technical specifications specifiche...

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SPECIFICHE TECNICHE

TECHNICAL SPECIFICATIONS

DIALOG PLUS

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700-5000VA SINGLE-PHASE

On line double conversion (VFI) technology

Table of contents 1 - OBJECTIVE 4 2 - DESCRIPTION OF THE SYSTEM 4 3 - APPLICATIONS 5 4 - CHARACTERISTICS 5 5 - NORMATIVE REFERENCES 8

> 5.1 Main reference standards 8 > 5.2 Standards relating to systems and installation 10

6 - INSTALLATION INSTRUCTIONS 11

> 6.1 5000 VA model with terminal board 11 7 - BLOCK DIAGRAM OF THE MACHINE 12

> 7.1 Block diagram of the UPS 12 > 7.2 Options 12

8 - INTERFACING 17

> 8.1 700 VA to 1000 VA model 17 >> 8.1.1 Serial communication port 17

> 8.2 1500 VA to5000 VA model 18 >> 8.2.1 Serial communication port 18

9 - OPTIONS 19

> 9.1 Summary table of the options available 19 > 9.2 Communication software 19

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> 9.3 Installation of the battery expansion module 21 >> 9.3.1 Configuration of the battery expansion module 22

10 - MIMIC PANEL 23

> 10.1 Led panel 23 > 10.2 Description of the mimic panel 23

11 - REAR VIEWS 26

> 11.1 700 – 1000 VA mod. rear panel 26 > 11.2 1500 – 4000 VA mod. rear panel 27 > 11.3 5000 VA mod. rear panel 28 > 11.4 Back-up graphs 28

12 - TECHNICAL DATA 29

> 12.1 Models 29 > 12.2 Back-up expansion modules 29 > 12.3 Summary data sheets 31

13 - DIALOG PLUS RACK 37

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1 - OBJECTIVE This technical document is designed to be used by UPS designers and installers. The objective of this document is to provide or illustrate:

. the technical information required to enable you to choose the correct UPS for your needs . the information required to set up the system . information concerning the installation and location of the UPS . the information the machine displays to the user or to the systems it is connected to (control centres, etc.) . the list of the options available to adapt the machine to the user’s particular requirements

2 - DESCRIPTION OF THE SYSTEM

The DIALOG PLUS series is available in 700 1000 1500 2000 3000 4000 5000 VA models with On Line double conversion (VFI) technology. The load is constantly powered by the inverter, which provides a sinusoidal voltage that is filtered and stable in terms of voltage, form and frequency. Furthermore, the input and output filters, and the transformer itself increase the extent to which the load is protected from mains power supply transients and current surges. The UPS can supply power to the load for prolonged periods (thanks to the optional battery modules), or for periods sufficient to shutdown I.T. systems using the POWER-SHIELD2 software, supplied as standard, for Windows 95, 98, 2000, Me, Xp, NT 4.0, MacOS, 9.X, OSX, Linux. operating systems. For performance and technology, DIALOG PLUS is the best solution for powering sensitive and vital “mission critical” systems.

The DIALOG PLUS range consists of the following models:

MODEL DESCRIPTION DLP70 700VA/450W

DLP100 1000VA/700W

DLP150 1500VA/1050W

DLP200 2000VA/1400W

DLP300 3000VA/2100W

DLP400 4000VA/2400W

DLP500 5000VA/3500W

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3 - APPLICATIONS

=> Personal computers => Small IT networks => Local Area Networks (LAN) => Workstations => Servers => Point of sale (POS) systems => Data centres => Industrial PLCs => Cash registers => Electrical medical equipment => Emergency devices (lights/alarms)

4 - CHARACTERISTICS Filtered, stable and reliable voltage (On Line double conversion VFI technology in accordance with regulation EN50091-3) with filters for suppressing atmospheric disturbances. The on line technology provides the maximum protection for the loads the system is connected to. The double conversion stage filters and stabilises the input voltage, and reproduces it free of any mains disturbance (overvoltages, variations in frequency and voltage, etc.). The EN50091-3 standard defines this technology as VFI (Voltage and Frequency Independent) because the output voltage and frequency are completely independent of any variation or disturbance to the voltage of the mains power supply.

High level of reliability − High level of reliability of the UPS (total microprocessor control):

The digital control of the system dramatically improves its overall reliability, because it means that a reduced number of electronic components are required (the microprocessor alone handles all the functions of an entire electronic control board). This electronic control board can be used on a whole number of different machines, even those belonging to different ranges, thereby increasing the productivity and reliability of the system.

− High degree of protection against current surges (6KV in accordance with IEC801-5): overvoltage protective devices have been installed at the input and at the output (VDR). The system has been tested by subjecting it to a massive overvoltage, or current surge, at the input. This current surge had a leading edge of 1.2 microseconds and a trailing edge of 50

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microseconds, and had a maximum energy of 300 Joules. The standard (IEC 801-5) states that these current surges may reach up 6kV.

The DIALOG PLUS range supports an input overvoltage of this type, up to 6 kV, without causing any fault to the machine or to the systems being supplied.

Versatile and easy to maintain

- Autorestart (programmable automatic restart when the mains power supply returns): In the event of a prolonged absence in the mains power supply, the system will automatically restart when the mains power supply returns after it has shutdown on reaching the end of its back-up time. This can be programmed using the software provided with the machine.

− Simplified maintenance (manual by-pass fitted as standard in the DLP500 model):

This function is fitted in the 5kVA model, where maintenance work may need to be carried out in situ. This function deactivates the system without disconnecting the power supply to the loads that are connected to it. The manual by-pass commutes the load from the inverter to the mains power supply and vice versa, without interrupting the output power supply.

