Table of Contents
- 1. Introduction.
- 1.1. Thank you letter.
- 2. Safety information.
- 2.1. Using this manual.
- 2.1.1. Conventions and symbols used.
- 3. Quality assurance and standards.
- 3.1. Statement by the management.
- 3.2. Standards.
- 3.3. Environment.
- 4. Presentation.
- 4.1. Views.
- 4.1.1. Views of the device.
- 4.2. Definition of the product.
- 4.2.1. Nomenclature.
- 4.3. Operating principle.
- 4.3.1. Notable features.
- 4.4. Optional extras.
- 4.4.1. Isolation transformer:
- 4.4.2. Communication card.
- 4.4.3. Extendable guide kits for mounting in a rack cabinet.
- 5. Installation.
- 5.1. RECEPTION OF THE DEVICE.
- 5.1.1. Reception, unpacking and contents.
- 5.1.2. Storage.
- 5.1.3. Unpacking.
- 5.1.4. Transport to the site.
- 5.1.5. Siting, immobilising and considerations.
- 5.1.5.1. Rack-type mounting in a 19” cabinet.
- 5.1.5.2. Rack-type mounting in a 19” cabinet with backup extension (battery module).
- 5.1.5.3. Vertical tower-type mounting.
- 5.1.5.4. Rotation of the control panel with LCD display.
- 5.1.5.5. Vertical tower-type mounting with backup extension (battery module).
- 5.1.5.6. Preliminary considerations before connection.
- 5.1.5.7. Preliminary considerations before connection, regarding the batteries and their protections.
- 5.1.5.1. Rack-type mounting in a 19” cabinet.
- 5.2. Connections.
- 5.2.1. Connection of the input.
- 5.2.2. Connection of the IEC output connectors.
- 5.2.3. Connection to the optional battery module (backup extension).
- 5.2.4. Terminals for EPO (emergency power off).
- 5.2.5. Communication port.
- 5.2.6. Smart slot for the integration of an electronic communication unit.
- 5.2.7. Protection against voltage spikes for the modem / ADSL / fax, etc., line.
- 5.2.8. Software.
- 5.2.9. Considerations before start-up with connected loads.
- 6. Operation.
- 6.1. Start-up.
- 6.1.1. Checks before start-up.
- 6.2. UPS start-up and shutdown.
- 6.2.1. UPS start-up with mains voltage.
- 6.2.2. UPS start-up without mains voltage.
- 6.2.3. UPS shutdown with mains voltage.
- 6.2.4. UPS shutdown without mains voltage.
- 7. Control panel with LCD display.
- 7.1. GENERAL INFORMATION FOR THE SERIES.
- 7.1.1. Information represented by the display.
- 7.1.2. Other messages shown on the LCD display.
- 7.1.3. Common abbreviations shown on the display.
- 7.2. Composition of the control panel with LCD display.
- 7.3. Audible alarms.
- 7.3.1. Location of the adjustment parameters on the display.
- 7.3.2. Settings.
- 8. Maintenance, warranty and service.
- 8.1. Battery maintenance.
- 8.1.1. Notes for the installation and replacement of the battery.
- 8.2. UPS troubleshooting guide.
- 8.3. Warranty conditions.
- 8.3.1. Terms of the warranty.
- 8.3.2. Exclusions.
- 8.4. Technical services network.
- 9. Annexes.
- 9.1. General technical specifications.
- 9.2. Glossary.
Salicru 6A0CA000002 User Manual
Displayed below is the user manual for 6A0CA000002 by Salicru which is a product in the Uninterruptible Power Supplies (UPSs) category. This manual has pages.
Related Manuals
SPS.ADVANCE RT2
0,8.. 3 kVA
UNINTERRUPTIBLE POWER SUPPLY (UPS)
USER'S MANUAL
2SALICRU
General index.
1. INTRODUCTION.
1.1. THANK YOU LETTER.
2. SAFETY INFORMATION.
2.1. USING THIS MANUAL.
2.1.1. Conventions and symbols used.
3. QUALITY ASSURANCE AND STANDARDS.
3.1. STATEMENT BY THE MANAGEMENT.
3.2. STANDARDS.
3.3. ENVIRONMENT.
4. PRESENTATION.
4.1. VIEWS.
4.1.1. Views of the device.
4.2. DEFINITION OF THE PRODUCT.
4.2.1. Nomenclature.
4.3. OPERATING PRINCIPLE.
4.3.1. Notable features.
4.4. OPTIONAL EXTRAS.
4.4.1. Isolation transformer:
4.4.2. Communication card.
4.4.2.1. Integration into computer networks using an SNMP
adapter.
4.4.2.2. Modbus RS485.
4.4.2.3. Interface to relays.
4.4.3. Extendable guide kits for mounting in a rack cabinet.
5. INSTALLATION.
5.1. RECEPTION OF THE DEVICE.
5.1.1. Reception, unpacking and contents.
5.1.2. Storage.
5.1.3. Unpacking.
5.1.4. Transport to the site.
5.1.5. Siting, immobilising and considerations.
5.1.5.1. Rack-type mounting in a 19” cabinet.
5.1.5.2. Rack-type mounting in a 19” cabinet with backup
extension (battery module).
5.1.5.3. Vertical tower-type mounting.
5.1.5.4. Rotation of the control panel with LCD display.
5.1.5.5. Vertical tower-type mounting with backup extension
(battery module).
5.1.5.6. Preliminary considerations before connection.
5.1.5.7. Preliminary considerations before connection, regarding
the batteries and their protections.
5.2. CONNECTIONS.
5.2.1. Connection of the input.
5.2.2. Connection of the IEC output connectors.
5.2.3. Connection to the optional battery module (backup
extension).
5.2.4. Terminals for EPO (emergency power off).
5.2.5. Communication port.
5.2.5.1. RS232 and USB port.
5.2.6. Smart slot for the integration of an electronic communication
unit.
5.2.7. Protection against voltage spikes for the modem / ADSL /
fax, etc., line.
5.2.8. Software.
5.2.9. Considerations before start-up with connected loads.
6. OPERATION.
6.1. S TA R T- U P.
6.1.1. Checks before start-up.
6.2. UPS START-UP AND SHUTDOWN.
6.2.1. UPS start-up with mains voltage.
6.2.2. UPS start-up without mains voltage.
6.2.3. UPS shutdown with mains voltage.
6.2.4. UPS shutdown without mains voltage.
7. CONTROL PANEL WITH LCD DISPLAY.
7.1. GENERAL INFORMATION FOR THE SERIES.
7.1.1. Information represented by the display.
7.1.2. Other messages shown on the LCD display.
7.1.3. Common abbreviations shown on the display.
7.2. COMPOSITION OF THE CONTROL PANEL WITH LCD
DISPLAY.
7.3. AUDIBLE ALARMS.
7.3.1. Location of the adjustment parameters on the display.
7.3.2. Settings.
7.3.2.1. Ah configuration of parameter ‘05’.
7.3.2.2. Operating mode / Description of state.
7.3.2.3. Warning or alert codes and indicators.
7.3.2.4. Error or fault codes.
8. MAINTENANCE, WARRANTY AND SERVICE.
8.1. BATTERY MAINTENANCE.
8.1.1. Notes for the installation and replacement of the battery.
4SALICRU
SALICRU
1. INTRODUCTION.
1.1. THANK YOU LETTER.
We thank you in advance for the trust placed in us in the
purchasing of this product. Read this instruction manual
carefully in order to familiarize yourself with its content,
since the more you know and understand the equipment the
greater your satisfaction, level of safety and optimization of its
functionalities will be.
We remain at your disposal for any additional information or
queries that you may wish to make.
Yours sincerely.
•The equipment described herein is capable of causing
significant physical damage in the event of improper
handling. For this reason its installation, maintenance
and/or repair must be carried out exclusively by our per-
sonnel or by qualified personnel.
•Although no effort has been spared to ensure that the
information in this user manual is complete and accurate,
we are not responsible for any errors or omissions that may
exist.
The images included in this document are for illustrative
purposes and may not represent exactly the parts of the
equipment shown, therefore they are not contractual. How-
ever, any divergence that may arise will be remedied or
solved with the correct labelling on the unit.
•Following our policy of constant evolution, we reserve
the right to modify the characteristics, operations
or actions described in this document without prior
notice.
•Reproduction, copying, assignment to third parties,
modification or total or partial translation of this
manual or document, in any form or by any means,
without previous written authorization by our firm is
prohibited, with the full and exclusive property rights over
the same being reserved by our firm.
5
2. SAFETY INFORMATION.
2.1. USING THIS MANUAL.
The documentation of any standard equipment is available to
the customer on our website for download (www.salicru.
com).
•For devices “powered by socket”, this is the website for
obtaining the user manual and “Safety Instructions”
EK266*08.
•For devices with “permanent connection” via terminals, a
CD-ROM or pen drive containing all necessary information
for connection and start-up, including “Safety Instruc-
tions” EK266*08, may be supplied with it.
Before carrying out any action on the device relating to its
installation or start-up, change of location, configuration or
handling of any kind, carefully read the safety instructions.
The purpose of the user manual is to provide information
regarding safety and explanations of the procedures for
installation and operation of the equipment. Read them carefully
and follow the steps indicated in the order established.
Compliance with the "Safety Instructions" is
mandatory and the user is legally responsible for
compliance and enforcement.
The equipment is delivered properly labelled for the correct
identification of each of the parts, which together with the
instructions described in this user manual allows the operations
of installation and commissioning to be performed in a simple
and orderly manner without having any doubts whatsoever.
