Ratings, Page 8 – Outback Power Systems Inverter/Charger VFX2612E User Manual
Page 8
Installation & Programming Manual
FX & VFX “E” Series Inverter/Charger System
Copyright 2003
OutBack Power Systems, Inc.
900-0027-2
19009 62
nd
Ave NE, Arlington WA 98223 USA
Page 8
Rev 7.1
06/08/06 Tel 360 435 6030 Fax 360 435 6019
RATINGS
NOMINAL SYSTEM AC VOLTAGE:
This is the AC output voltage produced by an FX system. Each FX produces 230 VAC (volts of AC) but multiple FXs can be
configured in parallel or 3-phase and these configurations may produce different voltages on the AC output legs.
Single Phase
230 VAC at 50 Hz (VAC = volts AC, Hz = Hertz)
Parallel Stacked
230 VAC at 50 Hz on one AC output leg
Three Phase
230 VAC at 50 Hz per AC output leg (limit three)/400 VAC at 50 Hz between AC output legs
RECOMMENDED DC VOLTAGE RANGE:
This is the DC battery voltage range to be used for operating the FX. The last two digits in the model number designate the
nominal DC voltage. Example: FX2024MT – 24V DC Voltage.
12V Systems
11 – 16 VDC (VDC = volts DC)
24V Systems
22 – 32 VDC
48V Systems
44 – 64 VDC
MAXIMUM DC INPUT CURRENT:
This is the maximum DC current that the FX will draw from the battery when starting very large AC loads. It is not used for
sizing the DC disconnect or selecting DC cable gauge. It is used to select the minimum reasonable battery capacity.
12V FX’s
600 ADC per FX (ADC = amps DC)
24V FX’s
300 ADC per FX
48V FX’s
150 ADC per FX
RATED DC INPUT CURRENT:
This is the maximum continuous DC current that the FX will draw from the batteries when inverting.
FX2012E
190 ADC (ADC = amps DC)
FX2024E
95 ADC
FX2348E
55 ADC
VFX2612E
250 ADC
VFX3024E
145
ADC
VFX3048E
70 ADC
AC INPUT OPERATING VOLTAGE RANGE:
This is the recommended AC input voltage range to be supplied to the FX. Voltages outside of this range may damage AC
loads connected to the FX’s AC output terminals.
All “Export” FX’s
200 - 260 VAC (VAC = volts AC)
MAXIMUM AC INPUT CURRENT:
An AC input source connected to the FX supplies power for two separate internal AC circuits – the AC transfer switch and the
battery charging system. The AC transfer switch transfers the AC input power through the FX to the AC loads connected to
the AC output of the FX. The FX’s battery charger will “back off” when the combined amperage of the AC loads and the
battery charger exceeds the programmed AC input current limit (default of 24 AAC). This “Input Limit” can be adjusted so as
not to overload a generator or trip a breaker that is connected to the AC input of the FX. If your generator cannot produce 24
AAC or you are connecting to an AC input source that has a breaker that is rated for less than 30 AAC, please refer to the
programming section to change this setting.
All “Export” FXs
30 AAC per FX (AAC = amps AC)
MAXIMUM CURRENT FOR BATTERY CHARGER:
The FX uses AC current from the AC input source to charge the battery. Due to heat constraints, the FX limits this amount of
current. The maximum and default values for this setting are shown below. Please refer to the programming section to adjust
this setting. The battery charger has an efficiency of 90%. There are other factors like cable losses that may reduce this
efficiency. The maximum DC current that can be produced is also shown below. These maximum DC currents can only be
attained in the “Bulk” charging stage.
FX2012ET AC Max = 6 AAC (Default = 5 AAC)
DC Max = 100 ADC
FX2024ET AC Max = 7 AAC (Default = 6 AAC)
DC Max = 55 ADC
FX2348ET AC Max = 7 AAC (Default = 6 AAC)
DC Max = 35 ADC
VFX2612E
AC Max = 8 AAC (Default = 7 AAC)
DC Max = 125 ADC
VFX3024E
AC Max = 10 AAC (Default = 9 AAC)
DC Max = 85 ADC
VFX3048E AC Max = 10 AAC (Default = 9 AAC)
DC Max = 45 ADC