Solar Panel Material Manufacturing Is Simple, Saving Power Consumption

A Solar Panel is made up of one or more solar cells into a Solar Panel. A solar cell is a semiconductor device that converts light into electrical properties that converts solar energy radiated from its surface into direct current. The Solar Panel is the most basic component of a photovoltaic power generation system / product and is a solar photovoltaic The core part of the power generation system. Its greatest role is to convert solar energy into electrical storage into the battery.

The sun is a huge energy, it is the form of optical radiation per second to space to launch about 3.8 × 10MW of energy, 2.2 billion one projected to the earth. The sun is reflected by the atmosphere, after absorption, there are 70% transmitted to the ground. Nevertheless, the solar energy received in the year is still as high as 1.8 × 10 ^ 18kW · h.

Since the earth is the main body of the sun to provide the heat and light to survive, and since ancient times humans also know how to sun dry objects, and as a way to save food, such as salt and salted fish and so on. But in the fossil fuel reduction, the intention to further develop solar energy. The use of solar energy has a passive use (light and heat conversion) and photoelectric conversion in two ways. Solar energy is a new type of renewable energy. The broad sense of solar energy is the source of many energy on Earth, such as wind energy, chemical energy, water potential and so on.

(1) Solar Panel

Monocrystalline silicon solar cell photoelectric conversion efficiency of about 15%, the highest reached 24%, which is all types of solar cells in the photoelectric conversion efficiency of the highest, but the production cost is so large that it can not be widely used. As monocrystalline silicon generally used tempered glass and waterproof resin for packaging, so its durable, life is generally up to 15 years, up to 25 years.

(2) polycrystalline silicon solar cells

Polycrystalline silicon solar cell production process and monocrystalline silicon solar cell almost, but the polysilicon solar cell photoelectric conversion efficiency will have to reduce a lot of its photoelectric conversion efficiency of about 12% (July 1, 2004 Japan Sharp market efficiency of 14.8% Of the world 's most efficient polysilicon solar cells). From the production cost, than the Solar Panel to be cheaper, easy to manufacture materials, saving power consumption, the total cost of production is low, so get a lot of development. In addition, the polysilicon solar cell life than Solar Panel shorter. From the performance and price ratio, Solar Panel also slightly better.

(3) amorphous silicon solar cells

Amorphous silicon solar cells in 1976 is the emergence of new thin film solar cells, and monocrystalline silicon and polycrystalline silicon solar cell production method is completely different, greatly simplifies the process, silicon material consumption is small, lower power consumption, its main The advantage is that in low light conditions can also generate electricity. However, the main problem of amorphous silicon solar cells is the low efficiency of photoelectric conversion, the international advanced level of about 10%, and not stable enough, with the extension of time, the conversion efficiency of attenuation.

(4) multi-compound solar cells

Multicomponent compounds Solar cells are solar cells that are not made of single element semiconductors. (A, Ga) solar cells (c) copper indium selenium solar cells (new multi-band gap gradient Cu (In, Ga) Se2 thin film solar cells)

Cu (In, Ga) Se2 is a kind of semiconductor material with good performance and has a gradient energy band gap (the energy difference between the conduction band and the valence band). It can expand the solar energy absorption spectrum range and improve the photoelectric conversion effectiveness. Based on it can be designed to photoelectric conversion efficiency than silicon thin film solar cells significantly improved thin film solar cells. Can achieve the photoelectric conversion rate of 18%, and that such thin film solar cells so far, no light radiation caused by performance degradation effect (SWE), the photoelectric conversion efficiency than commercial thin film Solar Panels increased by about 50 to 75 % Of the world's highest level of photoelectric conversion efficiency in thin-film solar cells.

A solar cell is a device that responds to light and converts light energy into electricity. There are many kinds of materials to produce photovoltaic effect, such as: monocrystalline silicon, polycrystalline silicon, amorphous silicon, gallium arsenide, selenium and other copper. Their power generation principle is basically the same, now crystal silicon as an example to describe the optical power generation process. P-type crystalline silicon doped with phosphorus can be N-type silicon, the formation of P-N junction.

When the light is irradiated on the surface of the solar cell, a part of the photons are absorbed by the silicon material; the energy of the photon is transferred to the silicon atom, so that the electrons are moved and the free electrons are formed on both sides of the PN junction to form a potential difference. When the external circuit , Under the action of this voltage, there will be a current flowing through the external circuit to produce a certain output power. The essence of this process is the process of converting photon energy into electrical energy.