Finally, once the equipment is installed and operating, it is
recommended to save the documentation downloaded from the
website, CD-ROM or Pen Drive in a safe and easy-to-access
place, for any future queries or doubts that may arise.
The following terms are used interchangeably in the document
to refer to:
•«SPS ADVANCE RT2, ADVANCE RT2, ADV RT2, RT2,
equipment, unit or UPS».- Uninterruptible power supply
system.
Depending on the context of the phrase, it can refer either
to the actual UPS itself or to the the UPS and the batteries,
regardless of whether it is all assembled in the same metal
casing - box - or not.
•“Batteries or accumulators”.- Group or set of elements
that stores the flow of electrons by electrochemical means.
•‘T.S.S.’ - Technical Service and Support.
•‘Client, installer, operator or user’ - These are used
interchangeably and by extension to refer to the installer
and/or operator who will carry out the corresponding
actions, and the same person may be responsible for
carrying out the respective actions when acting on behalf
of, or in representation of, same.
2.1.1. Conventions and symbols used.
Some symbols may be used and appear on the equipment,
batteries and/or in the context of the user manual.
For more information, see section 1.1.1 of document EK266*08
on "Safety instructions".
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
6SALICRU
3. QUALITY ASSURANCE AND STANDARDS.
3.1. STATEMENT BY THE MANAGEMENT.
Our goal is customer satisfaction, therefore this Management
has decided to establish a Quality and Environment Policy,
through the implementation of a Quality and Environmental
Management System that will enable us to comply with the
requirements demanded in the ISO 9001 and ISO 14001 and
also by our Customers and Stakeholders.
Likewise, the management of the company is committed to the
development and improvement of the Quality and Environmental
Management System, through:
•Communication to the entire company of the importance of
satisfying both the client's requirements as well as legal
and regulatory requirements.
•The dissemination of the Quality and Environment Policy
and the setting of the Quality and Environment objectives.
•Conducting reviews by the Management.
•Providing the necessary resources.
3.2. STANDARDS.
The SPS.ADVANCE RT2 is designed, manufactured and sold in
accordance with Quality Management Standard EN ISO 9001.
The marking indicates conformity with EC Directives through
the application of the following standards:
•2014/35/EU. - Low voltage safety.
•2014/30/EU. - Electromagnetic Compatibility - EMC-.
•2011/65/EU. - Restriction of the use of hazardous substances
in electrical and electronic equipment (RoHS).
According to the specifications of the harmonized standards.
Reference standards:
•EN-IEC 62040-1. Uninterruptible Power Supplies -UPS-. Part
1-1: General and safety requirements for UPS used in user
access areas.
•EN-IEC 60950-1. Information technology equipment. Safety.
Part 1: General requirements.
•EN-IEC 62040-2. Uninterruptible Power Supplies -UPS-. Part
2: EMC requirements.
The manufacturer accepts no liability in the event of
modification of or intervention on the device by the
user.
WARNING!:
SPS.ADVANCE RT2 0.8..3 kVA. This is a category C2
UPS. In a residential environment, this product may
cause radio interference, in which case the user must
take additional measures.
It is not appropriate to use this equipment in basic
life support applications (BLS), where a failure of the
former can render vital equipment out of service or
significantly affect its safety or effectiveness. It is also
not recommended in medical applications, commercial
transport, nuclear installations, or other applications
or loads, where a failure of the product can lead to
personal or material damages.
The EC declaration of conformity of the product is
available to the customer upon express request to our
headquarters.
3.3. ENVIRONMENT.
This product has been designed to respect the environment and
manufactured according to ISO 14001.
Recycling of the equipment at the end of its useful life:
Our company undertakes to use the services of authorized and
regulatory companies to treat the set of products recovered at
the end of their useful life (contact your distributor).
Packaging:
For the recycling of the packaging there must be compliance
with the legal requirements in force, according to the specific
regulations of the country where the equipment is installed.
Batteries:
Batteries pose a serious danger to health and the environment.
The disposal of them shall be carried out in accordance with
the laws in force.
7
4. PRESENTATION.
4.1. VIEWS.
4.1.1. Views of the device.
Figures 1 to 3 show illustrations of the devices according to
box size in relation to the power rating of the model. However,
because the product is constantly evolving, discrepancies or
slight contradictions may arise. If in any doubt, the labelling on
the equipment itself will always prevail.
The nameplate of the device shows all of the values
relating to its main properties and characteristics. Act
accordingly for its installation.
0.8 to 3 kVA
models
Plastic front trim
Control panel with
LCD display
Battery
module
Plastic front trim
Fig. 1. Front view of the SPS.ADVANCE RT2 and battery
module for extended backups.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
8SALICRU
Earth connection
for battery module
Fan
Modem / ADSL / fax, etc.,
line input
USB COM
port
Smart slot
protective cover
Battery connector
protective cover
RS232 COM
port
Modem / ADSL / fax, etc.,
line output
For connection to
external EPO
AC power protection
fuse
Standard 800 to
1,500 VA and B1
models
AC input IEC
connector
IEC output sockets
non-programmable at
disconnection, for critical
loads
IEC output sockets
programmable at
disconnection, for non-
critical loads
Earth connection
for battery module
Fan
IEC output sockets
non-programmable at
disconnection, for critical
loads
Modem / ADSL / fax, etc.,
line input
USB COM
port
IEC output sockets
programmable at
disconnection, for non-
critical loads
Smart slot
protective cover
Battery connector
protective cover
RS232 COM
port
Modem / ADSL / fax, etc.,
line output
For connection to
external EPO
AC power protection
breaker
Standard 2,000 VA
models and B1
AC input IEC
connector
Earth connection
for battery module
Fan
Modem / ADSL / fax, etc.,
line input
USB COM
port
Smart slot
protective cover
Battery connector
protective cover
RS232 COM
port
Modem / ADSL / fax, etc.,
line output
For connection to
external EPO
AC power protection
fuse
Standard 3,000 VA
models and B1
AC input IEC
connector
IEC output sockets
non-programmable at
disconnection, for critical
loads
16 A IEC output sockets
IEC output sockets programmable at
disconnection, for non-critical loads
Fig. 2. Rear views according to device power ratings.
Earth connection for battery
module and/or UPS
Module input
connector
Battery module
Battery protection Module output
connector
Connection of the battery module to the device and/or
other module is made through the respective connectors.
Fig. 3. Rear view of battery modules for extended backups
9
4.2. DEFINITION OF THE PRODUCT.
4.2.1. Nomenclature.
SPS.1000.ADV RT2 B1 WCO 220/220 EE29503
MOD BAT ADV RT2 2x6AB003 3x40A WCO EE29503
EE* Special customer specifications.
220 Output voltage. Skip for 230 V.
220 Input voltage. Skip for 230 V.
CO ‘Made in Spain’ marking on UPS and packaging (for cus-
toms purposes).
W Private-label device.
B0 Device without batteries.
B1 Device with extra charger and batteries external to the UPS.
ADV RT2 Device series.
1000 Power in VA.
SPS Acronym for interactive UPS (Standby Power Systems).
EE* Special customer specifications.
CO ‘Made in Spain’ marking on UPS and packaging (for
customs purposes).
W Private-label device.
40A Protection size.
3x Number of protections in parallel. Omit for one.
003 Last three digits of the battery code.
AB Initials of the battery family.
6 Number of batteries in one branch.
2x Number of branches in parallel. Omit for one.
0/ Battery module without them, but with the necessary
accessories to install them.
ADV RT2 Battery module series.
MOD BAT Battery module.
Note related to B0 and B1 batteries:
(B0) The device is supplied without batteries, but with
a space reserved for installation in the same box
for models whose standard version specifies this.
For other models, the battery pack will be installed
in the manner considered most appropriate (box,
cabinet, rack, etc.).
For B0 devices ordered, the cost of acquisition,
installation and connection of the batteries shall
always be borne by the customer or distributor
and under their responsibility.
Accessories such as screws, cables and battery
connection plates are considered optional and
can be supplied upon request.
(B1) Device with a more powerful charger, which does
not have a battery pack, nor the possibility of
installing them in the same box.
If an accumulator module is required, it will need
to be ordered as a separate item, which will be
connected to the UPS using the supplied cable.
Before connecting a module or group of batteries to the
device or another available module, it is necessary to
check that the voltage value printed on the back of the
device next to the battery connector is appropriate and that
the polarity between the means of connection corresponds.
For more information, see Chapter 9 of this document.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
10 SALICRU
4.3. OPERATING PRINCIPLE.
This user manual describes the installation and mode of
operation of SPS.ADVANCE RT2 series UPSs for the power
range between 800 and 3000 VA.
These line-interactive pure sine-wave output devices are
designed to protect your most sensitive electronic devices
against power supply problems including undervoltages,
spikes, prolonged voltage drops, line noise and mains failures.
SPS.ADVANCE RT2 devices are powered by the mains and
supply AC power at their output through the IEC sockets
installed on the back of the device. If mains supply is correct,
the load or loads are powered from it through the stabiliser
featuring buck-boost technology.
If mains supply is absent or the voltage and/or frequency are
out of the acceptable range, the load or loads will be powered
from the batteries through the inverter for a certain period of
time depending on the model, battery charge level and load
itself connected to the output.
In all of the models, it is possible to increase the standard
backup of the devices by connecting additional modules
and/or optimising the recharge time of the accumulators by
incorporating higher performance chargers (B1).
The entire range of power ratings enables:
•The serial and USB ports for communication and control
of the device. The serial port supports communications
directly with a server and the protocol is in accordance
with an RS232 interface, which also has dry-contact signals
(interface to optocouplers).
•RJ-45 connectors for protecting the modem / ADSL / fax line.
