Inductor: Difference between revisions
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== Inductance == | |||
Inductance (''L''), measured in henries ('''H''') is the effect which results from the magnetic field around a current-carrying conductor. Current through the conductor creates a magnetic flux proportional to the current. A change in this current creates a change in magnetic flux that, in turn, generates an electromotive force (EMF) that acts to oppose this change in current. Inductance is a measure of the amount of EMF generated for a unit change in current. | Inductance (''L''), measured in henries ('''H''') is the effect which results from the magnetic field around a current-carrying conductor. Current through the conductor creates a magnetic flux proportional to the current. A change in this current creates a change in magnetic flux that, in turn, generates an electromotive force (EMF) that acts to oppose this change in current. Inductance is a measure of the amount of EMF generated for a unit change in current. |
Revision as of 01:26, 9 March 2008
Inductance
Inductance (L), measured in henries (H) is the effect which results from the magnetic field around a current-carrying conductor. Current through the conductor creates a magnetic flux proportional to the current. A change in this current creates a change in magnetic flux that, in turn, generates an electromotive force (EMF) that acts to oppose this change in current. Inductance is a measure of the amount of EMF generated for a unit change in current.
Inductor formulae
Construction | Formula | Dimensions |
---|---|---|
Cylindrical coil | <math>L=\frac{\mu_0\mu_rN^2A}{l}</math> |
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Straight wire conductor | <math>L = l\left(\ln\frac{4l}{d}-1\right) \cdot 200 \times 10^{-9}</math> |
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<math>L = 5.08 \cdot l\left(\ln\frac{4l}{d}-1\right)</math> |
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Short air-core cylindrical coil | <math>L=\frac{r^2N^2}{9r+10l}</math> |
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Multilayer air-core coil | <math>L = \frac{0.8r^2N^2}{6r+9l+10d}</math> |
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Flat spiral air-core coil | <math>L=\frac{r^2N^2}{(2r+2.8d) \times 10^5}</math> |
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<math>L=\frac{r^2N^2}{8r+11d}</math> |
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Toroidal core (circular cross-section) | <math>L=\mu_0\mu_r\frac{N^2r^2}{D}</math> |
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