Back-UPS
Models 250,
400 and 600
User's
Manual
®
Important safety instructions!
Please read this manual!
Veuillez lire ce manuel!
Bitte lesen Sie dieses Anleitungshandbuch!
¡Se ruega leer este manual de instrucciones!
Thank you for selecting this American Power Conversion Uninterruptible Power
Source (UPS). It has been designed for many years of reliable, maintenance free
service. American Power Conversion is dedicated to the development of high
performance electrical conversion and control products and we hope that you
will find this UPS a valuable, convenient addition to your computing system.
This manual provides safety, installation and operating instructions that will help
you derive the fullest performance and service life that the UPS has to offer. In
addition, the manual describes the inner workings of the UPS and how they relate
to providing superior protection from utility power problems such as blackouts,
brownouts, sags, swells, EMI/RFI noise and surges.
Please save this manual!
It includes important instructions for the safe use of this UPS and for obtaining
factory service should the proper operation of the UPS come into question. Down
the road, service or storage issues may arise and require reference to this manual.
Please save or recycle the packaging materials!
The UPS's shipping materials were designed with great care to provide protection
from transportation related damage. The shipping materials will become invaluable to you in case the UPS must be returned to the factory for service (damages
sustained in transit when shipped from the user are not covered under warranty).
Entire contents copyright © 1993 American Power Conversion. All rights reserved; reproduction in whole or in part without
permission is prohibited. Back-UPS and PowerChute are registered trademarks of APC. All other trademarks are the property
of their respective owners.
Table of contents
1.0
Introduction................................................................ 2
2.0
Safety! ........................................................................ 3
Sécurité! (Françias)....................................................................................... 4
Sicherheit! (Deutsch) ................................................................................... 5
Seguridad! (Español) ................................................................................... 6
3.0
Installation ................................................................. 7
4.0
Principles of operation .............................................. 13
5.0
Controls and indicators ............................................. 18
6.0
UPS monitoring......................................................... 19
7.0
Difficulty ................................................................... 21
Difficulté (Françias) ................................................................................... 22
Schwierigkeit (Deutsch) ............................................................................ 23
Dificultad (Español) .................................................................................. 24
8.0
Storing the UPS......................................................... 29
9.0
Run time versus load................................................. 30
10.0 Specifications ............................................................ 31
Warranty, Life support policy ................................ cover
Page 1
1.0 Introduction
1.1 Overview
The UPS is a high performance standby uninterruptible power source designed
to protect computers and peripheral devices such as monitors, modems, tape
drives, etc. from utility line failures which could result in the loss or corruption
of valuable data. In the event of a utility failure such as a blackout, brownout,
swell or sag, the UPS rapidly transfers loads (computer equipment) to an
alternative power source. This alternative power is derived from a battery within
the UPS and provides the user with ample time to save files and properly close
operations. A chart in section 9.0 shows how much time your equipment can
remain operating during a utility failure before the UPS’s batteries are drained.
Under normal conditions when the utility voltage is within proper limits, the
UPS maintains the battery in a charged condition and serves to isolate your
equipment from surges and high frequency electrical noise.
After following the installation procedures and reading all the safety instructions, you’re ready to enjoy computing free from the worry of power problems
and the time consuming process of constantly saving your files!
1.2 Surge suppression and EMI/RFI filtering
The UPS provides high performance surge suppression and EMI/RFI (electromagnetic and radio frequency interference) filtering. The UPS suppresses surges
defined by the ANSI C62.41 (formerly IEEE 587) Category A and B standard to
levels well below that which is compatible with your computer.
1.3 Remote interface
A remote computer interface port (400VA and 600VA models) capable of signalling utility failure and low battery conditions is provided for unattended shutdown of computer operations. When teamed with PowerChute UPS monitoring
software, you may select operation of power event logging, power event notification, automatic restart upon power restoration, and battery conservation
features.
Page 2
2.0 Safety !
ENGLISH
■ To reduce the risk of electric shock, disconnect the Uninterruptible Power Source
from the mains before installing a computer interface signal cable (when used).
Reconnect the power cord only after all signalling interconnections have been made.
■ Connect the Uninterruptible Power Source to a two-pole, three-wire grounding
mains receptacle. The receptacle must be connected to appropriate branch protection
(fuse or circuit breaker). Connection to any other type of receptacle may result in a
shock hazard and may violate local electrical codes.
■ This Uninterruptible Power Source has an internal energy source (the battery) that
cannot be de-energized by the user. The output may be energized when the unit is
not connected to a mains supply.
■ To properly de-energize the Uninterruptible Power Source in an emergency, move
the I/O switch to the O (off) position and disconnect the power cord from the mains.
■ Avoid installing the Uninterruptible Power Source in locations where there is water
or excessive humidity.
■ Do not allow water or any foreign object to get inside the Uninterruptible Power
Source. Do not put objects containing liquid on or near the unit.
■ To reduce the risk of overheating the Uninterruptible Power Source, avoid exposing
the unit to the direct rays of the sun. Avoid installing the unit near heat emitting
appliances such as a room heater or stove.
■ The Protective Earth conductor of this UPS carries the Leakage Current from the
load devices (computer equipment). This UPS generates approximately 0.75 mA of
leakage current. To ensure a safe limit of 3.5 mA, the total leakage current of the load
devices should be limited to 2.75 mA. If you are unsure of the leakage current from
the load devices, ensure that this product is plugged into a 3-wire receptacle that has
a reliable (low impedance) Protective Earth connection to provide a safe path for the
leakage current, and replace the powercord to the UPS with one that has a locking type
plug (IEC 309) rated a minimum of 10 A. This powercord may require the services of
a professional electrician for the installation of the matching wall receptacle.
Page 3
2.0 Sécurité !
FRANÇAIS
■ Pour réduire le risque d’électrocution, débranchez la prise principale de la source
d’alimentation permanente (Uninterruptible Power Source), avant d’installer le câble
d’interface allant à l’ordinateur (si utilisé). Ne rebranchez le bloc d’alimentation
qu’après avoir effectué toutes les connections.
■ Branchez la source d’alimentation permanente (UPS) dans une prise de courant à
3 dérivations (deux pôles et la terre). Cette prise doit être munie d’une protection
adéquate (fusible ou coupe-circuit). Le branchement dans tout autre genre de prise
pourrait entraîner un risque d’électrocution et peut constituer une infraction à la
réglementation locale concernant les installations électriques.
■ Cette source d’alimentation permanente (UPS) est munie d’une source d’énergie
interne (accumulateur) qui ne peut pas être désactivée par l’utilisateur. La prise de
sortie peut donc être sous tension même lorsque l’appareil n’est pas branché.
■ En cas d’urgence, pour désactiver correctement la source d’alimentation permanente
(UPS), poussez l’interrupteur sur la position O (Off) et débranchez le cordon
d’alimentation principal.
■ Ne pas installer la source d’alimentation permanente (UPS) dans un endroit où il
y a de l’eau ou une humidité excessive.
