DE3315585A1 - Video pick-up and reproduction device - Google Patents

Abstract

A video reproduction device is provided with an opto-electronic transducer device which has a multiplicity of green-, red- and blue-sensitised photoreceivers (pixels), the number of green-sensitised photoreceivers deviating from the number of blue- and red-sensitised photoreceivers. Between the optics and the colour-sensitised photoreceivers, both a birefringent plate (3) with a luminance filter (4) for the luminance signals and a birefringent plate (5) with a chrominance filter (6) for the chrominance signals is arranged in the beam path of the optics (1). The birefringent luminance plate (3, 4) and, respectively, chrominance plate (5, 6) is in each case adapted to the space frequency of the associated colour-sensitised photoreceivers (7). <IMAGE>

Description

Video recording or playback device

The invention relates to a video recording or reproducing device with optics and with an optoelectronic converter device that has a Has a large number of green, red and blue sensitized photo receivers (pixels), where the number of green-sensitized photo recipients depends on the number of blue- and red-sensitized photo recipients.

When two slightly different grid structures are superimposed the so-called moiré effect is created. The moiré effect is therefore the result of interference. Is z. B. a line image on a film with the help of a recording device written and the image is scanned again with a line grid and are This grid is theoretically the same as the recording grid, but still results in the Practice slight deviations in the grids that lead to the moiré or interference effect to lead.

This means that the spatial frequency of the image is the spatial frequency of the CCD line (sampling limit) exceeded.

The object of the invention is to use simple means to achieve this moiré effect to eliminate or to reduce it to a non-disruptive minimum.

The object is achieved according to the invention in that between the Optics and the individual color-sensitized photo receivers in the beam path of the Optics in one plane and a birefringent plate with a luminance filter for the luminance signals and a birefringent plate with one Chrominance filter is arranged for the chrominance signals and that the spatial frequency the birefringent luminance plate or the chrominance plate is adapted in each case to the spatial frequency of the assigned color-sensitized photo receiver.

This has the advantage that all luminance signals pass through the birefringent plate with the luminance filter and onto the individual, evenly spaced green-sensitized photo receivers arrive. The birefringent plate with the luminance filter forms a low pass for high Luminance location frequencies, which means that only green light is allowed through. Through the birefringent chrominance plate with the chrominance filter only Chrominance signals, which in the present case are red and blue signals. These Chrominance signals reach the assigned red and blue sensitized photo receivers (Pixel). The birefringent plate with the chrominance filter also acts as a Low pass for the chrominance spatial frequency. This way you are using two Local low-passes two different scanning spatial frequencies have been generated, which the moiré effect lift.

In a particularly advantageous manner, the optoelectronic converter device alternately green, red, green and blue sensitized CCD pixels. Through this becomes a luminance spatial frequency for the green-sensitized pixels and a half created such a large chrominance spatial frequency for the red and blue sensitized pixels. The two birefringent plates with the corresponding filters ensure that the spatial frequency of the green-sensitized pixels to the spatial frequency of the assigned birefringent plate and the spatial frequency of the red and blue sensitized pixels is adapted to the spatial frequency of the associated birefringent plate.

The two birefringent plates are advantageously symmetrical arranged to the optical axis.

In the following the invention is based on one in Figures 1 and 2 illustrated embodiment described. They show: FIG. 1 in schematic form Representation of the arrangement according to the invention and FIG. 2 a CCD strip.

According to Figure 1, 1 denotes a lens, symmetrical in its area to the optical axis 2 a birefringent plate 3 with an upstream luminance filter 4 (green filter) and a birefringent plate 5 with an upstream chrominance filter 6 (purple filter) is arranged. 7 with a CCD strip is designated. According to figure 2, the CCD strip 7 consists of alternately green, red, green, blue, green, red-sensitized CCD pixels. With a CCD evaluation circuit is designated.

The birefringent plate 3 is now designed so that in it one The luminance signal beams are divided in such a way that two adjacent ones are divided Rays hit two green-sensitized pixels.

This means that the spatial frequency of this birefringent plate is equal to the spatial frequency of the green-sensitized pixels.

The birefringent plate 5 is formed so that in In connection with the upstream filter, a division of the red and blue signal beams meet two adjacent red and blue pixels.

This training ensures that the luminance image and the chrominance images are scanned with two different spatial frequencies and so two different moiré frequencies that would otherwise form are prevented.

Claims (3)

Claims (oil. Video recording or playback device with a Optics as well as with an optoelectronic converter device, which has a large number of green, red and blue sensitized photo receivers (pixels), the Number of green-sensitized photo recipients on the number of blue- and red-sensitized Photoreceptor differs, characterized in that between the optics and the color-sensitized Photo receivers in the beam path of the optics (1) in one plane both a birefringent one Plate (3) with a luminance filter (4) for the luminance signals (luminance signals) and a birefringent plate (5) with a chrominance filter (6) (purple filter) for the chrominance signals (color saturation signals) is arranged and that the birefringent Luminance plate (3, 4) or chrominance plate (5, 6) is each adapted to the spatial frequency the assigned color-sensitized photoreceiver (7). 2. Video recording or playback device according to claim 1, characterized characterized in that the optoelectronic converter device alternately green, has red, green and blue sensitized CCD pixels. 3. Video recording or playback device according to claim 1 or 2, characterized in that the two birefringent plates are symmetrical to optical axis are arranged.