GEN-LB-EU 7-10K
Single Phase | Hybrid Series | 2 MPPT
▪ Durable battery terminals
▪ Supports up to 10pcs in parallel for on/off grid
▪ AC coupling function
▪ Smart load prioritize necessities
▪ Auto Gen control
▪ Octopus smart time of use, weather optimize
Intelligent working modes
▪ Weather Compensation and Smart Octopus charging packages
▪ Self consumption mode for high tariff areas
▪ Charge priority mode for areas where grid power is unstable
▪ Force charge & discharge mode for variable tariff integration
Smart EPS (Emergency Power Supply)
▪ Plug & Play integrated changeover, seamless switching under
20ms
▪ Auto backup power for critical load emergency supply
Intelligent Battery Integration
▪ Remote upgrade for battery management system (BMS) firmware
▪ Wide range of compatible battery brands
▪ Auto 'wake-up' function of lithium battery from sleep mode
▪ Essential info uploaded to Lux server for quick ESS diagnosis
▪ Battery sharing with multi-inverters in single phase or three phase
Product Parameters
INPUT (PV DC) |
GEN-LB-EU 7K |
GEN-LB-EU 8K |
GEN 10K |
Max. PV array power(W) |
12000 |
12000 |
15000 |
Rated PV input voltage(V) |
360V |
Number of independent MPPT inputs |
2 |
PV input voltage range(V) |
100~600 |
MPPT voltage range(V) |
120~500 |
Start-up voltage(V) |
140 |
Max. PV input current per MPPT(A) |
25 |
Max. PV short-circuit current input per MPPT(A) |
34 |
Battery |
Compatible battery type |
Lithium-ion/Lead-Acid |
Rated battery voltage(Lithium-ion/Lead-Acid) (V) |
48 |
Battery voltage range(V) |
40~60 |
Max. charging/discharging current(A) |
146 |
167 |
210 |
Max. charging/discharging power(W) |
7000 |
8000 |
10000 |
Force wake up battery from PV fuction(Y/N) |
Y |
Grid |
Rated AC voltage(V) |
230 |
Rated AC frequency(Hz) |
50/60 |
Rated AC output current(A) |
30.4 |
34.7 |
43.5 |
Rated AC output power(W) |
7000 |
8000 |
10000 |
Max. AC intput current(A) |
63 |
PF |
0.99(Adjustable from 0.8 leading to0.8 lagging) |
THDI |
<3% |
Rated AC current of BYPASS relays(A) |
90 |
UPS |
Rated output power(W) |
7000 |
8000 |
10000 |
Rated output voltage(V) |
230 |
Rated output current(A) |
30.4 |
34.7 |
43.5 |
Surge power, duration |
2Pn, 0.5s |
Switching time(UPS ) |
<20ms |
Wave form |
Sine wave |
THDV |
<3% |
Efficiency |
MPPT efficiency |
99.90% |
Max. efficiency@PV to grid |
97.50% |
Max. efficiency@battery to grid |
94.00% |
Max. charging/discharging efficiency |
94.00% |
General |
Dimensions(W*H*D) |
584*536*290mm/23*21.1*11.4inch |
Weight(kg) |
42.64kg |
Ingress protection rating |
IP65/NEMA 4X |
Relative humidity |
0~100% |
Operating environment temperature range |
-25~60°C |
Storage temperature range |
-25~60°C |
Display & Communication interface |
Touch color screen, RS485/Wifi/CAN |
Warranty |
5 years |
Cooling method |
Smart cooling |
Topology |
Transformer-less |
Altitude |
<2000m |
Noise emission(typical) |
<50dB |
Installation Instructions
Solar Hybrid Inverter Application
System Connection
A newly designed solar and energy storage hybrid inverter, capable to install in on-grid solar, off-grid solar and back-up systems. LXP Hybrid enables a programmable and scheduled smart solar energy storage system to help increase your solar energy self-consumption rate, protect your home appliances from grid shortage, and balance your energy usage strategy to save energy bill.
Working Modes
LXP hybrid inverters support variable working modes
- Self consumption mode: the solar hybrid inverter will first use the solar energy for the house load first, the left solar power will be used to charge the battery. After the hybrid inverter's battery is charged, the solar energy can be fed into the grid.
- Force charge and discharge mode: inverter will charge or discharge battery according to the time users set.
- Charge first mode: the solar energy collected by the hybrid inverter will be used to charge the battery first. then take family load and at last feed into grid. This mode of the hybrid inverter is suitable for areas with unstable power supply from the grid.
Parallel Connection
The LXP hybrid inverter MG series support parallel connection function. Which means users can extend their off grid power very easily. Due to the advanced control method, there are some advantages for the parallel system:
1. As more as 10 inverters can be connected
2. There is no requirement for same length of cable connection
3. Users can connect all inverters to a big battery bank or connect to different battery group