SU896792A1 - Device for automatic monitoring of coincidence of rasters in multi-tube television cameras - Google Patents

Description

The invention relates to a device for controlling V in television technology, in particular to devices for controlling the alignment of rasters in multi-tube (color) cameras.

A device for controlling the alignment of rasters of color television cameras using video signals from benchmarks located on the edges of the rasters of transmitting television tubes, these video signals being transmitted in each frame of the CP, a disadvantage of the known device is that the alignment of the rasters is controlled at the edges of the rasters, and not in their central part.

The closest to the proposed technical essence and the achieved result is a device for controlling the alignment of rasters of a color automatic camera Mark - \ / 1 I I, using video signals from a test table projected over the entire area of the raster of each tube [2].

The disadvantage of this device is that when controlling the compatibility of rasters, the alloscope built into the camera with the test table should be turned on for several tens of seconds for the entire raster, i.e. the transmission from the monitored camera should be stopped for the time of monitoring and adjusting the combination (at this time, video information is lost).

The purpose of the invention is to reduce the loss of video information in the process of controlling the compatibility of rasters.

This goal is achieved by the fact that in a device for automatically controlling the alignment of rasters in multi-tube television cameras, containing a block of transmitting tubes with a color separation system, a translucent mirror installed in front of the color separation system, a multi-channel video switch, video channels R, G, B connected between the outputs of the block of transmitting tubes and signal inputs of a multi-channel video switch, alloscope with a test table and a pulsed light source, optically paired with a translucent mirror On the other hand, the raster combining unit, connected with the transmitting tube block, introduced a plot change determinant connected to the output of one of the R, G, B video channels, and a raster alignment control unit with memory 10 connected between the outputs of the multi-channel video switch and the input of the block combining rasters, while the output of the determinant of the change of subjects is connected to the control input tS of the alloscope and the control input of the multi-channel video switch.

The drawing shows a block diagram of a device.

The device contains a multi-tube, john television camera 1, a block of 2 transmitting tubes with a color separation system, red, blue and green video channels 3-5, a translucent mirror 6, a multi-channel video camera 25, a mutator 7, an alloscope 8 with a pulsed light source, block 9 combining rasters, determinant 10 of changing plots and block 11 for controlling the compatibility of rasters with memorization.

The device operates as follows.

A movie (transmitted image) through a translucent mirror 6 is projected onto the photo layer of the transmitting television tubes of camera 1, a red (for example) video signal R is input to the plot change determiner 10, and red, blue and green video signals R, G and B are fed to the signal inputs of the multi-channel video switch 7.

When changing the transmitted plot, the determinant 10 generates a signal to turn off the film illuminator, blocking the ignition of the illuminator for three half-frames.

During the first half-frame, the afterimage is erased, during the subsequent reverse frame-5® move, the determinant 10 generates an ignition pulse of the pulsed light source in the alloscope 8 and switches the multi-channel video switch 7 to the time of the second half-frame. During J5 of the second half-frame, the video signals R, G, and B about the coordinates of the test from block 2 of the transmitting tubes through the video switch 7 enter the block 11 for controlling the alignment of the rasters with memorization. During the third half-frame, the after-image of the test is erased.

After the end of the third half-frame, the subsequent half-frames of the plot are transmitted in the usual way from a multi-channel video switch to the consumer.

The alignment of the rasters is adjusted (if necessary) by the staff of the unit 9 during the further transfer of the I-th plot without interruption of transmission from the camera, with the subsequent refinement of the alignment of the rasters during the next change of plots.

The application of the proposed device allows you to control and adjust the alignment of the rasters over their entire area without interrupting the transmission from a controlled and adjustable camera.

Claims (1)

1. Patent of Germany No. 2425840, Mark-USH. - Zarubepna radio. H 04 N 9/00, 1975.ronic. 1971, 6 (prototype). R fff R S - PPE1 1 i it ( at g / Y