■ Ne pas laisser de l’eau ou tout objet pénétrer dans la source d’alimentation
permanente (UPS). Ne pas placer de récipients contenant un liquide sur cet appareil,
ni à proximité de celui-ci.
■ Pour éviter une surchauffe de la source d’alimentation permanente (UPS),
conservez-la à l’abri du soleil. Ne pas installer à proximité d’appareils dégageant de
la chaleur tels que radiateurs ou appareils de chauffage.
■ Le conducteur de terre de protection de cette UPS (Alimentation ininterrompue en
courant) achemine le courant de fuite provenant des dispositifs de charge (équipement
d’ordinateur). Cette UPS crée environ 0,75 mA de courant de fuite. Pour garantir une
limite de sécurité de 3,5 mA, le courant total de fuite des dispositifs de charge doit être
limité à 2,75 mA. Si vous n’êtes pas sûr du courant de fuite provenant des dispositifs
de charge, assurez que ce produit soit enfiché dans une prise à 3 fils ayant une
connexion de terre de protection fiable (à basse impédance) procurant un chemin sûr
au courant de fuite, et remplacez le cordon secteur allant à l’UPS par un qui ait une
fiche du type à verrouillage (IEC 309) et à valeur nominale de 10 A. Ce cordon secteur
peut exiger les services d’un électricien professionnel pour l’installation de la prise
murale correspondante.
Page 4
2.0 Sicherheit !
DEUTSCH
■ Um die Gefahr eines elektrischen Schlages auf ein Minimum zu reduzieren, die
unterbrechungsfreie Stromversorgung vom Stromnetz trennen, bevor ggf. ein Computer-Schnittstellensignalkabel angeschlossen wird. Das Netzkabel erst nach
Herstellung aller Signalverbindungen wieder einstecken.
■ Die unterbrechungsfreie Stromversorgung an eine geerdete zweipolige DreiphasenNetzsteckdose anschließen. Die Steckdose muß mit einem geeignetenAbzweigschutz
(Sicherung oder Leistungsschalter) verbunden sein. Der Anschluß der
unterbrechungsfreien Stromversorgung an einen anderen Steckdosentyp kann zu
Stromschlägen führen und gegen die örtlichen Vorschriften verstoßen.
■ Diese unterbrechungsfreie Stromversorgung besitzt eine interne Energiequelle
(Batterie), die vom Benutzer nicht abgeschaltet werden kann. Der Ausgang kann
eingeschaltet werden, wenn das Gerät nicht an das Stromnetz angeschlossen ist.
■ Um die unterbrechungsfreie Stromversorgung im Notfall ordnungsgemäß
abzuschalten, denI/O-Schalter an der Rückseite aufO (Aus) stellen und das Netzkabel
aus der Steckdose ziehen.
■ Die unterbrechungsfreie Stromversorgung nicht an einem Ort aufstellen, an dem sie mit
Wasser oder übermäßig hoher Luftfeuchtigkeit in Berührung kommen könnte.
■ Darauf achten, daß weder Wasser noch Fremdkörper in das Innere der
unterbrechungsfreien Stromversorgung eindringen. Keine Objekte, die Flüssigkeit
enthalten, auf oder neben die unterbrechungsfreie Stromversorgung stellen.
■ Um ein Überhitzen der unterbrechungsfreien Stromversorgung zu verhindern,
das Gerät vor direkter Sonneneinstrahlung fernhalten und nicht in der Nähe von
wärmeabstrahlenden Haushaltsgeräten (z.B. Heizgerät oder Herd) aufstellen.
■ Der Erdableitstrom des Verbrauchers (Computer) fließt über den Schutzleiter des
UPS-Netzgerätes ab Das UPS-Netzgerät selbst erzeugt einen Erdableitstrom von ca
0,75 mA. Um den Sicherheitsgrenzwert von 3,5 mA nicht zu überschreiten, sollte der
Erdableitstrom sämtlicher Verbraucher auf 2,75 mA begrenzt sein. Wenn Ihnen die
Höhe des Ableitstromes von den Verbrauchern nicht bekannt ist, dann sorgen Sie
dafür, daß dieses Gerät an eine Steckdose mit Schutzkontakt angesschlossen wird,
der eine zuverlässge (geringe Impedanz) Schutzleiterverbindung hat, um einen
sicheren Strompfad für den Erdableitstrom zu gewährleisten. Ersetzen Sie zudem die
Netzanschlußleitung des UPS-Netzgerätes durch eine Netzanschlußleitung mit
einer verriegelbaren, industriellen Steckvorrichtung (nach IEC 309), die für mindestens
10 Ampere ausgelegt ist. Eine derartige Netzanschlußleitung erfordert eventuell die
Installation einer entsprechenden Netzsteckdose in der Wand durch einen Elektriker.
Page 5
2.0 ¡ Seguridad !
ESPAÑOL
■ Para reducir el riesgo de descarga eléctrica, desconecte de la red la Fuente de energía
ininterrumpible antes de instalar el cable de señalización de interfaz de la computadora
(si se usa). Vuelva a conectar el conductor flexible de alimentación solamente una vez
efectuadas todas las interconexiones de señalización.
■ Conecte la Fuente de energía ininterrumpible a un tomacorriente bipolar y trifilar
con neutro de puesta a tierra. El tomacorriente debe estar conectado a la protección
de derivación apropiada (ya sea un fusible o un disyuntor). La conexión a cualquier
otro tipo de tomacorriente puede constituir peligro de descarga eléctrica y violar los
códigos eléctricos locales.
■ Esta Fuente de energía ininterrumpible tiene una fuente de energía interna (la
batería) que no puede ser desactivada por el usuario. La salida puede tener corriente
aun cuando la unidad no se encuentre conectada al suministro de red.
■ Para desactivar correctamente la Fuente de energía ininterrumpible en una
situación de emergencia, coloque el interruptorI/O en la posiciónO (Off -desconectado)
y desconecte de la red el conductor flexible de alimentación.
■ No instale la Fuente de energía ininterrumpible en lugares donde haya agua o
humedad excesiva.
■ No deje que en la Fuente de energía ininterrumpible entre agua ni ningún objeto
extraño. No ponga objetos con líquidos encima de la unidad ni cerca de ella.
■ Para reducir el riesgo de sobrecalentamiento, no exponga la unidad a los rayos
directos del sol ni la instale cerca de artefactos que emiten calor, como estufas o
cocinas.
■ El conductor de protección a tierra conduce las corrientes de fuga de esta fuente
ininterrumpible de potencia (UPS) generadas en los componentes de carga (equipos
de computadora). La fuente ininterrumpible de potencia genera aproximadamente
0,75 mA de corriente de fuga. Para garantizar un límite de seguridad de 3,5 mA, el
total de la corriente de fuga de los componentes de carga deberá limitarse a 2,75 mA.
