How it Works
Tecnoware
Loading...
EVO DSP MM 1.3 Rack Tower
User Manual
66 pgs2.68 Mb0

Tecnoware EVO DSP MM 1.3 Rack Tower, EVO DSP MM 2.6 Rack Tower, EVO DSP MM 4.0 Rack Tower User Manual

Uninterruptible Power Supply
User’s manual
Manuale utente
Index
User’s Manual - English ........................................................................ 1
Safety Warnings ................................................................................ 1
1 Introduction ................................................................................. 2
2 General Characteristics ................................................................... 3
3 Receipt and site selection ................................................................ 3
4 Operating Modes ........................................................................... 4
4.1 NORMAL Mode .......................................................................... 5
4.2 BATTERY Mode ......................................................................... 5
4.3 BYPASS Mode ........................................................................... 5
4.4 STAND-BY Mode ........................................................................ 6
4.5 ECO Mode ............................................................................... 6
4.6 CONVERTER FREQUENCY Mode ...................................................... 7
5 EXTERNAL DESCRIPTION .................................................................. 7
5.1 Front Panel ............................................................................. 7
5.1.1 Graphic LCD Panel .........................................................................8
5.1.2 Buttons .................................................................................... 10
5.1.3 Acoustic Alarm ........................................................................... 11
5.2 Rear Side .............................................................................. 11
5.2.1 EPO (Emergency Power Off) ........................................................... 12
6 Electrical Installation ..................................................................... 13
6.1 Installation ........................................................................... 13
7 First Start Up .............................................................................. 14
8 Functioning ................................................................................ 15
8.1 Turning ON and OFF ................................................................. 15
8.2 Low Battery and Automatic Restart ............................................... 15
8.3 Load Testing .......................................................................... 16
8.4 Manual Static Bypass ................................................................ 16
8.5 Battery Test .......................................................................... 17
8.6 Operation in Warning Status ....................................................... 17
8.7 Operation in Fault Mode ............................................................ 18
9 Communication Interfaces .............................................................. 18
10 Technical Characteristics ................................................................ 19
11 Settings ..................................................................................... 21
12 Maintenance ............................................................................... 24
12.1 UPS Cleaning ......................................................................... 24
12.2 Battery ................................................................................ 24
12.3 Battery Replacement ............................................................... 25
12.4 Operator Safety ...................................................................... 26
13 Troubleshooting ........................................................................... 27
Conformity to the European Directives ................................................... 29
Product Disposal ............................................................................... 29
Lead Batteries ................................................................................. 29
Manuale Utente – Italiano .................................................................... 30
Avvisi di Sicurezza ............................................................................ 30
Indice
1 Introduzione ............................................................................... 31
2 Caratteristiche Generali ................................................................. 32
3 Ricevimento e Collocazione ............................................................. 32
4 Modi di Funzionamento .................................................................. 33
4.1 Modo NORMALE ....................................................................... 34
4.2 Modo BATTERIA ...................................................................... 34
4.3 Modo BYPASS ......................................................................... 34
4.4 Modo STAND-BY ...................................................................... 35
4.5 Modo ECO ............................................................................. 35
4.6 Modo CONVERTITORE di FREQUENZA .............................................. 36
5 Descrizione Esterna ....................................................................... 36
5.1 Pannello Frontale .................................................................... 36
5.1.1 Pannello LCD Grafico ................................................................... 37
5.1.2 Pulsanti ................................................................................... 39
