400w 410w 420w Mono Solar Panel for Home

Introduction

Photovoltaic solar panel is a device that converts light energy directly into electrical energy through the photovoltaic or photochemical effect. At its core is the solar cell, a device that converts the sun’s light energy directly into electrical energy due to the photovoltaic effect, also known as a photovoltaic cell. When sunlight strikes a solar cell, photons are absorbed and electron-hole pairs are created, which are separated by the cell’s built-in electric field to form an electric current.

Panel Efficiency: 400-420w Panel Dimensions: 1903*1134*32mm Max series fuse rating: 25A Max system voltage: 1500v DC

Product Details

Product Tags

Product Introduction

Photovoltaic solar panel is a device that converts light energy directly into electrical energy through the photovoltaic or photochemical effect. At its core is the solar cell, a device that converts the sun’s light energy directly into electrical energy due to the photovoltaic effect, also known as a photovoltaic cell. When sunlight strikes a solar cell, photons are absorbed and electron-hole pairs are created, which are separated by the cell’s built-in electric field to form an electric current.

Product Parameters

MECHANICAL DATA
Number of Cells
108 Cells (6×18)
Dimensions of Module  L*W*H(mm)
1726x1134x35mm (67.95×44.64×1.38inches)
Weight (kg)
22.1 kg
Glass 
High transparency solar glass 3.2mm (0.13 inches)
Backsheet
Black
Frame
Black , anodized aluminium alloy
J-Box
IP68 Rated
Cable
4.0mm^2 (0.006inches^2) ,300mm (11.8inches)
Number of diodes
3
Wind/ Snow Load
2400Pa/5400Pa
Connector
MC Compatible
Electrical Date
Rated Power in Watts-Pmax(Wp)
400
405
410
415
420
Open Circuit Voltage-Voc(V)
37.04
37.24
37.45
37.66
37.87
Short Circuit Current-Isc(A)
13.73
13.81
13.88
13.95
14.02
Maximum Power Voltage-Vmpp(V)
31.18
31.38
31.59
31.80
32.01
Maximum Power Current-lmpp(A)
12.83
12.91
12.98
13.05
13.19
Module Efficiency(%)
20.5
20.7
21.0
21.3
21.5
Power Output Tolerance(W)
0~+5
STC: lrradiance 1000 W/m%, Cell Temperature 25℃, Air Mass AM1.5 according to EN 60904-3.
Module Efficiency(%): Round-off to the nearest number

Principle of operation
1. Absorption: Solar cells absorb sunlight, usually visible and near-infrared light.
2. Conversion: The absorbed light energy is converted into electrical energy through the photoelectric or photochemical effect. In the photoelectric effect, high-energy photons cause electrons to escape from the bound state of an atom or molecule to form free electrons and holes, resulting in voltage and current. In the photochemical effect, light energy drives chemical reactions that produce electrical energy.
3. Collection: The resulting charge is collected and transmitted, usually by means of metal wires and electrical circuits.
4. storage: electrical energy can also be stored in batteries or other forms of energy storage devices for later use.

Application

From residential to commercial, our solar panels can be used to power homes, businesses and even large industrial facilities. It is also ideal for off-grid locations, providing reliable energy to remote areas where traditional power sources are not available. Additionally, our solar panels can be used for a variety of purposes, including powering electronic devices, heating water, and even charging electric vehicles.

Packing & Delivery

Company Profile


  • Previous:
  • Next:

  • Write your message here and send it to us

    Professional technical engineer dedicated to guide you

    According to your actual needs, choose the most reasonable overall design and planning procedures