Si usted no está seguro del total de las corrientes de fuga de los componentes,
asegúrese de que este producto esté conectado a un receptáculo de tres conductores
que tenga una conexión de protección a tierra que sea confiable (impedancia baja)
para proveer un camino seguro para la corriente de fuga. También asegúrese de
reemplazar el cable que va a la fuente ininterrumpible de potencia con uno que tenga
un enchufe con dispositivo de cierre (IEC 309) con capacidad para un mínimo de 10A.
Este cable pudiera requerir los servicios de un eletricista profesional para la instalación
del receptáculo en la pared.
Page 6
3.0 Installation
3.1 Receiving inspection
Once the UPS has been removed from its shipping container, it should be
inspected for damage that may have occurred while in transit. Immediately
notify the carrier and place of purchase if any damage is found. Two output
jumper cords are provided with the UPS. The packing materials are made from
recyclable materials and should be saved for reuse or disposed of properly.
3.2 Placement
The UPS may be installed in any protected environment. The location should
provide adequate air flow around the unit, in an atmosphere free from excessive
dust, corrosive fumes or conductive contaminants. Do not operate the UPS in an
environment where the ambient temperature or humidity is outside the limits
given in the Specifications section of this manual.
3.3 Load types
The UPS is designed to power all modern computer loads and associated
peripheral devices such as monitors, modems, cartridge tape drives, external
floppy drives, etc. The UPS is not rated to power life support equipment (as
described on the rear cover of this manual).
Caution: The output waveform of this UPS is a sine wave approximation suitable for
use with modern computer power supplies. Other load types may malfunction. In
particular, ferroresonant type regulating transformers are not recommended. Use of a
surge suppressor connected to the output of this UPS may unnecessarily load the UPS
when on-battery. This UPS contains high performance surge suppression - additional
suppression components are not required and are not recommended. If in doubt, please
consult the equipment manufacturer or the factory.
Page 7
3.0 Installation
3.4 Connecting to the utility
The UPS is furnished with two 1.8 meter output power cords for connection to
computer equipment having “IEC 320” male appliance couplers at their input.
However, due to the variety of plug connectors required for connection to
electrical service in countries where the UPS may be operated, an input line cord
is not supplied from the factory. In most cases this will not be a problem as the
input cord which currently powers your computer equipment may be swapped
with one of the supplied output cords. Hence, the swapped out line cord can be
used instead as the input line cord for the UPS. If this is not the case, ask your local
dealer or the factory about obtaining an input line cord for your application.
Extra output power cords are also available from the factory.
The UPS is compatible with all 220, 230 and 240 Vac mains voltages. During a
mains failure, the UPS powers your load at a nominal voltage of 225 Vac.
3.5 Battery charging
The UPS is shipped from the factory with its internal battery in a fully charged
state. However, the battery may lose some charge during shipping and storage.
The battery should be recharged before conducting the following Test for proper
operation (section 3.7) and to ensure that the UPS will provide expected run time.
The UPS may be used immediately upon receipt, but may not provide expected
run time in the event of a utility failure. The battery will recharge to full capacity
within 6 hours when the UPS is plugged in and switched on. Once the battery has
obtained a full charge, the UPS will maintain the charge as long as the UPS is
plugged in, regardless of the position of the power I/0 switch.
Page 8
3.0 Installation
3.6 Connecting your equipment to the UPS
To ensure that your computer equipment will be protected during a utility failure
and that you receive expected run time, it is important that you determine the
total power needs of the equipment you wish to protect with the UPS. The power
requirements of your equipment should be less than or equal to the capacity of
the UPS. The capacity rating of the UPS, in both Volt-Amperes (VA) and Watts
(W), is given in the Specifications section of this manual.
The power demands of your equipment can be read from the Run Time Verses
Load (section 9.0) chart or may be deduced from the equipment name plates. The
Run Time Versus Load chart gives equipment power requirements (load) in VA
for computer systems common in the office environment today. If your equipment is not listed in the chart, the following instructions will help you to
determine their power needs.
3.6.1 Computer equipment manufacturers must provide a load rating for their
products. Usually, the rating is written on a name plate or label near the line cord.
The rating may be given in units of Amps (A or Amax), Volt-Amperes (VA) or
Watts (W). Jot down the load rating of all the equipment you wish to protect.
3.6.2 All noted load ratings should be converted to Volt-Amperes (VA) so that all
equipment power requirements can be added using the same units of measure.
3.6.3 If load ratings are given in Watts (W), convert to an estimate of power
requirements in VA by multiplying the value in Watts by 1.4.
3.6.4 If load ratings are given in Amps (A or Amax), convert to an estimate of
power requirements in VA by multiplying the value in Amps by 230. Unfortunately, many computer manufacturers overrate the power requirements of their
equipment in order to be conservative and to cover the extra power demand of
user added expansion boards. If the VA requirement that you have computed
seems high or is already greater than the capacity of the UPS, don’t worry. The
next section describes a test that you can perform to determine whether or not
your equipment and the UPS are compatible, even if the computed power
requirement of your equipment is 50% greater than the capacity of the UPS!
Page 9
3.0 Installation
3.6.5 Once all power requirement figures have been converted to VA units and
added together, simply determine whether the power requirements of your
equipment is less than or equal to the capacity of the UPS. If this is not the case,
then it must be decided which equipment should be left unprotected by the UPS.
See section 3.8 covering overloads.
3.6.6 An example of how to determine the power requirements of a computer
system is given below.
Example - labels found at system equipment rear panels
The power requirements of the example computer, monitor and external tape
drive may be calculated as follows:
Computer VA
Monitor VA
Tape Drive VA
= 230 x 2 A = 240 VA
= 100 x 1.4 = 140 VA
= 230 x 1 A = 120 VA
_______________
Total = 500 VA
In this example, a UPS with at least 500 VA capacity can be employed to protect
the computer, monitor and external tape drive. However, a UPS with somewhat
lower capacity may still be used if the following test for proper operation is
successful.
Page 10
3.0 Installation
3.6 Connecting your equipment to the UPS - continued
3.6.7 Once you have determined that your equipment and the UPS are compatible, plug your equipment into the UPS’s rear panel output receptacles.
Note: Do not plug laser printers into this UPS! The power requirements of a typical laser
printer are much larger than the requirements of other computer peripherals and may trip
the UPS’s rear panel circuit breaker. Plug laser printers into a quality surge suppressor.
Remember that print jobs can be re-queued when the power is restored!
3.7 Test for proper operation
After the UPS has had a chance to recharge its battery, turn on the UPS’s power
I/0 control and switch on your computer equipment. The indicator within the
switch should be illuminated and your equipment should operate normally.
To test the operation of the UPS, simply unplug its input cord or press and hold
the Test switch (on units so equipped) to simulate a utility blackout. The lamp
within the power I/0 switch will flash and UPS will immediately transfer your
equipment to power derived from the UPS’s internal battery. During this time,
the UPS will emit a series of four beeps once every 30 seconds to remind you that
your equipment is operating from a source of power that is limited in duration.