− Programmed shutdown timer (programmable via software):

This function (programmable via software) allows you to program the timer to switch the system on and off in a completely automatic fashion.

- Stand by:

The Stand-by function may also be selected. In this mode (useful, for example, when the system is being stored), the inverter is switched off and the batteries are fully charged. When the UPS is switched off, the stand-by function is automatically activated.

- Frequency converter function:

The UPS can be programmed to function as a frequency converter using batteries, from an input frequency of 50Hz to an output frequency of 60Hz, or vice versa. Selectable using the display panel.

- Frequency self-teaching

The UPS can be programmed to automatically select the output frequency (50 or 60Hz), using the input frequency as its reference (50 or 60Hz).

- Battery start-up (cold start)

The UPS can be switched on even if there is no mains power supply.

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Low consumption - “ Auto Power Off” Function

This automatically shuts down the UPS when there is no load (programmable). The UPS can be programmed to shutdown if there is no load at the output. This function (programmable via software) allows you to increase energy savings in those periods when there is no load being powered by the system.

− Low impact on the mains power supply (sinusoidal absorption):

The UPS absorbs a sinusoidal current from the mains power supply. This means that the system has a very low impact on the mains power supply network and, as a consequence, on the other electrical devices that are connected to it.

− Load power factor correction (UPS input factor close to 1):

The UPS absorbs power from the mains power supply with a power factor close to 1, even if the systems supplied by the UPS have a power factor inferior to this. For example, if the UPS supplies a piece of IT equipment with a power factor of 0.65, the UPS input power factor will nevertheless still be close to 1, ensuring that the mains power supply power factor correction banks are not overtaxed.

Battery optimisation:

Through the power share function (for automatic disconnection of non-critical loads during back-up time, programmable via software (DLP70 and DLP100 models), after 1 minute of back-up or when the battery charge is almost exhausted). Non-critical loads that require a filtered stable power supply when the mains power supply is present, but which do not necessarily need to be powered when it is absent, may be connected to the power share output (printers, monitors, etc.).

− High level of battery reliability (automatic battery test):

The UPS automatically carries out a battery test allowing the system to periodically check the efficiency of the batteries, in order to prevent faults occurring to them. The test does not in any way compromise the power supply to the users connected to the UPS and, given the short duration (seconds), does not affect the life or the back-up time of the batteries either.

− Elevated Hold Up Time (40msec ):

The batteries do not intervene for interruptions to the power supply lasting 40msecs or less. This means that when a micro-interruption occurs (the most frequent form of disturbance to the mains power supply), the inverter continues to power the load without having to draw power from the batteries. As battery life strongly dep ends on the number of times they are discharged, this feature allows you to optimise the batteries and increase the reliability of the machine.

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− Protection against full discharge:

The battery end discharge voltage increases with low loads. This arrangement avoids the batteries from discharging fully, which may negatively affect their average lifespan.

- Unlimited back-up expandability: through external battery modules supplied with or without a battery charger.

Compact dimensions

Thanks to the following characteristics, the UPS is one of the smallest on the market: . microprocessor control . IGBT technology . internal batteries . ventilation (frontal input, rear output: this eliminates the need to keep a lateral space free and allows the machine to be placed next to other options or systems ) . integrated manual by-pass

Reduced noise (<40db(A))

due to: - use of high frequency IGBT technology - controlled ventilation variable with the load and internal temperature - innovations in the design of the magnetic parts

ADVANCED COMMUNICATION

- Monitoring and shutdown software included

Powershield² provides an efficient and intuitive system for controlling the UPS, displaying all the most important information, such as input voltage, applied load, battery capacity, etc. with a series of bar charts. The software is able to provide detailed information even if the machine has malfunctioned, enabling you to find out why the fault has occurred. It has been developed using a client/server architecture that renders it flexible and easy to use, with multilingual support and on line help.

With UPSs in the POWER DIALOG PLUS range, Powershield² is provided free of charge with an SNMP agent, for Windows 95, 98, 2000, Me, Xp, NT 4.0, MacOS, 9.X, OSX, Linux operating systems.

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The software also allows you to programme the automatic start-up and shutdown of your system on a weekly basis. The UPS also contains the following hardware interfaces:

- RS232 serial port - dry contacts interface - slot for the installation of a mains adapter - ESD (Emergency Switching Device) contact to switch the UPS off using a remote emergency button

5 - NORMATIVE REFERENCES

> 5.1 Main reference standards

The company quality system has been certified as conforming to ISO 9001 (Certificate No. CERT-04674-99-AQ-VEN-SINCERT). This covers all of the procedures, operating methods, and controls from the design stage right up to the production and sale of the machine.

This certification guarantees the following aspects for our customers:

. the use of quality materials

. rigorous standards in production and testing

. receptiveness and openness to our customers

. constant support of all our customers

As well as being covered by this company certification, the company produces “state of the art” products, as dictated by the requirements of the standards quoted below.

The advances that have taken place in Information Technology systems mean that the power supply systems used to power them must be able to provide an absolutely precise, and even more importantly, absolutely reliable source of power. The standards produced by CENELEC in the EN50091 series cover all aspects of the product: safety, electromagnetic compatibility and performance. In more detail, this series is divided into the following individual standards:

EN50091-1:

Uninterruptible power supply systems (UPS): general provisions and safety provisions ratified 9/12/92, obligatory from 15/3/94.

EN50091-1-1: Uninterruptible power supply systems (UPS): general provisions and safety provisions used in areas accessible to the operator

EN60950 (CEI74-2): ITE (Information Technology Equipment) safety

EN50091/2: Uninterruptible power supply systems (UPS): electromagnetic compatibility provisions.

