Yagi antenna - definição. O que é Yagi antenna. Significado, conceito
Diclib.com
Dicionário ChatGPT
Digite uma palavra ou frase em qualquer idioma 👆
Idioma:

Tradução e análise de palavras por inteligência artificial ChatGPT

Nesta página você pode obter uma análise detalhada de uma palavra ou frase, produzida usando a melhor tecnologia de inteligência artificial até o momento:

  • como a palavra é usada
  • frequência de uso
  • é usado com mais frequência na fala oral ou escrita
  • opções de tradução de palavras
  • exemplos de uso (várias frases com tradução)
  • etimologia

O que (quem) é Yagi antenna - definição

TYPE OF RADIO ANTENNA
Yagi-Uda Antenna; Yagi Antenna; Yagi Aerial; Yagi-Uda; Uda-Yagi; Yagis; Yagi array; Yagi antenna; Yagi-uda antenna; Yagi-Uda antenna
  • Close-up of Yagi arrays of the [[ASV Mark II radar]] fitted beneath a [[Bristol Beaufort]] aircraft for [[anti-submarine warfare]].
  • Bf 110]] night fighter aircraft.
  • A three-element Yagi–Uda antenna used for long-distance ([[skywave]]) communication in the [[shortwave]] bands by an [[amateur radio]] station. The longer ''reflector'' element (''left''), the [[driven element]] (''centre''), and the shorter ''director'' (''right'') each have a so-called ''trap'' (parallel [[LC circuit]]) inserted along their conductors on each side, allowing the antenna to be used on more than one frequency band.
  • A [[Nakajima J1N]]1-S night fighter with quadruple Yagi radar transceiver antennas
  • A portable Yagi–Uda antenna for use at 144 MHz (2 m), with segments of yellow tape-measure ribbon for the arms of the driven and parasitic elements.
  • corner reflector]].
  • director]] (''right''). Exact spacings and element lengths vary somewhat according to specific designs.
  • VHF]] [[television antenna]] from 1954, used for analog channels 2–4, 54–72 MHz (USA channels). It has five elements: three directors (''to left'') one reflector (''to right'') and a driven element which is a [[folded dipole]] (''double rod'') to match the 300 Ω [[twin lead]] feedline. The beam direction (direction of greatest sensitivity) is to the left.
  • Two Yagi–Uda antennas on a single mast. The top one includes a corner reflector and three stacked Yagis fed in phase in order to increase gain in the horizontal direction (by cancelling power radiated toward the ground or sky). The lower antenna is oriented for vertical polarization, with a much lower resonant frequency.
  • Mutual impedance between parallel <math>\scriptstyle{{\lambda \over 2}}</math> dipoles not staggered as a function of spacing. Curves '''Re''' and '''Im''' are the resistive and reactive parts of the mutual impedance. Note that at zero spacing we obtain the self-impedance of a half-wave dipole, 73&nbsp;+&nbsp;j43&nbsp;Ω.

Yagi antenna         
['j?:gi]
¦ noun a highly directional narrowband radio aerial made of several short rods mounted across an insulating support.
Origin
1940s: named after the Japanese engineer Hidetsugu Yagi.
Yagi–Uda antenna         
A Yagi–Uda antenna or simply Yagi antenna, is a directional antenna consisting of two or more parallel resonant antenna elements in an end-fire array; these elements are most often metal rods acting as half-wave dipoles. Yagi–Uda antennas consist of a single driven element connected to a radio transmitter and/or receiver through a transmission line, and additional "passive radiators" with no electrical connection, usually including one so-called reflector and any number of directors.
Typhoon Yagi         
WIKIMEDIA DISAMBIGUATION PAGE
Typhoon Yagi (disambiguation); List of tropical storms named Yagi; Tropical Storm Yagi; List of storms named Yagi
The name Yagi has been used to name four tropical cyclones in the northwestern Pacific Ocean. The name was submitted by Japan and is the Japanese word for goat or the Japanese name of the constellation Capricornus.

Wikipédia

Yagi–Uda antenna

A Yagi–Uda antenna, or simply Yagi antenna, is a directional antenna consisting of two or more parallel resonant antenna elements in an end-fire array; these elements are most often metal rods acting as half-wave dipoles. Yagi–Uda antennas consist of a single driven element connected to a radio transmitter and/or receiver through a transmission line, and additional "passive radiators" with no electrical connection, usually including one so-called reflector and any number of directors. It was invented in 1926 by Shintaro Uda of Tohoku Imperial University, Japan, with a lesser role played by his boss Hidetsugu Yagi.

Reflector elements (usually only one is used) are slightly longer than the driven dipole and placed behind the driven element, opposite the direction of intended transmission. Directors, on the other hand, are a little shorter and placed in front of the driven element in the intended direction. These parasitic elements are typically off-tuned short-circuited dipole elements, that is, instead of a break at the feedpoint (like the driven element) a solid rod is used. They receive and reradiate the radio waves from the driven element but in a different phase determined by their exact lengths. Their effect is to modify the driven element's radiation pattern. The waves from the multiple elements superpose and interfere to enhance radiation in a single direction, increasing the antenna's gain in that direction.

Also called a beam antenna and parasitic array, the Yagi is very widely used as a directional antenna on the HF, VHF and UHF bands. It has moderate to high gain of up to 20 dBi, depending on the number of elements used, and a front-to-back ratio of up to 20 dB. It radiates linearly polarized radio waves, and can be mounted for either horizontal or vertical polarization. It is relatively lightweight, inexpensive and simple to construct. The bandwidth of a Yagi antenna, the frequency range over which it maintains its gain and feedpoint impedance, is narrow, just a few percent of the center frequency, decreasing for models with higher gain, making it ideal for fixed-frequency applications. The largest and best-known use is as rooftop terrestrial television antennas, but it is also used for point-to-point fixed communication links, in radar antennas, and for long distance shortwave communication by shortwave broadcasting stations and radio amateurs.