Restore normal operation by releasing the Test control or by plugging in the line
Page 11
3.0 Installation
3.7 Test for proper operation - continued
cord. Observe that your equipment operates normally during both transfer from
utility power to UPS power and back again. Repeat this test four or five times to
ensure proper operation. See the following section covering Overloads if
abnormal operation is encountered.
The power I/0 control switches power to your equipment. If you leave your
equipment power switches on, the I/0 power control can be used as a master on/
off switch!
3.8 Overloads
If the total power requirement of your equipment is much greater than the
capacity of the UPS, the UPS’s rear panel circuit breaker may trip. This is called
an overload situation. Once the circuit breaker trips, the UPS will attempt to
operate the load using its internal power source. This may result in an unexpectedly short run time or, if the overload is severe, the UPS will immediately shut
down and cease to power the load. In this case, the UPS will emit a loud tone to
alert you of the overload. If this occurs during your test, turn off the UPS and
decide which equipment will be left unprotected by the UPS. The circuit breaker
may be reset (press button) when the overload is removed.
Page 12
4.0 Principles of operation
Below is a block diagram showing the major components of your UPS. These
blocks are described on the following pages.
Block diagram showing all major components of your UPS.
Page 13
4.0 Principles of operation
4.1 Noise and surge suppression
The UPS contains high performance EMI/RFI (Electro-Magnetic and Radio
Frequency Interference) noise and surge suppression circuitry to protect your
computer equipment. The UPS provides this suppression continuously, whether
or not it is turned on. Normally, the UPS suppresses noise and surges without
your notice; that is, the UPS doesn’t transfer your load to its internal power
source. Instead, the suppression circuitry reduces the amplitude of noise and
surges to a level well below that which can be tolerated by your relatively delicate
computing equipment.
The illustration above shows what a typical “medium” amplitude surge or spike
looks like when present on the utility voltage. Surges up to 15 times larger than
this are easily suppressed by the UPS. Surges are commonly caused by nearby
lightning activity and motor load switching created in air conditioners, elevators
and heat pumps.
The illustration above shows what EMI/RFI noise looks like when present on the
utility voltage. The UPS “filters” out this noise with components whose electrical
resistance is very high at radio frequencies. EMI/RFI noise is commonly created
by the same activity which produces surges but can also be caused by nearby
radio transmitters and blinking neon bulbs and signs.
Page 14
4.0 Principles of operation
4.2 Load transfer switch
The load transfer switch is actually an electro-dynamic relay which serves to
rapidly transfer your computer equipment (load) from the utility to the UPS’s
alternate power source in the event of a utility failure. When the utility is restored
to within safe limits, the switch acts to re-transfer the load to the utility. Except
for the user control switches, the transfer switch is the only moving part in the
UPS. The time required for the relay to transfer your load to either power source
is much, much faster than that which is required by any modern computer or
computer peripheral device.
4.3 Battery charger
The UPS’s battery charger converts the alternating current (AC) supplied by the
utility to a direct current (DC) which is compatible with the battery. The charger
maintains the battery at a constant voltage to ensure that the battery will have the
capacity to support your load as often as possible. This charging method, known
as “float” charging, provides maximum battery service life and minimal internal
heating. The battery is charged at an accelerated rate as required whenever the
UPS is plugged in and switched on. When switched off, the battery is "trickle
charged" in order to maintain full capacity.
4.4 Battery
The UPS’s battery is an energy source much like the battery in an automobile.
Also, like most automobile batteries, the UPS’s battery is a modern maintenance
free lead-acid type; it is sealed and leakproof. The battery has a typical service
life of 3 to 6 years. The service life is extended when the UPS is kept in a cool
environment, below 30°C or 86°F.
4.5 Inverter
The UPS must convert the battery’s energy into a form that your computer
equipment can rely upon during a utility failure. This is the job of the UPS’s
inverter. The UPS converts the battery’s DC to AC using solid state devices
(transistors), controlled using a technique known technically as “pulse width
modulation”. This technique is highly efficient which means that little battery
power is wasted in the conversion process. Hence, your equipment can run for
long periods from the UPS before the battery’s capacity is spent.
Page 15
4.0 Principles of operation
4.6 Transformer
The UPS’s transformer is an electrical component which “steps up” the output
voltage of the inverter to the normal utility line voltage. In addition, it serves to
isolate the UPS from equipment failures.
4.7 Monitoring and control electronics
This block is the “brain” of the UPS. The monitoring and control circuitry detects
utility failures such as blackouts, sags and brownouts; synchronizes the inverter’s
output frequency and phase to that of the utility; detects low battery voltage
conditions; directs the load transfer switch; and governs all user controls,
indicators and computer interface functions.
4.8 Operation during a utility failure
In anticipation of a utility failure such as a blackout, swell, sag or brownout, the
UPS continuously monitors the utility voltage and readies the inverter for
“synchronous” transfer. This means the inverter’s phase and frequency is
adjusted to match the phase and frequency of the utility. If the utility voltage falls
outside acceptable limits, the UPS rapidly transfers your equipment to power
derived from the UPS’s battery via the inverter and transformer described earlier.
This transfer typically takes place within 3 milliseconds. Once operating in this
mode, the UPS will emit a series of four beeps once every 30 seconds to remind
you that the continuation of power is limited in duration. If the utility power is
not restored to normal, the UPS will eventually sound continuous beeps to alert
you that less than two minutes remain before the UPS shuts down and ceases to
power your equipment. This is called a low battery condition which means that
the UPS’s usable battery capacity is nearly spent. The UPS will automatically
shut down if the UPS is not turned off during the low battery alarm.
If the UPS detects the return of normal utility voltages at any time during
operation using its alternate power source, the inverter voltage will be smoothly
re-synchronized to match the phase and frequency of the utility. Once synchronized, the load transfer switch will re-transfer your equipment to power supplied
by the utility. After an extended utility outage, the battery charger resupplies the
battery with energy at a pace which is consistent with maximizing the service life
Page 16
4.0 Principles of operation
4.8 Operation during a utility failure (continued)
of the battery (the battery could be charged faster, but wouldn’t last as long).
Utility voltage sags are temporary amplitude reductions of the normal line
voltage level. Utility voltage sags can be caused by local high power demand
equipment such as elevators, air conditioners, shop tools and electric heaters.
Brownouts, defined as long lasting utility voltage reductions, are sometimes
initiated by the power company itself. During the hot season, the utility may
choose to reduce the line voltage in order to cope with the huge power requirements of home and commercial use air conditioners.
Blackouts are defined by a complete loss of power. Often, blackouts are caused
by accidents or acts of nature. However, they can also be created by overloaded
“branch” circuits (building wiring segregated by fuses or circuit breakers), faulty
circuit breakers or even a tripped-over line cord!
