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How A Photovoltic Cell Works ----
Return Photovoltaics
The "photovoltaic effect" is the basic physical process through which a PV cell converts sunlight into electricity. Sunlight is composed of photons, or particles of solar energy. These photons contain various amounts of energy corresponding to the different wavelengths of the solar spectrum. When photons strike a PV cell, they may be reflected or absorbed, or they may pass right through. Only the absorbed photons generate electricity. When this happens, the energy of the photon is transferred to an electron in an atom of the cell (which is actually a semiconductor). With its newfound energy, the electron is able to escape from its normal position associated with that atom to become part of the current in an electrical circuit. By leaving this position, the electron causes a "hole" to form. Special electrical properties of the PV cell-a built-in electric field-provide the voltage needed to drive the current through an external load (such as a light bulb).
p-Types, n-Types, and the Electric Field
To induce the electric field within a PV cell, two separate semiconductors are sandwiched together. The "p" and "n" types of semiconductors correspond to "positive" and "negative" because of their abundance of holes or electrons (the extra electrons make an "n" type because an electron actually has a negative charge). Although both materials are electrically neutral, n-type silicon has excess electrons and p-type silicon has excess holes. Sandwiching these together creates a p/n junction at their interface, thereby creating an electric field. When the p-type and n-type semiconductors are sandwiched together, the excess electrons in the n-type material flow to the p-type, and the holes thereby vacated during this process flow to the n-type. (The concept of a hole moving is somewhat like looking at a bubble in a liquid. Although it's the liquid that is actually moving, it's easier to describe the motion of the bubble as it moves in the opposite direction.) Through this electron and hole flow, the two semiconductors act as a battery, creating an electric field at the surface where they meet (known as the "junction"). It's this field that causes the electrons to jump from the semiconductor out toward the surface and make them available for the electrical circuit. At this same time, the holes move in the opposite direction, toward the positive surface, where they await incoming electrons. Making n and p Material The most common way of making p-type or n-type silicon material is to add an element that has an extra electron or is lacking an electron. In silicon, we use a process called "doping." We'll use silicon as an example because crystalline silicon was the semiconductor material used in the earliest successful PV devices, it's still the most widely used PV material, and, although other PV materials and designs exploit the PV effect in slightly different ways, knowing how the effect works in crystalline silicon gives us a basic understanding of how it works in all devices. Absorption and Conduction In a PV cell, photons are absorbed in the p layer. It's very important to "tune" this layer to the properties of the incoming photons to absorb as many as possible and thereby free as many electrons as possible. Another challenge is to keep the electrons from meeting up with holes and "recombining" with them before they can escape the cell. To do this, we design the material so that the electrons are freed as close to the junction as possible, so that the electric field can help send them through the "conduction" layer (the n layer) and out into the electric circuit. By maximizing all these characteristics, we improve the conversion efficiency* of the PV cell.
To make an efficient solar cell, we try to maximize absorption, minimize reflection and recombination, and thereby maximize conduction. *The conversion efficiency of a PV cell is the proportion of sunlight energy that the cell converts to electrical energy. This is very important when discussing PV devices, because improving this efficiency is vital to making PV energy competitive with more traditional sources of energy (e.g., fossil fuels). Naturally, if one efficient solar panel can provide as much energy as two less-efficient panels, then the cost of that energy (not to mention the space required) will be reduced. For comparison, the earliest PV devices converted about 1%-2% of sunlight energy into electric energy. Today's PV devices convert 7%-17% of light energy into electric energy. Of course, the other side of the equation is the money it costs to manufacture the PV devices. This has been improved over the years as well. In fact, today's PV systems produce electricity at a fraction of the cost of early PV systems.
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How do you we make solar electronic bell?
firstly you will need a solar cell 3V to power your electronic bell .after that you can make a 5Khz sine wave geneartor and connect it to solar cell and you should also use a timing and control circuit to cuttoff the bell after some time and when any one press the switch circuit energies and take the power from solar cell and alarm will start.
