Electroluminescent display

Electroluminescent displays (ELDs) are a type of flat panel display created by sandwiching a layer of electroluminescent material such as gallium arsenide between two layers of conductors. When current flows, the layer of material emits radiation in the form of visible light. Electroluminescence (EL) is an optical and electrical phenomenon where a material emits light in response to an electric current passed through it, or to a strong electric field. The term "electroluminescent display" describes displays that use neither LED nor OLED devices, that instead use traditional electroluminescent materials. Beneq is the only manufacturer of TFEL (Thin Film Electroluminescent Display) and TAESL displays, which are branded as LUMINEQ Displays.[1] The structure of a TFEL is similar to that of a passive matrix LCD or OLED display, and TAESL displays are essentially transparent TEFL displays with transparent electrodes. TAESL displays can have a transparency of 80%. Both TEFL and TAESL displays use chip-on-glass technology, which mounts the display driver IC directly on one of the edges of the display. TAESL displays can be embedded onto glass sheets.[2] Unlike LCDs, TFELs are much more rugged and can operate at temperatures from −60 to 105 °C and unlike OLEDs, TFELs can operate for 100,000 hours without considerable burn-in, retaining about 85% of their initial brightness.[3] The electroluminescent material is deposited using atomic layer deposition, which is a process that deposits one 1-atom thick layer at a time.[4][5][6]

1966 Dodge Charger Electroluminescent Instrument Cluster

Mechanism

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EL works by exciting atoms by passing an electric current through them, causing them to emit photons. By varying the material being excited, the colour of the light emitted can be changed. The actual ELD is constructed using flat, opaque electrode strips running parallel to each other, covered by a layer of electroluminescent material, followed by another layer of electrodes, running perpendicular to the bottom layer. This top layer must be transparent in order to let light escape. At each intersection, the material lights, creating a pixel.

Uses

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Electroluminescent (EL) displays have been a niche format and are rarely used nowadays. Some uses have included the Apollo Guidance Computer 7-segment numerical displays, to indicate speed and altitude at the front of the Concorde, and as floor indicators on Otis Elevators from around 1989 to 2007,[7] mostly only available to high-rise buildings and modernizations. EL displays have a wider operating temperature range than LED displays.

Abbreviations

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  • AMEL: Active matrix electroluminescence
  • TFEL: Thin film electroluminescence
  • TDEL: Thick dielectric electroluminescence

See also

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References

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  1. ^ "Top electrode for transparent display". Beneq. 2020-03-06. Retrieved 2021-03-11.
  2. ^ "LUMINEQ in-glass displays IGLD". www.lumineq.com.
  3. ^ "ICEBrite™ small graphics TFEL display" (PDF). www.lumineq.com.
  4. ^ "LUMINEQ transparent displays TASEL". www.lumineq.com.
  5. ^ "Rugged TFEL displays operate from -60 to +105°C". eeNews Europe. March 14, 2017.
  6. ^ https://beneq.com/en/displays/products/all [dead link]
  7. ^ "Electroluminescent display" (PDF). February 9, 2022.