JPH0614759B2 - PAL system color signal image synthesis processing device - Google Patents

Description

TECHNICAL FIELD The present invention relates to a PAL system color video signal processing apparatus, and more particularly to a PAL phase processing apparatus for external synchronization in a PAL system color video reproducing apparatus.

BACKGROUND ART The color video signal E _p of the PAL system is given by the equation: E _p = Y + (BY) sinωst ± (RY) cosωst (1) Where Y is the luminance signal, B and R
Indicates blue and red signals, and ωs is the angular frequency of the color subcarrier (subcarrier), which is about 4.43 MHz.
The sign ± of the equation (1) means the phase inversion for each horizontal scanning line, and the RY components of the carrier color signal are subcos ± st having a phase difference of 180 ° for each horizontal scanning line. The carrier signal is AM-modulated and transmitted. for that reason,
The color burst signal must also serve as information for inverting the phase of the RY component demodulation subcarriers for each line on the receiver side. Therefore, as shown in the vector diagram of FIG. 1, the color burst signal is sent as a signal sin (ωst ± 135 °) which is phase-inverted by switching the phase by ± 135 ° about the BY axis and line by line. There is.

Here, it is considered that the PAL system color video signal and other video signals are externally synchronized with each other before the image composition is performed. At this time, the following three points are indispensable as conditions for each video signal to be subjected to such image composition.

(1) Both the H (horizontal) -V (vertical) sync is synchronized with the external H-V sync.

(2) Synchronize the color burst with the external reference subcarrier.

(3) The PAL phase (which means the phase of the signal of color burst and (RY) cosωst) is correctly maintained.

In particular, with respect to the PAL phase of the above item (3), the color tone may be completely symmetrical (reversed) with respect to the BY axis when performing image combination or the like. For example, VDP (video disc player). ), If a scan operation or a jump operation is performed to perform special reproduction, the PAL phase inversion state changes at a certain point (recording track jump point, etc.). That is, the reproduced PAL system color video signal obtained by the VDP for reproducing the PAL system color video signal does not satisfy the above item (3) due to the special reproduction of the VDP. Therefore, when the reproduced PAL system color video signal obtained from the VDP and another video signal are combined, a problem occurs in the combined image.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a PAL system color signal image composition processing apparatus capable of obtaining a reproduced PAL system color video signal which is accurately composed with another video signal. .

SUMMARY OF THE INVENTION The PAL system color signal image composition processing apparatus according to the present invention converts a phase of a chroma component of a PAL system color video input signal read from a recording medium so as to be symmetrical with respect to the BY axis. Phase inversion means and this PAL
Selection means for selectively deriving the output signal of the phase inversion means and the chroma component of the input signal, phase detection means for detecting the color burst phase of the output of the selection means, and other video signals for image synthesis. Reference PA indicating PAL phase state
The L pulse signal and the detection signal of the phase detection means are compared with each other, and the control means switches the selection state of the selection means when it is detected that the phases of the two do not match.

Effect of the Invention Chroma signal output of the chroma component signal of the PAL system color video input signal read from the recording medium, or the signal obtained by PAL phase inverting the chroma component signal. To do. At this time, when the color burst phase of the output of the chroma signal and the PAL phase of the other video signal for image synthesis do not match, the other signal different from the one selected above is used as the chroma signal. The selected state is switched to output.
As a result, the PAL phase of the chroma component signal of the PAL system color video input signal read from the recording medium is always the same as the PAL phase of other video signals for image synthesis.

Examples The present invention will be described below with reference to the drawings.

FIG. 2 is a block diagram of an embodiment of the present invention, in which the reproduced PAL chroma input signal b is the PAL phase inverter 1
Thus, the PAL phase inversion is received and the 1 input c of the switch 2 is obtained. The reproduced chroma signal b is directly applied to the other input of the switch 2. The output k of the switch 2 is derived as a corrected chroma signal and is phase-compared with the reference subcarrier in the PD (phase comparator) 3. The comparison output d is extracted by the switch 4 only in the burst period and becomes the comparison input e of the level comparator 5. The output of the comparator 5 serves as a clock input of a D-FF (delayed flip-flop) 6, and the signal level of the reference PAL pulse g which is the data input thereof is latched. The reference PAL "pulse g" is a signal indicating a normal PAL phase inversion state of a chroma signal in another video signal for image synthesis, and is a binary level signal having one horizontal period. The output h of the D-FF 6 and the PAL pulse g are input to the AND gate 7, and the gate output i becomes the clock input of the FF 8. The Q output j of the FF8 controls the switch 2.

FIG. 3 is a timing chart showing the operation of the block of FIG. 2, and FIGS. 3 (b) to 3 (k) are the corresponding waveforms of the signals (b) to (k) of FIG. Incidentally, (a) shows the horizontal scanning section number.

As shown in FIGS. 3 (a) and 3 (b), the case where the PAL phase inversion state of the input chroma signal is reversed from the (n + 1) th line will be described.