•An EPO connector for optional, external installation by the
user of an emergency stop button.
•A smart slot in which one of the following communication
cards can be installed:
Integration into computer networks using an SNMP
adapter.
Modbus RS485.
Interface to relays.
This manual applies to the standardised models shown in Tab.
1.
4.3.1. Notable features.
•Pure sine-wave output waveform, suitable for almost all
types of load.
•Possibility of starting the device without mains power
supply or discharged battery (cold start). Be careful with this
aspect because the greater the batteries are discharged,
the more the backup will be reduced.
•Great adaptability to the worst conditions of the mains.
Wide input voltage, frequency and waveform ranges, thus
avoiding excessive dependence on limited battery power.
•If mains supply is present and voltage and frequency are
within the range, the built-in stabiliser featuring buck-boost
technology powers the loads.
•Possibility of fast and easy backup extension by adding
battery modules.
•Availability of additional battery chargers to reduce battery
recharge time (B1).
•Intelligent battery management technology is very useful for
extending the life of accumulators and optimising recharge times.
•Control panel with LCD display available on all models.
•Remote emergency power off control (EPO).
•Serial communication port: RS232 and USB.
•Availability of optional connectability cards to improve
communication capabilities.
•Protection against overload, short circuit and overtempera-
ture.
•Device that can be installed as a tower or rack using the
accessories supplied. The control panel can be rotated to
adapt to either format.
Model Type Input/output type
SPS.800.ADV RT2
Standard
Single-phase / Single-phase.
SPS.1100.ADV RT2
SPS.1500.ADV RT2
SPS.2000.ADV RT2
SPS.3000.ADV RT2
SPS.800.ADV RT2 (B0)
Without batteries
SPS.1100.ADV RT2 (B0)
SPS.1500.ADV RT2 (B0)
SPS.2000.ADV RT2 (B0)
SPS.3000.ADV RT2 (B0)
SPS.800.ADV RT2 (B1)
Long backup with
additional charger
SPS.1100.ADV RT2 (B1)
SPS.1500.ADV RT2 (B1)
SPS.2000.ADV RT2 (B1)
SPS.3000.ADV RT2 (B1)
Tab. 1. Standardised models.
4.4. OPTIONAL EXTRAS.
Depending on the configuration chosen, the device may include
any of the following options:
4.4.1. Isolation transformer:
The isolation transformer provides galvanic isolation in order
to completely isolate the output from the input and/or change
neutral mode.
The placement of an electrostatic screen between the primary
and secondary windings of the transformer provides a high
level of electrical noise attenuation.
The isolation transformer can be physically placed at the input
or output of the UPS depending on the technical conditions of
the whole system (device supply voltage and/or load voltage,
characteristics or their type, etc.).
In any event, it will always be supplied as a peripheral
component external to the device itself in a separate box.
4.4.2. Communication card.
The UPS features a slot at the rear for inserting one of the
following communication cards.
4.4.2.1. Integration into computer networks using an SNMP adapter.
Large computer systems based on LANs and WANs that
integrate servers in different operating systems must provide
the system manager with ease of control and administration.
11
This facility is obtained through an SNMP adapter, which
is universally supported by the main software and hardware
manufacturers.
Connection of the UPS to the SNMP is internal while that of
the SNMP to the computer network is made through a RJ45 10
base connector.
4.4.2.2. Modbus RS485.
Large computer systems based on LANs and WANs often
require that communication with any element that is integrated
into the computer network be made through a standard
industrial protocol.
One of the most used standard industrial protocols on the
market is the MODBUS protocol. The SPS.ADVANCE RT2 series
can also be integrated into these types of environments using
a Modbus RS485 card.
4.4.2.3. Interface to relays.
•The UPS has, as an option, an interface to relays card
that provides digital signals in the form of potential-free
contacts, with a maximum applicable voltage and current
of 240 V AC or 30 V DC and 1A.
•This communication port enables dialogue between the
device and other machines or devices through the relays
supplied in the terminal block arranged on the same card,
with a single common terminal for all of them.
From the factory, all contacts are normally open and can
be changed one by one, as indicated in the information
supplied with the optional extra.
•The most common use of these types of ports is to provide
the necessary information to the file-closing software.
•For more information, contact our T.S.S. or our nearest
distributor.
4.4.3. Extendable guide kits for mounting in a rack cabinet.
An extendable and unique guide kit is available for all device
models, valid for any kind of rack-type cabinet.
These guides allow the installation of any device unit and
possible battery modules in the case of extended backups, as if
it were a rack in its respective cabinet.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
12 SALICRU
5. INSTALLATION.
•Read and respect the Safety Information described
in Chapter 2 of this document. Failure to obey some
of the instructions described in this manual can result in a
serious or very serious accident to persons in direct contact
or in the vicinity, as well as faults in the equipment and/or
loads connected to it.
5.1. RECEPTION OF THE DEVICE.
•Pay attention to section 1.2.1. of the safety instructions
-EK266 * 08- in all matters relating to the handling,
movement and location of the unit.
•Use the most appropriate means to move the UPS.
•Any handling of the device must be carried out in accordance
with the weights shown in the technical specifications
according to the model, indicated in chapter ‘9. Annexes’.
5.1.1. Reception, unpacking and contents.
•Reception. Check that:
The data on the label affixed to the packaging
correspond to those specified in the order. Once the
UPS is unpacked, check the previous data with those of
the equipment nameplate.
If there are discrepancies, file the disagreement as
soon as possible, citing the equipment manufacture
number and the delivery note references.
There is no damage to the packaging that may have
occurred during transportation.
If there is damage, notify the carrier and indicate so on
the delivery note, and, as soon as possible, inform the
supplier / distributor or, failing that, our firm.
•Unpacking.
Remove the packaging to check the contents.
Complete the unpacking according to the
procedure in section 5.1.3.
•Content.
Device:
–1 UPS.
–Quick guide on paper.
–Information for warranty registration.
–1 USB cable.
–3 cables with IEC connectors for loads.
–1 cable for the device’s AC power supply.
–2 metal pieces for use as handles and screws for
installing the unit in a rack cabinet.
–4 plastic pieces for use as a base to facilitate
the arrangement of the UPS as a tower (vertical
position).
Optional battery module:
–1 battery module:
–Information for warranty registration.
–2 metal pieces for use as handles and screws for
installing the unit in a rack cabinet.
–2 plastic pieces to extend the base of the UPS and
enable the arrangement of the attached battery
module in its mounting as a tower.
–1 cable for interconnecting the battery module and
UPS or other module.
•Once the reception is completed, it is advisable to re-pack
the UPS until it is put into service in order to protect it
against mechanical shock, dust, dirt, etc.
•The packaging of the device consists of a cardboard or
wooden box, depending on the item, expanded polystyrene
corners, polyethylene cover and strapping, all of which are
recyclable materials. When the packaging requires disposal,
it must be carried out in accordance with current laws.
We recommend keeping it for at least 1 year.
5.1.2. Storage.
•The device should be stored in a dry, ventilated room and
protected from rain, dust, and water or chemical splashes.
It is advisable to keep each device and battery unit in its
original packaging, as it has been specifically designed
to ensure maximum protection during transportation and
storage.
•For devices that contain Pb-Ca batteries, the
charging times indicated in Tab. 2 of document
EK266*08, determined by the temperature to which they
are exposed, must be respected, otherwise the warranty
may be invalidated.
•After this period, connect the device to the mains together
with the battery unit if applicable according to the instructions
described in this manual and charge for 12 hours.
•Then disconnect and store the UPS and batteries in their
original packaging, noting the new date for recharging
the batteries on a document as a record or even on the
packaging itself.
•Do not store the devices where the ambient temperature
exceeds 50ºC or drops below -20ºC, as this may cause
degradation of the electrical characteristics of the batteries.
5.1.3. Unpacking.
•The packaging of the device consists of a cardboard box,
expanded polystyrene (EPS) or polyethylene foam (EPE)
corners, polyethylene cover and strapping, all of which are
recyclable materials; consequently, if it requires disposal,
it must be carried out in accordance with current laws. We
recommend keeping the packaging in case it needs to be
used in the future.
•Proceed as follows:
Cut the straps around the cardboard box.
Remove the accessories (cables, brackets, etc.)
Remove the device or battery module from the box with
the help, if necessary, of a second person depending
on the weight of the model or using appropriate
mechanical means.
Remove the protective corners from the device and the
plastic bag.
Do not leave the plastic bag within the reach of
children to avoid danger of suffocation.
Inspect the device before proceeding and, in the event
of finding damage, contact the supplier / distributor or,
failing that, our firm.
13
5.1.4. Transport to the site.
•It is advisable to move the UPS using the most suitable
means for this. If the distance is considerable, it is
recommended to transport the device in its packaging to
the installation site and then unpack it.
5.1.5. Siting, immobilising and considerations.
•All SPS.ADVANCE RT2 devices are designed for rack
mounting (horizontal installation in 19” cabinets) or tower
mounting (vertical installation) as with their optional
battery modules.
Follow the instructions indicated in relation to either of the
two possibilities, according to the particular configuration
of your device.
•Fig. 4..Fig. 8 show, by way of example, illustrations of a
device with or without battery module. These illustrations
provide help and guidance on the steps to follow, but the
instructions are not intended to refer to a single model,
although, in practice, the actions to be carried out are
always the same for all of them.
•For all instructions regarding connections, refer to section
5.2.
5.1.5.1. Rack-type mounting in a 19” cabinet.
•Proceed as follows (see Fig. 4:
Using the supplied screws, fix the two adapter angles
for use as handles on each side of the UPS, respecting
its mounting orientation.