EN50081-2: Electromagnetic compatibility (immunity)

IEC1000-4-2: Immunity: Electro Static Discharge (ESD)

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IEC1000-4-3: Immunity: electromagnetic fields

IEC1000-4-4: Immunity: transient overvoltages (BURST)

IEC1000-4-5: Immunity: current surges (Surge)

IEC61000-4-11: Low frequency disturbances

EN50141: Induced radio interference

EN55022: Radio frequency disturbance

ENV50091-3 Uninterruptible power supply systems (UPS): performance provisions and test procedures.

IEC146 (CEI22): Semiconductor electronic converters

IEC529 (CEI70-1): Degree of protection of casings

European Directives 73/23 Low voltage directive enforcing the obligatory CE marking from 1/1/97. This directive concerns all safety issues associated with the equipment.

89/336 Electromagnetic compatibility directive enforcing the obligatory CE marking from 1/1/96. This directive concerns all issues of immunity and emissions relating to the UPS at its place of installation.

> 5.2 Standards relating to systems and installation

The above product regulations refer specifically to uninterruptible power supply systems. It is these regulations that manufacturers of uninterruptible power supply systems are obliged to adhere to. However, with regard to the electrical system, the installer must refer to other standards. These standards are:

− Standard CEI 64-8 (HD384/IEC60364) for electrical systems in general

− Standard CEI 64-8 variant 2: for installation in hospital environments

− Standard CEI 11-20: for systems with UPS machines connected to category I or II networks

− Standard CEI 17-13 (EN60439-1) concerning control equipment

− Standard CEI 21-6/3:

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for battery installation (shortly to be replaced by the European Standard EN50272-2). − Standard CEI 20:

for electrical cables

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6 - INSTALLATION INSTRUCTIONS

> 6.1 5000 VA model with terminal board

>> 6.1.1 Installation and configuration The UPS will not modify pre-existing neutral regimes when inserted in a system. The resistance on the neutral connection is less than 0.1 ohm. A residual current operated circuit breaker above the UPS will also intervene should a fault occur below the UPS. The earth leakage current of the UPS (approx. 6 mA) and the load, which combine on the earth conductor of the UPS, must both be taken into account when determining the sensitivity of this circuit breaker. The neutral regime can be modified if an isolating transformer has been installed (optional). Do not connect the output neutral to the input neutral or to earth. CABLE CONNECTIONS

Fig.1 Input/output terminal board The input and output cables must have a minimum cross section area of 2.5 mm2

The “Emergency Power Off” (E.P.O.) switch is normally closed, and may be connected to the relevant fixing terminals. This is a safety device that allow s you to disconnect the load in the event of an emergency (e.g. fire or malfunction). The UPS is supplied by the factory with the E.P.O. terminals short-circuited. Remove this short-circuit if the system requires a device of this kind (see fig. 1)

87654321

NL

NL

OUTPUT

INPUT

EMERGENCYPOWER OFF

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Back-up extension Remote led display

Net Adapter USB Converter Multiplexer

7 - BLOCK DIAGRAM OF THE MACHINE

> 7.1 Block diagram of the UPS

The block diagram of the UPS is as follows.

Fig.2 Block diagram

> 7.2 Options

LEGEND:

1) Input protection (fuse).

2) Input EMI filter + back-feed protection:

Input and output filters for electromagnetic disturbances. Back-feed protection: intervenes if the mains power supply fails, isolating the UPS from the input socket to prevent the mains power supply from returning. This protection is req uired to

Isolating transformer

Ingresso

By pass manuale

By pass automatico

Filtro EMIIngresso + protezioneBackfeed InverterRaddrizzatore Filtro EMI

Uscita

ComandoesternoEPO

Uscita

Batterie

CaricaBatterie

EspansioneBatterie

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3

4 5

6

7

8

9

10

11

12

13

16

14

15

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Interfaccia Sinottico

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prevent voltage from returning to the line, which could put the operator at risk when carrying out maintenance work.

3) Rectifier/booster block protection fuse.

This fuse is dependent on the status of the input fuse (1): a fault occurring to the rectifier/booster will open this protection before the input fuse intervenes, ensuring that the power supply to the user is not interrupted, as the by-pass line remains powered.

4) Rectifier/Booster: When the mains power supply is present, this converts the mains alternating current into a direct current, controlling the power factor. If the mains power supply fails, it elevates the battery voltage to an appropriate level to power the inverter stage.

5) Inverter: Converts the direct current into alternating current

6) Automatic by-pass: Device for switching from the inverter to the mains, and vice versa, without interrupting the power supply. Intervenes if overloads or faults occur.

7) Output switch: To isolate the UPS when carrying out maintenance work.

8) Power Share output (700 and 1000VA models): If the mains power supply fails, power to the Power Share output is disconnected after 1 minute of back-up time or when the batteries are nearly flat (programmable via software)

9) Output EMI filter: Output filter for protecting the load against electromagnetic disturbances.

10) Maintenance-free sealed lead batteries: Allow the UPS to be installed in public places and to power the load when the mains power supply fails.

11) Battery expansion (from 1000 to 5000VA models): Allows you to prolong the back-up time. Also available with integrated battery charger (from 1500 to 5000VA) to accelerate the recharge time.

12) Battery charger:

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This is a DC-DC converter that converts the rectifier/booster output voltage to the level required to recharge the batteries. It is deactivated when the mains power supply fails

13) Battery protection: Fuse

14) Manual By-Pass: Is a manual device that allows you to switch the UPS output directly onto the input when carrying out maintenance work or when the inverter is broken.

