Semiconductor & Computer Engineering
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{{title|Semiconductor}} | {{title|Semiconductor}} | ||
A '''semiconductor''' is a material whose [[conductivity]] characteristics can be varied. That is, a semiconductor is any material that can function as an [[insulator]] under certain conditions and as a [[conductor]] under other conditions. | A '''semiconductor''' is a material whose [[conductivity]] characteristics can be varied. That is, a semiconductor is any material that can function as an [[insulator]] under certain conditions and as a [[conductor]] under other conditions. | ||
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| + | == Overview == | ||
| + | A semiconductor is a material that can vary in [[conductivity]] - ranging from a being an [[insulator]] to being a [[conductor]], depending on the conditions. Although many pure elements satisfy this definition, the semiconductor industry relies on just a few common ones: [[Germanium]], [[Silicon]], and [[Gallium]] for the manufacturing of [[electronic devices]]. | ||
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| + | In its pure state, a semiconductor is referred to as an [[intrinsic semiconductor]]. The properties of intrinsic semiconductors can be finely controlled through the intentional [[doping|introduction of impurities]] called [[dopants]]. The new semiconductor which underwent a [[doping process]] is called an [[extrinsic semiconductor]]. Doping allows the manipulation of certain regions of the semiconductor called [[n-type]] and [[p-type]], making the region more negative or positive respectively. The combination of those two types forms the basis for all [[semiconductor devices]]. | ||
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Revision as of 23:06, 5 August 2018
A semiconductor is a material whose conductivity characteristics can be varied. That is, a semiconductor is any material that can function as an insulator under certain conditions and as a conductor under other conditions.
Overview
A semiconductor is a material that can vary in conductivity - ranging from a being an insulator to being a conductor, depending on the conditions. Although many pure elements satisfy this definition, the semiconductor industry relies on just a few common ones: Germanium, Silicon, and Gallium for the manufacturing of electronic devices.
In its pure state, a semiconductor is referred to as an intrinsic semiconductor. The properties of intrinsic semiconductors can be finely controlled through the intentional introduction of impurities called dopants. The new semiconductor which underwent a doping process is called an extrinsic semiconductor. Doping allows the manipulation of certain regions of the semiconductor called n-type and p-type, making the region more negative or positive respectively. The combination of those two types forms the basis for all semiconductor devices.
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