5.1.3 Allarme Acustico ........................................................................ 40
5.2 Pannello Posteriore .................................................................. 40
5.2.1 EPO (Emergency Power Off) ........................................................... 41
6 Installazione Elettrica .................................................................... 42
6.1 Installazione .......................................................................... 42
7 Prima Accensione ......................................................................... 43
8 Funzionamento ............................................................................ 44
8.1 Accensione e Spegnimento ......................................................... 44
8.2 Fine Autonomia e Riaccensione Automatica ..................................... 44
8.3 Controllo del Carico ................................................................. 45
8.4 Bypass Statico Manuale ............................................................. 45
8.5 Test Batteria ......................................................................... 46
8.6 Segnalazioni di Allarme ............................................................. 46
8.7 Segnalazioni di Guasto .............................................................. 47
9 Interfacce di Comunicazione ............................................................ 47
10 Caratteristiche Tecniche................................................................. 48
11 Settaggi ..................................................................................... 50
12 Manutenzione .............................................................................. 53
12.1 Pulizia dell’UPS ...................................................................... 53
12.2 Batterie ............................................................................... 53
12.3 Sostituzione Batterie ................................................................ 54
12.4 Sicurezza dell’Operatore ........................................................... 55
13 Anomalie ed Interventi ................................................................... 56
Conformità alle Direttive Europee ......................................................... 58
Smaltimento del Prodotto ................................................................... 58
Batterie al Piombo ............................................................................ 58
ENGLISH
UPS EVO DSP MM Rack Tower 1 User’s manual
User’s Manual - English
Safety Warnings
Read this manual carefully and completely before installing and using the TECNOWARE EVO DSP MM RACK TOWER Uninterruptible Power Supply, which, from here after, will also be referred to as UPS.
The UPS must be used only by properly trained personnel. To ensure correct and safe operations, it is necessary that operators and maintenance personnel observe the general safety Standards as well as the specific instructions included in this manual.
Risk of electric shock: do not remove the cover. The UPS contains internal parts which are at a high Voltage and are potentially dangerous, capable of causing injury or death by electric shock.
There are no internal parts in the UPS which are user serviceable. Any repair or maintenance work must be performed exclusively by qualified technical personnel authorized by TECNOWARE. TECNOWARE declines any responsibility if this warning is disregarded.
The electric installation has to be done by qualified personnel. Follow all the Safety Standards (CEI Standards in Italy or IEEE elsewhere) for the Input/Output connections and for the right section of Input/Output cables.
It is compulsory to ground the UPS according to Safety Standards.
Risk of electric shock at the Output lines when the UPS is ON.
Risk of electric shock at the Output lines while the unit is connected to the AC utility line.
For respect of the Safety Standards is necessary the presence of a differential circuit breaker between UPS Output lines and the loads.
We recommend to use a dedicate AC power line for the UPS.
Do not obstruct ventilation slots or holes and do not rest any object on top of the UPS.
Do not insert objects or pour liquids in the ventilation holes.
Install the UPS indoors, in a protected, clean and moisture-free environment.
Do not expose to the direct sun light.
Do not keep liquids, flammable gases or corrosive substances near the UPS.
ENGLISH
User’s manual 2 UPS EVO DSP MM Rack Tower
1 Introduction
The UPS EVO DSP MM RACK TOWER (UPS means Uninterruptible Power Supply) is the result of constant technological research aimed at obtaining the best performance at the lowest cost.
EVO DSP MM RACK TOWER is an advanced ON-LINE UPS built specifically to protect your computer from any irregularities in the AC line (for example blackouts, brownouts, over voltages, micro-interruptions), which often cause damage to hardware and software.
All that is possible because EVO DSP MM RACK TOWER is a Double-Conversion ON-LINE UPS.
Under normal AC line condition EVO DSP MM RACK TOWER provides an automatic Output Voltage regulation from the Rectifier and Inverter blocks and filters out frequently occurring electrical disturbances (high Voltage transients, spikes, interferences, etc.), thus protecting the devices connected to its outlets. During a power failure, EVO DSP MM RACK TOWER continues supplying adequate AC power (with a true sine wave) to all connected devices through its internal batteries and by its DC/AC converter (Inverter).
EVO DSP MM RACK TOWER protects the devices from accidental overload or Inverter fault by an Automatic Bypass that directly connects the AC Input line with its outlets.