Page 17
5.0 Controls and indicators
5.1 Power I/0 switch
The power I/0 switch controls power to the UPS and its output
receptacles. When the switch is on, the UPS operates and your
computer equipment will be powered. When the switch is off,
the UPS is de-energized and your equipment is unpowered. If
your equipment switches are left on, the entire system can be
operated by using just the power I/0 switch.
Under normal conditions, the lamp within the power I/0 switch illuminates
whenever the UPS is switched on. When the UPS is operating on-battery, the
lamp flashes. The lamp will flash, and the UPS will shut down, in the event of an
internal UPS fault.
5.2 Test switch (on units so equipped)
When the Test switch is pressed, the UPS simulates a power outage
and transfers your load to the alternate power source. This feature
allows you to determine that computer equipment protected by
the UPS operates normally during transfers. It also provides a
convenient means of testing the UPS’s battery. If the Test control
is held depressed, the UPS will operate your equipment from power derived
from the battery continuously. If during the test the low battery warning is
sounded prematurely and the load is known to be normal, then the battery is
weak and requires extended recharge or replacement (see section 7.0).
5.3 Audible alarm
During a utility failure, the UPS emits a series of four beeps once every 30 seconds
to warn you that your equipment is operating from a source of power which is
limited in duration. In the event of an extended utility failure, the UPS will sound
continuous beeps 2 minutes in advance of shut down due to battery capacity
exhaustion. Once shut down, the UPS will cease sounding the alarm. In the event
the UPS encounters a severe overload, the UPS will shut down and emit a loud
tone. The alarm is reset when the UPS is turned off. The UPS will shut down and
sound the audible alarm when an internal fault is detected.
Page 18
6.0 UPS monitoring
6.1 Overview
A UPS system alone provides excellent protection from brief power problems.
However, during an extended power outage an unattended computer system
will eventually shut down due to battery capacity exhaustion. To prevent data
corruption when the UPS shuts down, the computer must be informed by the
UPS of impending shut down and take appropriate file-saving measures. This
important function is called “UPS monitoring.” The UPS’s computer interface
port is the means by which your UPS communicates with a computer system.
Some computer operating systems have built-in UPS monitoring. These systems
require various hardware interfaces. Interface kits for all operating systems that
support UPS monitoring are available from your dealer. In addition, your dealer
also offers PowerChute software which enhances such built-in UPS monitoring.
Versions of PowerChute are available which add the UPS monitoring function to
the many operating systems which do not inherently provide UPS monitoring.
6.2 Interface Kits
A series of interface kits is available for operating systems that provide UPS
monitoring. Each interface kit includes the special interface cable required to
convert status signals from the UPS into signals which individual operating
systems recognize. Each kit includes all necessary installation instructions.
Systems for which interface kits are offered include Novell, LAN Manager,
LANtastic, Banyan VINES and IBM AS/400.
6.3 PowerChute Software
PowerChute software provides complete data protection for most operating
systems. This software is a background process that monitors the UPS through
a RS-232 serial port on the host. PowerChute offers user notification of impending shutdown, power event logging, auto-restart upon power return and UPS
battery conservation features. PowerChute is available for many platforms
including Novell, LAN Manager, AppleShare, XENIX, most UNIX-based operating systems, and DEC VAX/VMS.
Caution: Use only factory supplied or authorized UPS monitoring cables!
Page 19
6.0 UPS monitoring
6.4 Computer interface port
The computer interface port is diagramed below for your reference. Those with
technical abilities wishing to use this port in a special application should be
aware of the following limitations and capabilities of the interface.
6.4.1 Outputs at pins 3, 5 and 6 are actually open collector outputs which must be
pulled up to a common referenced supply no greater than +40 Vdc. The
transistors are capable of a maximum non-inductive load of 25 mAdc. Use only
Pin 4 as the common.
6.4.2 The output at Pin 2 will generate a LO to HI RS-232 level upon transfer of
the output load to power derived from the UPS’s battery. The pin is normally at
a LO RS-232 level.
6.4.3 The UPS will shut down when a HI RS-232 level, sustained for 0.5 s, is
applied to Pin 1. The UPS responds to this signal, following a delay, only during
utility failures (load is operating from the UPS’s internal power source).
Page 20
7.0 Difficulty
ENGLISH
Caution !
■ This Uninterruptible Power Source contains potentially hazardous voltages. Do
not attempt to disassemble the unit. The unit contains no user serviceable parts.
Repairs are performed only by factory trained service personnel.
■ This Uninterruptible Power Source uses batteries. The batteries will eventually
become too weak to provide rated autonomous operation. To obtain battery
replacement or repair service, please call the Customer Service telephone number on
the cover of this manual for information on the Service Center nearest you.
■ The batteries used by this Uninterruptible Power Source are recyclable. Proper
disposal of the batteries is required. The batteries contain lead and pose a hazard
to the environment and human health if not disposed of properly. Please refer to
local codes for proper disposal requirements or return the unit to a factory
authorized Service Center for battery replacement or disposal.
■ Battery replacement should be performed or supervised by personnel familiar with
the danger of batteries and the required precautions. Keep unauthorized personnel
away from batteries. When replacing batteries, use the same number and type of
sealed lead acid batteries as were originally contained in your UPS.
■ CAUTION - Do not dispose of battery in a fire. The batteries may explode.
■ CAUTION - Do not open or mutilate the battery or batteries. They contain an
electrolyte which is toxic and harmful to the skin and eyes.
■ CAUTION - A battery can present a risk of electrical shock and high short circuit
current. When replacing batteries, wrist watches and jewelry such as rings should be
removed. Use tools with insulated handles.
Page 21
7.0 Difficulté
FRANÇAIS
Attention !
■ Cette source d’alimentation permanente (UPS) contient des circuits haute tension
présentant un danger. Ne jamais essayer de le démonter. Il n’y a aucun composant
qui puisse être réparé par l’utilisateur. Toutes les réparations doivent être effectuées
par du personnel qualifié et agréé par le constructeur.
■ Cette source d’alimentation permanente (UPS) contient des accumulateurs. Ces
accumulateurs deviendront un jour trop faibles pour pouvoir assurer un
fonctionnement autonome correct. Pour toute réparation ou remplacement des
accumulateurs, composez le numéro du Service à la clientèle inscrit sur la couverture
de ce manuel afin d’obtenir les coordonnées du Centre de Service le plus proche.
■ Les accumulateurs contenus dans cette source d’alimentation sont recyclables.
L’elimination des batteries est règlementée. Consulter les codes locaux à cet effet.
Ils contiennent du plomb et représentent donc un risque pour l’homme et pour
l’environnement si les règles de mise au rebut ne sont pas respectées. Veuillez
retournez l’unité à un Centre de Service agréé lorsque vous désirerez remplacer ou
vous débarrasser des accumulateurs usagés.
