FR2729035A1 - Recording and reproduction apparatus for SECAM video signal - Google Patents

Abstract

The apparatus includes a band-pass filter (11) which filters input video signals (A) to extract the luminance component. The pass-band is equal to 4.3 MHz. The output is split and part is passed to a narrow band filter (12) with a passband of 4.28 MHz. This signal is fed to an voltage-controlled amplifier. The other output (B) is passed to a quality compensator (20), with a detector (22). The input level is compared with a non-blanking pulse burst (BGP) which sets a reference level. The DC chrominance level (D) is passed to the amplifier. The amplified chrominance signal is passed to a limiter (13) and frequency divider (14) where the output is split into four chrominance parts.

Description

VIDEO SIGNAL RECORDING / REPRODUCING APPARATUS
SECAM HAVING A COMPENSATION FUNCTION OF
IMAGE QUALITY
The present invention relates to a SECAM video signal recording and reproducing apparatus having an image quality compensation function, and more particularly to a SECAM video signal recording and reproduction apparatus having a function for compensating for deterioration of the image quality in the case of compensation of the level of a chrominance signal according to the change of burst level of a SECAM video signal to reproduce the video signal.

 Figure 1 is a block diagram for representing the process of recording a chrominance signal in a conventional SECAM video signal recording and reproducing apparatus. A bandpass filter (BPF) 11 receives a composite video signal to separate and output only the chrominance signal. While the bandpass filter 11 is suitable having its center frequency of 4.28 MHz, the bandpass filter actually has a center frequency of 4.3 MHz so that the center frequency differs by 0.02 Met, which which does not cause any problem from the performance point of view. Since a video signal passes through an "anti-bell" filter when the video signal is sent from a broadcasting station, a the frequency modulated chrominance signal is transformed into a luminance signal in a black and white television set. The transformed signal then appears in a screen of the latter and thus a point noise is produced. Therefore, the chrominance signal passes through the bandpass filter 11, then through a "bell" filter 12, thereby making the chrominance signal uniform and preventing the generation of noise. point. The chrominance signal can include noise during transmission, or the signal itself weakens to be amplitude-modulated; therefore, a limiter 13 receives an output from the bell filter 12 to limit the amplitude of the chrominance signal to that it is uniform, extracts and removes the noise and an amplitude modulated part and removes them and then outputs a remaining signal part to a frequency divider 14. The frequency divider 14 transforms by a low-pass filter the signal chrominance output from limiter 13. The chrominance signal transformed by a low-pass filter passes through a 1.1 MHz band-pass filter 15, is pre-emphasized at the level of a 1.072 MHz bell filter 16 and is then transmitted to an adder 17. The adder 17 adds the chrominance signal transformed into frequency by a low-pass filter to a luminance signal transformed into frequency.

 Figure 2A shows a composite video signal A in Figure 1 sent from the broadcasting station as a frequency range. Figure 2B shows a signal passing through the 4.3 MHz bandpass filter 1 1, which corresponds to a reference symbol X in Figure 1. Figure 2 shows a signal to be recorded on a tape, i.e., a signal obtained by adding the chrominance signal transformed into frequency by a low-pass filter to the luminance signal transformed into frequency in the adder 17, which corresponds to the reference symbol S of FIG. 1.

 In general, the VHS SECAM format cannot use an automatic chrominance control unit ("ACC") and is recorded by a direct sequence recording process, which is different from a PAL system or an NTSC system. Therefore, if an input burst level is fålble, the SECAM video signal to be recorded deteriorates so that the noise of the chrominance signal is generated when the video signal is reproduced. SECAM video signal recording and reproduction does not have a compensation circuit for changing the level of the chrominance signal of an image signal, there is a problem because the ability to reproduce a quality image according to a state of chrominance signal input decreases due to a recording format characteristic of the SECAM video signal transformed into frequency by a low-pass filter.

 Therefore, to solve the above problem, an object of the present invention is to provide a SECAM video signal recording and reproducing apparatus having an image quality compensation function by detecting a burst signal from a video signal. composite and amplifying the video signal according to a change in burst level to record the amplified signal.

 To achieve the above objective, a SECAM video signal recording and reproduction apparatus is proposed having an image quality compensation function comprising: a 4.3 MHz bandpass filter for removing a luminance signal from a signal composite video sent from a broadcasting station and only passing a chrominace signal; a 4.28 MHz bell filter for pre-emphasizing the chrominance signal going through the 4.3 MHz bandpass filter; an image quality compensation circuit for receiving an output of the 4.3 MHz bandpass filter and a burst unblocking pulse for producing a DC voltage according to a change in burst level and for receiving an output from the filter in 4.28 MHz bell to amplify the size of the chrominance signal according to the change in burst level compared to a reference signal; a limiter for receiving an output from the bell filter to limit the amplitude of the chrominance signal so that it is uniform and for removing noise and an amplitude-modulated part of the chrominance signal; and a low-pass filter transformation circuit for partitioning into four equal parts the frequency of the chrominance signal output from the limiter.