To install the device in a rack cabinet, it is necessary
to have internal lateral guides for use as supports.
Alternatively, and upon request, we can supply universal
slides for use as guides, for installation by the user.
Fig. 4. Rack-type mounting in a 19” cabinet.
Mount the guides at the required height, ensuring
correct tightening of the fixing screws and appropriate
fitting in the machining, according to each case.
Place the device onto the guides and insert it all the
way to the back.
Depending on the device model and weight, and/or
whether it is installed in the upper or lower part of the
cabinet, it is recommended that two people carry out
the installation operations.
Fix the UPS to the cabinet frame using the screws
supplied with the handles.
5.1.5.2. Rack-type mounting in a 19” cabinet with backup extension (battery
module).
•This section describes a device with one battery module.
For more battery modules, repeat the same procedure for
each of them.
•Proceed as follows (see Fig. 5):
Using the supplied screws, fix the two adapter angles
for use as handles on each side of the UPS, respecting
its mounting orientation. Repeat the same procedure
for the battery module.
Fig. 5. Rack-type mounting in a 19” cabinet with backup
extension (battery module).
To install each unit, UPS and battery module in a rack
cabinet, it is necessary to have internal lateral guides
for use as supports. Alternatively, and upon request,
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
14 SALICRU
we can supply universal slides for use as guides, for
installation by the user.
Mount the guides at the required height, ensuring cor-
rect tightening of the fixing screws and appropriate fit-
ting in the machining, according to each case.
Place the device onto the guides and insert it all the
way to the back. Proceed in the same way for the bat-
tery module.
Depending on the weight of each unit according to the type
of device and battery module, and/or whether it is installed
in the upper or lower part of the cabinet, it is recommended
that two people carry out the installation operations.
Fix the UPS and the battery module to the cabinet frame by
means of the screws supplied with the respective handles.
5.1.5.3. Vertical tower-type mounting.
•Take the 4 pieces of plastic supplied with the device and
join them together in twos to obtain two bases.
•Place the UPS upright between the two bases at a distance
of 70 mm from each end (see Fig. 6).
Fig. 6. Vertical tower-type mounting.
5.1.5.4. Rotation of the control panel with LCD display.
Fig. 7. Rotation of the control panel with LCD display on the
plastic front trim.
•The device is initially set up at the factory for installation as
a rack. To facilitate the reading of messages on the display
when the device is installed vertically, it is advisable to ro-
tate the control panel clockwise by 90º (see Fig. 7).
•Proceed as follows:
Insert fingertips into the recesses of the plastic trim
around the display and pull outwards.
Rotate the control panel with LCD display 90º to the
right with respect to its initial position and insert it back
into the front.
•Likewise, it is recommended to reverse the rotation of the
control panel if a device arranged as a tower needs to be
installed as a rack.
In this case, the rotation of the control panel will be anti-
clockwise.
15
5.1.5.5. Vertical tower-type mounting with backup extension (battery
module).
•The description in this section refers to a device with a
single battery module. For a greater number, proceed in a
similar way.
•Take the 4 plastic pieces in the form of an angle supplied
with the UPS and the two extensions supplied with the bat-
tery module, and install them to obtain two bases to hold
the device and the battery module.
•Place the UPS and battery module upright between the two
bases (see Fig. 8) and at a distance of 70 mm from each
end, as shown in Fig. 6.
•Rotate the control panel according to section 5.1.5.4.
Fig. 8. Vertically mounted tower-type model with backup exten-
sion (battery module).
5.1.5.6. Preliminary considerations before connection.
•Check that the information on the device’s nameplate is
that required for installation.
•All devices in the range feature a cord with plug for the input
and IEC connectors for the output, as connecting elements
for power. Other connections are made through connectors,
including connection of the device to the battery module.
•Thermal control of these devices is carried out with the
passage of forced air from the front to the rear.
The front surface and about 15 cm on the rear side should
be left free of obstructions to facilitate the free circulation
of air for ventilation.
•Protection board:
It will have a type-B differential circuit breaker and a short
circuit protection (C-curve circuit breaker) for the UPS’s
input line.
As for size, they will be at least the current indicated on the
nameplate of the UPS.
•Only the rated current as indicated by the EN-IEC 62040-1
safety standard is printed on the nameplate of the device.
For the calculation of the input current, the power factor and
the equipment's own performance have been considered.
Overload conditions are considered a non-permanent and
exceptional working mode.
•The cross section of the input line cables is determined
by the current indicated on the nameplate of each device,
in compliance with local and/or national Low-Voltage
Electrotechnical Regulations.
•If peripheral input and/or output elements, such as
transformers or autotransformers, are added to the UPS,
the currents indicated on the nameplates of these elements
must be taken into consideration when determining
appropriate cross sections, in compliance with local and/or
national Low Voltage Electrotechnical Regulations.
•When a device incorporates a galvanic isolation
transformer as an optional extra or installed
independently, either at the input, output or both, it must be
fitted with protection against indirect contact (differential
circuit breaker) at the output of each transformer, since, due
to its own insulation properties, it will prevent the tripping
of the protections placed on the primary of the isolation
transformer in case of electric shock on the secondary
(output of the isolation transformer).
•We remind you that all the isolation transformers installed
or factory supplied, have the output neutral grounded
through a bridge between the neutral terminal and ground.
If the isolated output neutral is required, this bridge must be
removed, taking the precautions indicated in the respective
local and/or national low voltage regulations.
•This device is suitable for installation in networks
with TT, TN-S, TN-C or IT power distribution
systems, taking into account at the time of installation the
particularities of the system used and the national electrical
regulations of the destination country.
•All of the models in this series have an input polarity
detector (phase-neutral), which activates a
modulated audible alarm every 2 seconds and displays the
message on the ‘SF’ display in the event of a fault.
When the circumstance arises, disconnect the plug from
the mains socket and rotate it 180º.
If the same alarm condition is maintained, it will be a two-
phase power line signal or installation without neutral
referenced to earth. Contact our T.S.S. or the distributor
before connecting loads to the output.
•The ADVANCE RT2 features terminals for the installation
of an external emergency power off button (EPO) or, failing
that, a single device must be installed to cut the power
supply to the loads in any operating mode.
5.1.5.7. Preliminary considerations before connection, regarding the
batteries and their protections.
•SPS.ADVANCE RT2 devices incorporate the batteries in the
same box as the device, except for B0 and B1 models.
The UPS’s battery protection is internal by means of fuses
and is therefore not accessible to the user.
The battery modules have a circuit breaker accessible to
the user and a second internal protection consisting of a
non-accessible fuse.
•IMPORTANT FOR SAFETY: If batteries are installed
independently, the accumulator group must be fitted
with a bipolar circuit breaker or disconnect fuse of the size
indicated in Tab. 2.
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16 SALICRU
•Inside the battery module, there are HAZARDOUS
VOLTAGES with risk of electric shock, so it is classified as a
RESTRICTED ACCESS AREA.
•Do not handle the battery circuit breaker when the
device is running.
•If the mains power of the device is cut for longer
than a simple intervention and it is expected that it
will be out of service for a prolonged period time, the
system must be shut down completely.
•The battery circuit is not isolated from the input
voltage. Dangerous voltages can occur between the
terminals of the battery group and the earth. Check that
there is no input voltage before working on the battery
module connectors.
5.2. CONNECTIONS.
•A bad connection or operation can cause faults in the UPS
and/or the loads connected to it. Read the instructions in
this manual carefully and follow the steps indicated in the
order established.
•The devices can be installed and used by personnel
without specific training by simply using this
manual.
•It should never be forgotten that a UPS is a generator
of electrical energy, and as such, the user must take
all necessary precautions against direct or indirect contact.
•All of the device’s connections, including those
related to control (interface, EPO, etc.), must be
made without mains power present and the UPS set to ‘Off’.
•To connect a device to an optional battery module, or
between modules, or to install an optional card in the slot,
it is necessary to remove its respective metal protective
cover screwed to the UPS. Remove the screws and cover.
5.2.1. Connection of the input.
•As the device has Class I protection against electric
shock, it is obligatory and essential for the AC input
socket to have the earth conductor ( ) installed. Check
that this is the case before continuing.
•Take the device’s power cable, plug the female IEC
connector into the UPS and the Schuko plug at the other
end of the cable into an AC power socket.
5.2.2. Connection of the IEC output connectors.
•All UPSs have ‘n’ variable IEC output connectors according
to the power rating of the device:
0.8 to 2 kVA models.
2 groups of 4 x 10A IEC connectors identified as OUTPUT
and PROGRAMMABLE OUTLETS (P1), the second group of
which is programmable at disconnection for non-critical
loads through the control panel or ViewPower software.
3 kVA model.
The other models incorporate a 16 A IEC output
connector in the OUTPUT connector group.
Loads can be connected to all of the IEC
connectors provided that the rated power of the
device is not exceeded and the limitation of the
programmable IEC socket group is considered,
otherwise untimely cuts will occur in the powering of
the loads connected to them.
•If, in addition to the more sensitive loads, it is necessary
to connect high-consumption inductive loads, such as for
laser printers or CRT monitors, the starting up of these
peripherals will need to be taken into account to prevent
the device from crashing.
We do not recommend connecting loads of this type due to
the amount of power they absorb from the UPS.
5.2.3. Connection to the optional battery module (backup
extension).
•Failure to comply with the instructions in this
section and Safety Instructions EK266*08
carries a high risk of electric shock and even death.
•SPS.ADVANCE RT2 devices incorporate the batteries in the
same box as the device, except for B0 and B1 models.
