JPH0584706B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a control circuit for a speed modulation circuit in a television receiver, and is particularly applied to a television receiver having an RGB signal input mode.

[Conventional technology]

Television receivers are known that have an image contour correction function using speed modulation. This receiver is equipped with an auxiliary deflection coil for speed modulation, and the edge corresponding to the image contour of the video signal is connected to the speed modulation circuit (VM circuit).
The waveform is corrected to an appropriate waveform and applied to the auxiliary deflection coil to correct the contour of the image.

Apart from this, a television receiver is known that is equipped with an RGB signal input terminal in addition to an RF input terminal (antenna input terminal). When monitoring external RGB signals, speed modulation cannot be applied because there is no video signal (luminance signal). For this reason, for example, a switch linked to an RF/RGB (or TV/RGB) input changeover switch is provided to turn off the speed modulation circuit.

External RGB signal is called RGB connector
It is supplied externally via an EIAJ standard 21-pin multi-connector. This RGB connector also includes an external video input terminal, making it possible to monitor external video signals or even composite color video signals. in this case,
When the receiver is set to RGB monitor mode, the speed modulation function disappears as described above, so when monitoring the external video signal mentioned above in RGB monitor mode, the speed modulation function cannot be used and higher quality There was a problem where images could not be obtained.

[Problem that the invention seeks to solve]

In view of the above-mentioned problems, the present invention provides a method that allows velocity modulation to be applied in the same way as the internal video signal of the RF input even in RGB monitor mode, and thus provides high image quality with contour correction. With the goal.

[Means for solving problems]

As shown in FIG. 1, the present invention provides RGB signals,
It has a signal group including an external video signal and a control signal Y _S that switches between these two signals.
The input section of the RGB connector 1 and a switching operation means (TV/RGB button 2) for switching between a first mode that monitors the video signal in the receiver and a second mode that monitors the signal from the RGB connector 1.
and a speed modulation circuit 11 that performs speed modulation for image contour correction based on the video signal, the control signal Y _S and the mode signal formed by the operation of the switching operation means, respectively. Input and above control signal
The present invention is characterized by comprising a control circuit 14 that disables the speed modulation circuit only when Y _S indicates input of the RGB signal and the mode signal indicates the second mode.

[Effect]

When the mode signal indicates the second mode that monitors the signal from RGB connector 1, when the external video signal is input, the control signal Y _S is set to the external RGB
Since this indicates that there is no signal input, the speed modulation circuit is operated at this time.

〔Example〕

FIG. 1 is a circuit diagram of a main part of a television receiver equipped with a control circuit for a speed modulation circuit according to the present invention.

RGB connector 1 in Figure 1 is EIAJ standard TTC-
003 “Interconnection between television receiver and peripheral equipment”
(January 1983), including RGB input, external video input, audio input, and the following
Equipped with _YS signal input, etc.

This television receiver is equipped with a TV/RGB button 2 that is a switch button between RF input and RGB, and when this button 2 is set to the TV side (first mode), a TV (video) circuit 3 that processes the RF input The output of
line output) and convert these RGB outputs to TV/
It is led out from the video output circuit 9 to the CRT 10 via the TV side of a changeover switch 8 linked to the RGB button 2. On the other hand, the luminance output of the Y delay circuit 5 is processed by a velocity modulation circuit 11 (VM circuit) and then applied to a velocity modulation coil 12 (VM coil) for contour correction.

When TV/RGB button 2 is set to the RGB side, selector switches 4 and 8 are set to the RGB side, and RGB connector 1 is set to the RGB side.
An RGB mode (second mode) is entered in which the RGB signal from the RGB terminal 1a and/or the external video signal from the external video terminal 1b is monitored.

In this case, three types of monitors can be created: RGB input only, external video input only, and RGB input superimposed on external video input (superimposed).

In the case of RGB input alone, the changeover switch 13 provided before the aforementioned changeover switch 8 is switched from the main line side to the RGB side, and the RGB input is passed from these changeover switches 13 and 8 to the video output circuit 9. Supplied directly to CRT10. This changeover switch 13 is the Y _S signal terminal 1c of the RGB connector 1.
It will be coupled to the RGB side with the high level "1" Y _S signal from.

This Y _S signal is a control signal for switching the RGB signal to an internal signal and an external signal.
According to the EIAJ standard, it is "1" when it is an external signal and "0" when it is an internal signal.

In the case of external video input alone, there is no RGB signal, so the Y _S signal is "0", the changeover switch 13 is on the internal side (main line side), and the changeover switches 4 and 8 are on the TV/RGB side. RGB by button 2
Since it is on the side, the video signal from the external video terminal 1b of the RGB connector 1 can be monitored instead of the internal video signal.

