SU1187201A1 - Matrix indicator - Google Patents

Abstract

A MATRIX INDICATOR containing a transparent dielectric substrate, on one surface of which are deposited successively arranged the first conductive layer in the form of horizontal stripes and the electroluminescent layer, the light-absorbing layer in the form of horizontal stripes located between the horizontal prismatic stripes of the first current layer, and the second conductive layer , characterized in that, with the aim of expanding the field of application by providing a color image, to another surface a transparent dielectric pattern A successively arranged alternating nposf additional additional conductive and electroluminescent layers are deposited on the substrate, with the third electroluminescent layer made of a material capable of ultraviolet radiation, and the other additional electrolytic layers of radiation from different materials capable of radiation in various 1 Spectrum visible range, with n: ice-Q in alternating transparent additional 5S body layers made of conductive;

Description

The invention relates to matrix display devices and can be used in computing to display alphanumeric and graphic information. The purpose of the invention is to expand the field of application by providing a color image. The drawing shows a matrix indicator with two additional electroluminescent layers, a slit. The matrix indicator contains a transparent dielectric substrate 1, on one surface of which a nerve conductive layer is successively applied in the form of horizontal stripes 2 (horizontal bus-electrodes), an electroluminescent layer 3 made of a material capable of ultraviolet radiation, and an absorbing layer 4 in the form of horizontal stripes located between the horizontal stripes 2 of the first conductive layer, and the second current-conducting layer 5 (vertical busbars electrodes). The first additional conductive layer 6, the first additional electroluminescent layer 7, the second additional conductive layer 8, the second additional electroluminescent layer 9, and the last layer 10, which is a semiconductor conductor, are successively applied to another surface of the transparent dielectric substrate. Matrix indicator works as follows. Applying voltage to certain vertical 5 and horizontal 2 bus electrodes excites a section of the electroluminescent layer 3 located at the intersection of the selected tires. The specified area begins to emit ultraviolet light. The ultraviolet radiation flux through the transparent horizontal conductive layer 2, the dielectric substrate 1, the conductive layers 6 and 8 penetrates the electroluminescent layers 7 and 9 with a nearly non-divergent beam. Layers 7 and 9 are simultaneously rotated by electric fields. At the same time, transparent current-conducting layers b, 8, and 10 supply such voltages that the glow of electroluminescent layers 7 and 9, excited by an electric field, occurs only when they are further irradiated with ultraviolet light emitted by the portion of electroluminescent layer 3. Suppose that electroluminescent layers 7 and 9 are capable of emitting green and red light respectively. Then, to get the light w in a given place of the indicator, the green point is enough to apply the excitation voltage of the electroluminescent layer 3 to the corresponding vertical 5 and horizontal 2 tires and simultaneously apply the excitation voltage of the specified value to the additional conductive layers 6 and 8. Accordingly, to obtain a red luminous point in the same place of the indicator, it is sufficient to apply a control voltage to the same coordinate buses and to conductive layers 8 and 10, and to obtain a yellow light point, you will need to apply a voltage on conductive layers 6 and 8 and on layers 8 and 10. Thus, when applying control signals to coordinate buses and a pair of transparent additional conductive layers in a certain sequence, you can get a three-color image of any hold. When red, blue and green electroluminescent phosphors are used, the proposed matrix indicator will be able to reproduce eight colors (white, black, red, blue, green, yellow, cyan and magenta).

Claims (1)

A MATRIX INDICATOR comprising a transparent dielectric substrate, on one surface of which a first conductive layer in the form of horizontal strips and an electroluminescent layer, a light-absorbing layer in the form of horizontal strips, arranged horizontally in the first tc conductive layer, and a second conductive layer, different in that that, with the aim of expanding the scope by (providing a color image, onto another surface of a transparent dielectric sequentially arranged alternating transparent additional conductive and electroluminescent layers are deposited on the substrate, while the hight electroluminescent layer is made of a material capable of ultraviolet radiation, and other additional electroluminescent layers are made of materials capable of radiation in various visible regions in this In the other layers, the current-carrying layer is LAYERED. I tnniinilllllllllllininmilllllllllHtf-g