Product Description:
This small grid-tied solar inverter boasts several advantages. Firstly, high-quality materials and advanced manufacturing techniques guarantee the product's quality and stability. Additionally, its high-performance maximum power point tracking (MPPT) function better tracks the maximum power point of the solar PV system, resulting in maximum output power. Further, the inverter has various protection functions such as overvoltage, undervoltage, overcurrent, over-temperature, and more, ensuring the safe operation of the solar PV system.
The micro inverter is also very safe, with a low voltage design that enhances its reliability. Fireproof materials and a lightning protection design further improve its safety performance. The product is also highly efficient, easy to install, and maintain. It adopts a modular design, and if one module fails, it only needs to be replaced, without impacting the operation of the entire system. The product is widely applicable, from small home systems to large commercial systems, with low noise and high energy utilization efficiency, which can effectively reduce environmental pollution.
Additionally, the inverter adopts an aluminum alloy shell and a design with side grooves for improved heat dissipation, making it perform better in high-temperature environments and ensuring stable operation of the solar PV system. In conclusion, our inverter's performance, safety, ease of use, and environmental performance provide unique advantages.
product information:
Category: Solar Microinverter
Brand: EOEXBY
Model: RT series
Material: aluminum alloy
Product size: 22*10*4.5cm 9*4.5*1.12in
Packaging size: 30.05*14*7cm 12*5.05*2.13in
Net weight: 0.9KG 900g
Gross weight: 1.08KG 1080g
Package includes: Inverter*1/Screw set*1/AC power cord*1/User manual*1
Specifications:
1.Maximum AC output power: 300W/500W/700W
2.Rated AC output power: 280W/480W/680W
3.DC input: 18V-50V
4.Starting voltage range: 20V-50V
5.AC output voltage: 120V/240V (Auto)
6.Frequency range: 50/60Hz (automatic)
7.Maximum power tracking range: 20V-50V
8.Solar panel voltage: Vmp:18V-50V; Voc:36V-50V
9.Solar panel power: maximum 300W/500W/700W
10.Power supply system type: Single-phase/Two-phase/Three-phase (suitable for power supply in commercial/residential, small commercial places, large commercial and industrial facilities)
11.Certification: CE (please contact customer service for other certifications if needed)
12.Multiple protection functions: overvoltage protection, undervoltage protection, overcurrent protection, overtemperature protection, island protection, etc.
User notice:
(1)This equipment is an ON-GRID Microinverter and must be correctly connected to the power grid to work properly. When the power grid stops working, it will also stop generating.
Do not exceed PV panel(s) voltage over the inverter max input voltage (Voc<50V).
Do not exceed PV panel(s) power over the inverter max input power.
The positive and negative poles of the solar panel cannot be reversed. Be careful when extending the solar panel cable.
Install the inverter away from direct sunlight and direct rain exposure in a ventilated, dry, and cool place.
(2)LED DISPLAY Steady green light indicates the microinverter is generating power.
Flashing red light indicates the microinverter is in standby mode.
Steady red light indicates the following protections are in place:
a. Island protection b. Over-temperature protection
c. Over/low AC voltage protection d. Over/low DC voltage protection
e. Over/low AC frequency protection f. Fault protection
(3)INSTALLATION PROCEDURES*Prior to installing the Microinverters, Please verify that the utility voltage at the point of common grid connection matches the voltage rating on the Microinverter label.
Step 1- Attaching the Microinverters to the Racking.
a. Mark the location of the Microinverter on the rack, with respect to the PV module junction box or any other obstructions.
b. Mount one Microinverter at each of these locations using hardware ecommended by your module racking vendor.
Step 2 – Connecting the Microinverter AC cable and connectiong to AC bus cable(L-BROWN,N-BLUE,GGREEN&YELLOW) one by one, Please do NOT exceed the Maximum current of AC bus cable .
Step 3 – Connecting Microinverters to the PV Module,Please do NOT exceed PV panel(s) VOC over inverter max input voltage.
Step 4 – Install the AC Branch Circuit Junction Box,Wire the conductors of the AC bus cable. Connect the AC branch circuit junction box to the point of utility-grid Interconnection.
Step 5 – Double check all Microinverters, connectors and cables are correctly and well connected.
Step 6 – Turn ON the AC circuit breaker on each AC branch circuit of Microinverter .
Step 7 – Turn ON the main AC circuit breaker of utility-grid. Your system will start producing powerafter a 3sec safety delay period.