JPH03190480A - Conversion method for video signal - Google Patents

Abstract

PURPOSE:To contain all sample numbers between EDTV horizontal lines into HDTV horizontal lines by converting an EDTV digital video signal into an HDTV sample frequency. CONSTITUTION:While a sample number of one horizontal line of clear vision (EDTV) is 910, the high vision (HDTV) has 1320-sample number. Thus, the EDTV clock 28.6MHz is frequency-converted into HDTV 44.55MHz to use 910 samples by one horizontal line as an effective picture element and the remaining 410 samples are used for a blanking period. Then a vertical synchronizing signal V is started to count the clock of the HDTV 44.55MHz clocks by a counter 9, 1-910 clocks are outputted and the counter 9 is started again at a succeeding V signal and 1-910 clocks are outputted. Thus, the EDTV video signal is converted with a simple method and contained on the screen of the HDTV.

Description

[Detailed Description of the Invention] "Industrial Application Field" The present invention uses EDTV (clear vision) video signals,
The present invention relates to a method of converting a video signal to an HDTV (high-definition) video signal.

"Prior Art" In general, in HDTV, the scanning frequency is doubled and non-interlace is implemented to improve the image quality of the NTSC system. Specifically, this EDTV video signal has 525 scanning lines, non-interlace scanning, and a field frequency of 5.
9.94 [Hz] and an aspect ratio of 4:3. In contrast, HDTV video signals have 1125 scanning lines, interlace scanning, and a field frequency of 60.00 [Hz].
], the aspect ratio is 16:9.

``Problems to be Solved by the Invention'' It is desired that HDTV video signals can be received by HDTV video equipment.

However, as mentioned above, there are differences in the number of scanning lines, non-interlaced and interlaced, field frequencies, and aspect ratios between EDTV and HDTV, so EDTV video signals cannot be directly transmitted to HDTV. could not be used.

An object of the present invention is to obtain a signal that can be displayed on an HDTV screen by converting an HDTV video signal using a simple method.

"Means for Solving the Problem" The present invention provides a method for converting a digital video signal in EDTV to a sample frequency in HDTV when converting a video signal of 525 lines non-interlaced scanning of HDTV to 1125 lines interlaced scanning of HDTV. Convert the total number of samples between one horizontal line in EDTV to HD
This is a conversion method that fits within one horizontal line of the TV.

"Operation" The EDTV video signal is stored alternately in two field memories frame by frame, and the first 525 signals of one field are stored in every other 562.5 of the 1125 signals of the HDTV.
The remaining 1 line contains the same 525 lines of data.
The images are again placed within 562.5 lines and displayed as one image by interlacing.

In addition, 910 samples of one horizontal line of EDTV are
Contained in 1320 samples of one horizontal line of DTV,
The remaining period is a blanking period.

This blanking period may be biased toward only one side, or may be distributed equally between the left and right sides.

"Example" Hereinafter, one embodiment of the present invention will be described based on the drawings.

Figure 1 shows EDTV (7) video signal (Y) (R
-Y) (B-Y) is an inverse matrix circuit (1) with R, G,
After being converted into a B signal, it is stored in each RGB memory of the first and second field memories (2a) (2b). And these first and second field memories (2a) (2b
) is turned into an analog signal by the D/A converter circuit (3) and sent to the HDTV CRT (4). (5) is a deflection circuit.

Next, the EDTV field frequency 59.94Hz pulse as shown in FIG. Pulses that are alternately inverted are obtained, which are input to the first D-FF (D-type flip-flop) circuit (8a). In addition, the second D-FF circuit (8b) has an HD T
The vertical synchronization signal (V) and horizontal synchronization signal (H) of V are input, and the HDTV field frequency of 60.00 is input to the output side.
A Hz pulse is obtained, which is input to the first D-FF circuit (8a) as a clock.

Then, as shown in (d), the Q output of this first D-FF circuit (8a) is alternately inverted up to 999 times every 60 Hz, and only the 1000th time is not inverted and is the same as the 999th time. From the 1001st time onwards, a pulse that is an inversion of the previous one is obtained. Furthermore, an output that is completely inverted from the Q output is obtained as the Q output.

