RU2483496C1 - Electroluminescent source of light - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electroluminescent source of light comprises parallel electrodes arranged on a dielectric substrate in the form of two systems from strips entering each other, above which a luminophor is applied onto a binder. Onto the surface opposite to the surface of the dielectric substrate made of a material transparent in the visible area of light, with electrodes, a coating is applied, which reflects the visible area of radiation. The distance between strips exceeds the width of strips at least twice.

EFFECT: improved efficiency of electroluminescent source of light.

2 dwg

Description

The invention relates to the field of electrical engineering and can be used to create electroluminescent light sources of various modifications, for example, in information display devices, lighting devices.

Known electroluminescent light source containing electrodes in parallel located on a dielectric substrate in the form of two systems of strips that are included in each other, the width of the strips and the distance between them is comparable to the grain size of the phosphor located on top of the electrodes (RU No. 2175468, IPC НВВ 33/26, F21K 2/08, published October 27, 2001).

The disadvantages of this device are the opacity of the dielectric substrate in the visible region and the absence of light emission on the opposite side of the substrate due to high radiation losses due to the absorption of light by the dielectric substrate and electrodes, which reduces the efficiency of the device.

The technical result consists in increasing the efficiency of an electroluminescent light source.

The technical result is achieved by the fact that the electroluminescent light source contains electrodes in parallel arranged on a dielectric substrate in the form of two systems of strips entering one another, on top of which a phosphor is applied on a binder. On the surface opposite to the surface of the dielectric substrate made of a material transparent in the visible region of light, an electrode is coated with electrodes, which reflects the visible region of radiation. The distance between the strips exceeds the width of the strips by at least 2 times.

Figure 1 shows an electroluminescent light source, top view; figure 2 - electroluminescent light source, side view.

The electroluminescent light source (FIGS. 1, 2) comprises, in parallel, arranged on a dielectric substrate 1 made of a material transparent to the visible region of light, for example, quartz, electrodes 2 in the form of two systems of strips that enter into each other. The phosphor layer 3 is deposited on top of the electrodes 2 on the binder. On the surface opposite the surface of the dielectric substrate 1 made of a material transparent in the visible region of light, a coating 4 is applied, for example, an aluminum or silver film reflecting the visible radiation region. The distance between the strips d exceeds the width of the strips h by at least 2 times.

The device operates as follows. When voltage is applied to the phosphor 3, it begins to radiate in all directions. The radiation incident on the dielectric substrate 1, made of a material that is transparent in the visible region of the light, is reflected by the coating 4. In this connection, the output of the radiation source is doubled. The difference in the width of the strips of the electrodes 2 and the distance between them also allows you to increase the radiation output. For example, with the same width h of the strips of the electrodes 2 and the distance d between them, half of the radiation does not extend beyond the dielectric substrate 1 on the opposite side due to absorption of radiation by the electrodes 2. But if the ratio of the width h of the electrodes 2 and the distance d between them is 1/3 , then only 1/4 of the radiation is delayed by the strips of electrodes 2. Therefore, the radiation output increases by a factor of 2. Based on what the efficiency of the electroluminescent light source is increased.

Compared with the known solution, the proposed one allows to increase the efficiency of an electroluminescent light source.

Claims (1)

An electroluminescent light source containing electrodes in parallel located on a dielectric substrate in the form of two systems of strips entering one another, on top of which a phosphor is applied on a binder, characterized in that on the surface opposite to the surface of the dielectric substrate made of a material transparent in the visible region of light , with electrodes, a coating is applied that reflects the visible region of radiation, while the distance between the bands exceeds the bandwidth by at least 2 times.

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