Description
Deye 12KW 3 Phase Hybrid Inverter
The Deye 12KW 3 Phase Hybrid Inverter is an on-grid inverter and has a range from 4kW to 110kW with 230/400Vac. So, it can connect to the utility grid(230/400V) directly without a transformer. All the inverters are equipped with LCD displays and buttons, easy to operate and maintain especially for remote and poor areas. Includes: Wi-Fi Dongle + BMS Communication Cable.
The Deye 12KW 3 Phase Hybrid Inverter is a high-capacity inverter that is designed to convert DC power from solar panels or batteries into AC power for use in homes or businesses. This inverter can handle a maximum output power of 12 kilowatts (kW) and is designed for use with three-phase power systems. It is a hybrid inverter, which means that it can be used with both solar panels and batteries to provide power.
This inverter is designed to work with three-phase power systems, which are commonly used in commercial and industrial settings. The inverter uses a series of internal components, including transformers, capacitors, and transistors, to convert the DC power into AC power.
Higher Yields
- Improved self-consumption ratio by up to 80%, reducing your electricity bill.
- DC/AC ratio up to 1.3, completely suitable for double-side PV modular.
- Two MPPT designs, Max. efficiency of 97.6%.
User-Friendly
- LCD Touch screen and buttons, easy operation.
- Compatible with lithium-ion battery and lead acid battery.
- Web browser and mobile App monitoring supported.
Reliable
- PV lighting protection, Anti-islanding protection, Leakage current protection etc.
- Support store energy from DG when needed, ensure the system working within 7*24H.
- IP65 protection degree, adapt to indoor and outdoor using.
- Automatically switch from on-grid to off-grid mode within 5ms.
- Zero exporting function, fast reaction within 200ms in zero export mode.
Smart
- Programmable charging and discharging schedule.
- Both wind turbines and solar panels can be connected as DC input power.
- Max. 16 units can be paralleled for higher system power.
- Retrofitting of existing solar system to energy storage system.
Features
One of the key features of the Deye 12KW 3 Phase Hybrid Inverter is its ability to work with both solar panels and batteries. When connected to solar panels, the inverter can convert the DC power generated by the panels into AC power for use in homes or businesses. When connected to batteries, the inverter can store excess power generated by solar panels or power from the grid during off-peak hours, allowing it to be used when needed.
- 100% unbalanced output, each phase Max. output up to 50% rated power.
- 48V low voltage battery, transformer isolation design.
- 6 time periods for battery charging/discharging.
- Max. charging/discharging current of 240A.
- Frequency droop control.
- DC couple and AC couple to retrofit existing solar system.
- Support storing energy from diesel generator
Battery Input Data
- Battery Type: Lead-acid or Li-lon
- Battery Voltage Range (V): 40-60V
- Max. Charging Current (A): 240A
- Max. Discharging Current (A): 240A
- Charging curve: 3 Stages/Equalization
- External Temperature Sensor: Optional
- Charging Strategy for Lithium Battery: Self-adaption to BMS
PV String Input Data
- Max. DC Input Power (W): 15600W.
- PV input Voltage (V): 550V (150V-800V).
- MPPT Range (V): 200-650V.
- Start-up Voltage (V): 160V.
- PV Input Current (A): 25A + 125.5A.
- No. of MPPT Trackers: 2
- No. of Strings Per MPPT Tracker: 2+1.
AC Output Data
- Rated AC Output and UPS Power (W): 12000W
- Max AC Output Power (W): 13200W
- Peak Power(off-grid): 2 times of rated power, 10 S.
- AC Output Rated Current(A): 18A
- Max.AC Current(A): 27A
- Max Continuous AC Pass-through(A): 50A.
- Output Frequency and Voltage: 50/60Hz; 230/400Vac (Three Phase)
- Grid Type: Three Phase
- Current Harmonic Distortion: THD<3% (Linear load<1.5%).
Efficiency
The efficiency rating of the Deye 12KW 3 Phase Hybrid Inverter is up to 97.6%. This means that the inverter is highly efficient at converting DC power from sources such as solar panels or batteries to AC power for use in homes or businesses. Higher efficiency ratings are desirable as they can help to reduce energy losses and lower electricity bills over time.
- Max. Efficiency: 97.60%
- Euro Efficiency: 97.00%
- MPPT Efficiency: 99.90%
Protection
The Deye 12KW 3 Phase Hybrid Inverter is designed with safety in mind. It has a range of safety features, including overvoltage protection, overcurrent protection, and short-circuit protection, which help to prevent damage to the inverter and connected devices.
- PV Arc Fault Detection: Integrated (Except European Type)
- PV Input Lightning Protection: Integrated
- Anti -islanding Protection: Integrated
- PV String Input Reverse Polarity Protection: Integrated
- Insulation Resistor Detection: Integrated
- Residual Current Monitoring Unit: Integrated
- Output over Current Protection: Integrated
- Output Shorted Protection: Integrated
- Output over Voltage Protection: Integrated
Certifications and Standards
- Grid Regulation: UL1741, IEEE1547, RULE21, VDE0126, AS4777, NRS2017, G98, G99, IEC61683, IEC62116, IE61727
- Safety Regulation: IEC62109-1, IEC62109-2
- EMC: EN61000-6-1, EN61000-6-3, FCC 15 class B
General Data
- Operating Temperature Range ( C ): -25—60 C , >45 C Derating
- Cooling: Fan
- Noise (dB): <30
- Communication with BMS: RS485; CAN
- Weight (kg): 37
- Size (mm): 422W X 685H X 281mm
- Protection Degree: IP65
- Installation Style: Wall-mounted
- Warranty: 5 years
What Are the Benefits of the Deye 12kw 3 Phase Hybrid Inverter?
There are several benefits to using the Deye 12KW 3 Phase Hybrid Inverter. One of the main benefits is its high capacity, which allows it to handle large amounts of power. This makes it an ideal choice for use in commercial and industrial settings. Additionally, the inverter’s ability to work with both solar panels and batteries makes it a versatile choice for those looking to power their homes or businesses with renewable energy.
Another benefit of the Deye 12KW 3 Phase Hybrid Inverter is its efficiency. This inverter has a high conversion efficiency, which means that it can convert a large percentage of the DC power it receives into usable AC power. This can help to reduce energy costs and lower carbon emissions.