JPH089278A - Television receiver - Google Patents

Abstract

PURPOSE:To provide a television receiver which can be switched between a flicker free mode and a non-flicker free mode by means of an existing circuit means. CONSTITUTION:When a flicker free mode is desired, a switch signal is set in a non-active state on a line 9 and the video signals put on the lines 3, 4 and 5 of the flicker free mode are transmitted to the lines 13, 14 and 15 respectively. When a non-flocker free mode is desired, the vide signals put on the lines 3-5 are transmitted to the lines 13-15 every second field. Then a signal of a black level is outputted by a display signal generator means 2 in a field where no video signal is outputted.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television receiver capable of switching a screen display mode between a flicker free mode and a non-flicker free mode.

[0002]

2. Description of the Related Art Conventionally, a screen display mode of a television receiver has been changed to a flicker-free mode and a non-flicker-free mode.
When switching to the mode, a multi-scan compatible television receiver that can support various sync signals and a signal converter that supplies a flicker-free signal to the multi-scan compatible television receiver are provided, and the screen display When the mode is set to the flicker-free mode, the flicker-free signal output from the signal converter is input to the television receiver. Further, when the screen display mode is set to the non-flicker-free mode, the input signal input to the signal conversion device is directly input to the television receiver.

[0003]

However, according to the conventional combination, the television receiver must be compatible with multi-scan, and a signal conversion device other than the television receiver is required. There have been problems that the overall cost is high and the switching work is not easy. Further, there is a problem that it is difficult to simultaneously display the flicker-free mode image and the non-flicker-free mode image on the tube surface.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a television receiver which can be easily switched between a flicker-free mode and a non-flicker-free mode by utilizing existing circuit means.

[0005]

In order to achieve the above object, the television receiver of the present invention has a horizontal deflection frequency and a vertical deflection frequency which are at least twice the horizontal synchronization frequency and vertical synchronization frequency of general television broadcasting. And a display signal generating means for generating a display signal to be displayed on the screen, and a switching means for switching between the display signal generated by the display signal generating means and the video signal. The display signal generating means generates a switching timing signal to be supplied to the switching means based on the horizontal synchronizing frequency or the vertical synchronizing frequency, and when the display signal generated from the display signal generating means is displayed on the tube surface. It is supposed to be a black signal.

Further, in the television receiver of the present invention, specifically, the switching timing signal is generated at a timing with one field of the video signal as a unit. The display signal generating means is constituted by an arithmetic processing unit such as a microcomputer, and the switching timing signal is generated by software by the arithmetic processing unit.

[0007]

According to the present invention, the television receiver is switched between the flicker-free mode and the non-flicker-free mode by changing the timing of operating the circuit for switching the screen display signal and the video signal. Since the surface display can be switched, the tube surface display mode can be easily switched. Further, by controlling the switching timing, it becomes possible to simultaneously display the flicker-free mode and the non-flicker-free mode on the screen.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows a structure for switching a screen display mode in a television apparatus of the present invention, and the present invention will be described in detail below with reference to the drawings. In FIG. 1, 1
Is a luminance signal / color signal processing circuit for reproducing a luminance signal and a color signal from an input signal, and 2 is a display signal generating means for generating a screen display signal such as a channel number displayed on the cathode ray tube 16 and various kinds of information.

Further, 3, 4 and 5 are lines to which the video signal output from the luminance signal / color signal processing circuit 1 is transmitted,
6, 7 and 8 are switching circuits for switching a signal supplied to the cathode ray tube 16 to either a screen display signal or a video signal, and 9 is a line to which a switching signal for controlling the switching circuits 6, 7 and 8 is transmitted. Reference numerals 10, 11, and 12 are lines for transmitting the tube surface display signal generated by the display signal generating means 2, 13, 14, 15 are lines for transmitting the signal supplied to the cathode ray tube 16, and 16 is a switching circuit 6,
It is a cathode ray tube (CRT) that displays an image on a tube surface based on signals selected by 7 and 8.