When in the superimposition mode of external video input and RGB input, each selector switch 4, 8, 13 is set to the above-mentioned external video input only mode, and while the external video input is monitored, the signal part of the RGB input is The Y _S signal changes from "0" to "1" and the RGB input is selected by the changeover switch 13. Therefore, an external video screen on which RGB images such as characters are superimposed is obtained.

As mentioned above, the VM circuit 11 connects the TV/RGB button 2
It is turned off by a switch when the Y _S
When the signal is detected and it is "1", the VM circuit 11 is turned off because an RGB signal is output, and when the Y _S signal is "0", the VM circuit 11 is turned on.

The control circuit 14 shown in FIG. 1 thus discriminates between the Y _S signal and the switching state of the TV/RGB button, outputs a control output to the VM switch 15, and turns the VM circuit 11 on and off.

The control circuit 14 is configured as shown in Fig. 2, and receives the Y _S signal and the TV/RGB mode signal (“1” for TV, “0” for RGB), and outputs “1” (VM off). Or generate “0” output (VM on).

In the TV mode (at the time of RF input), the mode signal "1" obtained by the TV/RGB button 2 is given to the NOR circuit 22 to force its output to "0".
Turn on the VM circuit 11.

In RGB mode, only when the Y _S signal becomes "1" (at the time of RGB input), this is detected by the Y _S signal detection circuit 20, and its output is held for several fields in the hold circuit 21, and then "0" signal to the NOR circuit 22, and together with the TV/RGB mode signal "0", the output of the NOR circuit 22 becomes "1", thereby turning off the VM circuit 11. Therefore, speed modulation is not performed when only RGB input is used.

When using an external video monitor in RGB mode, the Y _S signal is "0", so the output of the hold circuit 21 is "1" and the output of the NOR circuit 22 is "0", so VM modulation is applied to the external video input. This is done on the monitor image.

Here, when superimposing characters etc. using RGB signals on the monitor image of the external video, the Y _S signal becomes "1" only in this character part, and switching between external video and RGB occurs as described above. . Since this Y _S signal is held for several fields in the hold circuit 21, the VM circuit 11 is turned off for the entire superimposed screen. Therefore, even if the Y _S signal turns on and off at a high frequency within one screen on which external RGB images are superimposed, the VM circuit 11
is not turned on and off following this, so no interference due to speed modulation occurs. Note that if there are no more RGB signals to be superimposed, after several fields
The VM circuit 11 starts operating.

Figure 3 shows the specific circuit of Figure 2, with a transistor
The Y _S signal is detected at T1, and the next stage capacitor C1,
C2 and transistors T2 and T3 perform integral hold, and a NOR circuit 22 that matches the collectors of transistors T4 and T5 in the next stage compares the NOR with the TV/RGB mode signal.
The switch output of the VM circuit 11 is obtained from T6.

Please note that the TV/RGB mode signal is set to TV=“0”,
If RGB="1" is set, the output of the hold circuit 21 is set to "1" when Y _S = "1", and a VM-off switch output of "1" can be obtained by AND logic. In addition to this, various logical configurations can be implemented.

〔Effect of the invention〕

As described above, the present invention provides control signals included in the external RGB input terminal group (RGB connector 1).
Refer to the mode signal to monitor Y _S and external RGB signal, and the signal Y _S when in external RGB mode.
The speed modulation circuit of the receiver is configured to be turned off only when the video signal indicates that RGB input is present, so even in RGB mode, the speed modulation circuit is turned on for external video input and contour correction is performed. High quality images can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a main part of a television receiver to which the present invention is applied, FIG. 2 is a block diagram of the control circuit of FIG. 1, and FIG. 3 is a specific circuit diagram of FIG. 2. In addition, in the symbols used in the drawings, 1...
RGB connector, 1a...RGB input terminal, 1b...
...External video input terminal, 1c...Y _S signal input terminal, 2...TV/RGB button, 10...CRT, 11
... VM circuit, 12 ... VM coil, 14 ... control circuit, 15 ... VM switch, 20 ... Y _S signal detection circuit, 21 ... hold circuit, 22 ... NOR circuit.

Claims (1)

[Claims] 1. An input section of an RGB connector having a signal group including an RGB signal, an external video signal, and a control signal Y _S for switching between these two signals, and a first mode for monitoring the video signal in the receiver. and a second mode for monitoring signals from the RGB connector, and a speed modulation circuit that performs speed modulation for image contour correction based on the video signal. Y _S and the mode signal formed by the operation of the switching operation means are respectively input, and the control signal Y _S is input to the RGB
A control circuit for a speed modulation circuit in a television receiver, comprising a control circuit that disables the speed modulation circuit only when the mode signal indicates input of a signal and the mode signal indicates the second mode. .