Electronic switch

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Electronic switches are devices that can stop or start an electric current as a result of the absence (or presence) of a control signal. Their invention was important in the history of computing for their use in the earliest electronic computers. In computers, electronic switches are combined to implement logic gates such as AND, OR, and NOT. These logic gates are then combined to build intermediate-level structures such as adders, multiplexors, encoders, decoders, and registers. The intermediate-level structures are then combined to create a computer processor. Besides computers, electronic switches are also used in many other devices. Three generations of electronic switches have been used in the digital computer industry.

Electromechanical relays

The earliest digital switch was the electromechanical relay, consisting of a solenoid with mechanical contact points. Relays provide a physical switch that closes when electricity animates a magnet. Early relays were slow and prone to failure due to dust in the contacts or bending of moving metal parts. Modern relays are more resilient because they are encased in housings that prevent dirt or dust from clogging the contacts, or accidental bending of armatures. However, relays are still prone to failure over time due to mechanical stress. Compared to transistors (below), they are slower, larger, and consume more power.

Vacuum tubes

The vacuum tube, also called a triode, was invented in 1906 by American inventor Lee de Forest. The triode resulted from the introduction of a third electrode (called a grid) into the diode (an earlier form of vacuum tube similar to an incandescent light bulb). The triode could be used both as an amplifier (for radios) and a switch (for computers). Many of the early radio transmitters were built by de Forest using triodes, which revolutionized the field of broadcasting at the time. Radio transmission used vacuum tubes as analog devices, to modify (but not stop and start) an electrical current. Invention of the triode built upon several previous developments in physics or engineering, including the diode and the Edison effect.

The ability of triode vacuum tubes to act as switches (on/off devices that stop or start an electrical current) would later be important in the building of the first electronic computers. When used as an "on/off" switch in a computer, vacuum tubes were also sometimes called electron valves, or just valves[1]. Unlike relays, vacuum tubes expose no physical armature contacts to break or get dirty, and they are faster than relays. But they also cost a lot to manufacture, consume a lot of power, give off a great deal of heat, and tend to burn out often.

Gas tubes

Tubes filled with gas rather than evacuated to vacuum are used for specialized applications, typically involving high power, such as the krytron.

Transistors

An Intel 486 processor and a Motorola 68030 processor

In the 1950's the bipolar transistor (or BJT) was invented at AT&T Bell Laboratories in 1948 by John Bardeen, Walter Brattain, and William Shockley (all of whom shared the Nobel prize for physics in 1956 for the transistor's invention). This type of transistor still is widely used today. Today's most-used transistor is the Metal Oxide Semiconductor Field Effect Transistor (MOSFET), present by the millions in integrated circuits. This transistor was invented by Dawon Khang and Martin Atalla in 1960, another Bell Labs research team.

Transistors perform operations earlier provided by vacuum tubes, but are smaller, cheaper, require less power, and obtain faster switching times. The first transistor was made from materials that included a paper clip and a razor blade.

Although transistors can be manufactured as stand-alone devices, more often they are encapsulated inside small, semiconductor chips (often called integrated circuits, or simply IC's). When technology advanced to the point where millions of transistors could be packed onto an IC the size of a fingernail, the density of transistors on the chip came to be called VLSI (Very Large Scale Integration). The density of transistors in silicon chips has been predicted effectively by Moore's law, illustrated by the density of switching elements in these computer processors:

Eniac (room sized):  19,500 vacuum tubes and relays
Intel 8088 processor (2 inches long):  29,000 transistors
Intel Pentium II processor (5 inches long):   7  million transistors
Intel Pentium III processor:  28 million transistors
Intel Pentium 4 processor:  42 million transistors

Explosive components

Slapper detonators have been used as part of one-shot electronic switches.[2]

References