From the above, the EDTV video signal has data of 1, 3.5...999 in the first field memory (2a).
The data in the second field memory (2b) is read out during each field of 2.4.6...998, and the data is read out during each field of 2.4.
The image will be

Here, the field frequencies are 59.94Hz and 60.0Hz.
Since this is different from 0 Hz, when there are 1000 fields of HDTV, the data of 999 fields of EDTV are read out again to form an image, as shown in FIG.

When the above 1000 fields are displayed, the fourth field is displayed.
As shown in the second half of figure (d), the second field memory (2
b) odd field with 1.3.5...999 and 10
The first field memory (2a) is read out at the time of the 00 field, and the first field memory (2a) is read out at the even number field of 2.4.6...998. Thereafter, the odd and even fields are read out alternately in the same manner, and the 999 and 1000 fields are read out twice only in the odd field.

Next, when the EDTV clock is 28.6 MHz, the number of samples per horizontal line is 910, whereas the HDTV clock is 44.55 MHz (7) 1
The number of samples is 320. Therefore, EDTV paste O
'128.6M)h HD TV (7)44.5
By converting the frequency to 5 MHz, 910 samples for one horizontal line of HDTV are used as effective pixels, and the remaining 410 samples are used as a blanking period. To do this, as shown in FIG. 6, starting from the vertical synchronizing signal (V), the 44.55 MHz clock of the HDTV is counted by the counter (9), and a value from 1 to 910 is output. Then, the counter (9) is started again with the next V signal and outputs from 1 to 910. In addition, in order to distribute the blanking area (B) shown in Fig. 3 to the left and right, a shift register (10) is inserted to delay the start signal of the counter (9) by, for example, 205 samples as shown in Fig. 7. do. Then, as shown in FIG. 8, blanking areas (B work) (B2) are distributed to the left and right.

In addition, if you want to display the blanking area (B) (Bl) in a specific color, for example, in blue, the counter (9)
By interposing an inverter (11) and a color generating circuit (12) such as blue between the CRT (4) and the CRT (4), the area (B) where the first and second field memories (2a) (2b) have no output )(B t) (B , ) can have an appropriate background color. Note that the inverter (11) can also be omitted.

"Effects of the Invention" Since the present invention uses the conversion method as described above, the total number of samples of the non-interlace scanning video signal of EDTV can be converted to HD.
It can be displayed on a CRT as a TV interlace scanning video signal. Further, by adding a color such as blue to the extra blanking portion of the CRT, it is possible to reduce the sense of discomfort caused by differences in the size and aspect ratio of the CRT.

[Brief explanation of drawings]

FIG. 1 is a circuit block diagram for realizing the video signal conversion method according to the present invention, FIG. 2 is an explanatory diagram of EDTV non-interlace scanning, FIG. 3 is an explanatory diagram of HDTV interlace scanning, and FIG. The figure is a waveform diagram, and Figure 5 is HDTV and HD
An explanatory diagram of the TV field, Figure 6 is a circuit block diagram for moving images, Figure 7 is a waveform diagram, and Figure 8 is a CRT.
It is an explanatory diagram of the upper image. (1)... Inverse matrix circuit, (2a) (2b)...
・First and second field memories, (3)...D/A
Conversion circuit, (4)...CRT, (5)...Deflection circuit, (6)...Input terminal, (7)...Inversion circuit, (8
a)...First D-FF (D-type flip-flop) circuit, (8b)...Second D-FF circuit, (9)...
Counter, (10)...Shift register, (11)...
...Inverter, (12)...Color generation circuit.

Claims (1)

[Claims] (1) When converting a 525-line non-interlace scanning video signal of EDTV to 1125-line interlaced scanning of HDTV, convert the digital video signal of EDTV to the sample frequency of HDTV,
HDTV is the total number of samples between one horizontal line on TV.
A method of converting a video signal, characterized in that the video signal is contained within one horizontal line.