15) External EPO (Emergency Power Off) command: Allows you to completely shut down the UPS using a remote emergency button. The product normative reference also refers to this as an Emergency Switching Device (ESD)

16) Interface : Contains an RS232 interface and opto-isolated contacts for remote Emergency Power Off (EPO) as standard.

17) Mimic panel: This is the board that provides the user with all the visual (LED, LCD) and acoustic (buzzer) signals pertaining to the status of the UPS. This board also allows you to control and send commands to the UPS.

Operating modes

"NORMAL" mode This is the operating mode of the UPS where the power is drawn from the mains power supply. The UPS output is switched onto the inverter (refer to block diagram) and the batteries are kept fully charged.

Automatic "BY PASS" mode The UPS enters to this operating mode in the following situations: a) Immediately after the UPS is switched on, when the mains power supply is present, the UPS output is switched onto the by-pass line and the load is powered by the mains power supply. This allows you to exceed the applied load in-rush current without tripping the fuses to the inverter. During this stage, the microprocessor ensures that the inverter output is brought in phase with the mains power supply.

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b) When the inverter is permanently overloaded. The inverter continues to power the load even when there is a temporary overload. If this condition persists, the inverter protection is tripped and the UPS is switched onto the by-pass. c) When the voltage produced by the inverter exceeds allowed tolerance limits d) When the inverter malfunctions.

Manual “BY PASS” mode (5000VA model). Where a particular malfunction occurs that puts both the inverter and the automatic By-Pass out of use, or where it is necessary to carry out maintenance work, and you need to maintain the power supply to the load, the manual by-pass can be used to connect the load directly to the input mains power supply. Activation of the manual by-pass is indicated by a light on the mimic panel.

"BATTERY" mode The UPS operates in this mode when the mains power supply fails (micro-interruptions or black-outs). During this mode, the buzzer emits a beep every: a) 7sec. during normal functioning b) 2sec. when the back-up time limit has been reached Approximately 2 mins from the end of the back-up time the yellow "battery discharged" LED will light up (if the management software has been installed, the programmed shutdown of the I. T. applications will begin at this point).

Error conditions The UPS is designed to function reliably and to automatically guarantee the protection of the applied load. However, particular operating conditions may exist which the operator should be aware of to ensure that the UPS provides the highest level of performance.

“Overload” An overload occurs where the applied load requires a level of power higher than that for which the UPS has been designed. This situation is indicated by the (red) overload LED on the load LED bar and by the continuous sound of the buzzer. To rectify this situation, you need to turn the UPS off (OFF button), reduce the applied load, and switch the UPS back on again (ON button).

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“Mains out of tolerance” The UPS is designed to function with a wide range of input voltages. This ensures that the batteries do not intervene too often, thus increasing the back-up time should a real blackout occur. The microprocessor continuously checks the input voltage and frequency to guarantee functioning and switches the load onto the by-pass within a wide tolerance range

Overtemperature If the internal temperature exceeds acceptable limits, the UPS will protect itself by shutting down. This situation is indicated by the "Stop/Stand-by" LED and the continuous sound of the buzzer.

“Batteries depleted” The microprocessor carries out a periodic battery efficiency test. If the batteries fail the test, the red "Batteries need substituting" (efficiency < 60%) LED is lit. In this case, the UPS batteries should be replaced.

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8 - INTERFACING

> 8.1 700 VA to 1000 VA model

>> 8.1.1 Serial communication port The UPS is equipped with a sub-D 9 pin female connector carrying the signals for the RS232 interface and the alarms.

Fig.3 As well as signals for serial communication (RX – TX), the following information is also present.

a) “BL” battery low signal (discharged battery): the contact is closed when approx. 3 mins of back-up time are left (3 mins standard, may be set between 1 and 10 mins via software.)

b) “BW" battery working signal (load powered from battery): the contact is closed when the UPS is operating in battery mode

NOTE 1: do not exceed +30VDC / 3mA for each contact NOTE 2: the interface needs to be supplied with +10 ÷ +15 VDC between pins 7 and 5 in order to function properly. The UPS may be switched off from remote by forcing the D9 connector pin 3 (RX) high (+5 ÷ +15 VDC) for at least 3 secs.

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> 8.2 1500 VA to5000 VA model

>> 8.2.1 Serial communication port The UPS is equipped with a sub-D 9 pin female connector carrying the signals for the RS232 interface and the alarms.

Fig.4 Sub D 9 pins female connector As well as signals for serial communication (RX – TX ), the following information is also present.

a) “SD” shutdown signal for switching off the UPS from a PC: +(5÷15)VDC for at least 3 secs. b) “INVCT” inverter connected signal: the contact is closed when the UPS’s output is switched

on to the inverter

c) “BPON” by-pass signal: the contact is closed when the UPS’s output is switched on to the automatic by-pass

d) “BL” battery low signal (discharged battery): the contact is closed when approx. 2 mins of

back-up time are left

e) “BW” battery working signal (load powered from battery): the contact is closed when the UPS is operating in battery mode

NOTE 1: do not exceed +30VDC / 3mA for each contact NOTE 2: The "SHUT DOWN" signal must be on for at least 3 secs to switch the UPS off

6 7 8 954321

COM pin 4

BW pin 2BL pin 5BPON pin 9INVCT pin 1SD pin 6

RX pin 7TX pin 3+12v ext pin 8

Serial PortRS 232

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NOTE 3: the interface needs to be supplied with +(10 ÷ 15) VDC between pins 8 and 4 to function properly

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9 - OPTIONS

> 9.1 Summary table of the options available

DESCRIPTION DIMENSIONS ( HLD ) mm WEIGHT ( KG ) Isolating transformer module for

DLP100/DLP150 480x158x340 22

Isolating transformer module for DLP200/DLP300

480x158x340 30

Isolating transformer module DLP500 500x400x265 60 PowerShield2 communication

software (“full” version)

Remote display whit led

ISOLATING TRANSFORMER MODULE: Allows the UPS output to be galvanically isolated from the input. Allows you to modify the neutral regime (for example, from TT to TN, or from TT to IT) to increase the continuity of the power supply (IT systems) or to increase the level of protection of the users (TN systems). The transformer may be connected to the input or to the output of the UPS.

