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Idiomas disponibles
Idiomas disponibles
PRELIMINARY
Ø
Lock: indicates that the UPS is locked, a lock is normally preceded by an alarm signal and, due to their gravity, causes
the inverter to be turned off and the load to be powered via the bypass line (this procedure is excluded for locks caused
by serious and persistent overloads and for a lock caused by a short circuit).
CODE
L01
Incorrect auxiliary power supply
L02
One or more internal cables disconnected
L03
Phase 1 input fuse broken or input relay locked (will not close)
L04
Phase 2 input fuse broken or input relay locked (will not close)
L05
Phase 3 input fuse broken or input relay locked (will not close)
L06
BOOST stage overvoltage positive
L07
BOOST stage overvoltage negative
L08
BOOST stage undervoltage positive
L09
BOOST stage undervoltage negative
L10
L11
L14
L17
L20
Direct voltage at output of inverter or Sine wave inverter distorted
L23
L26
Short circuit at output of Phase1
L29
output fuse broken or output relay locked (will not close)
L34
L35
L36
L37
Battery charger overtermperature
L38
Temperature probe of heat sink 1 faulty
L39
Temperature probe of heat sink 2 faulty
L40
Temperature probe of heat sink 3 faulty
L41
Temperature probe of battery charger faulty
L42
L43
L44
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DESCRIPTION
Static bypass switch fault
output undervoltage
inverter overvoltage
inverter undervoltage
Overload at output
Heat sink 1 overtemperature
Heat sink 2 overtemperature
Heat sink 3 overtemperature
BOOST battery 1 fuse blown
BOOST battery 2 fuse blown
BOOST battery 3 fuse blown
99
PRELIMINARY
TECHNICAL SPECIFICATIONS
UPS Models
10 kVA
Input
Nominal voltage
380-400-415 Vac 3-phase with neutral (4 wire) / 220-230-240 Vac single phase
Nominal frequency
Accepted input voltage tolerance due to no
intervention of the battery (referred to 400Vac)
Accepted input frequency tolerance due to no
intervention of the battery (referred to 50/60Hz)
High frequency IGBT with individual digital average current mode PFC control on
Technology
Input current harmonic distortion
Input power factor
Power Walk-In
Output
(1)
Nominal voltage
(2)
Nominal frequency
Nominal apparent output power
10kVA
Nominal active output power
8kW
Output power factor
Short circuit current
Precision of output voltage (referred to output
voltage of 400Vac)
(3)
Static stability
Dynamic stability
Voltage harmonic distortion with linear and
normalised distorting load
Crest factor allowed with nominal load
Frequency precision in free running mode
Inverter overloads @ PFout = 0.8
(Resistive load)
Bypass overload
High frequency IGBT with digital multiprocessor (DSP+µP), voltage/current based on
Technology
Battery Charger
Nominal voltage
(5)
Maximum recharge current
Battery charger algorithm
Technology
Input voltage tolerance for recharging at maximum
current
12 kVA
15 kVA
20 kVA
50-60Hz
±20% @ 100% load
-40% +20% @50% load
±20%
40-72Hz
each input phase
(8)
THDi ≤ 3%
≥0.99
Programmable from 5 to 30 sec. in 1 second steps
220/230/240 Vac single phase
50/60Hz
12kVA
15kVA
20kVA
9.6kW
12kW
16kW
0.8
1.5x In for t>500ms
± 1%
± 0.5%
(4)
± 3% resistive load
EN62040 -3 performance class 1 distorting load
≤1% with linear load
≤3% with distorting load
3:1
0.01%
110% 10 min
133% 1 min
150% 5 sec
>150% 0.5 sec
110% Infinite
133% 60 minutes
150% 10 minutes
>150% 2 sec
signal processing techniques with feed forward
±240Vdc
6A
Two levels with temperature compensation
Analogue switching current mode under microprocessor control
(PWM voltage and charge current adjustment)
345-480Vac
100
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