 In a SECAM video signal recording / reproducing apparatus having an image quality compensation function, it is preferable that the image quality compensation circuit includes a burst level detector to receive the output of the pass filter 4.3 MHz band and the burst release pulse to produce a DC voltage according to the burst level and includes a voltage control amplifier to receive the output voltage of the burst level detector and the output of the filter 4.28 MHz bell to amplify the size of the chrominance signal according to the modified quantity of the burst level compared to said reference signal. Also, it is preferable that the voltage control amplifier amplifies the difference between the burst level in a standard state and an output voltage of the burst level detector.

 To achieve an objective of the present invention, there is provided a SECAM video signal recording / reproducing apparatus having an image quality compensation function comprising: a 4.3 MHz bandpass filter for removing a luminance signal a composite video signal sent from a broadcasting station and only passing a chrominance signal; a 4.28 MHz bell filter for pre-emphasizing the chrominance signal passed through the 4.3 MHz bandpass filter; an amplifier for receiving the chrominance signal filtered by the 4.28 MHz bell filter for amplifying the chrominance signal filtered to a predetermined size; a limiter for receiving an output from the amplifier for limiting the amplitude of the chrominance signal so that it is uniform and for removing noise and an amplitude modulated part of the chrominance signal; and a low-pass filter transformation circuit for dividing the frequency of the chrominance signal output from the limiter into four equal parts to transform the frequency shared into four equal parts by a low-pass filter.

Other characteristics and advantages of the invention will emerge more clearly on reading the description below, given with reference to the accompanying drawings, in which:
- Figure 1 is a block diagram to represent a process
recording a chrominance signal in a conventional device
SECAM video signal recording / reproduction;
- Figures 2A to 2C show a signal from each part
shown in Figure l;
- Figure 3A is a block diagram to represent a mode of
particular realization of a recording device
SECAM video signal with a compensation function of
image quality according to the present invention;
- Figure 3B is a block diagram to represent another mode
of the video signal recording and reproducing apparatus
SECAM with image quality compensation function
according to the present invention;
- Figures 4A to 4D represent a signal from each part
shown in Figure 3A; and
- Figure 5 is a circuit diagram for making a detector
shown in Figure 3k
Referring to the appended figures, the present invention will be explained in detail in the remainder of the document.

FIG. 3A is a block diagram for representing a particular embodiment of a video signal recording and reproducing apparatus
SECAM having an image quality compensation function according to the present invention. Referring to Figure 3A, the video signal recording and reproducing apparatus includes a 4.3 MHz bandpass filter 1 1 for removing a luminance signal from a composite video signal sent from a broadcasting station and leaving only pass a chrominance signal, a 4.28 MHz bell filter 12 to pre-emphasize the chrominance signal passed through the 4.3 MHz bandpass filter 1 1, an image quality compensation circuit 20 to receive an output of the bandpass filter 1 1 of 4.3 MHz and a burst unblocking pulse ("BGP") to produce a DC voltage according to a change in burst level and to receive an output of the bell filter 12 of 4 , 28 MHz to amplify the chrominance signal according to the change in burst level with respect to a reference signal, a limiter 13 to receive an output from the image quality compensation circuit 20 to limit the amplitude of the chrominance signal so that it is uniform and to remove the noise and an amplitude modulated part of the chrominance signal, and a frequency divider 14 to effect a division into four equal parts of the fr-lice of the chrominance signal output from the limiter 13.

 The bandpass filter 1 1 receives the composite video signal to separate only the chrominance signal and to output the separated signal. The 4.28 MHz bell filter 12 receives the chrominance signal filtered by the bandpass filter 11 to make the chrominance signal uniform and to prevent the production of point noise. The chrominance signal can include noise during transmission or the signal itself partially weakens to be amplitude modulated. A burst level detector 22 receives the chrominance signal B filtered by the bandpass filter 1 1 of 4.3 MHz and the burst unlock pulse to detect a burst signal during the pulse portion of de ' burst blocking.

Thus, the detector 22 detects the DC voltage relative to the burst level, namely, the peak value of the burst signal.

A voltage control amplifier 24 receives both the output signal from the 4.28 MHz bell filter 12 and the direct voltage D output from the burst level detector 22 to fix the gain relative to the burst level in a standard condition. Then, the amplifier 24 amplifies the output signal of the bell filter 12 of 4.28 MHz as much as the difference of the DC voltage according to the change in burst level and outputs the amplified signal to the limiter 13. The limiter 13 limits the amplitude of the chrominance signal output from the voltage control amplifier 24 so that it is uniform and removes the noise and the amplitude-modulated part so as to output, therefore, the signal remaining towards the frequency divider 14. The frequency divider 14 transforms by a low-pass filter the chrominance signal output from the limiter 13, then the chrominance signal transformed by a low-pass filter passes through a 1.1 MHz BANDPASS FILTER 15, is pre-emphasized at a bell filter 16 of 1.072 MHz and is output to an adder 17. The adder 17 adds the chrominance signal
SECAM transformed into frequency by a low-pass filter with the luminance signal transformed into frequency.

