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electronics$24229$ - tradução para grego

FIELD OF MATERIALS SCIENCE RESEARCHING ORGANIC SUBSTANCES WITH ELECTRONIC PROPERTIES
Plastic electronics; Laminar electronics; Polymer electronics
  • Schematic of a bilayer OLED: 1. Cathode (−), 2. Emissive layer, 3. Emission of radiation, 4. Conductive layer, 5. Anode (+)
  • Bilayer organic photovoltaic cell
  • Br6A, a next generation pure organic light emitting crystal family
  • Organics-based flexible display
  • Organic [[CMOS]] logic circuit. Total thickness is less than 3 μm. Scale bar: 25 mm
  • Five structures of organic photovoltaic materials
  • Rubrene-OFET with the highest charge mobility
  • doi-access=free}}</ref>
  • Illustration of thin film transistor device

electronics      
n. επιστήμη των ηλεκτρονίων, ηλεκτρονική
electrical engineer         
  • The [[IEEE]] corporate office is on the 17th floor of [[3 Park Avenue]] in New York City
  • [[Microprocessor]]
  • CCD]] requires signal processing to get a red, green, and blue value at each pixel.
  • Belgian electrical engineers inspecting the rotor of a 40,000 kilowatt [[turbine]] of the [[General Electric Company]] in New York City
  • [[Electronic component]]s
  • [[Satellite dish]]es are a crucial component in the analysis of satellite information.
  • [[Flight instrument]]s provide pilots with the tools to control aircraft analytically.
  • The discoveries of [[Michael Faraday]] formed the foundation of electric motor technology.
  • [[Guglielmo Marconi]], known for his pioneering work on long-distance [[radio transmission]]
  • An example [[circuit diagram]], which is useful in [[circuit design]] and [[troubleshooting]].
  • acrylic]] rod, illustrating the total internal reflection of light in a multi-mode optical fiber.
  • [[Supercomputer]]s are used in fields as diverse as [[computational biology]] and [[geographic information system]]s.
  • [[Metal–oxide–semiconductor field-effect transistor]] (MOSFET), the basic building block of modern [[electronics]]
  • Satellite communication]]s is typical of what electrical engineers work on.
  • [[Radome]] at the Misawa Air Base Misawa Security Operations Center, Misawa, Japan
  • [[Oscilloscope]]
  • power pole]]
  • A replica of the first working [[transistor]], a [[point-contact transistor]]
  • Shadow robot hand]] system
  • [[Control system]]s play a critical role in [[spaceflight]].
  • The Bird VIP Infant ventilator
FIELD OF ENGINEERING THAT DEALS WITH ELECTRICITY
ElectricalEngineering; Electrical engineer; Electrical Engineering; Electrical and Computer Engineering; Electrical Engineer; Electrical and computer engineering; Electrical engineers; Electroengineering; Electro-engineering; Electro engineering; Electronics and Communications Engineering; Electrical and Electronics Engineering; Subfields of electrical engineering; Electronics and Communications engineering; Electrical and electronics engineering; Electrical and electronic engineering; Electrical/electronic engineering; Electrical Engingeering; Electrotechnology; Electrical and Electronics; Eletrical Engineering; Electrical engineering (terminology); Electro-technology; Electrical and Computers Engineering; Electrotechnics; Electrical & Electronic Engineering; Electrical degree; Electronic and electrical engineering; Electrical & Electronics Engineering; Electrical And Electronics Engineering; Electrical and Electronic Engineering; Electrical & Electronics; Electrotechnician; Applied electricity; Electronics and communications engineering; Elec; Electric engineering; Electric Engineering; Electric Engineer; Electronic and Electrical Engineering; Electronic and Electrical engineering; Electroengineer; Electronics and Electrical Engineering; Electronic and Communications Engineering; Electrical and computer enginering; Electical Engineering; Subdisciplines of electrical engineering; Electronics and electrical engineering; Electrical and electronics; Electrical & electronic engineering; Electricals
ηλεκτρολόγος μηχανικός
thermionic valve         
  • Voltage-regulator tube in operation. Low-pressure gas within tube glows due to current flow.
  • 11 mm diameter}}
  • Metal-cased tubes with octal bases
  • Whirlwind]]
  • Tube tester manufactured in 1930.
  • 10 mm diameter}} (excluding leads)
  • Batteries for a vacuum-tube circuit. The C battery is highlighted.
