klystron amplifier - significado y definición. Qué es klystron amplifier
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Qué (quién) es klystron amplifier - definición

VACUUM TUBE USED FOR AMPLIFYING RADIO WAVES
Klystron tube; Klystron valve; Reflex klystron
  • Large klystrons as used in the [[storage ring]] of the [[Australian Synchrotron]] to maintain the energy of the [[electron]] beam
  • Low-power Soviet reflex klystron from 1963. The [[cavity resonator]] from which the output is taken, is attached to the electrodes labeled ''Externer Resonator''. Reflex klystrons are almost obsolete now.
  • right
  • 400 kW klystron used for spacecraft communication at the [[Canberra Deep Space Communications Complex]]. This is a spare in storage.
  • Klystron oscillator from 1944. The electron gun is on the right, the collector on the left. The two [[cavity resonator]]s are in center, linked by a short coaxial cable to provide positive feedback.
  • 5 kW klystron tube used as power amplifier in UHF television transmitter, 1952. When installed, the tube projects through holes in the center of the cavity resonators, with the sides of the cavities making contact with the metal rings on the tube.
  • The first commercial klystron, manufactured by Westinghouse in 1940. Part of the tube is cut away to show the internal construction. On the left are the cathode and accelerating anode, which create the electron beam. In the center between the wooden supports is the drift tube, surrounded by the two donut-shaped cavity resonators: the "buncher" and the "catcher". The output terminal is visible at top. On the right is the cone shaped collector anode, which absorbs the electrons. It could generate 200 W of power at a wavelength of 40 centimeters (750 MHz) with 50% efficiency.
  • right
  • access-date=2019-12-03}}</ref>

Audio power amplifier         
  • De Forest's prototype audio amplifier of 1914.
  • McIntosh]] MC240 from 1961 with exposed vacuum tubes
  • ul=g}}, power output ca. 0.1&nbsp;W into a 32 Ohm load.
  • archive-date=2011-04-24 }} Cyrus Audio: Product Archive: Cyrus One</ref>
  • Five rack-mounted audio power amplifiers used in a [[sound reinforcement system]].
  • Pyle]] two-channel power amplifier
  • Rear panel of a medium-sized [[sound reinforcement system]] located at one side of the stage at a pop concert. The setup includes the [[mixing console]] for the [[sound engineer]] (standing behind) and the power amplifiers which are partly stacked in a 19-inch rack on the right.
AUDIO AMPLIFIER THAT REACHES POWER OUTPUT SUFFICIENT TO CONTROL A LOUDSPEAKER
Power amplifier; Audio Amplifier; Amplifier Home Audio; Audio amplifier; Amplification (audio); Power amplifiers; Power amplifer; Power amp; Amplification device
An audio power amplifier (or power amp) is an electronic amplifier that amplifies low-power electronic audio signals, such as the signal from a radio receiver or an electric guitar pickup, to a level that is high enough for driving loudspeakers or headphones. Audio power amplifiers are found in all manner of sound systems including sound reinforcement, public address and home audio systems and musical instrument amplifiers like guitar amplifiers.
Amplifier         
  • voltage gain]]'' of 3; that is at any instant <math>v_o(t) = 3v_i(t)\,</math>
  • thumb
  • The four types of dependent source—control variable on left, output variable on right
  • De Forest's prototype audio amplifier of 1914. The [[Audion]] (triode) vacuum tube had a voltage gain of about 5, providing a total gain of approximately 125 for this three-stage amplifier.
  • op-amp]]
  • Power amplifier by [[Skyworks Solutions]] in a [[Smartphone]].
ELECTRONIC CIRCUIT OR COMPONENT THAT INCREASES THE LEVEL OF INCOMING ELECTRICAL SIGNAL (NOT NECESSARILY AUDIO)
Amplifiers; Amplifier stage; Voltage amplifier; Signal amplifier; Signal amplifiers; Transistor amplifier; Ampllifiers; Sound amplification; Penguat peralatan; Current amplifier; Amplifire; Amplifier class; Common plate; Common cathode; Common grid; Cathode follower; Piezoelectric audio amplifier; Piezo Audio Amplifier; Single stage amplifier; Common-cathode; Power Amplifier; Electronic amplifier; Unilateral amplifier; Bilateral amplifier; Video amplifier; Microwave amplifier
·noun One who or that which amplifies.
amplifier         
  • voltage gain]]'' of 3; that is at any instant <math>v_o(t) = 3v_i(t)\,</math>
  • thumb
  • The four types of dependent source—control variable on left, output variable on right
  • De Forest's prototype audio amplifier of 1914. The [[Audion]] (triode) vacuum tube had a voltage gain of about 5, providing a total gain of approximately 125 for this three-stage amplifier.
  • op-amp]]
  • Power amplifier by [[Skyworks Solutions]] in a [[Smartphone]].
ELECTRONIC CIRCUIT OR COMPONENT THAT INCREASES THE LEVEL OF INCOMING ELECTRICAL SIGNAL (NOT NECESSARILY AUDIO)
Amplifiers; Amplifier stage; Voltage amplifier; Signal amplifier; Signal amplifiers; Transistor amplifier; Ampllifiers; Sound amplification; Penguat peralatan; Current amplifier; Amplifire; Amplifier class; Common plate; Common cathode; Common grid; Cathode follower; Piezoelectric audio amplifier; Piezo Audio Amplifier; Single stage amplifier; Common-cathode; Power Amplifier; Electronic amplifier; Unilateral amplifier; Bilateral amplifier; Video amplifier; Microwave amplifier
(amplifiers)
An amplifier is an electronic device in a radio or stereo system which causes sounds or signals to get louder.
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Wikipedia

Klystron

A klystron is a specialized linear-beam vacuum tube, invented in 1937 by American electrical engineers Russell and Sigurd Varian, which is used as an amplifier for high radio frequencies, from UHF up into the microwave range. Low-power klystrons are used as oscillators in terrestrial microwave relay communications links, while high-power klystrons are used as output tubes in UHF television transmitters, satellite communication, radar transmitters, and to generate the drive power for modern particle accelerators.

In a klystron, an electron beam interacts with radio waves as it passes through resonant cavities, metal boxes along the length of a tube. The electron beam first passes through a cavity to which the input signal is applied. The energy of the electron beam amplifies the signal, and the amplified signal is taken from a cavity at the other end of the tube. The output signal can be coupled back into the input cavity to make an electronic oscillator to generate radio waves. The gain of klystrons can be high, 60 dB (an increase in signal power by a factor of one million) or more, with output power up to tens of megawatts, but the bandwidth is narrow, usually a few percent although it can be up to 10% in some devices.

A reflex klystron is an obsolete type in which the electron beam was reflected back along its path by a high potential electrode, used as an oscillator.

The name klystron comes from the Greek verb κλύζω (klyzo) referring to the action of waves breaking against a shore, and the suffix -τρον ("tron") meaning the place where the action happens. The name "klystron" was suggested by Hermann Fränkel, a professor in the classics department at Stanford University when the klystron was under development.