JPH0463597B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a television signal control device used in a television receiver.

Conventional configurations and their problems In television receivers, there are cases where multiple types of signals are switched and displayed on one screen.

In the following description, a case where two types of signals are displayed will be described to make the description easier to understand.
FIG. 1 is a block diagram showing a conventional example. The output of the video chroma circuit of the television receiver is R.
Assume that the three primary colors are (red), G (green), and B (blue).
In FIG. 1, 1 _R is the first R signal input terminal;
2 _R is a second R signal input terminal, 3 _R is an R signal switching circuit, 4 is a switching signal input terminal, and 5 _R is an R output terminal. Further, 1 _G is a first G signal input terminal, 2 _G is a second G signal input terminal, 3 _G is a G signal switching circuit,
5 _G is the G output terminal, 1 _B is the first B signal input terminal,
2 _B is a second B signal input terminal, 3 _B is a B signal switching circuit, and 5 _B is a B output terminal. R signal switching circuit 3
Since the functions of _{the R} , G signal switching circuit 3 _G and the B signal switching circuit 3 _B are exactly the same, the R signal, G signal, and B signal are used without distinction. Furthermore, when the output of the video chroma circuit of a television receiver is a color difference signal and a luminance signal, only one more switching circuit is added, and the process is the same as in the case of RGB three primary color signals.

In FIG. 1, a first signal input terminal 1 receives RGB three primary color signals or a color difference signal and a luminance signal from a video chroma circuit, and a second signal input terminal 2 receives an RGB three primary color signal or a color difference signal. Luminance signals are input, these signals are switched by a switching circuit 3 in response to a switching signal input from a switching signal input terminal 4, and outputted to an output terminal 5.

However, in the conventional configuration shown in FIG.
If the luminance level and chroma level of the first input signal and the second input signal become approximately the same, it becomes extremely difficult to see on the screen.

OBJECTS OF THE INVENTION It is an object of the present invention to eliminate the above-mentioned drawbacks and provide a television signal control device that displays a plurality of types of signals on the same screen in an easy-to-see manner.

Structure of the Invention The television signal control device of the present invention includes a first clamp circuit having a first signal input terminal into which a first television signal is input and a clamp pulse input terminal; a first brightness control circuit that is connected and controls the level of a signal output from the first clamp circuit according to an input given to a first brightness control terminal; 1
a gain control circuit connected to the brightness control terminal of the first brightness control circuit and controlling the gain of the output signal of the first brightness control circuit according to an input applied to the control signal input terminal; a second clamp circuit having two signal input terminals and connected to the clamp pulse input terminal; and a second clamp circuit having two signal input terminals connected to the clamp pulse input terminal;
a second brightness control circuit for controlling the level of the signal output from the clamp circuit; a switching signal input terminal connected to the gain control circuit and the second brightness control circuit; and a switching circuit that outputs the output of the gain control circuit or the output of the second brightness control circuit according to the input of the gain control circuit, and the control start voltage of the gain control circuit is set at the pedestal of the first television signal. The signal level is set to be equal to the signal level, thereby making it possible to display a plurality of types of signals on the same screen in an easy-to-see manner.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 2 is a block diagram showing the configuration of one embodiment of the present invention. In FIG. 2, 1 to 5 are the same as those described in FIG. Also, video
As in the case of FIG. 1, four systems are used when the output of the chroma circuit is a color difference signal and a luminance signal, and three systems are used when the output is an RGB three primary color signal.

In Fig. 2, suffix R indicates the R signal system, 6 _R indicates the first clamp circuit, and 7 _R indicates the second clamp circuit.
clamp circuit, 8 is the clamp pulse input terminal,
9 _R is the first brightness control circuit, 10 _R is the second brightness control circuit.
11 _R is a first brightness control terminal, 12 _R is a second brightness control terminal, 13 _R is a gain control circuit, and 14 is a control signal input terminal. Figure 1 similarly shows other systems for _6G , _6B, etc.