  • 150 kW}} of power
  • One of Edison's experimental bulbs
  • Beam power tube designed for radio frequency use. The tube plugs in to a socket that creates an air-tight seal around the outer periphery. A blower and duct work in the chassis force air through the tube's fins to carry away heat. This type of tube is sometimes referred to as a “doorknob” tube, owing to its shape and size.
  • Fleming's first diodes
  • Vacuum tubes seen on end in a recreation of the World War II-era [[Colossus computer]] at [[Bletchley Park]], England
  • Triode tube type GS-9B; designed for use at radio frequencies up to 2000 MHz and rated for 300 watts anode power dissipation.<ref>[https://web.archive.org/web/20210225190032/http://www.gstube.com/data/1450/ GS-9B Oscillator Ultra-High Frequency Triode] Archived 25 Feb. 2021</ref> The finned heat sink provides conduction of heat from anode to air stream.
  • General Electric Company Pliotron, [[Science History Institute]]
  • Getter in opened tube; silvery deposit from getter
  • The pentagrid converter contains five grids between the cathode and the plate (anode)
  • u=W}} of heat
  • Dead vacuum fluorescent display (air has leaked in and the getter spot has become white)
  • 70-watt tube-hybrid audio amplifier
  • Audio power amplifier using tubes, in operation. Red-orange glow is from heated filaments.
  • The useful region of operation of the screen grid tube (tetrode) as an amplifier is limited to anode potentials in the straight portions of the characteristic curves greater than the screen grid potential.
  • Tetrode symbol. From top to bottom: plate (anode), screen grid, control grid, cathode, heater (filament).
  • Triode symbol. From top to bottom: plate (anode), control grid, cathode, heater (filament)
  • Typical Triode Plate Characteristics
  • The first triode, the de Forest [[Audion]], invented in 1906
  • Triodes as they evolved over 40 years of tube manufacture, from the RE16 in 1918 to a 1960s era miniature tube
  • Universal vacuum tube tester
  • Commercial packaging for vacuum tubes used in the latter half of the 20th century including boxes for individual tubes (bottom right), sleeves for rows of the boxes (left), and bags that smaller tubes would be put in by a store upon purchase (top right)
  • 20.4 mm}} in diameter.
  • Radio station signal generator with vacuum tubes
DEVICE THAT CONTROLS ELECTRIC CURRENT BETWEEN ELECTRODES IN AN EVACUATED CONTAINER
Vaccuum tube; Vacuum tubes; Radio tube triode; Thermionic device; Vacuum Tubes; Integrated circuit vacuum tube; Integrated vacuum tube; Field emitter vacuum tube; Thermionic valves; Firefet; Thermionic tube; Vacuum Tube; Vacuum diode; Vacuum Diode; Vaccum tube; Radio valve; 12SK7; 5U4; Electronic tube; Electrical valve; Vacuum tube types; Vacuum tube (electronics); Microtriode; Radio tube; 12AU6; 6AU6; Vacuum-tube; Miniature valve; Microtube (electronics); Microtube (Electronics); Electron valve; Vacumn tube; Thoriated tungsten; Acorn Valve; Acorn valve; Cheater cord; Thermionic valve; Valve (electronics); Vacuum tube circuit; Firebottle; Electron device; Battery valve; Indirectly heated cathode; Vacuum-tube electronics
ηλεκτρονική λυχνία

Definição

brown goods
¦ plural noun television sets, audio equipment, and similar household appliances. Compare with white goods.
Mostrar mais definições

Wikipédia

Organic electronics

Organic electronics is a field of materials science concerning the design, synthesis, characterization, and application of organic molecules or polymers that show desirable electronic properties such as conductivity. Unlike conventional inorganic conductors and semiconductors, organic electronic materials are constructed from organic (carbon-based) molecules or polymers using synthetic strategies developed in the context of organic chemistry and polymer chemistry.

One of the promised benefits of organic electronics is their potential low cost compared to traditional electronics. Attractive properties of polymeric conductors include their electrical conductivity (which can be varied by the concentrations of dopants) and comparatively high mechanical flexibility. Challenges to the implementation of organic electronic materials are their inferior thermal stability, high cost, and diverse fabrication issues.

https://en.wikipedia.org/wiki/Organic electronics
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