REMOTE DISPLAY: Can be connected at a distance of up to 200m from the UPS, allowing you to view the diagnostics remotely in real time. The remote display provides information on the operation of the machine:

. green LED: normal

. yellow LED: non-critical alarm

. red LED: alarm The UPS can also be switched on and off using the remote display.

> 9.2 - Communication software MAIN CHARACTERISTICS 1) sequential and prioritised shutdown:

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PowerShield2 allows you to shutdown the network without having to switch off each PC individually, and saves the work that was being done regardless of the application that was being used. The user may define his or her own shutdown procedure and may also prioritise the shutdown of critical components within the system (such as servers).

2) Multiplatform compatibility:

PowerShield2 provides you with a standard control and monitoring capability, as it uses the TCP/IP communication protocol. This allows you to monitor computers that use different operating systems from a single console. For example, not only could you monitor a UNIX server from a PC with Windows 98, you could also connect yourself to UPS systems situated in different locations by using either a dedicated network (intranet) or the Internet.

3) Events scheduling:

PowerShield2 allows you to define your own shutdown/switch off and on again procedures for the systems that are connected to the UPS. Not only does this noticeably increase the degree of security of the system it also allows you to make significant energy savings.

4) Message management:

PowerShield2 keeps the user constantly informed on the status of the UPS, whether locally or by sending messages to users connected to the network. It is also possible to create a list of the people who will receive messages by e-mail, fax and SMS should a fault or a sudden blackout occur.

5) Integrated SNMP agent:

PowerShield2 contains an integrated SNMP agent for managing the UPS via SNMP. This agent is able to send all the information pertaining to the UPS and is capable of generating traps using the RFC 1628 MIB standard. This allows you to control the UPS using SNMP compatible workstations such as HP Open View, Novell Managewise and IBM NetView.

OPERATING SYSTEMS SUPPPORTED ( POWERSHIELD2 FULL version )

• Windows 95, 98, Me, NT 4.0, 2000 and Xp. • Novell Netware 3.x, 4.x, 5.x, IntraNetWare • IBM OS/2 Warp and Server, • Mac OS, 9.X, OSX • The most commonly available UNIX systems such as:

IBM AIX, HP UNIX, SUN OS SPARC, SUN Solaris INTEL and SPARC, SCO Unix and UnixWare, Siemens SINIX, Silicon Graphic IRIX, Compaq True64 UNIX and DEC UNIX, Linux, BSD UNIX and FreeBSD UNIX

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POWERSHIELD2 SOFTWARE FUNCTIONS 1) Graphical monitoring of the UPS status PowerShield2 is the easy to use yet powerful program that allows you to monitor and control the UPS systems supplied by Advance Galatrek. There are various graphical versions including Windows, Java, OS/2 and MacOS.

2) MACOS version The PowerShield2 software is the only UPS control and shutdown software available for the Macintosh that has a client-server architecture. Allows you to access the Windows, Novell, IBM OS/2 and the most commonly available UNIX operating systems when using a TCP/IP network. It also allows you to support NetMan series network agents to control the UPS via a network and, furthermore, comes with multilingual support.

3) Detailed display of all the ups data PowerShield2 provides all the data required to make an accurate and speedy diagnosis of UPS operation.

4) Block diagram and operating diagram of a UPS PowerShield2 also displays a block diagram of the UPS, thus providing the user with conceptual information as to the status of the system.

5) Automatic saving of the events log and graphical display of the most important values All of the events pertaining to operation of the UPS are saved and recorded, thus allowing the user to also control the input voltage, the applied load and the remaining back-up time of the batteries.

6) Alarm notification via e-mail and SMS It is possible to configure PowerShield2 to automatically notify of an alarm via an e-mail or SMS message.

7) Programming the UPS commands Also allows you to program all the commands that are normally carried out by the user so that these are performed automatically, for example: shutting down and switching the server back on, UPS battery test, etc.

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>> 9.3 Installation of the battery expansion module

Fig.5

>> 9.3.1. Configuration of the battery expansion module

Following the installation or un-installation of one or more battery expansion units, the correct total Ah value must be entered into the UPS memory. This may be done by using the “EXPAND” battery expansion program, which may be found in the same folder as the UPS management software, once this has been installed correctly.

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10 . MIMIC PANEL DIAL

> 10.1. LED panel The LED panel enables the user to check the UPS status and operating mode. It indicates in which mode the UPS is working (on mains, on by-pass, on battery); it shows the load applied; the battery charge level and warns about error conditions.

1) LED load applied bar 6) “load on By-Pass” LED 2) LED battery charge bar 7) “alarm”/”fault”/”stand-by” LED 3) “mains on”/“timer activated” LED 8) “ON”/”mute”/”battery test”/”reset timer” button 4) “battery operation”/“timer activated” LED 9) “OFF”/”Stand-By” button 5) “battery replacement pre-alarm” LED

Fig.6 Display

>> 10.2 Description of the mimic panel dial

[Display 1] Applied load bar graph

The bar consists of 5 LEDs ( 4 green and 1 red) that indicate the power delivered by the UPS. Each LED corresponds to a 25% load increase. The last LED (red) turns on during an overload ( > 100%).