The television signal inputted from the first input terminal 1 is clamped by the first clamp circuit 6 by a clamp pulse, and the input signal given to the first brightness control terminal 11 by the first brightness control circuit 9. After the brightness level is controlled according to the following, the signal is input to the gain control circuit 13. The gain control circuit 13 receives a change in gain according to the control signal input from the control signal input terminal 14. The control start voltage at this time is the first brightness control terminal 1.
The pedestal level of the first television signal and the control start voltage in the gain control circuit 13 are always equal.

On the other hand, the other television signal input from the second signal input terminal 2 is clamped in the second clamp circuit 7 by the clamp pulse input to the clamp pulse input terminal 8, and the second brightness control signal is clamped by the clamp pulse input to the clamp pulse input terminal 8. The brightness level is controlled by the circuit 10 according to the input given to the brightness control terminal 11. The first signal whose level has been lowered in the gain control circuit 13 and the brightness control circuit 1
The output of 0 is switched in the switching circuit 3 by a switching signal input from the switching signal input terminal 4, and an output is obtained at the output terminal 5.

As described above, according to the embodiment of the present invention shown in FIG. 2, when displaying by switching two signals, the level of the television signal around the second signal is lowered, so that the second signal output This has the effect of making it easier to see. Further, the first signal and the second signal are transmitted to the first clamp circuit 6 and the second clamp circuit, respectively.
Since the brightness level is controlled by the first brightness control circuit 9 and the second brightness control circuit 10, the brightness level of both signals is stable, and the two signals are switched. This has the effect of making the signal output easier to see when displaying images.

Furthermore, the control start voltage in the gain control circuit 13 is controlled by the input input to the first brightness control signal input terminal 11, and since the control start voltage is always equal to the pedestal level, the gradation of the signal does not change. This has the effect that only the contrast has changed.

Next, the characteristics of the gain control circuit 13 shown in FIG. 2 will be described. The gain control circuit 13 in FIG.
When a control signal is input from the control signal input terminal 14, the level of the television signal applied to the first input terminal 1 is lowered.

FIG. 3 shows an example of the input/output characteristics of the gain control circuit 13 used in the present invention. As shown in Figure 3,
When the input is below _V1 , the output is equal to the input, and when the input is above _V1 , the input level is suppressed as shown by the solid line.

The input/output characteristics of the polygonal line shown in FIG. 3 have the following advantages over the characteristics of a conventionally used clip circuit. That is, the conventional clip circuit has an input/output characteristic in which, for example, when the input is less than _V1 , the output is equal to the input, and when the input is more than _V1 , the output becomes a constant output of _V1 . However, if a television signal is input to such a clip circuit, the output will be saturated at V ₁ , so
When this output is projected on a CRT, it is unnatural and hard to see, and in some cases, the content of the image cannot be distinguished. On the other hand, when a television signal is input to a circuit with the input/output characteristics shown in Figure 3, the output is suppressed for inputs of V ₁ or more, but the input gradation is not impaired. Even when this output is displayed on a CRT, there is no unnatural appearance, and the image content is accurately transmitted.

Based on the above reasons, when the output of the video chroma circuit of a television receiver is an RGB three primary color signal, a gain control circuit having the characteristics shown in FIG. 3 is used. In this case, if V ₁ is set to a voltage equal to the pedestal level, the level of the television signal obtained at the output of the gain control circuit 13 will be suppressed by only the signal that causes the CRT to emit light without changing the pedestal level. Moreover, the hue remains unchanged. Furthermore, if a/b is selected so that the level of the television signal obtained as the output of the gain control circuit 13 is lower than the second signal level obtained as the output of the second brightness control circuit 10, When displaying a signal, the second signal output is easy to see, and since the gradation of the first signal output is not impaired, an effect of eliminating unnaturalness can be obtained.

FIG. 4 shows a block diagram of an embodiment of the present invention in which the output of the video chroma circuit of a television receiver is a luminance signal and a color difference signal.

In FIG. 4, the first luminance signal input terminal is
_Y , second luminance signal input terminal 2 _Y , first R-Y
The input terminal is 1 _RY , the second RY input terminal is 2 _R-
Y , first G-Y input terminal 1 _GY , second G-Y
The input terminal is 2 _GY , the first B-Y input terminal is 1 _B-
Y , the second B-Y input terminal is 2 _BY , and the circuit system connected to each input terminal is Y, R-Y.
etc. shall be added.