EVO DSP MM RACK TOWER models are factory-equipped with RS-232 and USB interfaces, which may be used for notify to a computer a power failure or a Low Battery condition: this allows automatic data backup during an extended blackout with the most common operating systems (Windows, Linux, Unix, etc). Thanks to Interfaces, UPS DSP MM can communicate the several made measurements (Input/Output Voltage, batteries, absorption, Frequency, etc.), and can also be programmed in order to start-up or shutdown automatically at fixed times.
Read this manual carefully before using the EVO DSP MM RACK TOWER ; it includes important safety warnings and useful advices for correct use and installation.
EVO DSP MM RACK TOWER is constantly being developed and improved: consequently, your unit may differ somewhat from the description contained in this manual.
This manual includes the following models:
EVO DSP MM 1.3 Rack Tower (1300VA)
EVO DSP MM 2.6 Rack Tower (2600VA)
EVO DSP MM 4.0 Rack Tower (4000VA)
In this manual EVO DSP MM RACK TOWER will simply be referred to as UPS.
EVO DSP MM RACK TOWER models are made from a single unit that contains the electronics parts and the batteries.
However EVO DSP MM RACK TOWER models are predisposed to the connection with external BATTERY BOX units in order to increase the autonomy.
ENGLISH
UPS EVO DSP MM Rack Tower 3 User’s manual
2 General Characteristics
EVO DSP MM RACK TOWER has all the advanced features which guarantee maximum reliability and safety:
Double-Conversion ON-LINE Transformerless technology
Sinusoidal wave generated by an IGBT Inverter
Output Voltage regulation ±2%
Protection from overload and short circuits
Static Automatic Bypass to protect from accidental overload or Inverter fault
Manual Static Bypass
Start-up even under Mains OFF conditions
Automatic protection when Battery is low
Automatic restart, following an automatic shut-down due to Low Battery, once AC utility power comes
back on
Selectable Input Frequency (50 or 60 Hz)
Graphic LCD panel for visualization of the Input and Output Voltage measurements, batteries Voltage,
percentage of load, frequency, alarms, overload, fault and functioning modes.
The graphic LCD panel is routable. Is possible to show the display in tower view or rack view.
Acoustic signals of various kinds indicating alarm situations
Available settings of all the UPS parameters by user through front panel pushbuttons and graphic LCD
panel
SNMP Adapter (optional)
EPO (Emergency Power OFF)
Communication with the computer through RS-232 and USB interfaces
ECO functioning mode (selectable)
Frequency Converter functioning mode (selectable)
High efficiency
Maximum reliability
Smart design and easy to use
3 Receipt and site selection
Carefully remove the UPS from its packaging, and carry out a meticulous inspection. We recommend keeping the original packaging in a secure place, in case you need to send the UPS for maintenance purposes. In case of transport damage, notify the carrier and dealer immediately.
We recommend paying attention to the below points in order to choose a correct placement for your UPS:
The UPS is designed to operate in a protected environment (e.g. offices). We therefore recommend installing it in a place with very little or no humidity, dust or smoke.
When the UPS is brought from a cold place to a warmer place, humidity in the air may cause condensation in the UPS. In this case, allow UPS to stand for two hours in the warmer place before beginning with the installation.
ENGLISH
User’s manual 4 UPS EVO DSP MM Rack Tower
In all circumstances, see the “Technical Characteristics” chapter for environmental specifications and check that the selected area meets these criteria.
During normal operation the UPS discharges a minimal amount of heat. So it is necessary to leave at least 10 cm of unobstructed space all around the UPS in order to keep it properly ventilated.
Do not obstruct ventilation holes.
Do not insert objects or pour liquids in the ventilation holes.
Do not rest any object on top of the UPS.
Do not keep liquids, flammable gases or corrosive substances near the unit.
Install the UPS on a properly tiled floor. Avoid the installation on a floor that is not tiled flat.
