The N3H-A10.0 revolutionary inverter integrates cutting-edge technology with low-voltage batteries to deliver efficient and dependable power conversion for diverse household requirements. Specifically designed for residential use, this three-phase hybrid inverter is optimized for 44~58V low voltage batteries, offering high power density and outstanding performance.
Customizable setup, easy plug-and-play installation, and comes with built-in fuse protection.
The upper limit of MPPT efficiency can be extended to 99.5%.
Designed for longevity and versatile use.
Monitor your system remotely.
Hybrid inverters combined with energy storage systems can provide power during grid outages and can also provide power to the grid when the grid is operating normally. When considering energy storage options like batteries and inverters, it’s critical to evaluate your specific energy needs and goals. Our team of experts can help you understand the benefits of energy storage. Our energy storage batteries and inverters can help reduce your electricity bills by storing excess energy produced by renewable energy sources such as solar panels and wind turbines. In addition, they can provide backup power during power outages and help create a more sustainable and resilient energy infrastructure. Whether your goal is to minimize your carbon footprint, increase energy independence or reduce energy costs, our range of energy storage products can be tailored to meet your needs. Contact us today to learn how energy storage batteries and inverters can improve your home or business.
Customized for smooth integration with the 220V grid, the N3H-A hybrid inverter is ideal for outdoor installations and offers long-lasting durability. With the ability to remotely monitor and manage systems at any time, it provides the opportunity to achieve energy independence and increase efficiency.
Model: | N3H-A10.0 |
PV input parameter | |
Maximum input voltage | 1100 Vd.c . |
Rated Voltage | 720Vd.c . |
MPPT voltage range | 140~ 1000 Vd.c . |
MPPT voltage range (full load) | 420~850 Vd.c . |
Maximum input current | 2* 15 Ad.c . |
PV ISC | 2*20 Ad.c . |
Battery input/output parameter | |
Battery type | Lithium or lead-acid |
Input voltage range | 44~58 Vd.c . |
Rated voltage | 51.2Vd.c . |
Maximum input/output voltage | 58 Vd.c . |
Maximum charging current | 160 Ad.c . |
Maximum charging power | 8000 W |
Maximum discharging current | 200 Ad.c . |
Maximum discharging power | 10000 W |
Grid parameter | |
Rated input/output voltage | 3/N/PE, 230/400 Va.c . |
Rated input/output frequency | 50 Hz |
Maximum input current | 25 Aa.c . |
Maximum input active power | 17800 W |
Maximum input apparent power | 17800 VA |
Maximum input active power from grid to battery | 8600 W |
Rated output current | 14.5 Aa.c . |
Maximum continuous output current | 16.0 Aa.c . |
Rated output active power | 10000 W |
Maximum output apparent power | 11000 VA |
Maximum output active power from battery to grid (without PV input) | 9300 W |
Power factor | 0.9 leading~0.9 lagging |
Backup terminal parameter | |
Rated output voltage | 3/N/PE, 230/400 Va.c . |
Rated output frequency | 50 Hz |
Rated output current | 13.3 Aa.c . |
Maximum continuous output current | 14.5 Aa.c . |
Rated output active power | 9200 W |
Maximum output apparent power | 10000 VA |
Object(Figure 01) | Description |
1 | Hybrid Inverter |
2 | EMS Display Screen |
3 | Cable Box (connected to Inverter) |
Object(Figure 02) | Description | Object(Figure 02) | Description |
1 | PV1, PV2 | 2 | BACKUP |
3 | ON GRID | 4 | DRM OR PARALLEL2 |
5 | COM | 6 | METER+DRY |
7 | BAT | 8 | CT |
9 | PARALLEL1 |