Faraday's Law

[Brent]

I am trying to design AC magnetic field detector, to detect a signal of
75KHz from a wire loop. For a maximum efficiency I need to know how to
design the coil for its resonance. I have the formula (Faraday's Law on
Induction?),
fo=29.85(h/d)1/5 divided by nd. My question is how to associate the
variables of the formula. How many turns wire do I make, what diameter &
what height. Also do I need a ferrite core, or a nonmagnetic core. Should
I incorporate a capacitor into my circuit, but what size?

Any help would be appreciated,
Brent

 

[ddwyer]

In article <9B_bc.47909$vJ1.8026@okepread01>, Brent <brentl@hub.oftherem
oveforspam.net> writes

I am trying to design AC magnetic field detector, to detect a signal of
75KHz from a wire loop. For a maximum efficiency I need to know how to
design the coil for its resonance. I have the formula (Faraday's Law on
Induction?),
fo=29.85(h/d)1/5 divided by nd. My question is how to associate the
variables of the formula. How many turns wire do I make, what diameter &
what height. Also do I need a ferrite core, or a nonmagnetic core. Should
I incorporate a capacitor into my circuit, but what size?

Any help would be appreciated,
Brent
What is the frequency range you want to detect/measure?
If a single frequency then resonate the coil with a capacitor.

If broad band then terminate the coil in an a voltage amplifier..
I didithis latter years ago to measure magnetic fields from power lines
and electric cooker etc.



--
ddwyer

 

[Brent]

How do I calculate the size of capacitor that I need?


Thanks,
Brent

"ddwyer" <dd@ddwyer.demon.co.uk> wrote in message
news:JleixoACVIcAFw5B@ddwyer.demon.co.uk...

In article <9B_bc.47909$vJ1.8026@okepread01>, Brent <brentl@hub.oftherem
oveforspam.net> writes
I am trying to design AC magnetic field detector, to detect a signal of
75KHz from a wire loop. For a maximum efficiency I need to know how to
design the coil for its resonance. I have the formula (Faraday's Law on
Induction?),
fo=29.85(h/d)1/5 divided by nd. My question is how to associate the
variables of the formula. How many turns wire do I make, what diameter &
what height. Also do I need a ferrite core, or a nonmagnetic core.
Should
I incorporate a capacitor into my circuit, but what size?

Any help would be appreciated,
Brent
What is the frequency range you want to detect/measure?
If a single frequency then resonate the coil with a capacitor.
If broad band then terminate the coil in an a voltage amplifier..
I didithis latter years ago to measure magnetic fields from power lines
and electric cooker etc.






--
ddwyer

 

[Rene Tschaggelar]

the resonance frequency is omega=1/sqrt(L*C)
A few tries are usually much simpler, as
calculating the selfinductance of your coil is
not trivial.

Rene
--
Ing.Buero R.Tschaggelar - http://www.ibrtses.com
& commercial newsgroups - http://www.talkto.net

Brent wrote:

How do I calculate the size of capacitor that I need?


Thanks,
Brent

"ddwyer" <dd@ddwyer.demon.co.uk> wrote in message
news:JleixoACVIcAFw5B@ddwyer.demon.co.uk...

In article <9B_bc.47909$vJ1.8026@okepread01>, Brent <brentl@hub.oftherem
oveforspam.net> writes

I am trying to design AC magnetic field detector, to detect a signal of
75KHz from a wire loop. For a maximum efficiency I need to know how to
design the coil for its resonance. I have the formula (Faraday's Law on
Induction?),
fo=29.85(h/d)1/5 divided by nd. My question is how to associate the
variables of the formula. How many turns wire do I make, what diameter &
what height. Also do I need a ferrite core, or a nonmagnetic core.

Should

I incorporate a capacitor into my circuit, but what size?

Any help would be appreciated,
Brent
What is the frequency range you want to detect/measure?

If a single frequency then resonate the coil with a capacitor.
If broad band then terminate the coil in an a voltage amplifier..
I didithis latter years ago to measure magnetic fields from power lines
and electric cooker etc.