Roger Conroy wrote:

A comment slightly off the original subject, but might be of use to others.

Are these any good for RF use or should they go into the trash?

Motherboards and other circuits have some/many pass-through ferrite
beads which I find very useful to recycle as RF-block inductors in my
circuits.

In dead-bug construction style the use of these beads is very easy, and
usually kills unwanted RF propagation channels (such as power supply
lines to/from oscillator, buffer, amplifier, ...).

Unfortunately I have never been able to find any datasheet for those beads.

Roger, please post your results if you try your "donuts" for RF
applications.

73,
Paolo ZYW

PaoloC wrote:

Motherboards and other circuits have some/many pass-through ferrite
beads which I find very useful to recycle as RF-block inductors in my
circuits.
(snip)
Unfortunately I have never been able to find any datasheet for those beads.
(snip)

Fair-rite makes many of these beads, and their catalog has some
impedance versus frequency data for them:

http://www.fair-rite.com/products.htm

You can also roughly sort ferrite material roughly versus frequency
capability by measuring the resistance with an ohm meter. Low
frequency power types measure in the hundred or thousands of ohms
between contact points, RF suppression types measure in the high kilo
ohms, while high Q RF types measure in the meg ohms. Having a few
known samples for calibration purposes helps.

--
John Popelish

John Popelish wrote:

Unfortunately I have never been able to find any datasheet for those
beads.

(snip)

Fair-rite makes many of these beads, and their catalog has some
impedance versus frequency data for them:

http://www.fair-rite.com/products.htm

OUCH! I never thought ferrite beads could end up in such a complete
catalog! I feel quite stupid :-) I'm reading the PDF as fast as kids do
with Harry Potter's latest adventures :-)

You can also roughly sort ferrite material roughly versus frequency
capability by measuring the resistance with an ohm meter. Low

[snip]

Thanks for the extra-useful tips John. I owe you a drink if you happen
to pass by here :-)

Paolo ik1zyw

PaoloC wrote:
(snip)
Thanks for the extra-useful tips John. I owe you a drink if you happen
to pass by here :-)

You are welcome. And it is nice to have a drink waiting.

--
John Popelish

PaoloC wrote:
(snip)
Thanks for the extra-useful tips John. I owe you a drink if you happen
to pass by here :-)

You are welcome. And it is nice to have a drink waiting.

--
John Popelish

John Popelish wrote:

Unfortunately I have never been able to find any datasheet for those
beads.

(snip)

Fair-rite makes many of these beads, and their catalog has some
impedance versus frequency data for them:

http://www.fair-rite.com/products.htm

OUCH! I never thought ferrite beads could end up in such a complete
catalog! I feel quite stupid :-) I'm reading the PDF as fast as kids do
with Harry Potter's latest adventures :-)

You can also roughly sort ferrite material roughly versus frequency
capability by measuring the resistance with an ohm meter. Low

[snip]

Thanks for the extra-useful tips John. I owe you a drink if you happen
to pass by here :-)

Paolo ik1zyw

PaoloC wrote:

Motherboards and other circuits have some/many pass-through ferrite
beads which I find very useful to recycle as RF-block inductors in my
circuits.
(snip)
Unfortunately I have never been able to find any datasheet for those beads.
(snip)

Fair-rite makes many of these beads, and their catalog has some
impedance versus frequency data for them:

http://www.fair-rite.com/products.htm

You can also roughly sort ferrite material roughly versus frequency
capability by measuring the resistance with an ohm meter. Low
frequency power types measure in the hundred or thousands of ohms
between contact points, RF suppression types measure in the high kilo
ohms, while high Q RF types measure in the meg ohms. Having a few
known samples for calibration purposes helps.

--
John Popelish