Electronic devices works with electric current (AC / DC), some conductors are used to control current by amplifying, change in voltage etc.
All eletronic devices have its own power supply systemthat regulates electric current. These power system uses transfermer with diode and capacitors in old days but now transiter is used along with other as in smps. Main function of typical power suply system is to give electrical devices constant voltage/ current and save from sudden change in voltage. Sometime different part of electronic device requries different voltage electric current, which we have with power supply.
Other systems of electronic devices are just controling/modifying current, frequency of electrical current, amplification etc. all this is done easily by semiconductor like transitor, diode etc.
what is semiconductor state advantages of semiconductor devices over electronic tubes
Semiconductor devices are used in numerous electronic products such as radios and Tv's. They are used in LED lights to. One can buy such products from Best Buy and Amazon.
the electronic subject deals with the movement of carriers in semiconductor . It makes from two words - Electron +dynamic in semiconductor.It means all the devices which has semiconductor material those are electronic equipment.
The most common metalloid used as a semiconductor is silicon. It is widely used in electronic devices and integrated circuits due to its abundant availability, stability, and controllable electrical properties.
Semiconductor devices like memories gates and flip flop are used to make CPU of computers. In the other way any device which consist semiconductor devices/ component that will called electronic device and it is related to electronics.
Germanium is not explosive. It is a chemical element with a low reactivity and has no explosive properties. It is commonly used in electronic devices and as a semiconductor in transistors.
Yes, germanium can work as a semiconductor. It is used in electronic devices like diodes and transistors due to its semiconducting properties. Germanium was actually one of the first materials used in the development of semiconductor technology.
Semiconductor fuses are used to prevent large semiconductor devices (IGBTs, GTOs, diodes etc) from rapturing and causing secondary damages to the rest of the system and people in the event of a short circuit. They are usually not intended to prevent the semiconductor device from failing.
Semiconducting oxides are materials that exhibit semiconductor behavior due to their ability to conduct electricity between insulators and conductors. These oxides have a wide band gap and can be used in various electronic devices, such as sensors, transistors, and optoelectronic devices.
The Si band structure is important in the study of semiconductor materials because it helps determine the electrical properties of silicon, which is a widely used semiconductor material in electronic devices. The band structure of silicon influences its conductivity and other characteristics, making it crucial for understanding and designing semiconductor devices.
Electron holes in semiconductor devices play a crucial role in the flow of electrical current. When an electron moves from one atom to another in a semiconductor material, it leaves behind a hole. These holes can move through the material, allowing for the movement of charge and the creation of an electric current. By controlling the movement of electron holes, semiconductor devices can be used in a variety of electronic applications, such as transistors and diodes.
The other materials other than just silicon used to make semiconductors and other solid state electronic devices are germanium and gallium arsenide.