Applying The Bedini Circuit

All this talk about a Bedini circuit should be making you wonder "What the hell is a Bedini circuit?". As I stated earlier in other blogs the Bedini circuit is all over the Internet. You'll find some great "show and tells" on YouTube. They say a picture is worth a thousand words; so, I've included a pictorial below of a simple Bedini circuit (North Pole Motor).

Note that in the above illustration there is a battery in the circuit. In fact, in some Bedini circuits there are two batteries. The people who have built and put these circuits to test tell us that the batteries are consantly charging. If you can keep two batteries charged through a running Bedini circuit then could twelve batteries be charged? If so, then we have a key component for a residential solar system and even an electric car system that will keep the batteries charged continuously.

Let's take as an example, a residential solar system that puts electricity back into the electrical grid. A solar panel which is a collection of individual solar cells wired together produces so many watts (electrical power) of direct current (dc). A typical solar panel produces about 250 watts of power. If you had 10 of these solar panels mounted on your home's roof then on a sunny day you could produce 2.5 kilowatts of direct current power (not a lot for the average home usage). If you connected the solar panels to ten 12-volt lead batteries connected in series then you could at least on sunny days keep the batteries charged. Taking the power from the batteries into a DC/AC inverter you then could transform the direct current power into alternating current which then is useful for home electrical and electronic applications. In this solar application the key is keeping the batteries fully charged. On sunny days the solar panels do that job very well. But what about not so sunny days? Not much dc power is coming form the solar panels then. That is were the Bedini circuit could play an important role. If the Bedini circuit can continuously charge twelve 12-volt batteries then neither rain or shine (or just cloudy days) would keep you from producing AC electricity. The same could be said for keeping an electric car's system fully charged with DC power.

So, this is were I'm heading with the application of the Bedini circuit: If we can continuously keep batteries charged via a free rotation of a magnet rotor connected to some electrical and electronic components then we could have free green energy that I'm calling Bedini Energy to help us cut our huge energy bills that most of our income goes towards. Until next time ...

Bill

copyright (c)2012 William Janisch All Rights Reserved