What is Semiconductor

What is Semiconductor 

Semiconductor Definition

any of a category of solids (such as germanium or silicon) whose electrical conductivity is between that of a conductor which of an insulator in being nearly as great as that of a metal at high temperatures and nearly absent at low temperatures

A semiconductor is a substance, generally a strong concoction component or aggravate, that can lead power under a few conditions yet not others, making it a decent medium for the control of electrical current. Its conductance changes relying upon the current or voltage connected to a control cathode, or on the power of illumination by infrared (IR), unmistakable light, bright (UV), or X beams. 

What is semiconductor

The particular properties of a semiconductor rely upon the debasements, or dopants, added to it. An N-type semiconductor conveys current for the most part as adversely charged electrons, in a way like the conduction of current in a wire. A P-type semiconductor conveys current dominatingly as electron lacks called gaps. An opening has a positive electric charge, equivalent, and inverse to the charge on an electron. In a semiconductor material, the stream of openings happens toward a path inverse to the stream of electrons. 

Basic semiconductors incorporate antimony, arsenic, boron, carbon, germanium, selenium, silicon, sulfur, and tellurium. Silicon is the best-known of these, framing the premise of most incorporated circuits (ICs). Normal semiconductor mixes incorporate gallium arsenide, indium antimonide, and the oxides of general metals. Of these, gallium arsenide (GaAs) is generally utilized as a part of low-commotion, high-increase, feeble flag opening up gadgets. 

A semiconductor gadget can play out the capacity of a vacuum tube having several times its volume. A solitary incorporated circuit (IC, for example, a microchip chip, can take the necessary steps of an arrangement of vacuum tubes that would fill a substantial building and require its own electric producing plant.

    Semiconductor examples

    Some samples of semiconductors are silicon, germanium, gallium arsenide, and elements near the so-called "metalloid staircase" on the table . After silicon, gallium arsenide is that the second commonest semiconductor and is employed in laser diodes, solar cells, microwave-frequency integrated circuits, and others.

    Types of Semiconductors

    There are two basic groups or classifications which will be wont to define the various semiconductor types:

    Intrinsic material

    An intrinsic sort of semiconductor material made to be very pure chemically. As a result, it possesses a really low conductivity level having only a few charge carriers, namely holes and electrons, which it possesses in equal quantities.

    Extrinsic material

    Extrinsic sorts of semiconductors are those where alittle amount of impurity has been added to the essential intrinsic material. This 'doping' uses a component from a special table group and during this way, it'll either have more or fewer electrons within the valence band than the semiconductor itself. This creates either an excess or a shortage of electrons. during this way two sorts of semiconductors are available: Electrons are charged carriers.


    An semiconductor device material has an more than electrons. during this way, free electrons are available within the lattices, and their overall movement in one direction under the influence of a possible difference leads to an electrical current flow. this is often an semiconductor device , the charge carriers are electrons.


    during a semiconductor device material there's a shortage of electrons, i.e. there are 'holes' within the space lattice . Electrons may move from one empty position to a different and during this case, it are often considered that the holes are moving. this will happen under the influence of a possible difference and therefore the holes are often seen to flow in one direction leading to an electrical current flow. it's actually harder for holes to maneuver than for free of charge electrons to maneuver and thus the mobility of holes is a smaller amount than that of free electrons. Holes are charged carriers.

    Semiconductor Manufacturing

    Semiconductor device fabrication is that the process wont to manufacture semiconductor devices, typically the metal–oxide–semiconductor (MOS) devices utilized in the microcircuit (IC) chips that are present in everyday electrical and electronic devices.

    In the manufacturing process of IC, electronic circuits with components like transistors are formed on the surface of a silicon crystal wafer. a skinny film layer which will form the wiring, transistors, and other components is deposited on the wafer (deposition). the skinny film is coated with photoresist.

    Semiconductor Materials


    This type of semiconductor material was utilized in many early devices from radar detection diodes to the primary transistors. Diodes show a better reverse conductivity and temperature coefficient meant that early transistors could suffer from thermal runaway. Offers a far better charge carrier mobility than silicon and is therefore used for a few RF devices. Not as widely used lately as better semiconductor materials are available.


