Product Advantages:
1. Automatically transfer between battery and line mode
2. High reliability Microprocessor control
3. Remote control and BTS terminal
4. Intelligent charging control
5. Bypass with AVR function (optional)
6. Maximum charging current to 85A (depend on capacity and battery voltage )
7. SNMP card and RS232 communication (optional)
8. Input voltage range and battery voltage protect can setting through DIP switch
9. Battery type and charge current can be adjusted
10. Charge and output priority setting through front button
Data Sheet
Model
|
FL-IVCM5048
|
Rated power
|
5KVA/4000W
|
Input
|
Voltage
|
230V
|
Selectable Voltage Range
|
170-280 VAC ( ) 90-280 VAC ( Appliances )
|
Frequency Range
|
50 Hz/60 Hz (Auto sensing)
|
Battery Voltage
|
48VDC
|
Output
|
AC Voltage Regulation
|
230VAC ± 5%
|
Efficiency(Peak)
|
>95% ( Rated R load, battery full charged )
|
Transfer time
|
10ms typical (UPS); 20ms typical (Appliances)
|
Waveform
|
Pure sine wave
|
SOLAR CHARGER&AC CHARGER
|
Maximum Solar Charge Current
|
60A
|
Maximum AC Charge Current
|
60A
|
Maximum Charge Current
|
120A
|
Rated Power
|
3000W
|
Max. PV Circuit Voltage
|
145Vdc max
|
PV MPPT Volt Range
|
60~115Vdc
|
Min. Battery Volt for PV Charge
|
34Vdc
|
OPERATING ENVIRONMENT
|
Storage Temperature
|
0°C - 55°C
|
Humidity
|
-15°C - 60°C
|
PHYSICAL
|
Dimension
|
120 x 295 x 468
|
Net Weight
|
12KG
|
Product Details
Connection Method
Note:
1. Parallel operation in single phase with up to 6 units.
The supported maximum output power is 24KW/30KVA.
2. Maximum six units work together to support three-phase equipment.
Four units support one phase maximum.
The supported maximum output power is 24KW/30KVA
One phase can be up to 16KW/20KVA.
Production Line
After Sale Service
Our Service Team offers customers an unmatched level of knowledge combined with the skills and experience to turn business challenges into competitive advantages.
RFQ
1.How to choose suitable inverter?
If your load is resistive loads, such as: bulbs, you can choose a modified wave inverter. But if it is inductive loads and capacitive loads, we recommend using pure sine wave power inverter.
2.How do I choose the size of the inverter?
Different types of load demand for power are different. You can view the load power values to determine the size of the power inverter.
3.How to calculate the load of working hours requires configuration of the battery size?
We will usually have a formula to calculate, but it is not hundred percent accurate, because there is also the battery's condition, the old batteries have some loss,so this is only a reference value:
Work hours = battery capacity * battery voltage * 0.8/load power (H= AH*V*0.8/W)