Almost every ICs contain millions of transistors it would make for a very long list!
small scale integrated circuits contain about 10 transistorsmedium scale integrated circuits contain about 100 transistorslarge scale integrated circuits contain about 1000 transistorsvery large scale integrated circuits contain about 10,000 transistorsultra large scale integrated circuits contain about 100,000 transistorsetc.modern digital integrated circuits contain about 100,000,000,000 transistors and sometimes much more
ECMs use large scale integrated circuits that are usually embedded in epoxy. They do not contain discrete transistors and are generally not designed to be serviced.
In an integrated circuit, electronic components such as resistors, capacitors, diodes, and transistors are formed directly onto the surface of a silicon crystal. The process of manufacturing an integrated circuit will make more sense if one first understands some of the basics of how these components are formed. Even before the first IC was developed, it was known that common electronic components could be made from silicon. The question was how to make them, and the connecting circuits, from the same piece of silicon? The solution was to alter, the chemical composition of tiny areas on the silicon crystal surface by adding other chemicals, called dopants. Some dopants bond with the silicon to produce regions where the dopant atoms have one electron they can give up. These are called N regions. Other dopants bond with the silicon to produce regions where the dopant atoms have room to take one electron. These are called P regions. When a P region touches an N region, the boundary between them is referred to . This boundary is only 0.000004 inches (0.0001 cm) wide, but is crucial to the operation of integrated circuit components.
Two, either in NPN or PNP transistors
There is no true advantage of RC circuits over RL circuits, as they perform different functions. RC circuits contain resistors and capacitors, while RL circuits contain resistors and inductors.
small scale integrated circuits contain about 10 transistorsmedium scale integrated circuits contain about 100 transistorslarge scale integrated circuits contain about 1000 transistorsvery large scale integrated circuits contain about 10,000 transistorsultra large scale integrated circuits contain about 100,000 transistorsetc.modern digital integrated circuits contain about 100,000,000,000 transistors and sometimes much more
these contain approximately 100 -1000 transistors
ECMs use large scale integrated circuits that are usually embedded in epoxy. They do not contain discrete transistors and are generally not designed to be serviced.
I will assume you mean "transistors". Compared to their predecessors (vacuum tubes), transistors:* Are faster * Use less current * Use less space Note that all of these advantages get even more pronounced in the case of integrated circuits (which also contain transistors).
Depends on the complexity of the logic it's planned for... People talk about 'millions' of transistors to highlight the importance of ICs. For instance in a motor driver IC, there's nothing but a H-bridge used to control the path of current across the motor. Mainly 4 transistors are involved. In advance, to avoid unnecessary current flowing possibilities, for the sake of safety logic gates (simple ones) are built in. (Logic gates are also built with transistors, just few.) So, overall there'll be only 10 (just assume) transistors. But in complicated ICs there could be hundreds, millions of transistors..like in a microprocessor.
"Integrated circuit" (IC, or "chip")
computer chips
Integrated circuits offer several advantages over individual transistors. Firstly, integrated circuits are more compact and can contain thousands to billions of transistors in a single chip, saving space and reducing the complexity of circuit design. Secondly, integrated circuits have improved reliability and performance due to the reduced number of interconnections required. Lastly, integrated circuits are more cost-effective to manufacture in large quantities compared to individual transistors, making them more accessible for mass production.
Transistors are made that are smaller than a human hair. Used as part of an integrated circuit chip, which may contain thousands of transistors.
they are commonly called "chips".
Circuits have to contain power supply, connections to facilitate the flow of electricity, components such as resistors, capacitors, and transistors to control the flow of electricity, and a load to use the electrical energy.
Wide-angle camera lenses, fibre optic cables, and integrated circuits all contain Germanium.