[Display 2] Battery charge bar graph

The bar graph indicates the battery charge status. It consists of 5 LEDs (green) and each one turns on for load increases of about 20%. If the microcontroller detects a battery overload, the entire bar graph flashes, and the buzzer emits extended beeps (a series of 4 second beeps, at 1 second intervals).

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In addition, it can also indicate the mains voltage, if present: continue pressing the “ON” button and each LED corresponds to the following mains voltage values:

LED1 LED2 LED3 LED4 LED5RETE >190 >200 >230 >250 >260

When the first LED in the bar graph begins flashing, it means that the batteries have reached the battery low pre-alarm threshold. This threshold is set in advance and corresponds to the remaining run time, which is equal to about 3 minutes. The battery low pre-alarm can be adjusted using software from 1 to 10 minutes.

[Display 3] “Mains on” / “Timer activated” LED (green)

When lit, this means that the mains is being delivered, its value is higher than 180V, and the inverter output voltage is in phase with the mains voltage. If flashing, this means that the mains is being delivered, but its value is somewhere between 170V and 180V (By-pass not available), or that the inverter output voltage is not in phase with the mains. Immediately after switching the UPS on, when the mains is on (>180V), the LED flashes until the inverter output voltage is phased in with the mains voltage. This LED is off when the UPS is in Stand-By, when the mains is on, and it flashes to indicate the activation of a programmed start -up.

[Display 4] “Battery operation/Timer activated” LED

indicates either that the UPS is operating in battery mode or that the timer for the programmed shutdown of the UPS has been activated.

[Display 5] “battery replacement pre-alarm” LED (red)

When lit, this means that the batteries need replacing. The UPS performs a battery efficiency test and measures their capacity to maintain the load.

[Display 6] “Load on By-Pass” LED (yellow)

When lit, indicates that the load is powered from the mains.

[Display 7] “alarm” / “fault” / “stand-by" LED (red)

If the LED flashes, the UPS is in stand-by mode ( only the battery charger on ). When lit, it indicates that the UPS is locked. To reset the lock, press the "OFF" button for about 1.5 secs.

[Display 8] “ON” / “mute” / “battery test” / “reset timer” button

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This button allows you to:

− If pressed for about 0.5 secs, this button switches the UPS on and delivers power to the load. − If the UPS is on, holding down this button will indicate the input voltage via the battery

charge LED bar (see above).

− If this button is held down for more than 5 secs., the microprocessor will perform a battery efficiency test. If the batteries fail this test, the red “battery replacement pre-alarm” LED will light.

− Allows you to silence the buzzer in the following cases:

§ the UPS enters into battery operation mode (“battery operation” LED lit) § the UPS enters into the final countdown phase, either to operate from the battery or to

start a programmed shutdown with a Timer/Count Down.

− The turn off function is reset if: § the mains comes back on line when the unit is operating off the battery § during battery operation, when the battery low pre-alarm is reached (first LED on the

battery bar flashing).

- During the final phase of a programmed shutdown, the shutdown may be cancelled if this button is held down for more than 2 seconds

[Display 9] “OFF” / “Stand-By” button Holding this button down for at least 1.5 secs. switches the UPS off. If the mains is on line, the UPS enters into Stand-By mode (only the battery charger remains on). If the mains is not on line and the TIMER function has not been activated, the UPS switches off completely. If the mains is not on line and the TIMER has been activated, the UPS may be switched off completely by holding this button down for at least 5 seconds.

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11. REAR VIEWS

> 11.1 Rear panel 700 – 1000 VA Mod.

700VA 1000VA

1) RS232 serial port 5) IEC input plug 2) On switch 6) IEC output sockets 3) Battery expansion socket 7) IEC output socket with Power Share (optional on the 1000VA, not available on the 700VA) 8) Shuko output socket 4) Input fuse 9) Shuko output socket with Power Share

Fig.7 Rear panel

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> 11.2 Rear panel 1500 – 4000 VA Mod. 1500-2000VA 3000-4000VA

1) Serial port 5) Power supply plug/cable 2) DIP-switch 6) Output sockets 3) Safety switch 7) Battery expansion sockets 4) Mains fuse 8) Ventilation holes

Fig.8 Rear panel

1

2

3

4

5

6

7

8 8

7

6

5

4

3

2

1

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> 11.3 Rear panel 5000 VA Mod. 5000VA

1) Cooling fan 6) Input, output and EPO terminal board 2) Input disconnecting switches 7) Battery expansion socket 3) Battery disconnecting switches 8) ON-OFF switch 4) RS232 communication port 9) Luminous manual By-Pass

switch 5) Configuration dipswitch

Fig.9 Rear panel

> 11.4 Back-up graphs

1

6

5

2

3 7

8

8

1

9

1 3 2

4 5

4

Fig.10 Back-up graph 700 – 1500 VA Fig.11 Back-up graph 2000 – 5000 VA

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12 TECHNICAL DATA

> 12.1 Models

MODEL POWER BACK-UP ( min ) DIMENSIONS (HWD) Dialog Plus DLP70 700VA/450W 8* 231x158x376

Dialog Plus DLP100 1000VA/700W 10* 231x158x376






Ø 12.2 Back-up expansion modules

MODEL BACK-UP DIMENSIONS WEIGHT BATT.

