physior said:
hello!
as for wireless transmission of energy, what is the efficiency and how far the item can be?
I hesitate to give numerical values. But I will say that the technology has advanced greatly over the last decade or so.
Two aspects are important to achieve better efficiency:
- Keep the effective transmission and reception coils as closely, spatially aligned as reasonably possible. This might ("might" is important here; not all systems do this) involve electronic circuitry that effectively changes the properties of the coils' position/alignment/radius, or switch between which coils are active and which are idle.
- Maintain a high resonance. This may involve active circuitry to maximize resonance between the transmitter and receiver coils.
Regarding the second point. Imagine a large pendulum across the room and you wish to transfer energy to this pendulum through a slinky. You can hold one side of the slinky and shake it; the other side of the slinky is attached to the pendulum.
If you just shake the slinky wildly, most of the energy you put into it is wasted, and very little gets to the pendulum.
If instead you carefully time you pulling and pushing to match the natural motion of the large pendulum, in time, after many pushes, you can transfer quite a lot of energy to the pendulum through the slinky (similar in a way to how you need to time your "pushes" correctly when pushing a child on a swing). It may take many, small pushes for the pendulum to gain appreciable movement, but in this way most of the energy of each push makes it to the pendulum (and is not wasted).
It is maintaining the resonance that is key to efficient, wireless energy transfer. [Edit: particularly, this resonance is the key if the coils are not so tightly coupled.]
where can I read more about it?
I would start by googling terms like "wireless charging," "inductive charging," "magnetic resonance," "
Qi inductive power standard"