DE900876C - Arrangement for reproducing frequency curves using a Braun tube - Google Patents

Description

Arrangement for the reproduction of frequency curves by means of a Braunsche tube Arrangements for displaying frequency curves are already in use a Braun tube with a plurality of mutually isolated from the cathode ray coated electrodes known as switching relays. In the known arrangements the electrodes of the Braun tube are elongated and parallel to the collecting screen arranged, and each electrode is on the one hand assigned to it, which decomposed Electrolytic decomposition cell indicating the amount of water with one pole and the other via the electronic discharge path of the Braun tube with the other pole connected to a DC power source. In a modified embodiment, on Place the electrodes of the conductive screen of the tube itself in a number be divided by isolated strips, which are in the same way as the Electrodes are connected to the decomposition cells. These arrangements have the The advantage is that it is no longer necessary to record a time diagram of the processes and from this then by summing the dwell times for each value of the variable Size to determine their frequency within the observation time. This task occurs, for example, with numerous processes with an irregular frequency distribution, such as radio fading, meteorological fluctuations and the like.

The invention provides an arrangement for displaying frequency curves by means of a Braun tube, which is characterized by net, that a statistical curve of the frequency distribution can be easily obtained will. This is achieved according to the invention in that the screen image of the measuring process optionally with the interposition of optics on a light-sensitive layer thrown and that the blackening produced on the layer is used for evaluation. It is doing the principle of measuring the entire, from the point of view The amount of light emanating from the screen is used. The amount of light is on the one hand proportional to the size of the residence time and, on the other hand, proportional to the amount of one photochemically decomposed substance. The arrangement described also has the special one The advantage of as little maintenance as possible, but with a high level of sensitivity secured.

Furthermore, this arrangement is also free from external influences. She knows thus the essential properties required for a measuring device.

The subject matter of the invention is based on an exemplary embodiment below explained in more detail.

A receiver 2 is connected to an antenna I, which in turn is connected to the plate 4 of a pair of plates 3, 5 of the Braun tube, while the other plate 5 is suitably grounded. The Braun tube 3 is with a Fluorescent screen 6 that is as uniform as possible and resistant to electron radiation Mistake.

To the loading of the luminescent screen 6 by the electron radiation can reduce a Braun tube with one in the electron beam path switched electron optical - cylinder lens can be used. This cylinder lens is arranged so that the luminous triangle forms a line perpendicular to the measurement deflection the Braun tube is pulled apart. In this case, too, is just that a pair of plates (measuring plate pair) necessary. Generally one comes at all with a pair of plates in the Braun tube. The luminous line can be expedient through an optical cylinder lens between the luminescent screen 6 and the photographic one Plate 8 can be contracted to one point to increase the sensitivity of the arrangement to increase.

In the illustrated embodiment, there is a Braun tube with two pairs of plates use. While the measuring plate pair for the measuring process is required, the pixel becomes more suitable by applying an auxiliary voltage Frequency and size on the time plate pair pulled apart to one line. Of the Stroke can then turn to a point with the help of an optical cylinder lens be contracted.

The light spot or line on the photographic plate 8 imaging optical system is in the embodiment with the reference number 7 provided. The imaging optical system may also be missing, so that the screen image of the measuring process directly onto a light-sensitive layer, for example a photographic plate. After the development of the photographic The plate then corresponds to the dwell time of the one to be measured in the distribution spectrogram Size at a certain value a certain blackening of the associated plate location. The distribution curve can, if necessary, be automated by microphotometric Evaluation received.

Due to the relatively large amount of blackening it is more suitable photographic layers can easily be determined by frequency ratios of Have a good command of 1: 2000. The measuring accuracy is due to the ratio of the light spot diameter given for the usable screen width. A regulation of the sensitivity can by intensity control of the electron beam or by switching on a Achieve aperture in the imaging optics.

Claims (5)

PATENT CLAIMS: I. Arrangement for displaying frequency curves by means of a Braun tube, characterized in that the screen image of the measuring process optionally with the interposition of optics on a light-sensitive layer is thrown and that the amount of photochemically decomposed substance of the photosensitive Layer is used for evaluation. 2. Arrangement according to claim I, characterized in that in the Braun's tube is an electron-optical cylinder lens for pulling the Image point is provided to a line perpendicular to the measurement deflection. 3. Arrangement according to claim I, characterized in that the Time plate pair an auxiliary voltage is applied to the image point to a line pull apart perpendicular to the measurement linkage. 4. Arrangement according to claim 2 or 3, characterized in that an optical cylinder lens between the luminescent screen and the light-sensitive layer is provided to contract the line to a point. 5. A method for operating an arrangement according to claim I or the following, characterized in that the sensitivity is achieved by controlling the intensity of the electron beam or by switching on a diaphragm in the imaging optics.