CHARGER. 25’ 231x158x376 16

Dialog Plus 1000VA 45’ 2x(231x158x376) 32

25’ 340x158x565 16

30’ 340x158x565 24

30’ 340x158x56 25 x

60’ 340x158x56 44

Dialog Plus 1500VA

60’ 340x158x56 45 x

20’ 340x158x565 19

25’ 340x158x565 28

45’ 2x(340x158x565) 56 Dialog Plus 2000VA

45’ 2x(340x158x565) 58 x

25’ 340x158x565 28

30’ 340x158x565 44

30’ 340x158x565 45 x

60’ 2x(340x158x565) 88

60’ 2x(340x158x565) 90 x

90’ 3x(340x158x565) 132

Dialog Plus 3000VA

90’ 3x(340x158x565) 135 x

20’ 340x158x565 28

26’ 340x158x565 44

26’ 340x158x565 45 x

35’ 2x(340x158x565) 56

Dialog Plus 4000VA

45’ 3x(340x158x565) 84

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MODEL BACK-UP DIMENSIONS WEIGHT BATT.

CHARGER. 50’ 2x(340x158x565) 90 x

70’ 3x(340x158x565) 135 x

20’ 528x230x650 70

30’ 528x230x650 100 x

50’ 528x230x650 170 x Dialog Plus 5000VA

105’ 2x(528x230x650) 340 x

DIALOG PLUS

> 12.3 Summary data sheets

MODELS 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA INPUT

Input phases 1 1 1 1 1 1 1

Rated voltage 230V single-

phase 230V single-

phase 230V single-

phase 230V single-

phase 230V single-

phase 230V single-

phase 230V single-

phase Maximum input voltage before

battery intervenes

276V single-phase

276V single-phase

276V single-phase

276V single-phase

276V single-phase

276V single-phase

276V single-phase

Minimum input voltage before

battery intervenes (applied load 100%)

140V single-phase (load 50%) 170V single-phase (load 100 %)

Rated frequency

50-60Hz Self-teaching

or Settable

50-60Hz

Settable

Input frequency tolerance

+/-5Hz +/-5Hz +/-5Hz +/-5Hz +/-5Hz +/-5Hz +/-5Hz

Maximum current 3.5A 5A 7.4A 10A 14.4A 16A 24A Rated current 2.5A 3.4A 5.2A 6.8A 10.2A 12A 18A In-rush current <In <In <In <In <In <In <In Power factor >0.93 >0.93 >0.99 >0.99 >0.99 >0.99 >0.98

Current distortion (THDi)

< 30% < 30% < 7%

Input protection Fuse GT6.3A

250V Fuse GT6.3A

250V Fuse GT8A

250V Fuse GT10A

250V Fuse GT16A

250V Fuse GT16A

250V Fuse aM25A

500V

“Hold up” time (interr. to mains p. s. before

batt. intervenes) <40ms <40ms <40ms <40ms <40ms <40ms <40ms

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MODELS 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA

BY-PASS

Maximum voltage acceptable for

switching to mains power

264V single-phase

264V single-phase

264V single-phase

264V single-phase

264V single-phase

264V single-phase

264V single-phase

Minimum voltage acceptable for

switching to mains power supply

180V single-phase

180V single-phase

180V single-phase

180V single-phase

180V single-phase

180V single-phase

180V single-phase

Switching time (mains/inverter synchronised

2 ms. 2 ms. 2 ms. 2 ms. 2 ms. 2 ms. 3 ms.

BATTERIES

Back-up in min/W 8’/315W 5’/450W

10’/490W 6’/700W

11’/735W 6’/1050W

11’/980W 6’/1400W

13’/1470W 7’/2100W

10’/1680W 6’/2400W

11’/2450W 6’/3500W

No. Batteries 2 3 5 6 10 10 15 Battery rated voltage 24V 36V 60V 72V 120V 120V 180V

Type of battery

7Ah Sealed lead

maintenance-free

7Ah Sealed lead

maintenance-free

7Ah Sealed lead

maintenance-free

7Ah Sealed lead

maintenance-free

7Ah Sealed lead

maintenance-free

7Ah Sealed lead

maintenance-free

7Ah Sealed lead

maintenance-free

Battery configuration In series In series In series In series In series In series In series

Type of recharge At two voltage

levels At two voltage






levels Recharge current 0.9A

Recharge time 4-6h 4-6h 5-7h 4-6h 5-7h 5-7h 6-8h Intervention time (loss

of mains power Zero Zero Zero Zero Zero Zero Zero

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MODELS 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA supply)

Rated output supplied 529W 823W 1235W 1647W 2471W 2823W 4118W Recharge voltage 27V 41V 68V 81V 136V 136V 203V

End discharge voltage 20V 30V 50V 60V 100V 100V 150V Battery ripple current < 0.01C

Battery voltage stability (batteries fully

charged) < 0.7%

Battery protection Fuse

OUTPUT

Rated voltage 230Vac 220/230/240V

selectable 220/230/240V





selectable Wave form sinusoidal sinusoidal sinusoidal sinusoidal Sinusoidal

Frequency 50/60Hz

selectable 50/60Hz

selectable 50/60Hz

selectable 50/60Hz

selectable 50/60Hz

selectable 50/60Hz

selectable 50/60Hz

selectable Frequency converter

function yes

Current peak factor (from EN50091-3

regulation) 3:1 3:1 3:1 3:1 3:1 3.5:1 3:1

Rated output (VA) 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA Rated output (W) 450W 700W 1050W 1400W 2100W 2400W 3500W

Static variation +/-1.5% +/-1.5% +/-1.5% +/-1.5% +/-1.5% +/-1.5% +/-1.5% Dynamic variation (with load impact

from 0 to 100%) <5% <5% <5% <5% <5% <5% <5%

Output frequency variation with mains

absent

Same as the mains, for variations

between +/-5%


between +/-5%


between +/-5%


between +/-5%


between +/-5%


between +/-5%


between +/-5% Frequency variation

velocity (Hz/sec.) 1 Hz/sec

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MODELS 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA Voltage reset after dynamic variation

<20ms <20ms <20ms <20ms <20ms <20ms <20ms

Voltage distortion (linear load)

<2% <2% <2% <2% <2% <2% <2%

Voltage distortion (non-linear load

<5% <5% <5% <5% <5% <5% <5%

OVERLOAD TIMES

INVERTER OVERLOAD WITH MAINS ON LINE 100%<Load<110% Switches on to by-pass 110%<Load<150% Switches on to by-pass.