•IMPORTANT FOR SAFETY: If batteries are installed
independently, the accumulator group must be fitted
with a bipolar circuit breaker or disconnect fuse of the size
indicated in Tab. 2.
Model Rated voltage
of batteries
Minimum values,
fast type fuses
DC voltage (V) Current (A)
SLC-800-ADV RT2 (12 V x 2 ) = 24 V
125
32
SLC-1100-ADV RT2 50
SLC-1500-ADV RT2 (12 V x 4 ) = 48 V 32
SLC-2000-ADV RT2 40
SLC-3000-ADV RT2 (12 V x 6 ) = 72 V 40
Tab. 2. Protection features between device and battery module.
•Before starting the connection process between the
battery module or modules and the device, check that
the UPS and the loads are set to ‘Off’ and that the battery
voltage of all of them is the same, without exceptions.
Also, when the batteries are installed by the user
independently, the protection fuse or isolator must be
deactivated.
•Connection of the battery module to the UPS is made by
means of a cable featuring polarised connectors at both
ends and supplied with the first one.
Plug the connector at one end of the cable into the
corresponding socket on the SPS.ADVANCE and the one on
the other end into the battery module (see Fig. 9).
In the same way, battery modules can be linked in parallel
since each of them has two connectors.
All of the connectors must be secured to their units by
means of the screws that held the protective cover of each
connector to the UPS or battery module.
•As the device has Class I protection against electric
shock, it is obligatory and essential to connect the
earth conductor ( ).
Connect the earth cable to the corresponding points
identified, either terminal or screw (see Fig. 9).
If the interconnection cable has a mesh, the earth connection
will be linked between units through it by fixing the metal
supports of the connectors to the UPS and battery module
or modules using the screws indicated in the previous point.
17
•Each battery module is independent for each device.
Two devices must not be connected to the
same battery module.
•Fig. 9 shows the connection of a 3 kVA device in a rack
arrangement with two battery modules. For a larger number,
proceed in a manner similar to those shown in the illustration.
Fig. 9. Connection to battery modules.
5.2.4. Terminals for EPO (emergency power off).
•The UPSs have two terminals for the installation of an
external emergency power off (EPO) output button.
•The device is dispatched from the factory with its EPO
circuit set to closed (NC) by default. In other words, the
UPS will cut the output power supply, emergency power
off, when the circuit is opened:
Either by removing the female connector from the socket
where it is inserted. This connector has a cable connected
as a jumper that closes the circuit (see Fig. 10-A).
Or by pressing the button external to the device
belonging to the user installed between the terminals
of the connector (see Fig. 10-B). The connection on the
button must be in the normally closed contact (NC), so
it will open the circuit when activated.
The reverse functionality can be selected through the
communications software and control panel.
Except for specific cases, we advise against this type
of connection in view of the purpose of the EPO button,
since it will not act upon an emergency request if either
of the two cables that run from the button to the UPS is
accidentally cut.
By contrast, this anomaly would immediately be detected
in a closed EPO circuit, with the inconvenience of an
unexpected cut in the powering of the loads, but a
guarantee of effective emergency functionality.
•To recover the normal operating state of the UPS, it is
necessary to insert the connector with the jumper in its
receptacle or deactivate the EPO button. The device will
be operational.
A B
Fig. 10. Connector for external EPO.
5.2.5. Communication port.
5.2.5.1. RS232 and USB port.
•The communications line -COM- constitutes a very
low voltage safety circuit. To preserve the quality
must be installed separately from other lines carrying
dangerous voltages (power distribution line).
•The RS232 and USB interfaces are useful for the monitoring
software and updating the firmware.
•It is not possible to use both the RS232 and USB ports at
the same time.
•The DB9 connector supplies the RS232 signals and the
normally open (NO) potential-free contacts using optocouplers.
The maximum voltage and current applicable to these
contacts is 30V DC and 1A.
Also, there is a «Shutdown» input that allows turning off
the inverter, when a voltage between 10 a 12 V is applied
for 1 second at this input.
•The RS232 port consists of the transmission of serial data
in such a way that a large amount of information can be
sent through a communication cable with only 3 wires.
•The USB port is compatible with the USB 1.1 protocol for
communication software.
Pin # Description Input / Output
1End of backup Output
2TXD for RS232 Output
3RXD for RS232 Input
4GND for shutdown Earth
5GND for RS232 Earth
6Common relays -
7Shutdown order Input
8Low battery Output
9Mains fault Output
Tab. 3. Pinout of DB9 connector, RS232.
5 1
9 6
2 1
3 4
Fig. 11. DB9 connectors for RS232 and USB.
5.2.6. Smart slot for the integration of an electronic communication
unit.
•Optional electronic communication units include:
Interface to relays to terminals, not programmable.
SNMP adapter.
Modbus RS485 adapter.
•The corresponding documentation is supplied with each
option. Read it before starting installation.
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18 SALICRU
Installation.
•Remove the protective cover from the device’s slot.
•Take the corresponding electronic unit and insert it into the
reserved slot. Make sure that it is properly connected, for
which it is necessary to overcome the resistance caused in
the connector located in the slot.
•Make the necessary connections in the terminal block or
connectors available according to each case.
•For more information, contact our T.S.S. or our nearest
distributor.
5.2.7. Protection against voltage spikes for the modem / ADSL / fax,
etc., line.
•The communications line -COM- constitutes a very
low voltage safety circuit. To preserve the quality
must be installed separately from other lines carrying
dangerous voltages (power distribution line).
•Connect the main line for the modem / ADSL / fax, etc., to
the RJ45 connector of the device, identified as ‘Input’.
•Connect the modem / ADSL / fax, etc., to the RJ45 connector
of the device, identified as ‘Output’.
5.2.8. Software.
Download of free ViewPower software. ViewPower is
a UPS monitoring software which provides a user-friendly
interface for monitoring and control. It features an auto
shutdown function for systems consisting of several PCs
in case of power failure. The software enables users to
monitor and control any UPS in the same LAN through an
RS232 or USB communications port, regardless of how far
away they are from each other.
•Installation procedure:
Go to the web page:
http://support.salicru.com
Select the required operating system and follow the
instructions described on the web page to download
the software.
Fig. 12. View of the ViewPower monitoring software’s main
screen.
5.2.9. Considerations before start-up with connected loads.
•It is recommended to charge the batteries for at
least 12 hours before using the UPS for the first time.
For this, it will be necessary to supply voltage to the
device. The battery charger will work automatically.
For the battery modules.
For the models with batteries external to the device or
backup extension modules, it will be necessary to turn
the fuse or circuit breaker of the batteries to ‘On’.
•Although the device can operate correctly without charging
the batteries for the specified 12 hours, the risk of a
prolonged power cut during the first hours of operation and
the UPS’s available backup time should be assessed.
•Do not start up the device and loads completely until
indicated in Chapter 6.
When it is done, however, it should be carried out gradually
to avoid possible difficulties, if not at the first start-up.
•If, in addition to the more sensitive loads, it is necessary
to connect high-consumption inductive loads, such as for
laser printers or CRT monitors, the starting up of these
peripherals will need to be taken into account to prevent
the device from crashing.
For this type of load considered NON-PRIORITY, a group
of programmable sockets is available depending on the
model. Depending on the programming of these, the power
supply may or may not be affected in the event of mains
failure.
19
6. OPERATION.
6.1. START-UP.
6.1.1. Checks before start-up.
•Make sure that all of the connections have been made
correctly, following the instructions on the labelling of the
device and in Chapter 5.
•Check that the switch on the battery module or modules
is ‘Off’.
•Make sure that all loads are ‘Off’.
Shut down the connected loads before starting the
UPS and start the loads, one by one, only when the
UPS is running. Before shutting down the UPS, check that
all of the loads are ‘Off’.
•It is very important to proceed in the established order.
•For views of the UPS, see Fig. 1..Fig. 3.
6.2. UPS START-UP AND SHUTDOWN.
6.2.1. UPS start-up with mains voltage.
•Check that the power connection is correct.
•Turn the battery module switch to ‘On’ (models B0 and B1).
•Supply voltage to the device (turn the input protection on
the distribution board to ‘On’). If the board has an output
switch, turn it to ‘On’.
•All of the models in this series have an input polarity
detector (phase-neutral), which activates a
modulated audible alarm every 2 seconds and displays the
message on the ‘SF’ display in the event of a fault.
When the circumstance arises, disconnect the plug from
the mains socket and rotate it 180º.
If the same alarm condition is maintained, it will be a two-
phase power line signal or installation without neutral
referenced to earth. Contact our T.S.S. or the distributor
before connecting loads to the output.
•The fan or fans, depending on the model, will start to
function.
Then the main start screen will be displayed after a test of
the device.
•Press the ON/MUTE button for more than 2 seconds, the
audible alarm will sound for 1 second, the UPS will start up
and an automatic battery test lasting 10 seconds will begin.
•After a few seconds, the UPS will be in ‘Normal mode’.
If the mains voltage is incorrect, the UPS will switch to
‘Battery mode’, without interrupting the power supply at
the output terminals.
•Start the load or loads, making sure that the rated power of
the device is not exceeded.
6.2.2. UPS start-up without mains voltage.
•If it has a distribution board, turn the input and output
protections to ‘On’.
•Turn the battery switch to ‘On’ (B0 and B1).
•Press the ON/MUTE button for more than 2 seconds, the
audible alarm will sound for 1 second and the UPS will start up.
The fan or fans, depending on the model, will start to
function.
Then the main start screen will be displayed after a test of
the device.
•After a few seconds, the UPS will be in ‘Battery mode’,
meaning that its charge level and therefore available
residual backup, as well as the risks associated with
operating in this mode, must be taken into consideration.
