Hybrid Off-grid Solar Inverter | 6500VA/6500W | 48VDC | 80A MPPT Charger | PV INPUT: 90VDC ~ 230VDC | WIFI Module
GRANKIA GMS MAX 6500 120V RGB Wi-Fi solar power inverter 6500w 48v can work with a high voltage photovoltaic field, just like the grid-tie inverters which simplifies the connection, increases efficiency and reduces high current losses.
GRANKIA GMS MAX is a new generation inverter technology that comes with an inbuilt Wi-Fi monitoring device and company fitted battery wire, AC DC Distribution Box. This solar power inverter comes with elegant RGB lights on the front, different color to present output source from PV, Grid or battery and battery charge/discharge status.
GMS MAX 6500 120V RGB Wi-Fi solar power inverter 6500w 48v is a very economical choice for demanding customers who want to own a reliable quality product and trouble-free operation of their installation.
Depending on different power situations, this hybrid solar power inverter is designed to generate continuous power from PV solar modules, battery, and the utility. When MPPT input voltage of pv modules is within acceptable range, this inverter is able to generate power to feed the grid(utility) and charge the battery. Galvanic isolation designed between PV/DC and AC output, so that the users could connect any type of PV array to this hybrid inverter.
1. LCD display 12. Current sharing port
2. Status indicator 13. Parallel communication port
3. Charging indicator 14. Dry contact
4. Fault indicator 15. USB port as USB communication port and USB function port
5. Function buttons 16. BMS communication port: CAN, RS-485 or RS-232
6. Power on/off switch 17. Output source indicators
7. AC input connectors 18. RS-232 communication port
8. AC output connectors 19. RGB LED bar
9. PV connectors 20. 12V DC output connectors (option)
10. Battery connectors 21. Power switch for DC output (option)
11. Remote LCD module communication Port
The LCD display module can be removable and installed in a remote location with an optional communication cable.
Step #1: Remove the screw on the bottom of LCD module and pull down the module from the case. Detach the cable from the original communication interface. Be sure to replace the retention plate back to the inverter.
Step #2: Prepare your mounting holes in the marked locations as shown in the illustration below. The LCD module can be securely mounted to your desired location.
Step #3: After LCD module is installed, connect LCD module to the inverter with an optional RJ45 communication cable.
#1. Single Phase in Parallel
#2. Three Phase in Parallel
#3. Split Phase in Parallel
An inverter is one of the most important pieces of equipment in a solar energy system. It’s a device that converts direct current (DC) electricity, which is what a solar panel generates, to alternating current (AC) electricity, which the electrical grid uses.
A hybrid inverter is a machine that converts DC generated by a solar panel into AC for household appliances. A hybrid solar inverter stores excess solar energy in a storage system that can be used for it, much like a grid-tied. The stored AC power is then converted from the batteries to power the load when needed.
A hybrid inverter paired with a solar battery storage system is a great solution for such a scenario. It ensures you have both off-grid and on-grid capabilities, so you always have access to power, even during a blackout.
Model | GMS MAX 6500 |
PHASE | 1-phase in/1-phase out |
RATED POWER | 6500VA/6500W |
Dimension DxWxH (mm) | 147.4×432.5×553.6 |
Net Weight (kgs) | 18.4 |
INPUT | |
Voltage | 110VAC/ 120VAC |
Selectable Voltage Range | 90-140 VAC (For Personal Computers) |
90-140 VAC (For Home Appliances) | |
Frequency Range | 50 Hz/60 Hz (Auto sensing) |
OUTPUT | |
AC Voltage Regulation (Batt. Mode) |
110VAC/ 120VAC ± 5% |
Surge Power | 13000VA |
Efficiency (Peak) | 93% |
Transfer Time | 15 ms (For Personal Computers); 20 ms (For Home Appliances) |
Waveform | Pure sine wave |
BATTERY | |
Battery Voltage | 48 VDC |
Floating Charge Voltage | 54 VDC |
Overcharge Protection | 66 VDC |
SOLAR CHARGER & AC CHARGER | |
Maximum PV Array Power | 8000W(2*4000W) |
MPPT Range @ Operating Voltage | 90VDC ~ 230VDC |
Maximum PV Array Open Circuit Voltage | 250VDC |
Maximum Solar Charge Current | 80A |
Maximum AC Charge Current | 120A |
Maximum Charge Current | 80A |
SYSTEM | |
Communication Interface | USB/RS232/RS485/WiFi/Dry contact |
OPERATING ENVIRONMENT | |
Humidity | 5% to 95% Relative Humidity(Non-condensing) |
Operating Temperature | -10°C to 50°C |
Storage Temperature | -15°C to 60°C |
* Product specifications are subject to change without further notice.