Le remplacement de batterie doit être effectué ou surveillé par du personnel au
courant du danger des batteries et des précautions à prende exigées. Quand vous
remplacez les batteries, utilisez le même numéro et le même type de batteries au
plomb étanches que celles contenues à l'origine dan votre UPS.
■ ATTENTION -Ne jetez pas les batteries dan un feu. Les batteries peuvent exploser.
■ ATTENTION - N'ouvrez pas ni ne mutilez la batterie ou les batteries. Elles
contiennent un électrolyte qui est toxique et dangereux pour la peau et lex yeux.
■ ATTENTION - Une batterie peut présenter un risque de choc electrique, de brûlure
par transfert d’énergie. Suivre les précautions qui s’imposent. Quand vous replacez
des batteries, il faut retirer les montres-bracelets et la bijouterie comme les bagues.
Utilisez des outils ayant des manches isolés.
Page 22
7.0 Schwierigkeit
DEUTSCH
Vorsicht !
■ Im Inneren dieser unterbrechungsfreien Stromversorgung herrschen potentiell
gefährliche Spannungen. Nicht versuchen, das Gerät zu öffnen. Es enthält keine vom
Benutzer reparierbaren Teile. Reparaturen dürfen nur von ausgebildetem
Kundendienstpersonal durchgeführt werden.
■ Diese unterbrechungsfreie Stromversorgung enthält Batterien, die nach einer
bestimmten Zeit so schwach werden, daß der autonome Nennbetrieb nicht mehr
gewährleistet ist. Aufgrund der potentiellen Gesundheits- und Umweltgefahren, die
von den Batterien ausgehen, dürfen sie nur in einem vom Werk autorisierten
Kundendienstzentrum ausgewechselt werden. Dort teilt man Ihnen mit, welches
Kundendienstzentrum für Sie zuständig ist.
■ Die Batterien in dieser unterbrechungsfreien Stromversorgung sind
wiederverwertbar. Sie sind bleihaltig und stellen eine Gefahr für die Umwelt und
die Gesundheit dar, wenn sie nicht ordnungsgemäß entsorgt werden. Das Gerät
an ein vom Werk autorisiertes Kundendienstzentrum einsenden, um die Batterien
auswechseln oder entsorgen zu lassen.
■ Der Austausch der Batterien sollte von oder unter der Aufsicht von Personen
durchgeführt werden, die mit den Gefahren von Batterien und den erforderlichen
Vorsichtsmaßnahmen vertraut sind. Halten Sie nicht autorisierte Personen von den
Batterien fern. Wenn Sie die Batterien ersetzen wollen, verwenden Sie die gleiche
Anzahl und den gleichen Typ (geschlossene Bleiakkumulatoren) der ursprünglich
mit dem Gerät geliefert wurde.
■ VORSICHT! Werfen Sie die Batterien nicht ins Feuer. Es besteht Explosionsgefahr.
■ VORSICHT! Die Batterien nicht öffnen oder zerstören. Sie enthalten einen giftigen
Elektroylyten der für Augen und Haut gesundheitsschädlich ist.
■ VORSICHT! Eine Batterie stellt eine Gefahr in bezug auf elektrischen Schlag und
hohe Kurzschlusströme dar. Tragen Sie daher keine Armbanduhr oder Ringe, wenn
Sie die Batterien ersetzen. Benutzen Sie Werkzeuge mit isolierten Griffen.
Page 23
7.0 Dificultad
ESPAÑOL
¡Cuidado!
■ Esta Fuente de energía ininterrumpible contiene niveles de voltaje peligrosos en
potencia. No intente desarmar la unidad, pues no contiene piezas que puedan ser
reparadas por el usuario. Las reparaciones deben efectuarse únicamente por parte del
personal de mantenimiento capacitado en la fábrica.
■ Esta Fuente de energía ininterrumpible contiene baterías. Con el tiempo las
baterías se gastan demasiado para poder sustentar el funcionamiento autónomo a la
capacidad nominal. Para solicitar el reemplazo de baterías o servicio de reparaciones,
se ruega llamar al número telefónico deAtención a los Clientes indicado en la tapa de
este manual y averiguar el Centro de Servicio más cercano.
■ Las baterías que se encuentran en esta Fuente de energía ininterrumpible son
reciclables. Las baterías contienen plomo y constituyen un peligro para el medio
ambiente y para la salud de las personas si no se las desechan como corresponde.
Se ruega devolver la unidad a un Centro de Servicio autorizado por la fábrica para
el reemplazo o la eliminación de las baterías.
El reemplazo de baterías deberá ser hecho o supervisado por profesionales
familiarizados con los daños y precauciones relacionadas con ellas. Mantenga a las
personas no autorizadas alejadas de las baterías. Cuando cambie las baterías, use del
mismo número y tipo de baterías de ácido de plomo selladas que las originales dentro
de su fuente ininterrumplible de potencia.
■ ADVERTENCIA - No eche las baterías en el fuego. Pudieran explotar.
■ ADVERTENCIA - No abra o mutile la(s) batería(s). Contienen un electrolito que
es tóxico y dañino a la piel y a los ojos.
■ ADVERTENCIA - Las baterías representan un riesgo de impacto eléctrico y de
altas corriente de corto circuito. Cuando reemplace las baterías deberá quitarse todos
los relojes y las joyas tales como anillos. Use herramientas que tengan los mangos
aislados.
Page 24
7.0 Difficulty
7.1 Troubleshooting chart
PROBLEM
UPS will not turn on (lamp within
power I/0 switch is not illuminated),
but beeps when power I/0 switch
is on.
POSSIBLE CAUSE
ACTION TO TAKE
1. Line cord plug is loose.
1. Check fit of line cord plug.
2. Rear panel circuit breaker is
tripped.
2. Circuit breaker is tripped when
button is extended. Unplug
excessive loads and reset breaker
(press button).
3. Dead wall socket.
3. Check wall socket with a table
lamp.
UPS occasionally emits beep,
computer equipment operates
normally.
The UPS is briefly transferring your
equipment to its alternate power
source due to utility voltage sags or
spikes.
This operation is normal. The UPS
is protecting your computer
equipment from abnormal utility
voltages.
UPS emits beep very often, more
than once or twice an hour.
Computer equipment operates
normally.
Utility voltage is distorted or branch
circuits are heavily loaded.
Have your line voltage checked by
an electrician. Operating your UPS
from an outlet which is wired to a
different branch fuse or circuit
breaker may help.
UPS does not provide expected run 1. Excessive loads connected at
time. Low battery warning is
UPS’s output receptacles.
sounded prematurely.
1. Unplug excessive loads from
UPS. Recheck computer system
power requirements as described
in installation instructions.
2. Battery is weak due to wear or
2. The battery should be recharged
recent operation during utility power by leaving the UPS plugged in for 6
outage.
hours - do not operate Test control
during recharge. If UPS sounds
low battery warning prematurely
when retested, battery should be
replaced.
UPS emits loud tone during utility
failure. Power I/O switch is on but
computer equipment is not
powered. Rear panel circuit
breaker is not tripped.
