fused contact transistor - definição. O que é fused contact transistor. Significado, conceito
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O que (quem) é fused contact transistor - definição

FIRST TYPE OF SOLID-STATE ELECTRONIC TRANSISTOR EVER CONSTRUCTED
Point contact transistor; Point-contact transistors
  • A stylized replica of the point-contact transistor invented at Bell Labs on December 23, 1947

Transistor-Transistor Logic         
  • Standard TTL NAND with a "totem-pole" output stage, one of four in 7400
  • A real-time clock built of TTL chips around 1979
  • Two-input TTL [[NAND gate]] with a simple output stage (simplified)
CLASS OF DIGITAL CIRCUITS BUILT FROM BIPOLAR JUNCTION TRANSISTORS (BJTS) AND RESISTORS; TRANSISTORS PERFORM BOTH THE LOGIC FUNCTION (E.G. AND) AND THE AMPLIFYING FUNCTION
Transistor transistor logic; Transistor-transistor logic; LVTTL; Transistor Transistor Logic; FJ series; TTL logic; Transistor-to-transistor logic; Transistor-coupled transistor logic; TCTL; TTL (electronics); TTL (logic)
(TTL) A common semiconductor technology for building discrete digital logic integrated circuits. It originated from {Texas Instruments} in 1965. There have been several series of TTL logic: 7400: 10 ns propagation time, 10 mW/gate power consumption, obsolete; 74L00: Low power: higher resistances, less dissipation (1 mW), longer propagation time (30 ns); 74H00: High power: lower resistances, more dissipation: less sensitivity for noise; 74S00: Schottky-clamped: faster switching (3 ns, 19 mW) by using Schottky diodes to prevent the transistors from saturation; 74LS00: Low power, Schottky-clamped (10 ns, 2 mW); 74AS00: Advanced Schottky: faster switching, less dissipation, (1.5 ns, 10 mW); 74ALS00: Advanced Low power Schottky (4 ns, 1.3 mW). For each 74xxx family there is a corresponding 54xxx family. The 74 series are specified for operation at 0 - 70 C whereas the 54 (military) series can operate at -55 - 125 C See also CMOS, ECL.
LVTTL         
  • Standard TTL NAND with a "totem-pole" output stage, one of four in 7400
  • A real-time clock built of TTL chips around 1979
  • Two-input TTL [[NAND gate]] with a simple output stage (simplified)
CLASS OF DIGITAL CIRCUITS BUILT FROM BIPOLAR JUNCTION TRANSISTORS (BJTS) AND RESISTORS; TRANSISTORS PERFORM BOTH THE LOGIC FUNCTION (E.G. AND) AND THE AMPLIFYING FUNCTION
Transistor transistor logic; Transistor-transistor logic; LVTTL; Transistor Transistor Logic; FJ series; TTL logic; Transistor-to-transistor logic; Transistor-coupled transistor logic; TCTL; TTL (electronics); TTL (logic)
Low Voltage Transistor Transistor Level (Reference: IC)
Transistortransistor logic         
  • Standard TTL NAND with a "totem-pole" output stage, one of four in 7400
  • A real-time clock built of TTL chips around 1979
  • Two-input TTL [[NAND gate]] with a simple output stage (simplified)
CLASS OF DIGITAL CIRCUITS BUILT FROM BIPOLAR JUNCTION TRANSISTORS (BJTS) AND RESISTORS; TRANSISTORS PERFORM BOTH THE LOGIC FUNCTION (E.G. AND) AND THE AMPLIFYING FUNCTION
Transistor transistor logic; Transistor-transistor logic; LVTTL; Transistor Transistor Logic; FJ series; TTL logic; Transistor-to-transistor logic; Transistor-coupled transistor logic; TCTL; TTL (electronics); TTL (logic)
Transistortransistor logic (TTL) is a logic family built from bipolar junction transistors. Its name signifies that transistors perform both the logic function (the first "transistor") and the amplifying function (the second "transistor"), as opposed to resistor–transistor logic (RTL) or diode–transistor logic (DTL).

Wikipédia

Point-contact transistor

The point-contact transistor was the first type of transistor to be successfully demonstrated. It was developed by research scientists John Bardeen and Walter Brattain at Bell Laboratories in December 1947. They worked in a group led by physicist William Shockley. The group had been working together on experiments and theories of electric field effects in solid state materials, with the aim of replacing vacuum tubes with a smaller device that consumed less power.

The critical experiment, carried out on December 16, 1947, consisted of a block of germanium, a semiconductor, with two very closely spaced gold contacts held against it by a spring. Brattain attached a small strip of gold foil over the point of a plastic triangle — a configuration which is essentially a point-contact diode. He then carefully sliced through the gold at the tip of the triangle. This produced two electrically isolated gold contacts very close to each other.

The piece of germanium used had a surface layer with an excess of electrons. When an electric signal traveled in through the gold foil, it injected holes (points which lack electrons). This created a thin layer which had a scarcity of electrons.

A small positive current applied to one of the two contacts had an influence on the current which flowed between the other contact and the base upon which the block of germanium was mounted. In fact, a small change in the first contact current caused a greater change in the second contact current; thus it was an amplifier. The low-current input terminal into the point-contact transistor is the emitter, while the output high current terminals are the base and collector. This differs from the later type of bipolar junction transistor invented in 1951 that operates as transistors still do, with the low current input terminal as the base and the two high current output terminals as the emitter and collector.

The point-contact transistor was commercialized and sold by Western Electric and others but was eventually superseded by the bipolar junction transistor, which was easier to manufacture and more rugged. The point-contact transistor did still remain in production until circa 1966, by which time the silicon planar transistor was dominating the market.