4 Operating Modes
Figure 1 – Operating modes
BATTERY MODE
NORMAL MODE
BYPASS MODE
ENGLISH
UPS EVO DSP MM Rack Tower 5 User’s manual
4.1 NORMAL Mode
The UPS typically works in Normal mode: Input mains power is available and its amplitude is within specifications. Please refer to figure 1.
After the filter has eliminated any high Frequency interference present on the mains, the AC Input line is rectified and conditioned in the Rectifier block (AC/DC conversion); the continuous power now enters into the Inverter block and is then reconverted into alternated power (DC/AC conversion), overcoming the Automatic Bypass and feeding the load after an extra filtration. At the same time the UPS recharges the batteries through the Battery Charger block.
Please refer to figure 2, which describe the UPS front panel.
The Normal mode is identified by:
The graphic LCD panel shows the functioning during Normal mode.
4.2 BATTERY Mode
During operation in Normal mode, if the UPS finds the Mains OFF condition (due to a Blackout or Overvoltage/Brownout), it then switches into Battery mode. In this case, the batteries supply the required Output power thanks to the DC/AC conversion carried out by the Inverter. The UPS switches back to Normal mode a few seconds after AC Input power is restored or Voltage comes back to internal specifications. Please refer to figure 1.
The Battery mode is identified by:
The graphic LCD panel shows the functioning during Battery mode.
An acoustic signal every 4 seconds.
4.3 BYPASS Mode
In Bypass mode, the AC Input line is directly connected with the UPS outlets by an Automatic Bypass.
As indicated in figure 1, in Bypass mode the UPS recharges the batteries.
During Normal mode, the UPS switches automatically to Bypass mode as a consequence of accidental overload or Inverter fault thus protecting the supplied devices.
When the UPS is working in Normal mode it is possible to switch the UPS by pressing SELECT + ON/MUTE button for at least 5 seconds, as explained into chapter 5.
Rack Display
Tower
Display
Rack Display
Tower
Display
ENGLISH
User’s manual 6 UPS EVO DSP MM Rack Tower
The Bypass mode is identified by:
The graphic LCD panel shows the functioning during Bypass mode.
An acoustic signal every 10 seconds.
During Bypass mode, loads are fed directly from AC Input line. Therefore no protection against AC Input line disturbances or interruptions is present.
4.4 STAND-BY Mode
If the UPS is in Stand-by mode, it is “inactive”. In Stand-by mode the Inverter is off and there is not Output power but the UPS is not completely off: indeed the UPS recharges the batteries regularly and the graphic display is ON.
If the OFF button is pressed when the UPS is in Normal mode, the UPS switches in Stand-by mode.
If the UPS is in Stand-by mode and the AC Input line is removed from UPS, then the UPS switches completely off.
The Stand-by mode is identified by:
The graphic LCD panel shows the functioning during Stand-by mode.
4.5 ECO Mode
It is possible to select the ECO mode to save energy and to increase the efficiency of the UPS.
The ECO mode uses the Bypass to feed the loads. The UPS will operate as in Bypass mode whenever the Frequency/waveform/RMS value of AC Input line mains Voltage is within their tolerance limits. If the AC Input line Voltage goes beyond these limits, the UPS switches into normal operation.
Please contact Technical Service for the instruction to enable the ECO mode; by default the ECO mode is disable.
ECO mode does not provide perfect stability in Frequency/waveform/RMS value of the Output Voltage like in Normal mode. Thus, the use of this mode should be carefully executed according to the level of protection required by the application.
The ECO mode is identified by:
The graphic LCD panel shows the functioning during ECO mode (the “ECO” icon is ON).
Rack Display
Tower
Display
Rack Display
Tower
Display
Rack Display
Tower
Display
ENGLISH
UPS EVO DSP MM Rack Tower 7 User’s manual
4.6 CONVERTER FREQUENCY Mode
It is possible to select the Converter Frequency mode to work with the Output Frequency different from the Input Frequency. For example it is possible to work with 60 Hz Input Frequency and 50 Hz Output Frequency or 50Hz Input Frequency and 60 Hz Output Frequency.
