JPS6325557B2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention provides a video input terminal to which an external video signal is input in addition to receiving a normal RF television signal, and a video input terminal to which external character/graphic information is input. This invention relates to a television receiver equipped with two types of RGB (single display and multiple display) input terminals.

Conventional configuration and its problems As mentioned above, in a television receiver equipped with a video input terminal and an RGB input terminal, RGB
When displaying character signals from a personal computer input from the input terminal, the frequency characteristics of the video signal in RGB display mode must be higher than those in TV display mode and video display mode. Characters on personal computers etc. look better when the area is extended, so it is better to use TV display mode and video display mode.
The frequency characteristics of the video signal can be adjusted using the RGB display mode.
There is a method of changing this by controlling the emitter peaking ratio of the amplifier circuit in the final signal output stage. This is because the TV display mode and video display mode are equipped with a normal image quality control circuit, so an image quality correction circuit is added to the video signal circuit to extend the frequency characteristics of the video signal, but in the RGB display mode, the image quality control circuit is The reason is that the degree of image quality correction differs between TV display mode, video display mode, and RGB display mode because it is applied to the final output amplification circuit without passing through the circuit.

On the other hand, the RGB mode includes a mode in which an RGB video signal of text/graphic information to be displayed alone on the screen is input from a personal computer etc. via an 8-pin input terminal, and a mode in which an RGB video signal of text/graphic information to be displayed alone on the screen is input from a personal computer etc. Text and graphic information that should be displayed on the screen via the pin input terminal and multiplexed with the normal TV screen.
There are two types of modes: one in which RGB video signals are input;

However, when viewing images input in RGB multiplex display mode (teletext broadcasting signal), if you use superimposed display (displaying the teletext signal on the TV screen in multiplex), the TV video signal Shadow processing is applied to remove the signal in the superimposed part in advance, so the part where the RGB video signal and TV video signal in the superimposed part are shadowed due to the influence of the emitter peaking capacitor. There is a time difference between the two, and the disadvantage is that the character signal blurs and becomes difficult to see.

Hereinafter, the above-mentioned conventional example will be explained with reference to the drawings.

FIG. 1 shows a circuit that switches the frequency characteristics of a video signal between a television display mode, a video display mode, and an RGB display mode.

In FIG. 1, the block surrounded by a dotted line 1 is an R signal output amplification circuit. Since 2 and 3 are G and B signal output amplifier circuits having the same configuration, the details will be omitted.

In TV display mode and video display mode,
A color difference signal of "RY" is input to the base of the transistor 4 via the base resistor 6. Further, an R signal level adjustment (drive adjustment) resistor 9 is connected to the emitter of the transistor 4, and a Y signal is applied via the resistor 8. The signals are combined to become an R signal, which is output to the collector of the transistor 4, and is sent to the cathode ray tube 1 via the cathode resistor 19.
8 red cathode. transistor 4
A collector load resistor 5 is inserted between the collector and +B ₂ (usually about 200V).

An emitter resistor 7 is connected between the emitter of the transistor 4 and ground, and a resistor 11 and a variable resistor 12 for adjusting the cut-off level are further connected to the emitter. One end of the variable resistor 12 is connected to +B ₁ (usually 12V), and the other end is connected to ground.

capacitor 10 connected in parallel with resistor 8
is for frequency correction of the video signal.

There is also a resistor 1 at the emitter of transistor 4.
3. A capacitor 14 is connected in series, and the other end of the capacitor 14 is connected to the collector of the transistor 15. The emitter of the transistor 15 is connected to ground, a resistor 16 for stabilizing the off-voltage level is connected between the base and the ground, and the intersection between the base of the transistor 15 and the resistor 16 is connected to the resistor 1.
7 to a control voltage generating circuit (not shown) which becomes high level in the RGB display mode.

With the above configuration, in the TV display mode and the video display mode, the base of the transistor 15 is at a low level, so the transistor 15 is turned off, and the capacitor 14 is not connected to the emitter of the transistor 4, and emitter peaking is performed. is not done. On the other hand, in the RGB display mode, the transistor 15 is turned on, so the capacitor 14 is connected to the emitter of the transistor 4, and the R signal input to the base of the transistor 4 in the RGB display mode is emitter peaked. Therefore, the frequency characteristics are corrected to enhance the high-frequency characteristics. If the value of capacitor 14 is appropriately designed, the signal in RGB display mode will look very clear.

