11/19/2024 11:43 a.m.
http://34.77.62.133/en/products/cable-extender-electroluminescent-investor-1m-NW095/
http://34.77.62.133/en/products/cable-extender-electroluminescent-investor-1m-NW095/
Cable Extender electroluminescent investor 1m
REF: NW095
Specifications
- 2-pin extension cable with polarity, for use with electroluminescent solutions.
- This extender has a length of 1m.
- At one end it has a male connector, and at the other end of a female connector.
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PVP
€0.90
Price including VAT:
€1.11
PVD
€0.77
PVP: Retail price.
Check conditions.
PVP: Sale price to distributors.
Check conditions.
2 years
warranty
warranty
14 days
returns
returns
100%
safe
safe
Specifications
- 2-pin extension cable with polarity, for use with electroluminescent solutions.
- This extender has a length of 1m.
- At one end it has a male connector, and at the other end of a female connector.
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More info
2-pin extension cable with polarity, for use with electroluminescent solutions. This extender has a length of 1m. At one end it has a male connector, and at the other end of a female connector.
- Gross Weight: 10 g
- Product size (width x depth x height): 10.0 x 3.0 x 2.0 cm
- Number of packages: 1
- Packages size: 10.0 x 3.0 x 2.0 cm
Technical terms
- Electroluminescence
Electroluminescence
Electroluminescence is an optical and electrical phenomenon in which a material emits light in response to the passage of an electric current or to a strong electric field.
The typical structure of an OLED electroluminescent device is based on one or more organic semiconductor layers provided between two electrodes.
The organic materials can be very small molecules or polymers.
If we cut an electroluminescent strip vertically we will find first with the negative electrode or cathode, usually metal. Here we find the luminescent material (1) and followed by the positive electrode or anode (conductive material).This conductor would be covered with a transparent protective layer (2).The combination of electrons and holes in a material, typically a semiconductor, generates the release of the electrons energy as photons. These photons are light (3) projected and visible.
Its most important technical features are:
The typical structure of an OLED electroluminescent device is based on one or more organic semiconductor layers provided between two electrodes.
The organic materials can be very small molecules or polymers.
If we cut an electroluminescent strip vertically we will find first with the negative electrode or cathode, usually metal. Here we find the luminescent material (1) and followed by the positive electrode or anode (conductive material).This conductor would be covered with a transparent protective layer (2).The combination of electrons and holes in a material, typically a semiconductor, generates the release of the electrons energy as photons. These photons are light (3) projected and visible.
Its most important technical features are:
- They can illuminate large surfaces.
- Uniform illumination.
- Very low power consumption.
- No radiation emission.
- Very small sizes and/or flat.
- Flexible.
- Indoors and outdoors working.
- No vibration.
- There are a lot of colours.
- Lighting panels of vehicles or aircraft.
- Keyboard panels or electronic panels.
- Displays.
- Signs and posters or billboards.
- Decoration.
- Road signs and vests.