rest of the
Avaya-labeled product line?
No, it is a line-interactive UPS.
4. Can I add additional battery packs to this UPS?
No.
5. Does this UPS utilize the ABM battery charging
technique?
Yes, it does.
6. Does the UPS ship with the batteries connected?
No, in compliance with a voluntary
program accepted by the US Department
of Transportation (DOT) to ensure safer air
transportation, Avaya 750 and 1440 VA
UPS models are shipped with the batteries
disconnected. The batteries must be connected
before the UPS will function properly. No special
tools are required and instructions are included
in the manual.
7. How much rack space does this UPS occupy?
Depending on how the UPS is installed, it can
either be 1U or 0U (mounted in the side of a
rack enclosure).
8. What are Load Segments?
A group of output receptacles on a UPS that
can be shut off independently to preserve
battery power for critical devices, started up
in sequence, or rebooted to reset connected
equipment.
9. How do I program the functionality of the
Load Segments?
You can program Load Segments with the
LanSafe power management software included
with each Avaya UPS.
10. Does the UPS ship with the Web/SNMP card?
No, the Web/SNMP card is optional.
11. Are the internal batteries hot-swappable?
Yes.
12. Is the 1500 VA UPS in ASD the same as
the 1440 VA UPS?
Yes. They are the same.
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Power Distribution Unit (PDU)
If your Avaya UPS does not have enough output
receptacles for all of the equipment that you want
to protect, you can use the rackmount PDU for
additional outlets. You can also use the PDU on
its own without connecting to a UPS for simple
power distribution.
Benefits
• Provides10additionaloutputreceptacles
to plug in devices
• Conservesvaluablerackspacewith0U
or 1U rack height
• Organizesmultiplepowercords
• EasilyplugsintoUPSoutputreceptacle
with standard 5-15P input plug
• Installsquicklyusingincludedmounting
brackets in a 1U or 0U rackmount configuration,
wall-mount configuration, or on the floor
Specifications1: Power Distribution Unit (PDU)
General
SAP Code 700427149
Manufacturer Part Number 103004538-6501
Electrical Input
Input Plug 5-15P
Voltage Range 100-120V
Frequency 50/60 Hz
Maximum Input Current Per Phase 12A
Electrical Output
Output Receptacles (10) 5-15R
Output Circuit Breaker 15A
Maximum Output Current 12A
Physical and Environmental
Weight 4.8 lb.
Dimensions (H x W x D) 1U: 1.8 x 17.5 x 4.0 inches
Operating Temperature 32 to 113°F (0 to 45°C)
Non-operation Temperature -13 to 158°F (-25 to 70°C)
Relative Humidity 5-95% noncondensing
Operating Altitude Up to 3,000 meters above sea level
Non-operating Altitude Up to 5,000 meters above sea level
Safety
Safety Marking cUL
1. Due to continuing product improvement programs, specifications are subject to change without notice.
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Product
Information
18 and 36 kW DC Power System
DC power is often a cost-effective solution for
backup power protection—especially for longer
holdover times. Avaya has a 48V DC power system
offering, rated at 18 and 36 kW, designed to
support legacy PBX cabinets as well as G650 Media
Gateways along with an optional, scalable inverter to
handle smaller AC loads such as servers.
Typical Applications: Legacy PBX cabinets, G650
Media Gateways, Enterprise data networks, and
smaller AC loads like servers using optional inverter.
Benefits
Avaya’s versatile set of DC power solutions deliver
an array of customer-focused benefits:
• Savesequipmentroomspacewithhighpower
density and by integrating batteries into the
power cabinet
• Eliminatestheneedtoshutdownthesystem
during maintenance or expansion with hot-
swappable rectifiers
• Lowersoperatingcostswithunitypowerfactor
and efficient operation
• Providesadvancednoticeofbatteryproblems
with automatic battery condition testing
• FacilitatesremoteSNMPmanagementofthe
DC system
Model Selection Guide: 18 and 36 kW DC Power Systems
Description SAP Code
Maximum DC Output Power1
Supplied AC Supply Input Plug & Cord Sets
1500W Access Power Rectifier
Dimensions HxWxD (in.)
18 kW 48V System, 43U Cabinet
700401029 375A @ 48V (4) L6-30 Up to 12 78.7 x 23.6 x 23.6
36 kW 48V System, 43U Cabinet
700401037 750A @48V (8) L6-30 Up to 24 78.7 x 23.6 x 23.6
1. System capacity will vary depending on number of rectifiers and batteries selected.
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Additional Specifications1: 18 and 36 kW DC Power Systems
Brief Technical Specifications2
AC Supply 208/220/240 Vac, 50/60 Hz (nominal)
Power Factor >0.993(20–100%maximumsystemcurrent)
Efficiency 90% (50–100% output current)3
DC Output Voltage Range 40–58V
Heat Dissipation 18 kW with 12 rectifiers and 28 MCBs: 7,117 BTU/Hr. 36 KW with 24 rectifiers and 28 MCBs: 13,948 BTU/Hr.
18 kW System Weight
43U max (4x48V/100 Ah batt. strings): 1387 lb. 43U max (4x48V/150 Ah batt. strings): 2027 lb.
36 kW System Weight
43U max (3x48V/100 Ah batt. strings): 1087 lb. 43U max (3x48V/150 Ah batt. strings): 1567 lb.
Battery Cabinet Weight
43U system (DV2-EBC4-130) max (4x48V/100 Ah batt. strings): 1310 lb. 43U system max (4x48V/150 Ah batt. strings): 1950 lb.
Battery Trays 18 kW: 1914 lb.; Typical max w/12 rectifier modules and 4x48V/150 Ah batt. strings 36 kW: 1914 lb.; Typical max w/24 rectifier modules and 3x48V/150 Ah batt. strings
Communications SM65 supervisory module included; 10 baseT Ethernet port; On board web server; SNMP agent
Batteries 18 kW: Up to 4 strings 600 Ah total capacity, or 8 strings 1200 Ah total capacity with extension batt. cabinet 36 kW: Up to 3 strings 450 Ah total capacity or 27 strings 4050 Ah total capacity with extension batt. cabinets
DC Distribution 7U universal DC distribution; Up to 28 MCBs (2 - 63A)
Low Voltage Disconnect (LVD) All systems
Security Door Full-length security door included
PowerManagerII Remote control and monitoring software
Certifications UL and FCC
1. Due to continuing product improvement programs, all specifications are subject to change without notice. 2. Refer to rectifier specifications for more information.
This handbook is updated and printed by Eaton Corporation. Comprised of legacy brands including Powerware, MGE Office Protection Systems, Best Power, Pulizzi, and Aphel, Eaton’s power quality business is a global leader in power management products and services. Eaton has many products that provide customer-driven PowerChain Management solutions to serve the power system needs of the industrial, institutional, government, utility, commercial, residential, IT, mission-critical OEM markets worldwide. We’ve been building UPSs for AT&T, Lucent, and now Avaya since 1990, and we work directly with Avaya to design and develop custom UPS solutions to meet the stringent demands of Avaya applications. In addition, we have assembled a team dedicated to supporting Avaya, Avaya’s customers, and Avaya’s business partners.