If the mains voltage returns, the UPS will transfer to
‘Normal mode’ without interrupting the power supply at
the output terminals.
•Start the load or loads, making sure that the rated power of
the device is not exceeded.
6.2.3. UPS shutdown with mains voltage.
•Shutdown the load or loads.
•Press the OFF/ENTER button for more than 2 seconds to
shut down the inverter. The audible alarm will sound for
1 second. The device is in Standby (no output voltage) and
charging batteries.
6.2.4. UPS shutdown without mains voltage.
•Shutdown the load or loads.
•Press the OFF/ENTER button for more than 2 seconds to
shut down the inverter. The audible alarm will sound for 1
second. The device will leave the output terminals without
voltage.
A few seconds later, the LCD screen turns off and the entire
device will be out of service.
•To leave the assembly completely isolated, turn the input
and output switches of the board to ‘Off’.
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7. CONTROL PANEL WITH LCD DISPLAY.
7.1. GENERAL INFORMATION FOR THE SERIES.
7.1.1. Information represented by the display.
Input voltage
information
Failure or warning
information
Battery charge level
information (each
segment is equivalent to
10%, although they are
activated in pairs)
Estimated backup
information
Battery charge
connected to the output
level information (each
segment is equivalent to
10%, although they are
activated in pairs)
Information about the operating mode of the device
Output voltage
information
Audible alarm
disabled
+ +
Fig. 13. Graphic and textual information shown on the display.
7.1.2. Other messages shown on the LCD display.
Display Meaning
Information about programmable outputs
P1 Indicates that the programmable outputs are activated.
Information about the operating mode of the device.
BATTERY Indicates that the device is supplying output voltage from
the battery (battery mode).
ECO Indicates that the device is supplying output voltage from
the input (normal mode).
CHARGING Indicates that the device is in charging mode.
BUCK Indicates that the device is in buck mode.
BOOST Indicates that the device is in boost mode.
Information about battery charge level.
BATT FAULT
Indicates that the battery is not connected.
Tab. 4. Description of other messages shown on the control pan-
el’s LCD display.
7.1.3. Common abbreviations shown on the display.
Code On display Meaning
ENA A
U
EEnabled.
DIS d1S Disabled.
Code On display Meaning
ON ON Start-up.
EPO EP Emergency power off.
ESC ESC Escape.
AO AO EPO normally open.
AC AC EPO normally closed.
Ok OK Ok.
SD Sd Shutdown.
BL bL Low battery.
OL OL Overload.
NC NC Battery not connected
OC OC Battery overcharge
SF SF Connection error. Rotate the connection of the
input, phase and neutral cables.
TP TP Overtemperature.
CH CH Charger
21
Code On display Meaning
BF bF Battery failure, low voltage.
BR bR Replace batteries.
EE EE Internal EEPROM error.
Tab. 5. Abbreviations shown on the LCD display.
7.2. COMPOSITION OF THE CONTROL PANEL WITH LCD
DISPLAY.
•The control panel consists of:
Three buttons with the functions described in Tab. 6.
An LCD display with backlighting.
ON/MUTE SELECT OFF/ENTER
Fig. 14. View of the control panel.
Button Description
ON/MUTE
- Starting up the UPS.
Press the button for at least 2 seconds.
- Muting the alarm.
Press the button for at least 3 seconds to mute or unmute
the audible alarm.
It is only possible to mute the battery discharge alarm,
which necessarily means that the device is running and
operating in battery mode. Any other warning or error alarm
cannot be muted.
- Button to navigate upwards.
When this button is pressed in UPS settings mode, it will
move upwards through the menu structure in relation to the
point where it is located, accessing the previous variable
with each press.
- Activating the battery test.
Press this button for 3 seconds while in normal or frequency
converter (CF) mode. At the end of the test, it returns to the
respective mode.
SELECT
- Changing the LCD screen display.
Press this button to change the message on the display
to read input voltage, input frequency, battery voltage,
battery level, ambient temperature, output voltage, output
frequency, load consumption and percentage of load
consumption.
- Settings or configuration mode.
Press this button for at least 3 seconds to access this mode
when the inverter of the UPS is shut down.
- Button to navigate downwards.
When this button is pressed in UPS settings mode, it will
move downwards through the menu structure in relation
to the point where it is located, accessing the following
variable with each press.
OFF/ENTER
- UPS shutdown.
Press this button for at least 2 seconds.
- Confirmation of selection.
Press this button to confirm selection in the device’s settings
mode.
Tab. 6. Functionality of the control panel buttons.
7.3. AUDIBLE ALARMS.
Description Alarm modulation or tone Possibility of
muting
State of the UPS
Battery mode Beep every 10 s Yes
Warning
Polarity error Beep every 2 s
YesLow battery Beep every 2 s
Overload Beep every 1 s
Faults
All Continuous. No
Tab. 7. Audible alarms.
7.3.1. Location of the adjustment parameters on the display.
Parameter 1
Parameter 2 Parameter 3
Fig. 15. Arrangement of the parameters on the LCD display.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
22 SALICRU
•Parameter 1:
Adjustable codes. For more information consult Tab. 8.
•Parameters 2 and 3 are the configuration or value options
for each settings menu.
Select with buttons ‘ ’ or ‘ ’ to modify the menus
or parameters.
All of the parameter settings are saved when the
UPS is completely shut down and provided that it
has connected batteries, whether internal or external.
If a complete shutdown is not carried out, the setting will
not be saved to the memory.
7.3.2. Settings.
Tab. 8 shows a summary of parameter 1’s adjustable codes for
each operating mode and Fig. 16 shows the structure of the
menu tree with the operating mode for the settings.
Code Description
Mode
No
output
AC and
batteries
ECO and
battery
test
01 Output voltage. YES - -
02 Programmable output state. YES YES YES
03 Programmable output configuration. YES YES YES
04 Backup limitation configuration. YES YES YES
05 Battery pack Ah configuration. YES YES YES
06 EPO logical configuration. YES YES -
Tab. 8. Parameter 1 adjustable codes list.
7.3.2.1. Ah configuration of parameter ‘05’.
•Standard models are configured with factory default
settings, so it is not necessary to perform any actions to
adjust this parameter.
For extended backup and B1 models, however, it is
necessary to adjust the value to the total capacity of the
battery pack. Any alteration of the battery pack will entail a
readjustment, so it will be necessary to adapt the value in
the event of future expansions.
•There are basically two reasons to perform the adjustment
without it affecting the correct functioning of the device if it
is not done, although it is more than recommended:
a. The charging current of the batteries is directly related to
the capacity of the battery pack.
The charger will adapt the charging factor automatically
according to the value of the total capacity entered, up
to the maximum of the current that is possible.
This results in faster charging and therefore greater
availability and more immediate backup in the event of
frequent mains failures.
b. Entering the value in Ah is vital for the control to be able
to calculate and show the backup available on the LCD
display, without further alterations.
The settings values are determined as follows:
1. Devices with backup extension.
They are configured by a standard model plus the battery
module or modules. The capacity of the batteries of both
are indicated in the following Tab. 9 and Tab. 10.
Example for an SPS.1500 ADVANCE RT2 and backup
extension module 6A0BU000003:
7 Ah + 14 Ah = 21 Ah (value for parameter 05).
UPS model Internal batteries
Voltage (V) Capacity (Ah)
SPS.800 ADVANCE RT2 24 7
SPS.1100 ADVANCE RT2 9
SPS.1500 ADVANCE RT2 48 7
SPS.2000 ADVANCE RT2 9
SPS.3000 ADVANCE RT2 72
Tab. 9. Characteristics of batteries in standard devices.
Battery module
Code Voltage (V) Capacity (Ah)
6A0BU000001 24 14 (2 x 7)
6A0BU000002 18 (2 x 9)
6A0BU000003 48 14 (2 x 7)
6A0BU000004 18 (2 x 9)
6A0BU000005 72
Tab. 10. Characteristics of batteries in modules.
2. Device B1.
B1 models do not have batteries in the same box, so a
battery module will always be necessary or the user will
have them.
Example for an SLC 1500 ADVANCE RT2 B1 and three
backup extension modules 6A0BU000003:
(3 x 14 Ah) = 42 Ah (value for parameter 05).
23
O1
3 sec.
Output voltage
selection
230 (*)
240
208
220
•The values indicated with (*) are factory default settings.
•The settings can only be carried in 'STby' mode (equipment Off and input
voltage present).
•To carry out any modification of the configuration, follow the indicated
sequence with the inverter necessarily Off.
•To exit the main menu from any position, press buttons + together.
O2
O3
O4
O5
O6
OO
Non-critical load
output sockets
Backup time for
non-critical load
output sockets
Backup time for all
output sockets
Battery pack Ah
capacity
EPO contact
configuration
DIS (*)
ENA
0..999
DIS (*)
0..999
7..999
AO (*)
AC
ESC
DIS Programming of output sockets for non-critical loads disabled.
ENA Programming of output sockets for non-critical loads enabled.
Backup time setting for non-critical load output sockets when
operating in Battery mode.
Default setting is 999.
Backup time setting for all output sockets when operating in Battery
mode.
Default setting is ‘DIS’, deactivated. Take into consideration that the
available backup will depend on battery charge level
Note: When it is at ‘0’, the backup time will be 10 seconds.
Battery pack Ah. Do not change for standard models and adjust in B1
or extended backup models (see section 7.3.2.1).
Although the device will still work without adjusting this value on the
display, the time shown in minutes will be incorrect and the battery
charging current will not automatically adjust to them.
EPO button contact type setting.
AO EPO activated when circuit opened.
AC EPO activated when circuit closed.
