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2014.01.11 08:06

종이 스피커

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종이 스피커

Paper Speaker 또는 Foil Speaker 로 불리는 스피커 실험 동영상.

 

얇은 종이에 구리호일(은박지도 될까? ^^)

 

한번 만들어보고 싶네.

 

 

 

 

 

 참고 : http://web.media.mit.edu/~plusea/?p=265

 

 

 

 

Flat spiral coil inductor calculator

Formula used in this calculation is based on the Harold A. Wheeler approximations.

L (uH) = r^2 * A^2 / (30*A -11 *Di)
A= (Di+N*(w+s))/2

...where:

Di =inner diameter in inches.
s =distance between windings in inches.
w =wire diameter in inches.
N = number of turns.
Do =outer diameter.
1 inch = 0,0254m=2,54cm = 25,4mm.

This formula applies at 'low' frequencies (<30MHz) ) using enameled copper wire. Some people call it "magnet wire".

Flat spiral coil
image
Flat spiral inductor
Coil inner diameter (Di):
Number of turns (N):
Wire Diameter (w):
Spacing between turns (s):
Inductance (L):
Outer diameter (Dout):
Wire lenght (Wl):
image

More about flat spiral air core inductors
A flat spiral coil is a type of an air core inductor usually incorporated in the primary of a tesla generator, RFID tag, and proximity detectors. In the same category as the flat spiral coils we have planar spiral coils, planar square spiral coils, planar rectangular spiral coils, planar hexagonal spiral coils and octagonal spiral coil. Planar coils are mostly used in high frequency applications and designed as tracks on a circuit board. Take a look at our planar coil calculator here.

What is an air core inductor?
An "air core inductor" is an inductor that does not depend upon a ferromagnetic material to achieve its specified inductance. Some inductors are wound without a bobbin and just air as the core. Some others are wound on a bobbin made of bakelite, platsic, ceramic etc.


Advantages of an air core coil:
Its inductance is unaffected by the current it carries.
This contrasts with the situation with coils using ferromagnetic cores whose inductance tends to reach a peak at moderate field strengths before dropping towards zero as saturation approaches. Sometimes non-linearity in the magnetization curve can be tolerated; for example in switching power supplies and in some switching topologies this is an advantage.
In circuits such as audio cross over filters in hi-fi speaker systems you must avoid distortion; then an air coil is a good choice. Most radio transmitters rely on air coils to prevent the production of harmonics.
Air coils are also free of the "iron losses" which a problem with ferromagnetic cores. As frequency is increased this advantage becomes progressively more important. You obtain better Q-factor, greater efficiency, greater power handling, and less distortion.
Lastly, air coils can be designed to perform at frequencies as high as 1 Ghz. Most ferromagnetic cores tend to be rather lossy above 100 MHz.

And the "downside":
Without a high permeability core you must have more and/or larger turns to achieve a given inductance value. More turns means larger coils, lower self-resonance dur to higher interwinding capacitance and higher copper loss. At higher frequencies you generally don't need high inductance, so this is then less of a problem.
Greater stray field radiation and pickup:
With the closed magnetic paths used in cored inductors radiation is much less serious. As the diameter increases towards a wavelength (lambda = c / f), loss due to electromagnetic radiation will become significant. You may be able to reduce this problem by enclosing the coil in a screen, or by mounting it at right angles to other coils it may be coupling with.
You may be using an air cored coil not because you require a circuit element with a specific inductance per se but because your coil is used as a proximity sensor, loop antenna, induction heater, Tesla coil, electromagnet, magnetometer head or deflection yoke etc. Then an external radiated field may be what you want.

 

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