When the luminance signal is of negative polarity (the synchronization signal is upward), a gain control circuit _13Y having the characteristics shown in FIG. 5 is used for the luminance signal. In this case, set V ₂ to a voltage equal to the pedestal level.

The brightness of the first television signal obtained as the output of the gain control circuit _13Y is higher than the level of the brightness signal input to the second signal input terminal _2Y and obtained as the output of the second brightness control circuit _10Y . Select a/b so that the signal level is high.

Furthermore, gain control circuits 13 _RY , 13 _GY , and 13 _BY having the characteristics shown in FIG. 3 are also used for color difference signals. As in the case of the RGB three primary color signals, V ₁ is set to a voltage equal to the pedestal level, and is input to the second signal input terminals 2 _RY , 2 _GY , 2 _BY to control the brightness control circuits 10 _RY , 10 _GY , 10 _BY . If a/b is selected so that the signal level obtained as the output of the gain control circuits 13 _RY , 13 _GY , 13 _BY is lower than the level of the color difference signal obtained as the output, the high level part, that is, the CRT, will emit light. In addition, the ratio a/b of the gain control of the luminance signal and the color difference signal can be obtained.
If they are made equal, it is possible to obtain the effect that the hue does not change, so that there is no unnaturalness because the first signal output has a gradation, and it is possible to obtain the effect that the second signal output is easy to see.

Next, FIG. 6 shows a specific circuit example of the gain control circuit 13 having the input/output characteristics shown in FIG. 3. In FIG. 6, 14 is the same as in FIG. 2, and 15
1 is an input terminal of the gain control circuit 13, 16 and 17 are low resistors, 18 is a PNP transistor, and 19 is an output terminal of the gain control circuit 13. Let R ₁ be the sum of the resistance value of the resistor 16 and the output impedance of the first brightness control circuit 9, and let R ₂ be the resistance value of the resistor 17.
Also, the control signal level applied to the control signal input terminal 14 is set to V CC when there is no control, and V _CC when there is control.
Let's say V ₃ . Without control, transistor 18
is in a cutoff state, and the television signal input to the input terminal 15 is transmitted to the output terminal 19 as is. With control, V _BE of transistor 18
Ignoring this, when the level of the television signal input to the input terminal 15 is below _V3 , the transistor 18 is in a cut-off state, but when the level of the television signal is above _V3 , the transistor 18 is turned off.
A current flows between the emitter and the collector, and a signal whose level is suppressed is obtained at the output terminal 19. That is, the input/output characteristics of the circuit example in FIG. 6 are as shown in FIG. 3, and the relationships a/b=R ₂ /R ₁ +R ₂ and V ₁ =V ₃ are established.

Further, a specific circuit example of the gain control circuit 13 having the input/output characteristics shown in FIG. 5 is shown in FIG. 7th
In the figure, 14 is the same as in FIG. 2, 20 is an input terminal of the gain control circuit 13, 21 and 22 are resistors, 23 is an NPN transistor, and 24 is an output terminal of the gain control circuit 13. The sum of the resistance value of the resistor 21 and the output impedance of the first brightness control circuit 9 is R ₁ , the resistance value of the resistor 22 is R ₂ , and
The control signal level applied to the control signal input terminal 14 is set to 0 when there is no control, and _V4 when there is control. Furthermore, if V _BE is ignored, the transistor 23 is in a cutoff state when there is no control, and when the level of the television signal input to the input terminal 15 is V ₄ or higher with control, and the television signal is directly output to the output terminal. However, in the case of control, when the level of the television signal input to the input terminal 15 becomes lower than _V4 , a current flows between the collector and emitter of the transistor 23, and the DC potential of the output terminal 24 decreases. will be elevated. Therefore, the input/output characteristics of the circuit example shown in FIG. 7 are as shown in FIG. 5, with the relationship a/b=R ₂ /R ₁ +R ₂ and V ₂ =V ₄ .

In the example shown in FIG. 6, the control signal level in the case of no control is explained as V _CC , but this level may be just enough to turn off the transistor 18, and the level of the television signal input to the input terminal 15 is sufficient. You can set the level to be higher than the level. Similarly, in the example of FIG. 7, the control signal level in the case of no control is sufficient as long as it is enough to turn off the transistor 23.

