JPS5990475A - Digital video signal processor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field Related to the Invention The present invention includes an A/D converter for converting an analog video signal sent from a video generator (photoelectric conversion) into a digital video signal. In addition, when processing digital video signals, it has already been proven that it is effective and sufficient to use an 8-bit digital signal.The number of bits is The video signal is converted to A/D after gamma correction has already been done.
If transformed, it is sufficient to reduce the quantization effects considerably. However, if the analog video signal sent from the video signal generator is A/D converted before gamma correction, the quantization may be visible to the naked eye in dark image areas under the same number of bits. You will be able to do it.

This is because gamma correction corresponds to signal amplification in this region. As is known, the non-linear relationship between the luminous efficiency and the electrical control signal supplied to the television picture reproduction tube is compensated, for example in a television camera, by an inverse signal modification according to a so-called gamma characteristic curve. Therefore, one ideo signal corresponding to a dark image area is linear A/
Starting from a D-conversion, it must be converted with a resolution of at least 10 bits, above the usual 8 bits.On the contrary, in bright image areas, a resolution of 7 bits is sufficient. - Using a 10-pin A/D converter therefore has the disadvantage of not being able to take advantage of the high resolution of the video signal corresponding to bright image areas.Moreover, such converters for video technology are expensive and It is also too bulky and is currently almost unusable.

As a way to avoid this problem, there is a magazine called
-Journal of the SMPTE J l
December 980 issue, pages 938 to 942, especially 93
From page 9, two 8-pits) It is already known to use an A/D converter. In that case, an analog video signal amplified eight times is supplied to the second A/D converter.This second A/D converter receives an analog input signal that is 12.5% below the white level. A digital signal is sent out only when the voltage drops.

In this case, an theoretical 3-bit signal is obtained; however, this known method has the disadvantage of being relatively expensive.

Therefore, the problem of the present invention is to
Achieving high-resolution A/D conversion of video signals with low circuit technology costs - Effects of the Invention The device according to the invention having the features set forth in claim 1 has the following advantages: has advantages.

That is, it has the advantage that by using only one A/D converter, which is currently available at low cost, an effective resolution for digital processing of video signals can be achieved. In this case, it is assumed that a high resolution is required in a small voltage range, and, conversely, a low resolution is sufficient in a high voltage range. Another advantage is that the gamma characteristics can be well approximated by appropriate converter characteristics, and as a result, the converter characteristics can be utilized to the fullest.

It is particularly advantageous if the memory and the gamma stage are each configured as a write/read memory.

By doing so, the characteristics of the memory can be adjusted during operation, when the characteristics of the adjusted converter are slightly off, or when using different A/D converters in response to different changes. ,
It can be matched to the characteristics of the converter. Such matching of memory characteristics can be done manually or by microprocessor control buttons.

Description of examples Next, embodiments of the present invention will be described in detail using the drawings.

In the figure, the channels of a black and white television camera or a color television camera or the video signal path of a color film scanner are shown. Terminal l is supplied with an analog video signal which is output by a photoelectric converter (not shown) and is optionally amplified. This video signal is converted into a digital 8-bit video signal by an A/D converter 2 having a nonlinear characteristic curve. For nonlinear transformation −
For example, TRWLSI pro d II c t, s r Digit,
al Signal Processor IVol
l, 16. 1, April 1980, high resolution can be obtained in the low voltage range and correspondingly low resolution in the high voltage range. In order to achieve as uniform resolution as possible after gamma correction,
The characteristic curve of the converter should be shifted to correspond to the gamma characteristic curve. This characteristic curve is obtained by appropriately selecting the resistors δ and 4-, and the deviation is negligible. The resistor is then connected via terminal 6 to a reference voltage source.

The digitized video signal has a nonlinear relationship to the analog human video signal, but signals that are linearly dependent on the input signal can be processed well, so first linearize the digitized video signal. There must be. This is a fixed memory IJ (ROM) connected afterward.
7 is most easily performed. This fixed memo IJ (R
OM) 7 has a characteristic curve opposite to that of the converter. In this case, the address of the memory 7 is formed by an 8-bit data word, and from the data output of the memory 7 a function value corresponding to the inverse characteristic curve can be retrieved. In order to avoid resolution loss, the data length is then expanded to 10 bits.

This 10-bit digital signal is sent to the video signal processing stage 8.
, and processed in a known manner.

For example, at that time, fault signal correction and matrix processing are performed.

The processed 10-bit video signal taken from the output of the video signal processing stage δ is then fed to a digital gamma correction stage (ROM) 9.

In this digital gamma correction stage (ROM) 9, transformation is performed according to a desired gamma function, and the data length is δ
shortened to bits. Therefore, from the output terminal 11, a digital δ bit length one-gamma corrected video signal is output.
removed for processing.

Instead of the fixed memory IJ (ROM) stage 7, 90, a write/read memory IJ (RAM) whose characteristics can be changed can also be used. By doing so, various changes in the characteristics of the converter can be compensated for.

[Brief explanation of the drawing]

The figure is a schematic circuit diagram of an embodiment of the present invention.2...A/
D converter, 7...Memory (ROM), 8...Video signal processing stage, 9...Gamma stage Deputy Patent Attorney Toshio Yano

Claims (1)

[Claims] 1. In a digital video signal processing device equipped with an A/D converter for converting an analog video signal sent from a video signal generator (photoelectric conversion) into a digital video signal, a so-called The analog video signal is fed to an A/D converter (2) having a characteristic curve approximately corresponding to the gamma characteristic curve, and the output signal of the A/D converter (2) is inverted with respect to the characteristic of the converter. A memory with a characteristic curve of (7
) and feeding the digital video signal thus obtained to a processing stage known per se; feeding the processed digital video signal to a digital gamma stage (9) K; Digital gamma stage (9
), the video signal is transformed according to the desired gamma function and the word length is shortened, and gamma correction is performed from the output terminal (11) of the gamma stage (9), the word length of which corresponds to the output signal of the converter. 1. A digital video signal processing device, characterized in that the digital video signal is extracted from a digital video signal. 2. The A/D converter (2) generates a digital output signal of 8 bits, the length of which is expanded to 10 bits in the memory (7) and converted to 8 bits by one gamma stage (9). A digital video signal processing device according to claim 1, wherein the memory (7) and the gamma stage (9) are each configured as a fixed memory IJ (ROM). The digital video signal processing device according to item 1. 4. Digital video signal processing device according to claim 1, wherein the memory (7) and the gamma stage (9) are each configured as a write/read memory (RAM).