Please contact Technical Service for the instruction to enable the Converter Frequency mode; by default Converter Frequency mode is disable, and the Output Frequency will synchronize automatically with the Input Frequency; by default the Converter Frequency mode is disable.
The Converter Frequency mode is identified by:
The graphic LCD panel shows the functioning during Converter Frequency mode.
The “CF” characters are ON.
5 EXTERNAL DESCRIPTION
5.1 Front Panel
The front panel informs the user about operating status, alarm conditions and measurements. It also provides access to controls and configuration parameters.
Front panel shown below consists of two parts:
1. Graphic LCD panel provides complete information about the functioning status and existing alarms, Load and Battery level, Input, Output and Battery measurements.
2. The Graphic LCD panel is routable. Is possible to show the display in tower view or rack view. For more details see paragraph “Settings”.
3. 3 buttons enables the user to turn ON/OFF the UPS and to make selections of the functioning parameters.
Rack Display
Tower
Display
ENGLISH
User’s manual 8 UPS EVO DSP MM Rack Tower
Figure 2 – Front panel
5.1.1 Graphic LCD Panel
Please refer to figure 3.
Figure 3 – Graphic LCD Panel
Battery info
Load Info
Input/output and
Battery info
UPS status
Warning & Fault Info/ Setting Operation
Backup Time Info
Load info
UPS status
Battery
Backup Time Info
Warning & Fault Info/ Setting Operation
Input/output and Battery info
ENGLISH
UPS EVO DSP MM Rack Tower 9 User’s manual
Graphic LCD Panel Function
Backup time information
Indicates how much time has passed in Battery mode.
H: hours, M: minutes
Fault information
Indicates the warning that a fault has occurred.
Indicates the Fault codes, and the codes are listed in the “Fault Table” of chapter
8.
Mute operation
Indicates that the UPS alarm is disabled (muted).
Output Voltage information
Indicates the Output Voltage or Output Frequency or Battery Voltage. V: Output Voltage and Battery Voltage, Hz: Output Frequency
Load information
Indicates the load level by 0-25%, 26-50%, 51-75%, and 76-100%.
Indicates Overload.
Indicates the load or the Output is short-circuited.
Mode operation information
Indicates the UPS working in line mode.
Indicates the battery charger is working.
Indicates the Bypass circuit is working.
Indicates the ECO mode is enabled.
Indicates the UPS is working in converter mode.
ENGLISH
User’s manual 10 UPS EVO DSP MM Rack Tower
Graphic LCD Panel Function
Battery information
Indicates the Battery capacity by 0-25%, 26-50%, 51-75%, and 76-100%.
Indicates the Battery is faulty or defective.
Indicates Low Battery level and Low Battery Voltage.
Input and Battery Voltage information
Indicates the Input Voltage or Input Frequency or Battery Voltage. V: Input Voltage and Battery Voltage, Hz: Input Frequency
5.1.2 Buttons
Functions of the buttons are given below:
Button Function
ON/MUTE
Turn ON the UPS: press and hold ON/MUTE button for at least 3 seconds to turn ON the UPS.
Mute the acoustic alarm: when the UPS is in Battery mode, press and hold this button for at
least 5 seconds to disable or enable the acoustic alarm. But it’s not applied to the situations when warnings or errors occur.
Test Battery: press and hold ON/MUTE button for at least 5 seconds to perform the Battery Test while the UPS is in Normal mode.
SELECT
Select the measurements on the graphic display: by pressing the SELECT button it is possible
to choose the electrical parameter to be displayed (Input Voltage, Input Frequency, Battery Voltage, Output Voltage, Output Frequency). If the button is not pressed for at least 10 seconds, then the default parameter will came back on the graphic display.
Setting mode: Press and hold this button for 5 seconds to enter UPS setting mode when Standby and Bypass mode.
Down key: Press this button to display next selection in UPS setting mode.