In general, the switching signal on the line 9 is the screen display signal from the display signal generating means 2 on the lines 10, 1.
When the signal is output to the output terminals 1 and 12, the switching means 6, 7 and 8 are switched so that the tube surface display signal is selected by the switching circuits 6, 7 and 8 and displayed on the CRT 16. Has been done.

The operation of the configuration for switching the screen display mode in the television device thus configured will be described with reference to FIGS. 2 and 3. However, as an example, the television receiver is assumed to have a double speed, and in order to facilitate the explanation, when there is no screen display signal transmitted through the lines 10, 11, and 12 (when displayed, "black" is displayed on the screen). It is displayed on the screen.).

FIG. 2A shows a video signal output from the luminance signal / color signal processing circuit 1 and transmitted through the lines 3, 4, and 5. The horizontal synchronizing frequency and the vertical synchronizing frequency of the video signal are set to be twice the horizontal synchronizing frequency and the vertical synchronizing frequency of the input general television broadcasting such as the NTSC system. Therefore, in order to realize flicker-free, the original video signals A ₁ , B ₁ , ... For each field are stored in a memory, and the video signals of the same field are reproduced at a double horizontal sync frequency of 2 times. By reading out each time, as shown in (a), A ₁ , A ₁ ,
The video signals at the double speed of the same field as B ₁ , B ₁ , ... Are made continuous for every two fields. Then, the double-speed video signal processed in this way is
It is output from the luminance signal / color signal processing circuit 1 on lines 3, 4, and 5.

When the flicker-free mode is set, the switching signal on the line 9 is controlled so as not to be in the active state as shown in FIG. 2 (b). Then, the switching circuits 6, 7, and 8 always select the video signal shown in FIG. 7A transmitted through the lines 3, 4, and 5, so that the flicker-free video signal is generated as described above. The image is supplied to the CRT 16 and an image without flicker is displayed.

Next, as shown in FIG. 3 (b), the switching signal on the line 9 is synchronized with the vertical synchronizing frequency of general television broadcasting such as the NTSC system so as to have a high level (active state) and a zero level. It is a square wave that repeats (non-active state). In this case, the half cycle of this square wave is made equal to the cycle of one field of the double speed video signal. Then, when the switching signal is at the zero level, the video signals on the lines 3, 4, and 5 are selected and output by the switching circuits 6, 7, and 8. When the switching signal is at the high level, the video signals on the lines 10, 11, and 12 are output. The tube surface display signal of is selected and output. Since the tube surface display signal is not output in this case (black level is output), the signals on the lines 13, 14, 15 output from the switching circuits 6, 7, 8 are as shown in FIG. As shown in (c).

Referring to FIG. 3C, the video signal A ₁ on the lines 3, 4, and 5 is output in the nth field, and the line ₁ is output in the (n + 1) th field.
The screen display signals on 0, 11, and 12 are selected. Further, in the (n + 2) th field, lines 3, 4,
The video signal A ₁ on the upper side of the line 5 is output. In this way, the video signals on the lines 3, 4 and 5 and the black level tube surface display signals on the lines 10, 11 and 12 are alternately switched.
The signals are output from lines 7 and 8 on the lines 13, 14 and 15, and are output on the surface of the CRT 16.

Therefore, in the screen display on the CRT 16 surface, the video signal is displayed every other field at double speed, and in the field which is not the video signal, "black" is displayed by the screen display signal.
Is displayed, the apparent video signal is output at the vertical synchronizing frequency of general television broadcasting, and flicker appears. A horizontal synchronizing pulse and a vertical synchronizing pulse are input to the display signal generating means for the purpose of displaying a tube surface display signal on the lines 10, 11 and 12, as shown in FIG. 3 (b). The generation of the switching signal can be easily generated by using, for example, a D-type flip-flop that toggles with the vertical synchronizing pulse.

Further, when the display signal generating means 2 is constituted by an arithmetic processing unit such as a microcomputer (CRT), D which toggles by the vertical synchronizing pulse is generated.
A switching signal can easily be generated by programming like a flip flop of the type. Therefore, the double-speed television receiver can easily switch the screen display mode between the flicker-free mode and the non-flicker-free mode.