UPS has shut down due to
overload.
Turn off UPS and unplug excessive
loads. Recheck computer system
power requirements as described
in installation instructions. UPS may
be turned on when utility has been
restored.
Page 25
7.0 Difficulty
7.1 Troubleshooting chart (continued)
PROBLEM
POSSIBLE CAUSE
ACTION TO TAKE
UPS emits loud tone. Power I/0
switch is on but computer
equipment is not powered. UPS’s
rear panel circuit breaker is tripped
(button is extended). Normal utility
voltages are known to be present.
UPS has shut down due to severe
overload.
Turn off UPS and unplug excessive
loads. Laser printers will overload
the UPS and should be plugged into
a quality surge suppressor. See
the section covering Overloads.
Once overload is removed, reset
the circuit breaker (press button).
No UPS output, lamp within power
I/O switch is flashing, UPS emits
constant beeps. Loads are known
to operate properly.
Internal UPS fault.
Remove the UPS from service and
contact Customer Serivce.
UPS beeps continuously. Lamp
within I/0 power switch is
illuminated. Utility is not failed.
1. Line cord plug is loose.
1. Check fit of line cord plug.
2. Circuit breaker is tripped.
2. Unplug excessive loads and
reset circuit breaker (press button).
UPS does not shut down when
RS-232 HI level is applied to
computer interface port pin 1.
1. Signal not applied during utility
failure.
1. The UPS responds to this signal
only during utility failures (load is
operating from the UPS’s internal
power source).
2. Signal is not referenced to UPS
common.
2. Signal must be referenced to the
UPS’s common at DB-9F pins 4 or 9.
1. Excessive loads connected at
UPS’s output receptacles.
1. Excessive loading may shorten
run time to below 2 minute low
battery warning interval - remove
excessive loads.
2. Battery capacity low due to
consecutive utility failures.
2. Consecutive utility failures may
not allow time for the battery to
recharge thereby causing
shortened run time.
UPS is loaded to much less than full
rated capacity.
This operation is normal. The low
battery warning interval is extended
when operated under light load.
Low battery warning interval is
shorter than 2 minutes.
Low battery warning interval is
much longer than 2 minutes.
Page 26
7.0 Difficulty
7.2 Replacing the battery
You can expect to receive 3 to 6 years of service life from the UPS's battery when
installed in a cool, dry location. If you suspect the battery is weak, allow the UPS
to charge the battery for at least 6 hours and perform the Test for proper
operation described in section 3.7. If after repeating the test you find that the run
time is still too short, follow the procedures below to replace the battery.
Note: Please read the cautions at the beginning of this section.
7.2.1 Turn off the UPS and unplug it from service. Lay the UPS on its left side and
remove the two battery door screws. Remove only the screws indicated on the
battery door.
7.2.2 Gently pull out the battery by grasping the white tab.
7.2.3 Remove the two wires connecting the battery to the UPS. To loosen the wire
connectors, gently wiggle the connectors side-to-side while pulling straight back
from the mating battery connector.
7.2.4 Connect the battery wires to the new battery. The red wire is positive (+), the
black wire is negative (-).
7.2.5 Position the new battery as shown below and place it into the UPS. Arrange
the wires so that they will not interfere with the battery installation.
7.2.6 Close the battery door and fasten the two battery door screws.
7.2.7 Return the worn battery to the factory for recycling.
Page 27
7.0 Difficulty
7.3 Obtaining Service
The troubleshooting chart in section 7.1 covers most of the difficulties that a user
may encounter under conditions other than a failure of the UPS itself. For
problems not covered in the chart, follow the below listed instructions.
■ See the troubleshooting chart and eliminate the obvious. A tripped UPS
circuit breaker is the most common problem encountered and is user resettable once excessive loads are unplugged from the UPS.
■ If the circuit breaker is OK, note your UPS model, serial number and date of
purchase. Contact the Customer Service Department at the phone number given
on the cover of this manual.
■ Be prepared to provide a description of the problem. A technician will help you
solve the problem over the phone if possible, or will give you a Return Material
Authorization Number (RMA#).
■ If the UPS is within the warranty period, repairs will be performed free of
charge. If it is not within the warranty period, there will be a charge for repair.
■ Pack the UPS in its original packaging. If you no longer have the original
shipping materials, ask the technician about obtaining a new set. It is very
important that you pack the UPS properly to avoid damage in transit. Never use
styrofoam beads for packing because the UPS will settle through beads and
become damaged. Damages sustained in transit are not covered under warranty.
Enclose a letter in the package with your name, RMA#, address, copy of sales
receipt, description of trouble, phone number and check (if necessary).
■ Mark your RMA# on the outside of the package. The factory cannot accept any
package without this marking.
■ Return your UPS via insured, prepaid carrier to the address on the rear of this
booklet.
Page 28
8.0 Storing the UPS
8.1 Storage conditions
The UPS should be covered and stored in an upright position, in a cool, dry
location. The UPS should be stored with the battery in a fully charged state. This
means that the UPS should be allowed to charge the battery for at least 6 hours
before the UPS is switched off for storage.
8.2 Extended storage
To achieve expected run time following extended storage, the UPS should be
allowed to refresh the battery for 12 hours once every 6 months in environments
where the ambient temperature is -15°C to +30°C (5°F to 86°F). For extended
storage in environments where the ambient temperature is +30°C to +45°C (86°F
to 113°F), the UPS should be allowed to refresh the battery for 12 hours once every
month.
Page 29
9.0 Run time versus load
Load
Q¬˜
•Q˜
s¬¬˜
sQ¬˜
¢¬¬˜
¢Q¬˜
¬¬˜
Q¬˜
T¬¬˜
TQ¬˜
Q¬¬˜
QQ¬˜
–¬¬˜
Model
250
Model
400
Model
600
Typical computer load
•˜ham s¬¬˜ham sTQ˜ham ©za4"d˜˜›Fham"d
¢n˜ham •¢˜ham s¬Q˜ham "4am›p’^˜—¬
¢˜ham T•˜ham •n˜ham ˜—¢˜¬˜§—˜hpmp4^phF˜hpma›p
sT˜ham ¬˜ham QT˜ham ˜—¢˜¬˜§a›^˜sT‡˜
˜hpma›p
G˜ham sn˜ham Ts˜ham ˜—¢˜QQ’¨˜§a›^˜sT‡˜
˜hpma›p
Q˜ham s˜ham s˜ham phz"„˜G–—¢QF˜§—˜sT‡˜
˜hpma›p
n˜ham ¢¢˜ham phz"„˜G–—˜§—˜sT‡˜
˜hpma›p
•˜ham s•˜ham ˜—¢˜G¬˜OadF˜’F¦F
Q˜ham s˜ham phz"„˜G–—˜§—˜sn‡˜
˜hpma›p
s¬˜ham phz"„˜TG–—˜§—˜sn‡˜
˜hpma›p
•˜ham phz"„˜©’›Fhzp˜’F¦F
–˜ham |¢}˜phz"„˜G–—¢QF˜§—˜
˜hpma›p
Q˜ham |¢}˜phz"„˜G–—˜§—˜
˜hpma›p
Note: Run times are given at 25°C (77°F). Load values given in VA (Volt-Amps).