OFF/ENTER
Turn OFF the UPS: press and hold ON/MUTE button for at least 3 seconds to turn OFF the UPS.
By pressing this button while the UPS is in Normal mode, the UPS will go to Stand-by mode; by pressing this button while the UPS is in Battery mode, the UPS will switch OFF completely.
Confirm selection key: Press this button to confirm selection in UPS setting mode.
ON/MUTE + SELECT
Switch to Bypass mode: when the UPS is functioning in Normal Mode, press ON/MUTE and
SELECT buttons simultaneously for at least 5 seconds. Then UPS will enter to Bypass mode. This action will be ineffective when the Input voltage is out of the acceptable range.
ENGLISH
UPS EVO DSP MM Rack Tower 11 User’s manual
5.1.3 Acoustic Alarm
UPS status Acoustic Alarm OFF
Battery Mode Beeping once every 4 seconds YES Low Battery Beeping once every second
NO
Overload Beeping twice every second Fault Mode Beeping continuously Bypass Mode Beeping once every 10 seconds
Note: OFF = YES : means that the buzzer can be muted or stopped, by pressing ON/MUTE button. OFF = NO : means that the buzzer can NOT be muted or stopped
5.2 Rear Side
Figure 4 – Rear Side
1. Computer Interface (DB9 female connector): it is the communication RS-232 port.
2. Computer Interface (USB connector): it is the communication USB port.
3. Telephone Protection (RJ11/RJ45 IN/OUT connectors): to protect and filter a phone line, an ADSL or a LAN.
4. EPO (Emergency Power OFF) connector
5. Input Circuit Breaker: it goes off in Overload or short-circuit condition; push the external button of the Circuit Breaker to reactivate it.
6. Grounded AC Input power socket: IEC C14 (EVO DSP MM 1.3 Rack Tower) and IEC C20 (EVO DSP MM 2.6-4.0 Rack Tower) type to connect the UPS to the AC utility line by the included power cord.
7. Grounded Output Receptacles: IEC C13 type to supply loads.
8. Slot for SNMP Interface (optional)
9. Battery Box Connector: remove the metal cover to access to the Battery Box Connector and to connect the UPS to an external Battery Box.
10. Grounded Output Power Receptacle: IEC C19 type; For connecting an Output power line to supply all the devices to be protected.
EVO DSP MM 1.3 Rack Tower
EVO DSP MM 2.6 Rack Tower
EVO DSP MM 4.0 Rack Tower
ENGLISH
User’s manual 12 UPS EVO DSP MM Rack Tower
5.2.1 EPO (Emergency Power Off)
EVO DSP MM RACK TOWER models have the EPO (Emergency Power OFF) connector on the rear side, (see figure
5).
This permits to immediately switch the UPS Output OFF from a distance in case of emergency.
The UPS is supplied with EPO short-circuited terminals and in this case the product works normally.
If you want to use an external switch to turn OFF the UPS by EPO, then remove the short-circuit from the EPO terminals and connect the switch to the EPO terminals as described in the figure 5.
EPO
1
2
REMOTE EPO
SWITCH
Figure 5 – EPO (Emergency Power OFF)
If the switch is CLOSED the UPS works normally; if, on the contrary, the switch becomes OPEN then the UPS Output turns OFF immediately.
To switch the UPS Output ON again after an EPO, it is necessary to close again the EPO switch.
The EPO terminals are isolated and do not need an external feeding Voltage.
ENGLISH
UPS EVO DSP MM Rack Tower 13 User’s manual
6 Electrical Installation
The electrical installation has to be done by qualified personnel. Follow all the Safety Standards (CEI Standards in Italy or IEEE elsewhere) for the Input/Output connections and for the right selection of Input/Output cables.
For safety we recommend using external circuit breakers between Input mains and UPS AC Input line and between UPS Output lines and the loads. The circuit breakers should be qualified with leakage current protective function (leakage current < 30 mA).