Fig. 16. Settings menu.
7.3.2.2. Operating mode / Description of state.
Operating mode / state
UPS start-up
Description. When the UPS is started, the display screen of this mode is displayed for a few seconds to initialise the CPU and system.
LCD display.
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24 SALICRU
Operating mode / state
No output mode
Description. The UPS is off and no output voltage is available, but it is charging the batteries.
LCD display.
ECO mode
Description. If the input voltage is within the regulation ranges, the UPS supplies the output voltage from the normal mode input.
LCD display.
BUCK mode
Description. If the input voltage is above the output regulation range, but within the input range, the UPS supplies output voltage from BUCK mode.
LCD display.
BOOST mode
Description. If the input voltage is below the output regulation range, but within the input range, the UPS supplies output voltage from BOOST mode.
LCD display.
Battery mode
Description. Description: When the input / frequency voltage is not within the predefined range of the device or there is an AC mains failure, the UPS
powers the loads from the batteries for a limited time due to their own capacity and activates the audible alarm modulated every 5 seconds.
LCD display.
Error or fault
state
Description. When an error occurs, the ERROR icon and the fault code are displayed.
LCD display.
Tab. 11. Operating modes.
25
7.3.2.3. Warning or alert codes and indicators.
Code Description Icon (flashing) Audible alarm
bl Low battery
Modulated every 2 s
Ol Overload
Modulated every 1 s
NC Battery not connected Modulated every 2 s
OC Battery overcharge
Modulated every 2 s
SF Input socket connection fault Modulated every 2 s
EP EPO enabled Modulated every 2 s
TP Overtemperature Modulated every 2 s
CH Charger fault Modulated every 2 s
bF Battery fault BATT FAULT
Modulated every 2 s (The UPS disconnects to warn the user that
the batteries are incorrect).
bR Replace batteries Modulated every 2 s
EE EEPROM error Modulated every 2 s
Tab. 12. Warning or alert code.
7.3.2.4. Error or fault codes.
Code Error or fault description
01 DC bus start-up fault.
02 DC bus overvoltage.
03 DC bus undervoltage.
11 Inverter soft start fault
12 High voltage in the inverter
13 Low voltage in the inverter
14 Inverter output short-circuited
27 Battery voltage too high
28 Battery voltage too low
41 Overtemperature
43 Output overload
45 Charger fault
Tab. 13. Error or fault code.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
26 SALICRU
8. MAINTENANCE, WARRANTY AND SERVICE.
8.1. BATTERY MAINTENANCE.
•Pay attention to all of the safety instructions concerning
batteries indicated in section 1.2.3 of manual EK266*08.
•The service life of the batteries greatly depends on the
ambient temperature and other factors such as the number
of charges and discharges, as well as their depth.
The service life is designed to be between 3 and 5 years if
the ambient temperature is between 10 and 20ºC. Different
types of battery with different service lives are available
upon request.
•SPS.ADAVANCE RT2 series UPSs require minimum upkeep.
The batteries used in the standard models are lead acid,
sealed, valve regulated and maintenance free. The only
requirement is to charge the batteries regularly to extend
their life expectancy.
While it is connected to the mains supply, whether or not it
is running, it will keep the batteries charged and also offer
protection from overcharging and deep discharge.
8.1.1. Notes for the installation and replacement of the battery.
•If it is necessary to replace any connection cables, original
materials can be purchased through our T.S.S. or authorised
distributors. Using inappropriate cables can lead to over-
heating in connections, which is a fire hazard.
•Inside the device, there are permanent dangerous
voltages even without mains supply present through
its connection with the batteries and especially in UPSs
where the electronics and batteries share a box.
Also take into consideration that the battery circuit is
not isolated from the input voltage, so there is a risk of
discharge with dangerous voltages between the battery
terminals and the earth terminal, which is in turn connected
to earth (any metal part of the device).
•Repair and/or maintenance work must be carried out by our
T.S.S., except for the replacement of batteries, which can
be performed by qualified personnel familiar with them. No
other person should handle them.
Depending on the configuration of the UPS, certain actions
need to be carried out before handling the batteries:
Devices with batteries and electronics sharing the
same box.
–Shut down the loads and device completely.
–Disconnect the SPS.ADVANCE RT2 from the mains.
–Open the device to access the interior.
–Remove the fuse or internal battery fuses.
–Release the battery holders and replace the
batteries.
–Perform the above steps in reverse to return the
device to how it was at the start, including start-up.
UPS with batteries and electronics in separate boxes.
–Shut down the loads and device completely.
–Disconnect the SPS.ADVANCE RT2 from the mains.
–Disconnect the battery module from the UPS.
–Open the battery module to access the interior.
–Remove the fuse or internal battery fuses.
–Release the battery holders and replace the batteries.
–Perform the above steps in reverse to return the
device to how it was at the start, including start-up.
8.2. UPS TROUBLESHOOTING GUIDE.
If the UPS does not work properly, check the information shown
on the LCD screen of the control panel and act accordingly
depending on the device model.
Using the Tab. 14 troubleshooting guide, try to resolve the issue
and, if it persists, consult our Technical Service and Support
T.S.S.
If it is necessary to contact our Technical Service and Support
T.S.S., provide the following information:
•UPS model and serial number.
•Date on which the issue occurred.
•Full description of the issue, including information provided
by the LCD display or LEDs and state of the alarm.
•Power supply conditions, type of load and level of load
applied to the UPS, ambient temperature, ventilation
conditions.
•Battery information (capacity and number of batteries),
whether the device is a (B0) or (B1).
•Any other information considered relevant.
•Troubleshooting guide.
27
Symptom Possible cause Solution
No alarms or indications on the LCD display and mains
voltage normal.
The power cable is not connected correctly. Check that the power cables are firmly connected to
the mains.
The power cable is connected to an IEC output connector
on the UPS.
Correctly connect the power cable to the respective
IEC connector.
Icon and warning code flash on the LCD
display and the audible alarm modulated every two
seconds is active.
The EPO function is activated. Close the EPO signal circuit to deactivate it.
Icon and warning code flash on the LCD
display and the audible alarm modulated every two
seconds is active.
Neutral earth fault detection. Inverted phase and neutral
input cables.
Disconnect the input plug from the AC power socket
and invert the connection of the phase and the supply
neutral (rotate the plug 180º).
Icon and warning code flash on the LCD
display and the audible alarm modulated every two
seconds is active.
The internal or external batteries are badly connected Check that all batteries are properly connected.
Fault code 27 and the BATT FAULT message
are shown on the LCD display. The alarm sounds
continuously.
The voltage of the batteries is too high or the charger is
faulty.
Contact the distributor or seller or, failing that,
our T.S.S.
Fault code 28 and the BATT FAULT message are
shown on the LCD display. The audible alarm sounds
continuously.
The voltage of the batteries is too low or the charger is
faulty.
Contact the distributor or seller or, failing that,
our T.S.S.
Icon , and warning code flash
on the LCD display and the audible alarm modulated
every second is active.
The UPS is overloaded. Disconnect the excess loads from the output sockets.
Fault code 43 is shown on the LCD display. The
audible alarm sounds continuously.
The UPS shuts down automatically as a result of an
overload in the output of the device.
Disconnect the excess loads from the output sockets
and restart it.
Fault code 14 is shown on the LCD display. The
audible alarm sounds continuously.
The UPS shuts down automatically as a result of a short
circuit in the output.
Check the output wiring and that the connected loads
are not short-circuited
Fault codes 01, 02, 03, 11, 12, 13 and 41 are shown
on the LCD display. The audible alarm sounds
continuously.
An internal fault has occurred in the UPS. Contact the distributor or seller or, failing that, our
T.S.S.
The backup time is shorter than expected.
The batteries do not charge completely.
Charge the batteries for at least 5 h and then check
their charge state. If the problem persists, contact the
distributor or seller or, failing that, our T.S.S.
Faulty batteries. Contact the distributor or seller or, failing that,
our T.S.S. for battery replacement.
Fault code 45 is shown on the LCD display. At the
same time, the audible alarm sounds continuously.
The charger does not provide output and the battery voltage
is less than 10 V per element.
Contact the distributor or seller or, failing that,
our T.S.S.
Tab. 14. Troubleshooting guide.
8.3. WARRANTY CONDITIONS.
8.3.1. Terms of the warranty.
On our website you will find the warranty conditions for the
product you have purchased where you can also register it. It is
recommended to do so as soon as possible to include it in the
database of our Technical Service and Support (T.S.S.). Among
other advantages, it will streamline any regulatory procedures
for the intervention of T.S.S. in the event of a fault.
8.3.2. Exclusions.
Our company will not be bound by the warranty if it notices
that the defect in the product does not exist or was caused
by improper use, negligence, improper installation and/or
verification, attempts at unauthorized repair or modification, or
any other cause beyond the intended use, or by accident, fire,
lightning or other hazards. Nor shall it cover any compensation
for damages.
8.4. TECHNICAL SERVICES NETWORK.
Information about our national and international Technical
Service and Support (T.S.S.) centres can be found on our
website.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
28 SALICRU
9. ANNEXES.
9.1. GENERAL TECHNICAL SPECIFICATIONS.
Models. ADVANCE RT2.
Available power ratings (VA / W). 800 / 720 1,100 / 990 1,500 / 1,350 2,000 / 1,800 3,000 / 2,700
Technology. Line-interactive with sine-wave output.
Input.
Input type. Single-phase.
Number of cables. 3 cables - Phase R (L) + Neutral (N) and earth.
Rated voltage. 208 / 220 / 230 / 240 V AC (1)
Input voltage range. 176.. 288 V AC
Input frequency range. 45.. 55 / 55.. 65 Hz ± 0.2 Hz; auto-detectable.
