SU976458A1 - Semiconductor block for displaying and printing alphanumeric symbols - Google Patents

Abstract

The thermal printing block comprises a semiconductor having the shape of the character to be printed. The semiconductor is made of two materials (2, 3) having a pn junction (4). The first material is a substrate in which the second material is embedded. The junction has both a light and a heat output. The heat output (Q3) occurs primarily in the substrate which is extended to the printing surface (7) of the block for thermal printing. The light output occurs primarily in the second material which is extended to the opposite surface (13) of the block to provide a visual output.

Description

This is due to the fact that the solid-state element formed on the p-y1-h1 junction is light-emitting, used to indicate alphanumeric characters, and the heat generated by the solid element is necessary to print heat in such a way that: ne4atb and indications independent of each other were provided. The goal is achieved by the fact that the printing surface is opposite to that used for indicating the surface, and the heat-conducting element takes the place from the p-And-nei transition to the printing surface. FIG. 1 shows a solid state unit; in fig. 2 - arrangement of solid state blocks in the form of a matrix; in fig. 3 parallel connection of the 1 torus with the p-junction. A solid-state unit 1 consists of a substrate 2 of the same conductivity type, on which a semiconductor / 3 other conductivity type is carried. The contacting of both semiconductors is normal, not specified here. The light emission produced by the p-fi transition 4 is shown by small, upward arrows, as well as on the p-k nepexode 4, the resulting heat is; a large downward arrow. The transfer of heat or convection is carried out by the heat-conducting element 5, limiting s by the heat insulating layer 6 and having a high thermal conductivity compared to the surrounding medium. The shape of the p-and-junction 4 is such that, along with radiation, an increased heat release is generated. The amount of heat loss arising from the use of such semiconductors MUST be increased. Most of the amount of heat Q., - the amount of heat 0-J, - is used directly for heat printing. With the help of heat insulating layers, a reduction in the released amount of heat Q to Qi, perpendicular to the heat of Q-C, is obtained, following condition; Qy 0 + Q, Amount of heat Q, no printing surface 7, exuded as a printing element, is transferred to the recording medium 8 and is thermally printed. Record maker 8 is attached, on one side, on the printing surface 7 of the solid-state unit 1. on the other side on the support printing element 9, for example, a support roller. The reference printing element 9 is made of a material with high thermal conductivity, and acts as a heat sink. To obtain an additional amount of heat generated during the course, various options are possible, used both individually and in combination. If using solid-state block 1, a parallel connection of a resistor 10 with a p-junction 4 (Fig. 3) is provided, then this parallel connection can be polarized in the forward direction of the p-vj junction (activation of light emission) to realize the indication. When the polarity of the current direction is reversed, the current flowing through the resistor 10, as well as the current passing through the P-I junction in the opposite direction, form the amount of heat required for printing. With the help of two different currents in the forward direction of the p-ng junction, indications (activation of light emission) and printing (activation of heat generation and emission) can also be realized. To indicate sign printing, solid state units 1 are arranged in a matrix (Fig. 2). The matrix arrangement in connection with the construction of solid-state blocks 1 already described achieves the thermal, electrical and optical separation necessary for obtaining contrast and sharpness of the printed image. Each solid-state unit 1, with appropriate control, can generate a light point on its surface to indicate 11, and print the corresponding point thermally on the opposite printing surface 7, executed like a printing element. The sign image is therefore composed of dots. Printing induced by light emission. characters can be produced, for example, after displaying a certain number of characters. In spite of the above possibilities for producing an additional amount of heat, the solid-state blocks 1 occurring on pj ne 4, the heat increases by a short time, advantageously, the current for starting the printing process so that the temperature on the printing surface 7 on which the printing element is located above the switching temperature of the heat-sensitive recording medium 8. In this case, the recording medium may be constantly / on the printing surface. Then -oma-s gives the need for a mechanical copy of the seal.

Claims (1)

Formula of the invention nor Semiconductor solid-state block, dp of indication and printing of alphanumeric i characters, containing luminescent or a laser element with a p-fi-relay and thermally sensitive recording medium adjacent to one of the surfaces of the block, characterized in that it contains a heat-conducting element located between the p - junction in the printing surface of the block and an indication surface that is opposite printing surface of the block. Recognized as invention by results 10 examinations carried out by the department of inventions of the German Democratic Republic.  FIG. FIG. 2 W Yu