In the above description, the screen display mode is the flicker-free mode and the non-flicker mode.
The display mode is one of the free modes, but the present invention is not limited to this. For example, the right half of the screen is displayed in the flicker-free mode,
By setting the left half as non-flicker-free mode, or by displaying the upper half of the screen as flicker-free mode and the lower half as non-flicker-free mode,
The flicker-free mode and the non-flicker-free mode can be displayed simultaneously.

As mentioned above, the upper half of the screen is flickered.
In order to display the free mode and the lower half as the non-flicker-free mode, the switching signal may be controlled as follows. In the n-th field, all the fields of the video signal of the n-field are transferred to the lines 13, 1
In the (n + 1) th field, only the first half cycle of the video signal of the (n + 1) th field is output to the lines 13, 14, and 15. Further, in the (n + 2) th field, all the one field of the video signal of the (n + 2) field is output to the lines 13, 14 and 15, and in the (n + 3) th field, the video signal of the (n + 3) field is output. Only the first half cycle of line 13,1
Output to 4 and 15. Hereinafter, this is repeated for each field.

Further, in order to set the right half of the screen (toward the left half) to the flicker-free mode and the left half (toward the right half) to the non-flicker-free mode, the switching signal is controlled as follows. You can do this. All the video signals of the first half cycle in one horizontal line that is set to double speed are all in line 1
The video signals of the latter half period in the remaining one horizontal line are output to the lines 13, 1 and 3 for each field.
Output to 4 and 15.

[0021]

As described above, according to the present invention, the flicker-free mode and the non-flicker-free mode are changed to the flicker-free mode and the non-flicker-free mode by changing the timing of operating the circuit for switching the screen display signal and the video signal. Since the display can be switched, the screen display mode can be easily switched. Further, by controlling the switching timing, the flicker-free mode and the non-flicker mode are set.
The free mode and the screen display can be displayed at the same time.

Further, since the switching signal used only for switching between the screen display signal and the video signal can also be used as the mode switching signal of the screen display mode, no special configuration is required. . Furthermore, if the display signal generating means is configured by an arithmetic processing unit, the switching signal can be generated by software, and various switching signals can be easily generated. It becomes possible to easily switch in this mode. In addition, the flicker-free mode and the non-flicker-free mode can be displayed on the screen at the same time, which is an effective demonstration.
Is possible.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a circuit for switching a screen display signal and a video signal of a television receiver of the present invention.

FIG. 2 is a diagram showing each signal waveform of FIG. 1 in a flicker-free mode.

FIG. 3 is a diagram showing each signal waveform in FIG. 1 in a case of a non-flicker-free mode.

[Explanation of symbols]

1 Luminance signal / color signal processing circuit 2 Display signal generating means 3, 4, 5 Video signal transmission lines 6, 7, 8 Switching circuit between screen display signal and video signal 9 Switching signal between screen display signal and video signal Transmission line 10, 11, 12 Pipe surface display signal transmission line 13, 14, 15 Transmission line of signal supplied to CRT 16 CRT

Claims (3)

[Claims] 1. A display for generating a display signal to be displayed on a screen in a television receiver in which the horizontal deflection frequency and the vertical deflection frequency are at least twice the horizontal synchronization frequency and the vertical synchronization frequency of general television broadcasting. A switching means for switching between a display signal generated by the display signal generating means and a video signal; and the switching based on the horizontal synchronizing frequency or the vertical synchronizing frequency by the display signal generating means. A television receiver characterized in that a switching timing signal supplied to the means is generated, and the display signal generated from the display signal generating means is a signal that becomes black when displayed on the tube surface. 2. The television receiver according to claim 1, wherein the switching timing signal is generated at a timing with one field of the video signal as a unit. 3. The display signal generating means comprises an arithmetic processing unit such as a microcomputer, and the switching timing signal is generated by software by the arithmetic processing unit. The television receiver described in 2.