    Silicon is that the most generally used sort of semiconductor material. Its major advantage is that it's easy to fabricate and provides good general electrical and mechanical properties. Another advantage is that when it's used for integrated circuits it forms high-quality silica that's used for insulation layers between different active elements of the IC.

    Gallium arsenide

    Gallium arsenide is that the second most generally used sort of semiconductor after silicon. it's widely utilized in high-performance RF devices where its high electron mobility is employed it's also used as a substrate for other III-V semiconductors, e.g. InGaAs and GaInNAs. However, it's a brittle material and has lower hole mobility than Silicon which makes applications like P-type CMOS transistors not feasible. it's also relatively difficult to fabricate and this increases the prices of GaAs devices.

    Silicon carbide

    Silicon carbide finds uses during a number of applications. it's often utilized in power devices where its losses are significantly lower and operating temperatures are often above those of silicon-based devices. carbide features a breakdown capability which is about ten times that of silicon itself. sorts of carbide were sorts of semiconductor material that were used with some early sorts of yellow and blue LEDs.

    Gallium Nitride

    This type of semiconductor material is beginning to be more widely in microwave transistors where high temperatures and powers are needed. it's also getting used in some microwave ICs. GaN is difficult to dope to offer p-type regions and it's also sensitive to ESD, but relatively insensitive to radiation . Has been utilized in some blue LEDs.

    Semiconductor in Periodic Table

    The elemental semiconductors are composed of single species of atoms, like silicon (Si), germanium (Ge), and tin (Sn) in column IV and selenium (Se) and tellurium (Te) in column VI of the table . There are, however, numerous compound semiconductors, which are composed of two or more elements.

    Semiconductor Engineering

    Semiconductor engineers make electrical products that enable integration of workers, materials, machines, energy, and knowledge . They mostly work with silicon, a main feature in semiconductors, and tons of emphasis is placed on wafer bonding and etching. to form up a semiconductor in many devices, these engineers use a process called water etching to make a conduction pathway on a silicon wafer. As many semiconductor engineers add the manufacturing industry, they're based in manufacturing plants, in very clean environments to avoid any contamination of the wafers. They work with individual companies, organizations, and governments to custom design semiconductors for them.

    Semiconductor Stocks

    The semiconductors sector consists of companies that make integrated circuits for electronic applications, including dynamic random access memory, static random access memory, erasable program ROM and analog-sensitive, mixed-signal, and power-conditioning semiconductors.

    Semiconductor Companies


    Headquartered in California, this global infrastructure technology company produces semiconductor and infrastructure software solutions. Its offerings include Bluetooth solutions, modems, networking processors, storage adapters, optical sensors, and more. The organization acquired Symantec Enterprise Security in 2019 and also consists of LSI, Brocade, and CA Technologies. Broadcom is additionally involved numerous industry standards associations and specifications, with leadership positions in many various groups.

    Infineon Technologies

    Infineon Technologies AG designs and manufactures a variety of semiconductors and it operates in four key segments: automotive, industrial power control, power and sensor systems, and digital security solutions. Its products and solutions are utilized in areas like speech recognition, gesture control, active safety systems, and renewable electricity sources. Engineers from Infineon have also developed a 3D-printed lung ventilator to assist support patients during the COVID-19 pandemic.


    Intel designs and manufactures products and technologies utilized in the cloud and in smart, connected devices. the corporate focuses on semiconductors, AI, autonomous driving, and non-volatile memory solutions, and its current areas of focus include 5G, CPU platforms. Intel is additionally becoming a more data-centric company and has expanded its offerings to incorporate end-to-end solutions that cover edge computing, the cloud, and more.

    Micron Technology

    Micron produces memory and storage solutions utilized in applications like AI and autonomous vehicles. With over 37,000 team members across 18 countries, the corporate has been operating for over 40 years. Its brands include Micron and Crucial, and its products include DRAM, NOR Flash, NAND Flash, and more.


    One of the first developers of the GPU, NVIDIA creates products that are utilized in gaming PCs, VR, AI, autonomous driving, robotics, and lots of other applications. Its GPUs power advanced supercomputers, and therefore the company has created a scalable AI car platform for autonomous driving that has been adopted by over 200 companies round the world.