Specifications

Hydropower was an option but we needed a running stream to harness this energy.

There is a high probability that the user will be in a area that a running source of water

will not be available so there is no reason to use this as a primary source of energy.

In our design we will be using Solar Panels to charge our battery. These panels output

12 volts, which we will use to charge the battery by using sunlight. They will be mounted

on our box in such a way to optimize sunlight. They will have a buffer that connects

between them and the battery. This is important because we don‟t want power to be lost

if the battery is low by returning back to the solar panel. There will be a buffer to keep

the energy flowing in one direction and not back to the other direction.

We found that they are many different types of solar panels. Some of the types of

panels that we ran into are included mono-crystalline, polycrystalline, amorphous, and

finally a non-silicon solar panel named Copper Indium Gallium de-Selenide (CIGS). In

the later sections we will discuss the different types of solar panels and why we one

over the other.

The first type of solar panel we came across was mono-crystalline. These had high

outputs but were very expensive to implement. The output of these types of panels were

a bit higher than the others ranging up to 20% more efficient. The process these panels

are made make them a very expensive option usually ranging in prices from $800.00 for

a panel that produces 130 watt of power. One of the main advantages of this type of

panel is it has very low to no maintenance. Because of this, the panels are usually more

expensive than other types of solar panels. These panels are made from a very pure

crystal ingot, which must be purified by using a process that is expensive as well as

making the product very fragile and would not work well with our project since we need

it to me durable as well as strong since it will be moving around a lot by taking it to

different locations.

The next type of PV Array is polycrystalline which is usually used in home installations

because of their cost and power generation. Unlike the mono-crystalline which comes

from a pure ingot, polycrystalline is created by a less than pure state. Because of this

cost is usually less and is often the preferred medium rather than mono-crystalline. It

does create less energy than the mono-crystalline but are usually preferred among

home users. It usually is on the range of generating 11 to 13 percent efficiency which

usually has a mosaic type finish due to the different method used to create it. As you

can see in the photo below these types of solar panels are very bulky. This is why we

won‟t be using this type of panel in our design.