AN-SCI-EVO2000 & 3200 series solar inverter is the latest and update of the Azure series inverter, EVO series max solar input power is 2000W & 3000W and the wide PV input voltage range is 30-400VDC (Azure series is 90-430VDC).
This upgrade can make the open circuit voltage connected to the solar panel higher than 35VDC for the first time, and then the inverter can be used normally after a stable input of 30VDC, is the perfect solution when you want to take care of the environment and save money by using renewable energy as a power source in your home.
Built-in 80A MPPT controller, pure sine wave solar inverter, output power factor 1.
Compatible with lithium battery, Smart battery charge design to maximize battery lifespan.
It can not be used alone to supply the load with solar panels or city electricity, it must be used with a battery.
Pure Sine Wave Solar Hybrid Inverter
Output Power Factor 1.0
Built-in MPPT solar controller, max charge current 80A
Max 2000W & 3000W solar input power respectively
Wide PV input voltage range (30-400VDC), lowest voltage only 30V
Built-in anti-dusk kit for harsh environments
Smart battery charge design to maximize battery lifespan
Compatible with lithium battery
WIFI available for IOS and Android systems
Model | SCI-EVO-2000 | SCI-EVO-3200 |
RATED POWER | 2000KVA/1600W | 3200KVA/3000W |
AC INPUT | ||
AC Input Voltage | 230VAC | |
Selectable Voltage Range | 170-280 VAC (For Personal Computers) | |
90-280 VAC (For Home Appliances) | ||
Frequency Range | 50 Hz/60 Hz (Auto sensing) | |
AC OUTPUT | ||
AC Voltage Regulation (Batt. Mode) | 230VAC ± 5% | |
Surge Power | 4000VA | 6400VA |
Efficiency (Peak) PV to Inverter | 98% | |
Efficiency (Peak) Battery to Inverter | 94% | |
Transfer Time | 10 ms (For Personal Computers); 20 ms (For Home Appliances) | |
Waveform | Pure sine wave | |
BATTERY & AC CHARGER | ||
Battery Voltage | 12VDC | 24VDC |
Floating Charge Voltage | 13.5VDC | 27VDC |
Overcharge Protection | 16VDC | 33VDC |
Maximum AC Charge Current | 60A | |
SOLAR CHARGER | ||
Maximum PV Array Power | 2000W | 3000W |
MPPT Range @ Operating Voltage | 30-400VDC | |
Maximum PV Array Open Circuit Voltage | 400VDC | |
Maximum Charging Current | 80A | |
PHYSICAL | ||
Dimension, D x W x H (mm) | 360*270*100mm | 390*270*100mm |
Net Weight (kg) | 4.4 | 5.4 |
INTERFACE | ||
Communication interface | WIFI | |
OPERATING ENVIRONMENT | ||
Humidity | 5% to 95% Relative Humidity(Non-condensing) | |
Operating Temperature | –10°C - 50°C | |
Storage Temperature | –15°C - 60°C | |
How to connect solar panel to inverter? Below are the steps:
1. Ensure all components are turned off and disconnected from any power sources.
Wear appropriate safety gear.
2. Install the solar panels on a suitable location, typically on the roof or a ground-mounted system.
Secure the panels using the appropriate mounting hardware.
3. Connect the solar panels in series or parallel, depending on your system’s voltage and current requirements.
Use MC4 connectors or other appropriate connectors to link the panels.
4. If your inverter does not have a built-in charge controller, install a separate charge controller between the solar panels and the battery bank.
Connect the positive and negative wires from the solar panels to the input terminals of the charge controller.
5. Connect the charge controller’s output terminals to the battery bank, ensuring correct polarity.
Use appropriate gauge wires to handle the current.
6. Place a DC disconnect switch between the charge controller and the inverter.
This switch allows you to safely disconnect the DC power for maintenance or emergencies.
7. Connect the output terminals of the charge controller (or directly from the solar panels if no charge controller is used) to the DC input terminals of the inverter.
Ensure correct polarity to avoid damage.
8. Place an AC disconnect switch between the inverter and the main electrical panel or load.
This switch allows you to safely disconnect the AC power for maintenance or emergencies.
9. Connect the AC output of the inverter to your home’s electrical panel or directly to the load.
Ensure all connections are secure and follow local electrical codes.
10. Properly ground the solar panels, inverter, and other components to prevent electrical hazards.
11. Turn on the DC disconnect switch, followed by the charge controller (if used), and then the inverter.
Turn on the AC disconnect switch.
Check the inverter’s display or indicators to ensure it is receiving power from the solar panels and functioning correctly.
Important Tips:
Always follow the instructions for each component.
Consult a professional electrician if you are unsure about any step.
Ensure all connections are secure and weatherproof if installed outdoors.
Adhere to local electrical codes and regulations.
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