K
Klaus Kragelund
- Jan 1, 1970
- 0
Hi
I need to transfer some energy accross a platic barrier. I will be
using a solenoid on both sides of the barrier, one to transmit and one
to receive the energy
First thoughts is to use an air core to provide maximum stray field
(in a ferrite core solenoid the field will be concentrated in the
core, but somehow I think the air core is better over longer
distances)
The barrier is 2mm thick, and may use almost any circuit on both
sides. An HF oscillator on the primary and a simple diode
rectification on the secondary side, preceeded by a capacitor to
adjust the ressonance to get optimum perfomance.
But, I am in US right now, so I have none of my books and the internet
have not helped me in this matter.
The B field of a solenoid is:
B = u0 * uR* I * N
But how do I calculate the B field at say 10mm from the core in order
to be able to calculate the current in the recieving core.
Any ideas?
Thanks
Klaus
I need to transfer some energy accross a platic barrier. I will be
using a solenoid on both sides of the barrier, one to transmit and one
to receive the energy
First thoughts is to use an air core to provide maximum stray field
(in a ferrite core solenoid the field will be concentrated in the
core, but somehow I think the air core is better over longer
distances)
The barrier is 2mm thick, and may use almost any circuit on both
sides. An HF oscillator on the primary and a simple diode
rectification on the secondary side, preceeded by a capacitor to
adjust the ressonance to get optimum perfomance.
But, I am in US right now, so I have none of my books and the internet
have not helped me in this matter.
The B field of a solenoid is:
B = u0 * uR* I * N
But how do I calculate the B field at say 10mm from the core in order
to be able to calculate the current in the recieving core.
Any ideas?
Thanks
Klaus