Customization: | Available |
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Certification: | ISO9001, CE |
Output Power: | >1000W |
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48VDC REVO Series Hybrid Solar Inverters with Touch Screen Display
Key Features:
1.Touch screen display.
2.PV and utility power take the load at same time(can setting).
3.Output power factor PF=1.0.
4.On&Off Grid with energy storage.
5.Energy generated record,load record,history information and fault record.
6.Language and time setting.
7.Structure with dust filter.
8.AC charging and AC output time setting.
9.Charging voltage and charging current timing.
10.External Wi-Fi device optional.
11.Parallel operation up to 9 units
12.Connected with battery optional.
13.Wide PV input range 120-450VDC.
14.Independent CPU.
15.MAX PV Array power 5000W.
16.Solar and Utility supply power to the load when solar power is not sufficient to load.
17.The CT sensor will monitor the power consumption of the system and will make sure no
excess PV power is delivered to the grid company .
Product Show:
REVO II Series Hybrid Solar Inverter Technical Specification Built-in MPPT Solar Controller
MODEL |
REVO II 3K-24 |
REVO II 3.2K-48 |
REVO II 5.5K-48 |
Max PV Array Power |
4500W |
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Rated Output Power |
3000W |
3200W |
5500W |
Maximum PV Array Open Circuit Voltage |
500VDC |
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MPPT Range @ Operating Voltage |
120-450VDC |
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MPPT Tracker Number |
1 |
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GRID-TIE OPERATION |
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GRID OUTPUT (AC) |
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Nominal Output Voltage |
220/230/240VAC |
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Output Voltage Range |
184-265VAC |
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Nominal Output Current |
13.6A/13.0A/12.5A |
14.5A/13.9A/13.3A |
25A/23.9A/22.9A |
Efficiency |
Up to 93.5% |
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OFF-GRID, HYBRID OPERATION |
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GRID INPUT |
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Acceptable Input Voltage Range |
120-280VAC |
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Frequency Range |
50Hz/60Hz (Auto sensing) |
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BATTERY MODE OUTPUT (AC) |
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Nominal Output Voltage |
220/230/240VAC |
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Output Wave Form |
Pure sine wave |
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BATTERY & CHARGER |
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Nominal DC Voltage |
24VDC |
48VDC |
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Maximum Solar Charge Current |
90A |
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Maximum AC Charge Current |
60A |
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Maximum Charge Current |
90A |
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Emergency output power |
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Maximum output power |
3000W |
3200W |
5500W |
Surge Power |
6000W |
6400W |
11000W |
Automatic Transfer Time |
<8ms |
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GENERAL |
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INTERFACE |
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Parallel Function |
Yes |
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Communication |
USB or RS232/Dry-Contact |
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ENVIRONMENT |
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Humidity |
0~90% RH (No Condensing) |
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Operating Temperature |
0 to 50 °C |
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Net Weight(KG) |
11.75 |
11.9 |
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Rough Weight(KG) |
12.75 |
13.1 |
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Dimension (W x D x H)mm |
345x476x133.2 |
APPLICATION OF OUR PRODUCT |
COMPANY SHOW |
Exhibition |
WHY CHOOSE US ? |
FAQ |
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.
For example: fans, precision instruments, air conditioner, fridge, coffee machine, computer, and so on.
Modified wave can be started with some inductive loads, but effect for load using life,because capacitive loads and inductive loads need high quality power
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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.
Notice:
Resistive load: you can choose the same power as the load.
Capacitive loads: according to the load, you can choose 2-5 times power.
Inductive loads: according to the load, you can choose 4-7 times power.
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3. How connection between batteries and an power inverter?
We usually believe that cables connecting battery terminal to inverter shorter is better. If you are just standard cable should be less than 0.5M, but should correspond to the polarity of the batteries and inverter-side outside. If you want to lengthen the distance between battery and inverter, please contact us and we will calculate the recommended cable size and length. Due to long distances using a cable connection, there will be a reduced voltage, which means that the inverter voltage would be far below the battery terminal voltage, this inverter will appear under voltage alarm conditions
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4. 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)
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