What is the Maximum output of solar cell in voltage?
i beleve it is 12 volts
Senses light and converts it into electricity?
Solar cell is the device which converts the light energy to electrical energy it convert photons to dc energy for more information you can visit the several sight which can give you information about solar cell. it is semiconductor device fabrication is done by using silicon p-n junction.
How does the output voltage of a solar cell depend on thearea of the solar cell exposed to the light?
because the out put voltage of a solar cell is directly proportional to the area of the solar cell exposed to sun light. Testing your solar cell with the application of shading will cause a loss of power and lower voltage and current at the peak power point, However, if you are measuring open circuit voltage only, and this is only one cell, not a collection of solar cells making up one solar panel, the open circuit voltage will stay almost the same until full shade is applied. I would need more information on the solar cells such as are there many in one panel that you are testing or just one solar cell. Is it an array you are testing or just one panel? I will assume it is one panel since you said "solar cells". This means the first statement I made holds in that the open circuit voltage will change very little with the application of shade. A better test is to measure the short circuit current flow. Short the output leads together and measure the maximum current yo can get in full sun light. Now apply your shading and continue measuring the current. Make up a table Shade---------------------Current Measured 0%--------------------------2 amps 10%------------------------1.8 amps . . . 80%-----------------------0.4 amps Now repeat the measurements only this time open circuit the solar cells, no load of any kind, just the voltmeter. Shade-----------------------Volts 0%---------------------------35 volts 10%-------------------------35 volts 50%------------------ To complete the testing use a variable resistor and a watt meter. Make a table recording the the shading and maximum power you could develop and the voltage across the resistor. For instance, in full sun light, adjust the resistance until you get the peak or maximum power reading on your watt meter.
What is output short circuit current?
The output short circuit current is the solar cell's current when the voltage is zero, or when it, is short circuited.
How do you explain the working of fuel cell?
To drink your milk shake
How does the acid growth hypothesis explain the working mechanism of auxin?
stretching the affected cell walls
Do broken solar cells work?
Yes you can use broken solar cells. It will require work on your side, but it is do able.There are many websites available for you to read that explain how to combine multiple broken cells into one large working cell...http://www.otherpower.com/otherpower_solar_repair.htmlYes you can make solar panels from broken solar cells,with broken solar cells, they are the most commonly used for beginners, simply because they are reasonably cheaper than new or "whole" solar cells. Make sure when buying your cells they have present on each cell both soldering tabs. This is necessary to make your soldering connections. Remember, on most solar cells whole or broken, the top or the front of the cell is negative and the bottom or the back of the cell is positive read the rest on my FREE DIY SOLAR PANELE-Book at https://sites.google.com/site/earthforsolar/homefor solar cells www.solarcells101.com
How do you make a solar cell on little alchemy?
metal + human = tool tool + sun = solar cell sun + solar cell = electricity
What does the solar cell do in space?
The function of solar cell is to convert the energy from the sun into electricity. This is commonly referred to as a photovoltaic cell.
What is a solar cell?
A solar cell is an electronic device that converts sunlight into electricity. An array of them is called a solar panel.
What has the author Bernard Gonzales Carbajal written?
Bernard Gonzales Carbajal has written: 'High efficiency cell development' -- subject(s): Solar cells, Design and construction
Is a solar cell an energy source?
A solar cell is not an energy source, but an energy converter. In the case of solar, the energy source is light, and the solar cell converts it from light energy to electrical energy.
What is Organic Solar Cell?
It is a cell that coverts solar energy into electrical energy
How is chlorophyll like a solar cell?
It absorbs light just like a solar cell
What is the energy change of a solar cell?
I've found it out. It's; Light-->solar cell-->voltmeter.
How much power can a solar cell produce?
That will vary a lot, depending on the size of the solar cell.