Page 30
10.0 Specifications
9.1 Input
Nominal input voltage: single phase 230 Vac.
Nominal input frequency: 50 or 60 Hz, selected by microprocessor.
9.2 Transfer Characteristics
Frequency limits for on-line operation: ±5% of the nominal 50 or 60 Hz.
Low input voltage limit for on-line operation: 196 Vac.
High input voltage limit for on-line operation: 280 Vac.
9.3 Output Characteristics
Maximum load: 250 VA or 170 W, 400 VA or 250 W, and 600 VA or 400 W for
models 250, 400 and 600 respectively.
Nominal output voltage: 225 Vac, ±5%. When verifying UPS on-battery output
voltage, use only a true rms responding voltmeter.
Frequency regulation: 50 or 60 Hz, ±3% unless synchronized to the utility.
Waveshape: stepped approximation to sine wave; peak and rms values equivalent to the utility.
Protection: electronically overcurrent and short circuit protected, overload
shutdown is latched.
9.4 Battery and charger
Battery type: maintenance free lead-acid, sealed and leakproof.
Typical service life: 3-6 years, dependent on number of discharges, temperature.
Low battery signalling: > 2 minute audible tone, interface port signal.
Recharge time: 4 to 5 hours, dependent on load and length of utility outage.
9.5 Surge and noise suppression
Surge energy rating: 320 Joules (one time, 10/1000µs waveform).
Surge current capability: 6500 Amp peak (one time, 8/20µs waveform).
Surge response time: 0 ns (instantaneous) normal mode, <5ns common mode.
Noise filter: full time EMI/RFI suppression, 100 kHz to 10 MHz.
9.6 Operating environment and physical dimensions
Operating environment: 0°C - 40°C (32°F - 104°F), 0 to 95% RH, non condensing.
Size: 6.6" H x 4.7" W x 14.2" D (17 cm x 12 cm x 36 cm).
Weight: 12.1 lb (5.5 kg), 15,4 lb (7.0 kg) and 24.3 lb (11.0 kg) for the UPS models
250, 400 and 600 respectively. Add 2 lb (1 kg) for shipping.
Page 31
DECLARATION OF CONFORMITY
Application of Council Directive(s):
89/336/EEC, 73/23/EEC
Standard(s) to which Conformity is Declared:
EN55022, EN50082-1
EN50091-1
Manufacturer's Name:
AMERICAN POWER CONVERSION
Manufacturer's Address:
132 FAIRGROUNDS ROAD
WEST KINGSTON, RI
02892
USA
Importer's Name:
Importer's Address:
Type of Equipment:
UNINTERRUPTIBLE POWER SOURCE
Model No.: BACK-UPS 250, 400, 600
Serial Number:
B930100001-B931299999, B940100001-B941299999
Year of Manufacture:
1993, 1994
I, the undersigned, hereby declare that the equipment specified above conforms
to the above Directives(s).
Place: BILLERICA, MA
USA
(Signature)
Date:
12/1/93
William Burke
(Full name)
Regulatory Compliance Engineer
(Position)
Page 32
Limited Warranty
American Power Conversion (APC) warrants its products to be free from defects in materials
and workmanship for a period of two years from the date of purchase. Its obligation under this
warranty is limited to repairing or replacing, at its own sole option, any such defective
products. To obtain service under warranty you must obtain a Returned Material Authorization (RMA) number from APC or an APC service center. Products must be returned to APC
or an APC service center with transportation charges prepaid and must be accompanied by a
brief description of the problem encountered and proof of date and place of purchase. This
warranty does not apply to equipment which has been damaged by accident, negligence, or
mis-application or has been altered or modified in any way. This warranty applies only to the
original purchaser who must have properly registered the product within 10 days of purchase.
EXCEPT AS PROVIDED HEREIN, AMERICAN POWER CONVERSION MAKES NO WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY
AND FITNESS FOR A PARTICULAR PURPOSE. Some states do not permit limitation or
exclusion of implied warranties; therefore, the aforesaid limitation(s) or exclusion(s) may not
apply to the purchaser.
EXCEPT AS PROVIDED ABOVE, IN NO EVENT WILL APC BE LIABLE FOR DIRECT,
INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF
THE USE OF THIS PRODUCT, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. Specifically, APC is not liable for any costs, such as lost profits or revenue, loss of
equipment, loss of use of equipment, loss of software, loss of data, costs of substitutes, claims
by third parties, or otherwise. This warranty gives you specific legal rights and you may also
have other rights which vary from state to state.
Life support policy
As a general policy, American Power Conversion (APC) does not recommend the use of any
of its products in life support applications where failure or malfunction of the APC product can
be reasonably expected to cause failure of the life support device or to significantly affect its
safety or effectiveness. APC does not recommend the use of any of its products in direct patient
care. APC will not knowingly sell its products for use in such applications unless it receives in
writing assurances satisfactory to APC that (a) the risks of injury or damage have been
minimized, (b) the customer assumes all such risks, and (c) the liability of American Power
Conversion is adequately protected under the circumstances.
Examples of devices considered to be life support devices are neonatal oxygen analyzers, nerve
stimulators (whether used for anesthesia, pain relief, or other purposes), autotransfusion
devices, blood pumps, defibrillators, arrhythmia detectors and alarms, pacemakers,
hemodialysis systems, peritoneal dialysis systems, neonatal ventilator incubators, ventilators
for both adults and infants, anesthesia ventilators, and infusion pumps as well as any other
devices designated as “critical” by the U.S. FDA.
Hospital grade wiring devices and leakage current may be ordered as options on many APC
UPS systems. APC does not claim that units with this modification are certified or listed as
Hospital Grade by APC or any other organization. Therefore these units do not meet the
requirements for use in direct patient care.
( PHONE
( PHONE
(800) 800-4272 in USA, Canada
(401) 789-5735 world wide
(+33) 1.64.62.59.00 in Eur
ope
Europe
(401) 789-5735 world wide
* MAILING
* MAILING
American Power Conversion
132 Fairgrounds Road
P.O. Box 278
West Kingston, Rhode Island
02892 USA
American Power Conversion
4, rue Ste Claire Deville
Zac du Mandinet-Bâtiment Espace
LOGNES
77447 MARNE LA VALLEE Cédex 2
FRANCE
Note: The troubleshooting chart in section 7.0 offers solutions for most of the difficulties
you may encounter with this UPS. Before calling the customer service number,
please have available your UPS's serial number (see the label at the rear of the
UPS).
Serial number: ___________________________
990-2013-1 11/93
Download PDF

advertising