It is assumed that the input chroma signal b first coincides with the reference PAL pulse, and the PAL phase is reversed on the (n + 1) th line. Up to the nth line, the FF8 is at a low level and the switch 2 is on the contact side of the white circle in FIG. Therefore, n
The operation up to the line n is + (R-Y) on the n-2 line.
(Hatched in FIG. 3),-(R-
In the Y) and n lines, a chroma signal having a phase of + (RY) is input to PD3 and compared with a reference subcarrier to obtain an output signal shown in (d). It is extracted by the switch 4 only during the burst period and the output of the comparator 5 is (f).
As described above, a pulse that becomes high level appears only in the burst period of the n-2 line and the n line, and the reference PAL pulse (g) is latched at the rising edge of the signal (f) of the D-FF6. This is the output (h). n-2, n-
Since the D-FF 6 has a low level in both the 1 and n lines, the output of the AND gate 7 is at a low level regardless of the reference PAL pulse. That is, the FF8 is not triggered at all and its output (j) is kept at the low level. That is, in this case, the switch 2 remains as illustrated.

Next, when the PAL phase state of the input chroma signal is reversed from the (n + 1) th line by performing scanning or the like, the PAL phase of the input chroma signal is n line, n + 1 line, n + 2.
Lines, n + 3 lines, ... + (R-
Y), + (RY),-(RY), + (RY),
Out of order. That is, since the (n + 1) th line has a phase of + (RY), a pulse that becomes a high level during the burst period is output to the output () of the comparator 5, and the reference PAL
Latch the pulse (g). At this time, the reference PAL pulse is at a low level, so the output (h) of the D-FF 6 is at a high level. As a result, one of the inputs of the AND gate 7 has a high level, and the reference PAL pulse remains FF.
8 trigger input (see timing chart i). FF8 is reversed by the rise of this trigger,
Its Q output goes from low to high. As a result, the switch 2 is now the PAL phase inverter 1 on the black circle contact side.
Output is selected (see timing chart).

Therefore, a corrected chroma signal having a PAL phase that matches the reference PAL pulse is obtained from the (n + 2) th line. That is, the correction is performed immediately after the mismatch is detected in the (n + 1) th line. This operation is performed until the PAL phases match (until the output of the D-FF6 becomes low level), so if there is a mistake in the determination due to noise, etc. And accurate.

FIG. 4 is a block diagram of a part of another embodiment of the present invention,
2 are the same as those in FIG. 2, and the other blocks are the same as those in FIG. In this example, P
The output of D3 is sampled by a sample hold circuit composed of a switch 4, a capacitor 9 and a buffer 10. This sampling pulse is an AND gate 1 which receives a reference burst gate signal and a reference PAL pulse as input.
1 gate output. The output of the comparator 5 directly becomes the 1-input of the 2-input AND gate 7.

Even in such a configuration, the output (j) of FF8 is as shown in FIG.
The same signal as (j) is obtained, and the same operation as in the example of FIG. 2 is performed.

Effect As described above, in the image synthesizing apparatus for PAL system color video signals according to the present invention, the chroma component signal of the PAL system color video input signal read from the recording medium or the signal obtained by PAL phase inverting the chroma component signal. One of the two is selected as a chroma signal output, and the color burst phase of the chroma signal output of the selecting means does not match the phase of the reference PAL pulse signal indicating the PAL phase state of the other video signal to be image-combined. At this time, since the state of selection by the selecting means is switched, the special reproduction operation of the VDP, etc.
Even when the PAL phase inversion state of the color video signal obtained from the recording medium is reversed, this can be adjusted to the same phase as the PAL phase of another video signal to be image-synthesized, and the PAL phase of the other video signal can be adjusted. The synthesis will be good.

As described above, according to the present invention, since the PAL system chroma correction output is constantly monitored to determine the PAL phase inversion, the correction is immediately performed even when the PAL phase inversion state is reversed. Further, even if the determination is erroneous due to noise or the like, the correction operation is performed until the PAL phases match each other, so that accurate PAL phase correction is possible.

[Brief description of drawings]

FIG. 1 is a diagram showing a PAL phase state, FIG. 2 is a block diagram of an embodiment of the present invention, FIG. 3 is a timing chart of the apparatus of FIG. 2, and FIG. 4 is another embodiment of the present invention. FIG. Explanation of symbols of main parts 1 ... PAL phase inverter, 2 ... switch 3 ... PD, 6,8 ... FF

Claims (1)

[Claims] 1. A PAL phase inverting means for converting a phase of a chroma component of a PAL system color video input signal read from a recording medium so as to be symmetrical with respect to the BY axis, and an output of the PAL phase inverting means. A selection means for selectively deriving a signal and a chroma component of the input signal, a phase detection means for detecting a color burst phase of the output of the selection means, and a PAL phase state of another video signal for image synthesis are shown. An image of a PAL color signal, comprising: a reference PAL pulse signal and a detection signal of the phase detection means, and control means for switching the selection state of the selection means when a phase mismatch between the two is detected. Synthesis processor.