Load > 150% Switches on to by-pass. INVERTER OVERLOAD MAINS OFF LINE

100%<Load<110% 60 sec. 60 sec. 60 sec. 60 sec. 60 sec. 60 sec. 60 sec. 110%<Load<150% 4 sec. 4 sec. 4 sec. 4 sec. 4 sec. 4 sec. 4 sec.

Load>150% 0.5 sec. 0.5 sec. 0.5 sec. 0.5 sec. 0.5 sec. 0.5 sec. 0.5 sec.

VARIOUS

AC/AC efficiency (double conversion

operation) 90%

Maximum permanent operating

temperature 40°C 40°C 40°C 40°C 40°C 40°C 40°C

Ambient operating temperature

40°C 40°C 40°C 40°C 40°C 40°C 40°C

Recommended operating

temperature (for the batteries)

20/25°C 20/25°C 20/25°C 20/25°C 20/25°C 20/25°C 20/25°C

Humidity <90% without <90% without <90% without <90% without <90% without <90% without <90% without

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MODELS 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA condensation condensation condensation condensation condensation condensation condensation

Protections

Excessive battery

discharge-overcurrent-short-circuit-overvoltage-

undervoltage-heat

Excessive battery


undervoltage-heat

Excessive battery


undervoltage-heat

Excessive battery


undervoltage-heat

Excessive battery


undervoltage-heat

Excessive battery


undervoltage-heat

Excessive battery


undervoltage-heat

Compliance with safety regulations

EN50091-1-1 Directives

73/23/EEC and 93/68/EEC


73/23/EEC and 93/68/EEC


73/23/EEC and 93/68/EEC


73/23/EEC and 93/68/EEC


73/23/EEC and 93/68/EEC


73/23/EEC and 93/68/EEC


73/23/EEC and 93/68/EEC

EMC compliance EN50091-2 cl. A,

directive 89/336/EEC

EN50091-2 cl. A, directive

89/336/EEC


89/336/EEC


89/336/EEC


89/336/EEC


89/336/EEC


89/336/EEC

Immunity to sudden current surges

6kV 300J following IEC801-5







Noise <40dB(A) <40dB(A) <40dB(A) <40dB(A) <40dB(A) <40dB(A) <45dB(A)

DIMENSIONS

Height (mm) 231 231 340 340 480 480 528 Width (mm) 158 158 158 158 158 158 230 Depth (mm) 376 376 485 485 590 590 650

Weight in Kg (with standard back-up

integrated batteries) 7 10 23 27 43 44 65

Mechanical characteristics

Shielded metal cabinet with an applied plastic frontal display







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MODELS 700VA 1000VA 1500VA 2000VA 3000VA 4000VA 5000VA Level of protection IP215 IP215 IP215 IP215 IP215 IP215 IP215

Resistance to vibrations (G)

<2G <2G <2G <2G <2G <2G <2G

Power dissipated with load present (W)

49W 77W 115W 140W 210W 240W 350W

Power dissipated no load (W)

20 20 40 50 90 100 120

Colour Light grey RAL7035

Light grey RAL7035

Light grey RAL7035

Light grey RAL7035

Light grey RAL7035

Light grey RAL7035

Light grey RAL7035

Input differential current

1mA 1mA 1mA 1Ma 1mA 1mA 6mA

OUTPUT PROTECTION FIGURES (RECOMMENDED VALUES FOR SELECTIVITY)

Normal fuses (GI) In (Rated current)/7 Normal circuit-

breakers (curve C)

In (Rated current)/7

Ultra-rapid fuses (UR-URG)

In (Rated current)/2

Cable input Rear Input connections IEC socket

Output connections 3 IEC sockets+ 1 IEC power share

socket

1 shuko socket+ 1 shuko power share socket

4 IEC sockets 4 IEC sockets 2 shuko sockets 2 shuko sockets Terminals

Cooling Forced

ventilation Forced

ventilation Forced

ventilation Forced

ventilation Forced

ventilation Forced

ventilation Forced

ventilation Maximum installation

altitude 1000m 1000m 1000m 1000m 1000m 1000m 1000m

Power derating

10% every 1000m above 1000m above

seal level


seal level


seal level


seal level


seal level


seal level


seal level

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13. DIALOG PLUS RACK

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MODEL POWER BACK-UP (min) DIMENSIONS (mm) WEIGHT(Kg)

Dialog Plus Rack DLPR70 700VA/450W 8 89x483x390 7





Expansion modules

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MODEL BACK-UP (min) DIMENSIONS (mm) WEIGHT(Kg)

DLPR100 30 89x483x375 15

DLPR150 22 133x483x550 18

DLPR150 35 178x483x430 30

DLPR150 55 178x483x430 57

DLPR200 25 178x483x430 35

DLPR300 26 178x483x430 40

DLPR300 35 178x483x430 42

technical specifications specifiche...

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