FIG. 3B is a block diagram for showing another embodiment of the SECAM video signal recording apparatus having the image quality compensation function according to the present invention. The video signal recording / reproducing apparatus includes a 4.3 MHz bandpass filter 11 for removing the luminance signal from the composite video signal sent from a broadcasting station and only allowing the chrominance signal to pass, a filter in bell 12 of 4.28 MHz to pre-emphasize the chrominance signal filtered by the bandpass filter 11 of 4.3 MHZ, an amplifier 26 to receive the chrominance signal filtered by the bell filter
12 of 4.28 MHz to amplify the chrominance signal to a predetermined size and a limiter 13 to receive the output of amplifier 26 to limit the amplitude of the chrominance signal so that it is uniform and to remove noise and the amplitude modulated part.

 Figure 4A shows the composite video signal A of Figure 3A sent from the broadcasting station on a frequency plane. Figure 4B shows the burst signal B of Figure 3A entered into the burst level detector 22 on a frequency axis. FIG. 4C represents the burst unlocking pulse C of FIG. 3A entered into the burst level detector 22 on a time axis. FIG. 4D represents the DC voltage output coming from the burst level detector 22.

 FIG. 5 is a circuit diagram for making the detector 22 as shown in FIG. 3k With reference to FIG. 5, the chrominance signal B filtered by the bandpass filter 1 1 of 4.3 MHz is delivered to the base of a transistor Q2 and the BGP C is supplied to the base of a transistor Q1 so that the transistor Q1 is "in the on state" during the BGP part. Thus, the chrominance signal B is amplified by the transistor Q2 to charge and discharge the burst signal while passing through a diode D1, a resistor R6 and a capacitor C3, consequently resulting in the production of the DC voltage as in Figure 4D.

 As previously described, the SECAM video signal recording / reproducing apparatus having the image quality compensation function according to the present invention receives the output of the 4.3 MHz bandpass filter and the unblocking pulse. burst to produce the DC voltage according to the change in burst level, and receives the output of the 4.28 MHz bell filter to amplify the chrominance signal according to the change in burst level compared to the reference signal so that the image quality according to the recording / reproduction of the chrominance signal is improved.

 Although the invention has been particularly shown and described with reference to a preferred embodiment thereof, it will be readily understood by those skilled in the art that modifications in form and in details can be made without go beyond the spirit or the field of the invention.

Claims (4)

 1. SECAM video signal recording and reproducing apparatus having an image quality compensation function, characterized in that it comprises:  a 4.3 MHz bandpass filter (11) for removing a luminance signal from a composite video signal and only passing a chrominance signal;  a 4.28 MHz bell filter (12) for pre-emphasizing the chrominance signal passed through said 4.3 MHz bandpass filter (11);  an image quality compensation circuit (20) for receiving an output of said 4.3 MHz bandpass filter (11), a burst unblocking pulse (BGP) and an output of said bell filter (12) from 4.28 MHz to amplify the size of the chrominance signal according to the change in burst level compared to a reference signal;  a limiter (13) for receiving an output from said image quality compensation circuit (20) for limiting the amplitude of the chrominance signal so that it is uniform and for removing noise and an amplitude modulated part of the signal chrominance; and  a low-pass filter transformation circuit for transforming by a low-pass filter the frequency of the chrominance signal output from said limiter (13).  2. SECAM video signal recording and reproducing apparatus having an image quality compensation function according to claim 1, characterized in that said image quality compensation circuit (20) comprises a burst level detector (22 ) to receive the output of said 4.3 MHz band pass filter (11) and the burst unlock pulse (BGP) to produce a DC voltage according to the burst level and includes a voltage control amplifier (24) to receive the output voltage of said burst level detector (22) and the output of said bell filter (12) of 4.98 MHz to amplify the size of the chrominance signal according to the modified amount of the burst level with respect to said signal reference.  3. SECAM video signal recording / reproducing apparatus having an image quality compensation function according to claim 2, characterized in that said voltage control amplifier (24) amplifies the difference between the level of burst in a standard state and the output voltage of said burst level detector (22).  4. SECAM video signal recording and reproducing apparatus having an image quality compensation function, characterized in that it comprises:  a 4.3 MHz bandpass filter (11) for removing a luminance signal from a composite video signal sent from a broadcasting station and only passing a chrominance signal;  a 4.28 MHz bell filter (12) for pre-emphasizing the chrominance signal passed through said 4.3 MHz bandpass filter (11);  an amplifier (26) for receiving the chrominance signal filtered by the 4.28 MHz bell filter (12) for amplifying the filtered chrominance signal to a predetermined size; ;  a limiter (13) for receiving an output from said amplifier (26) for limiting the amplitude of the chrominance signal to be uniform and for removing noise and an amplitude modulated part of the chrominance signal; and  a low-pass filter transformation circuit for sharing the frequency of the chrominance signal output from said limiter into four equal parts (13) to transform the frequency shared into four equal parts by a low-pass filter.