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For what reason are So Many People Switching to CBD Vape Pens?

Posted by JUST CBD on May 24, 2022 at 5:55pm 0 Comments

CBD vaping is one of the most widely recognized drifts all around the world which individuals as youthful as 14-year-old adolescents to try and individuals as old as 70 years of age smoke CBD vape pens. CBD oils have a great deal of medical advantages right from muscle relaxant to stretch easing and working on profound wellbeing.

Alongside such countless advantages of smoking CBD vape pens, changing to CBD vaping has a great deal of advantages too which have prompted the…


Solar Panels Provide a Green Energy Solution Using High Tech Computer Manufacturing Processes

Solar cell technology has been in existence for over 60 years. Solar modules, commonly referred to as photovoltaic panels, have been used to generate electricity from light ever since the silicon based semiconductor was invented. No longer a laboratory curiosity, solar cells are an industry unto themselves and are as common in energy generation as conventional power generation methods such as steam turbine driven generators and nuclear power plants. There are many solar energy collection methods in use and available today. We will investigate the more common electricity producing solar energy devices: photovoltaic cells and PV modules. NIU Powering the green future

How does a PV module generate electricity from light?

Solar Cell

Solar cells are made of materials that are electrically activated when light strikes their surfaces. This unit, a solar cell, operates without moving parts and never wears out! Add many cells together and you have a solar array or a photovoltaic module. The more cells, the higher the power that is possible to generate from the modules.

Cell Layers

The top layer of the solar cell or wafer contains a silicon layer which has free electrons which are negatively charged particles. A boron enhanced bottom layer contains spaces or holes, that let electrons move into the open spaces. The manufacturing process creates this electron imbalance between the two layers within this semiconductor material. This imbalances is responsible for the operation of the solar cell which creates the electrical current and voltage.

The Sun Strikes the Solar Cell

Photons from the sun hit the outside of the photovoltaic cell. This activity excites the free electrons in both silicon layers. Some electrons in the bottom layer travel to the silicon layer at the top of the cell. Electron flow moves through metal contacts located on the solar cell's front and back which creates electricity. Electrons flow in a closed loop or electrical circuit. Combining multiple solar cells has an additive effect on voltage and current depending on how they are "strung" together. Think of each cell as a battery. Stringing the cells in series (negative to positive) will add voltage and keep amperage the same as for one cell. Stringing the cells in parallel will keep voltage the same as for one cell but add the amperage of the cells.

Powering With Solar

Solar panels generate electrical current which is transmitted to an inverter. The inverter changes direct current into alternating current which matches the electricity that your power company provides. Appliances and power equipment operate with AC current. In the United States, power is generated at 60 hertz whereas in Europe, 50 hertz is the norm.

The solar electrical power feeds into the wiring of a house, business or power plant and into the electrical utility's power grid. An independently operated power system also can act as its own utility. This "off-grid" system requires batteries to store power when the solar panels produce more power than the load needs and is discharged when the solar modules cannot capture enough energy from the sun to offset the electrical loads from the home or business.

Converting Silicon Wafers Into Photovoltaic Cells

The computer chip industry has made the low cost production of the solar cell possible. The strides in yield, processing and quality have made the photovoltaic cell manufacturing process current state-of-the-art and scalable. While the process is matures for silicon wafer production, the techniques are time consuming and important in achieving the desired performance outcomes. The silicon wafer starts out as an ingot of silicone material and then is sawn into the characteristically round wafers that you see on a solar module.

EtchingA Wafer

The part of the solar cell process requiring a clean room incorporates chemical and heat treatments that convert the greyish silicon wafers into live, blue colored cells. A chemical etch removes a tiny layer of silicon. Underneath this layer, a crystal structure reveals a pyramid shaped surface that absorbs more light.


Silicon wafers are placed into ovens where phosphorus is diffused into the wafer surface. This step deposits a molecular sized deposit as the wafer surface is exposed to phosphorus gas at a high heat. This step gives the surface a negative potential electrical charge. This layer and the boron-doped layer beneath the surface create a positive-negative, or P/N, junction which is the basis of a PV cell. This is also how a semiconductor chip is made.

Coloring And Printing

The cells are placed into vacuum chambers where silicon nitride is deposited onto the side of the wafer that will be exposed to the sunlight. The coating with silicon nitride is designed to reduce light reflection. This process gives the cell its dark blue color. The cell is ready to produce electricity but still need a means to collect and forward the power to the load. Metal stripes are printed on both sides of the cell so that electrical charge collection and landing areas for wires can be added to the wafer. When this step is complete, the cell is ready to produce power.

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