In addition, in the above explanation, we have described the case where two signals are switched and displayed, but in addition to this, there are also cases where two different channels are switched and displayed on one screen. It goes without saying that the present invention can also be applied to cases in which signals are switched and displayed.

Furthermore, in the above explanation, the first signal input is input to the gain control circuit to lower the signal level, but it may be configured to lower the second signal input level, in which case the first signal input level is lowered. The input and the second signal input may be exchanged.

Effects of the Invention As is clear from the above description, the present invention provides a first television signal which is clamped by a first clamp circuit and whose brightness level is controlled by a first brightness control circuit. Change the level with a gain control circuit. The control start voltage of this gain control circuit is linked to brightness control. On the other hand, after the second television signal is clamped by a second clamp circuit and the brightness level is controlled by a second brightness control circuit, the first signal and the second signal are switched by a switching circuit. The second signal output is easy to see, and the first signal output has gradations, which eliminates unnaturalness. This has a very large effect.

Furthermore, in the present invention, after clamping the first television signal and the second television signal and performing brightness control to suppress fluctuations in the pedestal level due to fluctuations in the input signal,
The gain control circuit lowers the level of the first signal, but the control start voltage of this gain control circuit is linked to brightness control, and the control start voltage is always equal to the pedestal level, so the hue is changed. This has the effect of being able to lower the level of the first signal without causing any noise, making it easier to see the second signal output, and ensuring that the first signal output has gradations to eliminate unnaturalness. Obtainable.

[Brief explanation of drawings]

Fig. 1 is a block diagram of main parts of a conventional example, Fig. 2 is a block diagram of an embodiment of the present invention, Fig. 3 is an example of input/output characteristics in the present invention, and Fig. 4 is another embodiment of the present invention. FIG. 5 is another input/output characteristic diagram of the present invention, and FIGS. 6 and 7 are circuit configuration diagrams showing examples of gain control circuits that can be used in the present invention. 3 _R , 3 _G , 3 _B , 3 _Y , 3 _RY , 3 _GY , 3 _BY ...
Switching circuit, 13 _R , 13 _G , 13 _B , 13 _Y , 13 _R-
Y , 13 _GY , 13 _BY ...gain control circuit, 6 _R , 6
_G , 6 _B , 6 _Y , 6 _RY , 6 _GY , 6 _BY , 7 _R , 7 _G , 7
_B , 7 _Y , 7 _RY , 7 _GY , 7 _BY ...clamp circuit,
9 _R , 9 _G , 9 _B , 9 _Y , 9 _RY , 9 _GY , 9 _BY , 10
_R , 10 _G , 10 _B , 10 _Y , 10 _RY , 10 _GY , 1
0 _BY ...Brightness control circuit, 16, 17,
21, 22...Resistor, 18...PNP transistor, 23...NPN transistor.

Claims (1)

[Claims] 1 a first clamp circuit having a first signal input terminal into which a first television signal is input and a clamp pulse input terminal; a first clamp circuit connected to the first clamp circuit and applied to a first brightness control terminal; a first brightness control circuit that controls the level of a signal output from the first clamp circuit according to an input; a control signal input terminal connected to the first brightness control circuit and the first brightness control terminal; a gain control circuit for controlling the gain of the output signal of the first brightness control circuit in accordance with an input given to the clamp pulse input; and a second signal input terminal to which a second television signal is input. a second clamp circuit connected to the terminal; and a second clamp circuit connected to the second clamp circuit.
a second brightness control circuit that controls the level of the signal output from the second clamp circuit according to an input given to a brightness control terminal of the second brightness control circuit; and a second brightness control circuit connected to the gain control circuit and the second brightness control circuit. and a switching circuit that has a switching signal input terminal and outputs the output of the gain control circuit or the output of the second brightness control circuit according to the input applied to the switching signal input terminal, The control start voltage of the circuit is set equal to the pedestal level of the first television signal, and the control start voltage of the circuit is set equal to the pedestal level of the first television signal.
A television signal control device characterized in that the second signal output from the brightness control circuit of the television signal controller is made easy to see on a screen.