For the Input/Output connections use ONLY the included power cables or cables with the same power ratings.
TECNOWARE declines any responsibility if this warning is disregarded.
The EVO DSP MM RACK TOWER models are made of a single unit design that contains the electronic parts and batteries.
Before starting the installation procedure, be sure that:
1. The AC Input Voltage for the UPS has been removed.
2. The UPS is completely OFF (only if graphic LCD panel is OFF).
6.1 Installation
We advise you to follow the steps below explained:
1. Through the included power cable connect the UPS Input socket to the AC line outlet (see figure 4). It is mandatory to ground the AC line outlet according to the Safety Standards. Carefully check the grounding
of AC line outlet.
2. Connect the devices to be supplied to the UPS outputs, by using only the included cables. Be sure all the devices have the main switch in OFF position.
3. Only if there is an external Battery Box:
We suggest to use ONLY Battery Box supplied by TECNOWARE. TECNOWARE declines any responsibilities if this rule is not followed.
Before starting whichever operation be sure that the Battery circuit breaker of Battery Box is in “OFF” position.
3.1. Remove the metal cover (#9) on the rear side (see figure 4) to access to the Battery Box Connector.
3.2. Connect the Battery Box to the Battery Box connector.
3.3. Place the Battery circuit breaker of Battery Box in “ON” position.
ENGLISH
User’s manual 14 UPS EVO DSP MM Rack Tower
It is compulsory to ground the UPS according to the Safety Standards.
The case of the UPS is internally connected to the ground terminal (GND) of the IN/OUT terminals, in order to guarantee safety to the user. To guarantee safety it is necessary to be sure that the local electric plant is supplied with GROUND (in compliance with the Safety Standards), and that a valid connection is guaranteed between the GROUND of the UPS and the GROUND of the local electric plant.
Any interruption of the GROUND conductor is absolutely prohibited.
Risk of electric shock at the Output lines if the UPS is ON, even when the UPS is not connected to AC utility line.
Risk of electric shock at the Output lines while the unit is connected to the AC utility line.
Risk of electric shock: do not remove the cover. The UPS contains internal parts which are at a high Voltage and are potentially dangerous, capable of causing injury or death by electric shock.
There are no internal parts in the UPS which are user serviceable. Any repair or maintenance work must be performed exclusively by qualified technical personnel authorized by TECNOWARE. TECNOWARE declines any responsibility if this warning is disregarded.
Disregard for these warnings may lead to a risk of electric shock to operators.
7 First Start Up
Turning the UPS ON is very easy. Nevertheless we recommend that, on First Start Up, the following procedure is observed for greater safety.
1. Be sure all the devices connected to the UPS outputs have the main switch in OFF position.
2. Restore the AC Input line for the UPS; be sure that the AC utility power is available, and that its voltage and
frequency are within the specifications.
3. As a consequence of point 2, the UPS turns on the graphic display and goes in Stand-by mode: the UPS recharges only the batteries and doesn’t supply Output power. Check the graphic display shows the functioning of the battery charger during Stand-by mode.
4. Press ON/MUTE button for at least 3 seconds: the UPS emits a brief acoustic signal and performs a functioning SELF-TEST. After some seconds the UPS starts to work in Normal Mode and the graphic LCD
panel will show the functioning during Normal mode.
5. Simulate a black-out by removing the AC Input line. The UPS starts working in Battery mode: the graphic LCD panel will show the functioning during Battery mode. Moreover UPS emits a brief acoustic signal every 4 seconds. When Battery level is ending the acoustic signal will be emitted every 1 second.
6. Restore the AC Input line: after few seconds the UPS turns back in Normal mode.
7. The UPS has passed first start up check: now turn ON the devices (one by one) to be supplied by UPS,
checking the UPS doesn’t report Overload information on the graphic LCD panel and all the devices are working regularly. By graphic display check if the Output load percentage is less than 100%; otherwise it is necessary to remove part of the loads at the Output lines.
