SU693129A1 - Bolometer - Google Patents

Description

(54) BOLOMETER

Claims (2)

The invention relates to radiation pyrometry and can be used in heat radiation detectors for measuring the radiation energy of heated bodies. Known heat receivers radiation of the bolometric type, in which PA. The radiating radiation is absorbed by a thin thermosensitive layer, thereby changing its resistance and the output signal 1. Thermoelectric receivers are known in which the absorbing layer is one or more thermocouples connected in series. A change in the temperature of the hot layer of thermocouples in this case causes a change in the thermoelectric motor at the output, 2. The sensitivity of known thermal receivers is determined mainly by the thermophysical properties of materials used as thermal resistors or thermocouples. The purpose of the present invention is to increase the sensitivity in comparison with known radiation detectors. This goal is achieved by the fact that the thermosensitive layer of the bolometer is made in the form of a flat thermopile, the electrical resistance and the electromotive force of which depends on the magnitude of the measured radiant flux. The bolometer is made by vacuum spraying, for which, after spraying a bismuth film onto the substrate, you need to apply strips over the film and, when the surface is blackened, one edge of each silver duct is left unclosed. The choice of roads and the intervals between them depends on the total area of the receiving surface and on the resolution of the masks used for the spray guns. The edges of the strips will be thermopiles, since silver has a much higher conductivity than vksmut and, as a result, a significant part of that. ka goes from one material s to another in the places of the beginning of their contact. Thermoelectric power in such a receiver arises as a result of establishing the temperature difference at the edges of each strip, since one edge of the strip is blackened, and the other is reflective. A solid bismuth film provides a change in receiver impedance. When measuring, it is more efficient to use a bolometric measuring circuit. For this purpose, the proposed heat receiver kaK includes an ordinary bolometer in the K1 system, so that the polarity of the arising EMF coincides with the imbalance of the shoulders, which is formed by heating the receiver by the measured radiant flux. When matching the shoulder resistances and the magnitude of the external voltage, the additional effect of the formation of an emf in the bolometric receiver can significantly overlap some loss of sensitivity resulting from the reflection of a portion of the radiant flux on the black edges of the silver tracks. There are various options for the manufacture and inclusion in the measuring circuit of the receiver, in which the increase in sensitivity is achieved by combining the bolometric and thermoelectric effects. Such a receiver, unlike the usual one, can be called a thermoelectric bolometer. Claims of the invention: A bolometer containing a substrate with a thin thermo sensing applied to it. body layer, electrical leads and blackening layers, characterized in that. that, in order to increase the sensitivity, the thermosensitive layer is made in the form of a flat thermopile, the electrical resistance and the electromotive force of which depend on the measured radiant flux. Sources of information taken into account in the examination 1. USSR author's certificate number 183432, cl. G 01 J 5/02, 1965. 2, USSR Copyright Certificate No. 209801, cl. G 01 J 5/02, 1966 .: