DE2324069A1 - CIRCUIT ARRANGEMENT FOR IMPROVING INTERFERENCE DISTANCE WITH LIGHT POINT SCANNERS - Google Patents

Description

Circuit arrangement for improving the signal-to-noise ratio in light point scanners The invention relates to a circuit arrangement for improving the signal-to-noise ratio for light point scanners with an afterglow compensation circuit.

As is known, the screen of the scanning tube of light point scanners has a strong afterglow effect. This is done by means of an in the signals of the llildsignals switched on RC network with suitably set time constants compensated as far as possible, however, this RC network worsens the signal-to-noise ratio, because this increases the level of the high frequencies significantly (at 5 MHz by around six times), which is noticeable in the television picture as a result of increased noise power.

The object of the invention is therefore to provide a simple circuit arrangement specify the signal-to-noise ratio for light point scanners with an afterglow compensation circuit is greatly improved.

According to the invention, the output of the photocell is on the one hand with a Afterglow compensation circuit for the low frequencies, preferably up to max. 2 MHz, and on the other hand via a hole fitting element with a swell element connected for attenuating smaller signal levels, the output of the Nachleuchtkonipensationskreis as the output of the threshold value element is connected to one input each of an adder stage is, at the output of which the low-smoke image signal can be removed.

The circuit arrangement according to the invention has the advantage that by the afterglow compensation no increased noise occurs.

The invention is now based on one shown in the figure Ausfiiiirungsbeispiels are explained in more detail, with only those for understanding the Invention necessary parts are shown.

Terminal 1 is the one coming from the photocell (not shown) BA-Signa.l (picture signal with blanking), which is the afterglow compensation circuit should be fed. According to the invention, terminal 1 is on the one hand an afterglow compensation circuit 2 for the low-frequency component, for example up to 2 MHz, of the BA signal and on the other hand a high-pass element 3 for transmitting the high-frequency component, e.g. from 2 to 5 llIz, connected.

The low-frequency component of the BA signal is after the compensation with the aid of the circuit 2 passed directly to the one input fine adder 5. The high-frequency component of the RA signal coming from the high-pass element 3 becomes a threshold value element 6, which suppresses signals with a lower level and only the signals transmits at a level above the set threshold.

As a result, the noise components reaching the high-pass element 3 (Caused e.g. by the graininess of the film and the scanning tube and by the noise of the Pllotocell) is largely suppressed. The other entrance 7 of the Adder stage 5 is therefore only the high-frequency portion of the hA signal supplied without noise components.

After adding the low-frequency with the noise-suppressed high-frequency Part of the RA signal, the low-noise BA signal can be picked up at output terminal 8.

Claims (2)

Claim Circuit arrangement for improving the signal-to-noise ratio in light point scanners with a lighting compensation circuit, characterized in that the output the photocell (terminal 1) on the one hand with an afterglow compensation circuit (2) for the low frequencies, preferably up to max. 2 DRIz, and on the other hand Via a high-pass element (3) with a threshold value element (6) for attenuating small signal levels connected is; and that the emergence of the afterglow compensation circuit (2) as well the output of the threshold value element (6) to one input (4 or 7) each of an adder stage (5) is connected, at whose output (8) the low-noise image signal can be removed is,