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What kind of semiconductor is produced by adding indium in semiconductor crystals pnp or npn?
pnp
What are trivalent and pentavalent impurities?
Doping is the process of adding impurity atoms to intrinsic silicon or germanium to improve the conductivity of the semiconductor. The term impurity is used to describe the doping elements. Two element types are used for doping: trivalent and pentavalent. A trivalent element is one that has three valence electrons A pentavalent element is one that has five valence electrons. When trivalent atoms are added to intrinsic semiconductors, the resulting material is called a p-type material. When pentavalent impurity atoms are used, the resulting material is called an n-type material. The most commonly used doping elements are listed below. Commonly Used Doping Elements Trivalent Impurities To make p-type Aluminum (Al) Gallium (Ga) Boron (B) Indium (In) Pentavalent Impurities To make n-type Phosphorus (P) Arsenic (As) Antimony (Sb) Bismuth (Bi)
What are the advantages of intrinsic semiconductor?
due to the poor conduction at room temperature,the intrinsic semiconductor as such,is not useful in the electronic devices.hence,the current conduction capability of the intrinsic semi conductor should be increased. this can be achieved by adding a small amount of impurity to the intrinsic semi conductor
Why n type and p type are electrically neutral?
An N-type semiconductor is obtained by carrying out a process of doping, that is, by adding an impurity of valence-five elements to a valence-four semiconductor in order to increase the number of free charge carriers. When the doping material is added, it gives away weakly-bound outer electrons to the semiconductor atoms. This type of doping agent is also known as donor material since it gives away some of its electrons. The purpose of N-type doping is to produce an abundance of mobile or carrier electrons in the material. To help understand how n-type doping is accomplished, consider the case of silicon (Si). Si atoms have four valence electrons, each of which is covalently bonded with each of the four adjacent Si atoms. If an atom with five valence electrons, such as those from group 15 of the periodic table , is incorporated into the crystal lattice in place of a Si atom, then that atom will have four covalent bonds and one unbonded electron. This extra electron is only weakly bound to the atom and can easily be excited into the conduction band. At normal temperatures, virtually all such electrons are excited into the conduction band. Since excitation of these electrons does not result in the formation of a hole, the number of electrons in such a material far exceeds the number of holes. In this case the electrons are the majority carriers and the holes are the minority carriers. Because the five-electron atoms have an extra electron to donate, they are called donor atoms. Note that each movable electron within the semiconductor is never far from an immobile positive dopant ion, and the N-doped material normally has a net electric charge of zero.
What can be viva question from the transistor characteristics in common emitter?
Transistor Characteristics1) What is transistor? what are the types of transistors?Ans: Transistor is a three terminal semiconductor device.There are two types of semiconductor i.e,. n-p-n and p-n-p.2) Define n-type and p-type semiconductors.Ans: If an intrinsic semiconductoris doped with pentavalent impurity. Then it is called n-type semiconductors.If it is doped with trivalent impurity then it is called p-type semiconductor.3) What is doping?Ans: Adding trivalent or pentavalent impurity to an intrinsic semiconductor is called doping.4. What are three basic transistor connection modes? Which mode is most preferred? Why?Ans: Common-Emitter, Common-Base & Common-Collector connections.CE mode is most preferred because CE modes gives Highest voltage gain.5. Define current amplification factor of a transistor?Ans: It is defined as ratio of change in collector current to change in base current.7. What is the biasing rule of transistor?Ans: Emitter base junction should be forward biased and collector base junction should be reversed biased.8. What is semiconductor?Ans: Semiconductor is a substance which has the resistivity in between that of conductor and insulator. semiconductor has negative temperature coefficient of resistance.9) Which are the commonly used semiconductors?Ans: Germanium & Silicon
What is the material of adding some impurities to semiconductor material?
Its called doping.
What is the process of adding impurities to a semi conductor?
The process of adding impurities to a semiconductor is called doping. It involves intentionally introducing specific atoms of different elements into the semiconductor crystal lattice to alter its electrical properties. This process can either create an excess of electrons (n-type doping) or holes (p-type doping) in the semiconductor material.
Can a semiconductor be made to become a conductor or an insulator?
Yes, a semiconductor can be made to behave as a conductor or an insulator by controlling the amount of impurities added to it. Adding impurities through a process called doping can change the conductivity of the semiconductor material, making it act like a conductor or an insulator.
How are P- type semiconductor materials formed?
P-type semiconductor materials are formed by adding trivalent impurities, such as boron or aluminum, to a pure semiconductor material like silicon. These impurities introduce "holes" in the crystal lattice of the material, creating positively charged carriers. This results in a material with an excess of positive charge carriers, making it P-type.
What is silicon conductivity?
Silicon is a semiconductor material that has moderate conductivity. Its conductivity can be increased by adding specific impurities through a process called doping. This makes silicon a key material for building electronic devices such as transistors and integrated circuits.
What is mean by doping?
Doping is a process of adding some impurity in pure material or pure semiconductor.
What is mean by doping procesess?
Doping is the intentional introduction of impurities into a semiconductor material to alter its electrical properties. This process can change the conductivity of the material, allowing it to be used in the production of electronic devices such as transistors and diodes. Different types of doping, such as n-type (donor) and p-type (acceptor) doping, can create regions of positive or negative charge within the material.
How do you make semi-metals?
Semi-metals, also known as metalloids, are typically made through a process called doping. This involves adding small amounts of impurities to a pure semiconductor material, such as silicon or germanium. The impurities alter the electronic properties of the material, making it exhibit characteristics of both metals and non-metals.
How could a n type semiconductor be produced from pure germanium?
To produce an n-type semiconductor, pure germanium can be doped with an appropriate impurity such as phosphorus or arsenic. These impurities introduce extra electrons into the germanium crystal structure, resulting in an excess of negative charge carriers (electrons) and hence an n-type semiconductor material.
A semiconductor can be made by adding atoms of other elements to?
A semiconductor can be made by adding atoms of other elements to a pure semiconductor material, such as silicon or germanium. By selectively adding specific impurity atoms (dopants), the conductivity of the semiconductor material can be controlled, making it suitable for use in electronic devices like transistors and diodes.
What is semiconduter?
A semiconductor is a material that has electrical conductivity between a conductor and an insulator. It can be altered by adding impurities or applying electrical fields to control the flow of current. Semiconductors are vital components in electronics, such as transistors, diodes, and integrated circuits.
What term is given the process of rearranging electrons in a semiconductor by adding atoms of other elements?
doping
