User:John R. Brews/Draft: Difference between revisions

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==Electrical behavior==
==Electrical behavior==
{{Image|Nonideal diode current-voltage behavior.PNG|right|250px|Nonideal diode current-voltage characteristics.}}
{{Image|Nonideal diode current-voltage behavior.PNG|right|250px|Nonideal diode current-voltage characteristics.}}
The ideal diode has infinite resistance (conducts zero current) for the ''reverse voltage polarity'' and has zero resistance for the ''forward bias polarity''. The ''pn-diode'' is not ideal.
The ideal diode has zero resistance for the ''forward bias polarity'', and infinite resistance (conducts zero current) for the ''reverse voltage polarity''. The ''pn-diode'' is not ideal. As shown in the figure, the diode does not conduct appreciably until a nonzero ''knee voltage'' is reached. Above this voltage the slope of the current-voltage curve is not infinite, but exhibits a nonzero forward resistance. In the reverse direction the diode conducts a nonzero leakage current (exaggerated by a smaller scale in the figure) and at a sufficiently large reverse voltage above the ''breakdown voltage'' the current increases very rapidly with larger reverse voltages.

Revision as of 16:00, 8 January 2011


A semiconductor diode is a two-terminal device that conducts current in only one direction, made by joining a p-type semiconducting layer to an n-type semiconducting layer.

Electrical behavior

(PD) Image: John R. Brews
Nonideal diode current-voltage characteristics.

The ideal diode has zero resistance for the forward bias polarity, and infinite resistance (conducts zero current) for the reverse voltage polarity. The pn-diode is not ideal. As shown in the figure, the diode does not conduct appreciably until a nonzero knee voltage is reached. Above this voltage the slope of the current-voltage curve is not infinite, but exhibits a nonzero forward resistance. In the reverse direction the diode conducts a nonzero leakage current (exaggerated by a smaller scale in the figure) and at a sufficiently large reverse voltage above the breakdown voltage the current increases very rapidly with larger reverse voltages.