transistor gyrator - ορισμός. Τι είναι το transistor gyrator
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Τι (ποιος) είναι transistor gyrator - ορισμός

SIMULATION OF PHYSICAL PROCESSES TAKING PLACE IN AN ELECTRONIC DEVICE
Transistor parameters; Transistor Models; Transistor models; Compact model (transistor)
  • Figure 1: Floating-gate avalanche injection memory device FAMOS

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).

Βικιπαίδεια

Transistor model

Transistors are simple devices with complicated behavior. In order to ensure the reliable operation of circuits employing transistors, it is necessary to scientifically model the physical phenomena observed in their operation using transistor models. There exists a variety of different models that range in complexity and in purpose. Transistor models divide into two major groups: models for device design and models for circuit design.