Before using the UPS normally, leave it in Normal mode for in order to charge Battery completely (the UPS charges Battery also in Bypass mode or in Stand-by Mode). The batteries reach the 90% of their capacity after about 4 hours of recharge.
ENGLISH
UPS EVO DSP MM Rack Tower 15 User’s manual
8 Functioning
8.1 Turning ON and OFF
Let’s see carefully the consequences of the pressure of ON/MUTE and OFF/ENTER buttons.
The UPS is in Stand-by mode (the Inverter is OFF); if the ON/MUTE button is pressed, after few seconds the Inverter starts and the UPS switches in Normal mode.
The UPS is in Normal mode (the Inverter is ON); if the OFF/ENTER button is pressed, the Inverter turns OFF and the UPS switches in Stand-by mode.
To turn completely OFF the UPS please do the following steps:
Put the UPS in Stand-by mode by pressing the OFF/ENTER button
Disconnect the AC Input Voltage for the UPS.
The graphic LCD panel is OFF only when the UPS is completely OFF.
If UPS is used daily, it is recommended to leave the UPS connected to the AC Input line and use the ON/MUTE and OFF/ENTER buttons on the front panel to activate/deactivate the Inverter.
If the UPS has to be turn OFF completely for several days, it is recommended to disconnect the AC Input line for the UPS.
If the ON/MUTE button is pressed when AC Input line is not present, the UPS switches ON even, and works in Battery mode after some seconds.
If the OFF/ENTER button is pressed when AC Input line is not present, then the Inverter switches OFF and consequently there will be no Output power.
8.2 Low Battery and Automatic Restart
The UPS reaches the Low Battery condition whenever, during working in Battery mode, the batteries reach a charge level allowing the connected devices to operate for few minutes more.
The UPS warns operators of Low Battery by lighting of the LOW BATT. icon on the graphic LCD and by emitting an acoustic signal every second.
If AC Input does not come back on within few minutes, the UPS shuts-down automatically thus preventing the batteries from discharging excessively; the UPS stops supplying Output power, deactivates control panel indication and goes to a waiting state. Once AC Input comes back on, the UPS restarts automatically and after 4 seconds it goes back to work in Normal mode.
After a complete discharge, the UPS needs 4 hours to recharge completely the batteries. The UPS recharges batteries automatically if it works in Normal mode, in Bypass mode or in Stand-By mode.
ENGLISH
User’s manual 16 UPS EVO DSP MM Rack Tower
8.3 Load Testing
The UPS indicates the Output Load level by graphic LCD (as described in the chapter 5).
When the Output load is higher then nominal value the UPS warns of Overload condition by graphic LCD and by acoustic alarm as described in the “Warning Table” and in the “Troubleshooting” chapter.
The UPS warns of an Overload less than 110% by acoustic alarm.
An Overload between 110% and 130% is accepted for about 30 seconds and after UPS switches automatically to the Bypass mode.
The UPS switches immediately to the Bypass mode if the Overload is higher than than 130%.
Once the requested power is back within range, the UPS switches automatically to the Normal mode.
Make sure that the UPS never indicates Overload condition.
Do not connect a load greater than rated value to the UPS (see POWER specifications in the chapter “Technical Characteristics”), as this may damage the unit. In this case the warranty is void.
8.4 Manual Static Bypass
During Normal mode functioning it is possible to switch the UPS in Bypass mode, by pressing at the same time ON/MUTE and SELECT buttons at least 5 seconds, as explained into chapter 5.
The Bypass mode, named also Manual Static Bypass, is useful while performing maintenance or service on the UPS.
Maintenance and service may only be performed by authorized technical personnel.
During Static Bypass, loads are fed directly from Bypass mains. Therefore no protection against mains disturbances or interruptions is present.
Loading...
+ 46 hidden pages
Buy Points How it Works FAQ Contact Us Questions and Suggestions Privacy Policy Cookie Policy Terms of Use