Permissible power factor loads. 0.9
Cold start (from batteries). Yes, by default with frequency of 50 Hz.
Inverter.
Technology. PWM
Waveform. Pure sine wave.
Power factor. 0.9
Rated voltage. 208 / 220 / 230 / 240 V AC (1), selectable
Output voltage accuracy (battery mode). ± 1.5 %
Total harmonic distortion (THDv), with linear load. < 2 %
Frequency. With mains present, synchronised to rated input (45.. 55 / 55.. 65 Hz).
With mains absent -backup mode- 50 / 60 ±0.1 Hz.
Transfer time, line mode to battery mode (normal
mode). 2..6 ms
Performance at full load, in normal mode with
battery 100% charged. > 97 %
Performance at full load, in battery mode. > 89 % > 90 % > 91 % > 92 %
Overload in line mode
103.. 120 %: 5 min
> 120.. 150 %: 10 s
> 150 %: 1 s
Overload in battery mode.
103.. 120 %: 1 min
> 120.. 150 %: 10 s
> 150 %: 0.5 s
Crest factor. 3:1
Batteries (AGM sealed 3 - 5 years life).
Element voltage. 12 V DC
Capacity. 7 Ah 9 Ah 7 Ah 9 Ah
Number of batteries in device connected in series
/ group voltage. 2 / 24 V DC 4 / 48 V DC 6 / 72 V DC
Number of accumulators in battery module
connected in series x no. packs in parallel / group
voltage.
2 x 2 / 24 V DC 4 x 2 / 48 V DC 6 x 2 / 72 V DC
Low battery voltage. 22.4 V DC 44.8 V DC 67.2 V DC
Blocking voltage for group end of backup. 19.2 V DC 38.4 V DC 57.6 V DC
Internal battery charger.
Group floating voltage. 27.2 V DC 54.4 V DC 81.6 V DC
Maximum charge current. 1.5 A
Recharge time. 8 hours to 90% 4 hours to 90% 3 hours to 90% 4 hours to 90%
Optional internal battery charger (B1).
Maximum charge current. 8 A
Other functions.
Cold start. Yes
Emergency power off (EPO). Yes
IEC output sockets programmable at disconnection,
for non-critical loads. Yes
General.
IEC input connectors. 10 A IEC 14 connector. 16 A IEC 20 connector.
IEC output connectors. 8 x 10 A IEC 13 (4 for critical loads + 4 for non-critical loads programmable at disconnection) +
1 x 16 A IEC 19 (only in 3 kVA model)
Communication ports. 2 (1 x RS232 -DB9- and 1 x USB, mutually exclusive).
Potential-free contacts. Yes, using optocouplers in the same connector as the RS232.
Connectors with protection for ADSL/fax/modem. RJ45 connectors, 1 input and 1 output.
29
Models. ADVANCE RT2.
Available power ratings (VA / W). 800 / 720 1,100 / 990 1,500 / 1,350 2,000 / 1,800 3,000 / 2,700
Connector for external EPO installation Yes
Slot for optional cards. Yes
Optional cards (to insert in slot). Interface to relays (AS400), SNMP, remote Internet or intranet management, MODBUS
Monitoring software. ViewPower (free download).
Audible noise at 1 m in battery mode. < 45 dB < 50 dB
Working temperature. 0.. +40 ºC
Storage temperature with batteries. –20.. +50 ºC
Storage temperature without batteries. –20.. +70 ºC
Working altitude. 2,400 masl (power degradation up to 5,000 m)
Relative humidity. 10.. 95 % non-condensing.
Protection rating. IP20
Dimensions (mm)
Depth × Width × Height.
Standard UPS module. 410 x 438 x 88 (2 U) 510 x 438 x 88 (2 U) 630 x 438 x 88 (2 U)
UPS module B1. 410 x 438 x 88 (2 U)
Optional battery module. 410 x 438 x 88 (2 U) 510 x 438 x 88 (2 U) 630 x 438 x 88 (2 U)
Weight (kg).
Standard UPS module. 12.9 13.4 19.5 21.5 29.3
UPS module B1. 911 11.9
Optional battery module. 14.4 16.2 24.7 28.4 40.6
Safety. EN-IEC 62040-1
Electromagnetic compatibility (EMC). EN-IEC 62040-2 (C2)
Operation. EN-IEC 62040-3
Marking. CE
Quality system. ISO 9001 and ISO 140001
(1) 80 % power reduction for 208 V devices.
Tab. 15. General technical specifications.
9.2. GLOSSARY.
•AC.- Alternating current is electric current in which the
magnitude and direction vary cyclically. The waveform of
the most commonly used alternating current is that of a sine
wave, since this achieves a more efficient transmission of
energy. In certain applications, however, other periodic
waveforms are used, such as triangular or square.
•Bypass.- Manual or automatic, this is the physical
connection between the input of an electrical device and
its output.
•DC.- Direct current is the continuous flow of electrons
through a conductor between two points with different
potential. Unlike AC, in DC, electrical loads always circulate
in the same direction from the point of greatest potential
to the lowest. Although DC is commonly identified as a
continuous current (for example, that supplied by a battery),
any current that always maintains the same polarity is
continuous.
•DSP.- Digital signal processor. A DSP is a processor or
microprocessor-based system that has a set of instructions,
hardware and optimised software for applications that
require numerical operations at very high speed. Because
of this, it is especially useful for the processing and
representation of analogue signals in real time: in a system
that works in this way (real time) samples are usually
received from an analogue/digital converter (ADC).
•Power factor.- The power factor, PF, of an AC circuit is
defined as the ratio between active power, P, and apparent
power, S, or as the cosine of the angle formed by the current
and voltage factors, designated in this case as cos f, where
f is the value of the angle.
•GND.- This stands for GROUND or EARTH and, as the name
indicates, refers to the potential of the surface of the Earth.
•EMI filter.- Filter capable of significantly reducing
electromagnetic interference (EMI), which is the disturbance
that occurs in a radio receiver or in any other electrical
circuit caused by electromagnetic radiation coming from an
external source. Electromagnetic interference is also known
as radio frequency interference (RFI). This disturbance can
interrupt, degrade or limit the performance of the circuit
•IGBT.- An insulated gate bipolar transistor is a
semiconductor device that is generally used as a controlled
switch in power electronics circuits. This device possesses
the characteristics of the gate signals of field effect
transistors with the capacity for high current and low
saturation voltage of the bipolar transistor, combining
an isolated FET gate for input and control and a bipolar
transistor as a single switch in a single device. The IGBT’s
excitation circuit is similar to that of the MOSFET, while the
conducting characteristics are similar to those of the BJT.
•Interface.- In electronics, telecommunications and
hardware, an interface (electronics) is the port (physical
circuit) through which signals are sent or received from one
system or subsystem to another
•kVA.- A volt-ampere is the unit used for apparent power in
electrical current. In DC, it is practically equal to real power
but, in AC, it can differ from this depending on the power factor.
•LCD.-Liquid crystal display, a device invented by Jack
Janning, who was an employee of NCR. It is an electrical
system for data presentation formed by 2 transparent
conductive layers and a special crystalline material in the
middle (liquid crystal) which have the ability to orientate
light as it passes through.
SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
30 SALICRU
•LED.- Light-emitting diode, a semiconductor device (diode)
that emits light that is almost monochromatic, that is to
say, it has a very narrow spectrum when it is polarised
directly and is penetrated by an electric current. The colour
(wavelength) depends on the semiconductor material
used in the construction of the diode, and can vary from
ultraviolet, passing through the visible light spectrum, to
infrared, the latter called IRED (infra-red emitting diode).
•Circuit breaker.- A circuit breaker is a device capable
of interrupting the electrical current of a circuit when it
exceeds certain maximum values.
•On-line mode.- A device is said to be on-line when it is
connected to a system, is operative, and normally has its
power supply connected.
•Inverter.- An inverter is a circuit used to convert DC into AC.
The function of an inverter is to change a DC input voltage
to a symmetrical AC output voltage, with the magnitude
and frequency desired by the user or designer.
•Rectifier.- In electronics, a rectifier is the element or
circuit that converts AC into DC. This is done by using
rectifier diodes, whether solid state semiconductors,
vacuum valves or gaseous valves, such as those containing
mercury vapour. Depending on the characteristics of the AC
power that they use, they are classified as single-phase
when they are powered by a mains phase or three-phase
when they are powered by three phases. Depending on the
type of rectification, they can be half wave when only one
of the half cycles of the current is used or full wave when
both half cycles are used.
•Relay.- A relay is an electromechanical device that
functions as a switch controlled by an electrical circuit
in which, by means of an electromagnet, a set of one or
several contacts is activated to enable other independent
electrical circuits to be opened or closed.
•SCR.- Silicon controlled rectifier, commonly known as a
thyristor, a 4-layer semiconductor device that works as an
almost ideal switch.
•THD.- Total harmonic distortion. Harmonic distortion
occurs when the output signal of a system does not equal
the signal that entered it. This lack of linearity affects the
waveform because the device has introduced harmonics
that were not in the input signal. Since they are harmonic,
that is to say, multiples of the input signal, this distortion is
not so dissonant and is less easy to detect.
31SPS.ADVANCE RT2 UNINTERRUPTIBLE POWER SUPPLY (UPS)USER'S MANUAL
Avda. de la Serra 100
08460 Palautordera
BARCELONA
Tel. +34 93 848 24 00
Fax +34 93 848 22 05
services@salicru.com
SALICRU.COM
www.linkedin.com/company/salicru
@salicru_SA
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