Megarevo H3 Series offers four power rates including 8kW, 10kW, 12kW and 15kw 3 phase hybrid inverter to meet diverse residential energy needs. The 3-phase hybrid inverter supports both single-phase and three-phase loads, and can handle 100% unbalanced loads. With maximum efficiency of 97.9% and multiple MPPT inputs, it is designed to increase energy independence and maximize energy harvest for homeowners.
【Reduce Electricity Costs by 50% Per Year】Megarevo’s 3 phase hybrid inverter achieves up to 97.9% efficiency and supports self-consumption, peak-shaving, and UPS backup. By storing solar energy for nighttime use and shifting loads away from high-tariff periods, the residential hybrid inverter helps homeowners reduce their annual electricity bills by up to 50%, ensuring both cost savings and a reliable power supply.
【Free Energy Available at Night】With efficient battery storage, the hybrid 3 phase inverter lets homeowners use stored solar power at night, reducing grid dependence and enjoying free electricity after sunset.
【Participate in Peak Load Shifting to Gain Additional Economic Benefits】During high tariff periods, our inverter draws energy from stored sources instead of the grid, reducing electricity costs and smoothing household energy bills. By participating in peak-load shifting, Megarevo’s H3 Series is one of the best three phase hybrid inverter products for giving homeowners extra economic benefits.
【Keeping Critical Load Operation in Power Off】The inverter provides uninterrupted power for homeowners, ensuring critical loads continue to operate even during a power outage.
【Support 7*24 Remote Service and Various Model Options】As an experienced 3 phase hybrid inverter factory, Megarevo support 24×7 remote service. They allow homeowners to monitor system performance, receive real-time alerts, and perform remote troubleshooting, reducing maintenance costs and downtime.
| Model | R6KH3-P | R8KH3-P | R10KH3-P | R12KH3-P | R15KH3-P |
| PV input data | |||||
| Max. PV input power (kW) | 9 | 12 | 15 | 18 | 22.5 |
| Max. PV input voltage (V) | 1,000 | ||||
| Min. PV input voltage (V) | 125 | ||||
| Start-up voltage (V) | 125 | ||||
| MPPT voltage range (V) | 180~850 | ||||
| MPPT voltage range@full-load (V) | 250~850 | ||||
| Rated PV input voltage (V) | 600 | ||||
| No. of MPPT trackers | 2 | ||||
| No. of strings per MPPT tracker | 1/1 | 2/2 | |||
| Max. input current per MPPT (A) | 18/18 | 20/20 | |||
| Max. short-circuit current per MPPT (A) | 25/25 | 30/30 | |||
| Battery input data | |||||
| Battery type | Lithium-ion / Lead-acid | ||||
| Max. charge / discharge power (kW) | 6.6 | 8.8 | 11 | 13.2 | 16.5 |
| Battery voltage range (V) | 150~550 | ||||
| Battery voltage range@full-load (V) | 180-550 | 230-550 | 285-550 | 340-550 | 425-550 |
| Max. charging / discharging current (A) | 50/50 | ||||
| Rated charge / discharge current (A) | 40/40 | ||||
| Battery charging strategy | Self-adaption to BMS | ||||
| BMS communication | CAN | ||||
| AC output data (grid side) | |||||
| Rated output power (kW) | 6 | 8 | 10 | 12 | 15 |
| Max. apparent output power (kVA) | 6.6 | 8.8 | 11 | 13.2 | 16.5 |
| Max. apparent input power(kVA) | 13.2 | 17.6 | 22 | 26.4 | 33.3 |
| Rated grid voltage (V) | 220 / 380; 230 / 400 | ||||
| Grid voltage range (V) | 187~264.5 | ||||
| Grid input voltage (V) | 380; 400 | ||||
| Rated grid frequency (Hz) | 50/60 | ||||
| Grid frequency range(Hz) | 45-55 / 55-65 | ||||
| Rated output current (A) | 8.7 | 11.5 | 14.4 | 17.3 | 21.7 |
| Max. AC output current (A) | 9.5 | 12.7 | 15.9 | 19.1 | 23.8 |
| Power factor | >0.99 (0.8 leading ~ 0.8 lagging) | ||||
| THDi | <3% | ||||
| Grid type | 3L+N+PE | ||||
| AC output data (back-up) | |||||
| Rated output power (kW) | 6 | 8 | 10 | 12 | 15 |
| Max. apparent output power (kVA) | 6.6 | 8.8 | 11.1 | 13.2 | 16.5 |
| Rated output voltage (V) | 220 / 380; 230 / 400 | ||||
| Rated output frequency (Hz) | 50/60 | ||||
| Rated output current (A) | 8.7 | 11.5 | 14.4 | 17.3 | 21.7 |
| Max. AC output current (A) | 9.5 | 12.7 | 15.9 | 19.1 | 23.8 |
| Peak output power | ≥110%, 10mins;≥120%, 1.25min;≥150%, 20ms | ||||
| Back-up switch time (ms) | <10 | ||||
| THDu | <2% | ||||
| Protection | |||||
| Supported protection | PV reverse polarity protection, Anti-islanding protection, Ground fault protection, Battery reverse protection, Leakage current protection, Insulation resistance detection, Backup output short circuit protection, AC under-voltage protection, AC output over-current protection, AC over-voltage protection | ||||
| Over voltage category | DC Type II / AC Type III | ||||
| Certifications and standards | |||||
| Certificates | IEC 61000-6-1/-2/-3/-4, IEC 61000-3-11, IEC61000-3-12; EN 62109-1, EN 62109-2; EN50549-1; EN50549-10; EN50438; G98/G99:2022; VDE-AR-N 4105:2018; CEI 0-21:2022; C10/11; Rfg:2016/NC Rfg:2018/PTPiREE:2021; NRS 097-2-1:2017; Hungary; NTS V2.1:2021-07&UNE217002:2020&UNE217001:2020; NA/EEA-NE7 – CH 2020; OVE Directive R 25:2020, TOR Erzeuger Type A V1.2; TR3.3.1:2019;ANRE228; ANRE228; NA/EEA-NE7; PPDS:2022 for A1&A2; RS 097-2-1 :2017; OVE Directive R 25:2020, TOR Erzeuger Type A V1.2; EIFS 2018:2 | ||||
| General data | |||||
| Ingress protection | IP65 | ||||
| Operating temperature range (℃) | -25~+60 | ||||
| Cooling | Natural cooling | ||||
| Relative humidity | 0-95% | ||||
| Operating altitude (m) | 4,000(>2,000 power derating) | ||||
| Dimensions W*D*H (mm) | 566*593.5*219.5 | ||||
| Weight (kg) | 32 | ||||
| Topology (solar / battery) | Transformerless / Transformerless | ||||
| Noise emission (dB) | <45 | ||||
| Display and communication | |||||
| Display | Monochrome screen | ||||
| Communication | RS485,CAN,WiFi | ||||
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