You could. There’s a huge community online that’s started a new project: making an electronic version of the standard power supply. The challenge was that the electronics were only about a few hundred thousand of them (although there are several variations of this system at present).
A few days ago I posted about the creation of a new lightbulb, using the same method as they have been using before: a “bricked” switch to control and send power. Now I can announce that a different group, calling themselves Power Led, have produced an improved and simpler version. But first I must show that some of the old ideas are still viable, in that if this device can only deliver one photon per second per switch it can be made to work.
The Power Led system consists of an Arduino Micro, a 3.7V Lithium Ion battery and a 3.10V 4 cell Lipoly, the latter of which works by dissolving and releasing a small amount of Hydrogen peroxide (H2O2) that then burns itself to leave behind an electrically conductive layer on the surface of the battery. The Li-Ion battery has a capacity of about 2.5A and the Li-Oon battery about 1.5A when fully discharged.
With this setup we can now do something that we’ve not seen before, which is to produce a small number of photons using a battery charge. Of course we’ve used a switch, but perhaps that’s not the most important aspect of the battery. What is important is that we can use the electrical properties of the Li-Ion instead of some common “solution” such as “switching resistors.”
The Li-Ion battery has a very low power conversion efficiency so, without a source of electrical power to drive the switch, the battery should only provide a single photon a second per switch. For example, in our first project we used a small battery that had a rated capacity of two milliwatts, and the battery only produced one photon a second per switch.
However, this is not the final end. The Power Led device uses another Li-Ion battery. It’s called a Li-Ion battery, in part because it was originally used in the electric car industry (see Fig. 1). The other interesting property is that it uses an electrolyte. This electrolyte contains sodium and magnesium, both of which contain hydrogen and oxygen molecules in much smaller quantities than the air that the switch needs to switch
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