Now, according to the above explanation, the frequency characteristics are switched between the television display mode, video display mode, and RGB display mode. Therefore, as described above, in the RGB multiple display mode in which superimposed display is performed among the RGB display modes, a problem arises in that characters and the like are difficult to see due to the influence of the frequency characteristic correction circuit.

OBJECTS OF THE INVENTION The present invention is intended to solve the above-mentioned problems, and is intended to make it easier to see characters, etc. in a mode in which text/graphic information such as teletext broadcasting is superimposed by switching the display mode.

Structure of the Invention When the television receiver according to the present invention is used in the RGB multiple display mode among the RGB display modes, the frequency characteristic correction circuit is separated from the signal output amplification circuit, unlike in the RGB single display mode. This makes it possible to obtain images that are easy to view in all four types of display modes.

DESCRIPTION OF EMBODIMENTS FIG. 2 shows an embodiment of the present invention. In FIG. 2, the same parts as in FIG. 1 are given the same numbers. The specific configuration of the signal output amplifier circuits 1, 2, and 3 is the same as that shown in FIG. In the figure, switch 21
is a switch that can be switched between RGB single display mode (9 pin side) and RGB multiple display mode (21 pin side), and is connected to the collector of transistor 22 and +
The intersection of the resistors 20 connected to B ₃ (usually 12V) is
Connected to the midpoint of the above switch 21, RGB
Open when in single display mode, connected to ground when switched to RGB multiple display mode. A resistor 24 for stabilizing the off-voltage level is connected between the base of the transistor 22 and ground, and the base of the transistor 22 is connected to the RGB voltage via a base resistor 23.
It is connected to a control voltage generation circuit (not shown) which becomes low level in the display mode. Now, with this configuration, selector switch 2
1 is switched to the RGB multiple display mode (pin 21 side), the collector of the transistor 22 is forcibly connected to ground, and a low level is applied to the resistor 17, so the frequency characteristics explained in Fig. 1 occur. The correction transistor 15 is turned off, and therefore the frequency characteristic correction circuit is disconnected and no correction is performed by the capacitor 14.

Now, when connected to the RGB multiple display mode (pin 8 side), the middle point of the switch 21 is open, so the collector voltage of the transistor 22 is determined by the base voltage of the transistor 22.

In TV display mode and video display mode,
The base of transistor 22 is at a high level,
Transistor 22 is turned on and transistor 2
The collector voltage of 2 becomes low level, and the resistor 1
7 is applied with a low level, the transistor 15 is turned off, and the frequency characteristic correction by the capacitor 14 is not applied.

In the RGB mode, the base of the transistor 22 is at a low level, so the transistor 22 is turned off. Among them, in the RGB single display mode, the collector voltage of the transistor 22 becomes high level from the + _B3 voltage through the resistor 20 and becomes the resistor 17.
, the transistor 15 is turned on, and the frequency characteristics are corrected by the capacitor 14.

As explained above, frequency characteristics are not corrected in TV display mode, video display mode, and RGB multiple display mode, and frequency characteristics are corrected by capacitor 14 only in RGB single display mode, and in all modes. The signal is clearly reproduced on the cathode ray tube screen, achieving the initial purpose.

Effects of the Invention As described above, according to the present invention, the frequency characteristic correction circuit in the signal output amplification circuit is disconnected in the TV display mode, video display mode, and RGB multiple display mode, and the frequency characteristic is corrected only in the RGB single display mode. By configuring the circuits to be connected, it is possible to avoid frequency characteristic correction even in RGB multiple display mode, and the signals in each mode can be clearly reproduced on the cathode ray tube. , which is extremely advantageous in practice.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram of a conventional television receiver, and FIG. 2 is a circuit diagram of a television receiver according to an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1...Red signal output amplification circuit, 2...Green signal output amplification circuit, 3...Blue signal output amplification circuit, 4...Red signal output transistor, 5...Collector load resistance, 6...Base resistance, 15... Frequency correction control transistor, 14... Frequency characteristic correction capacitor, 18... Cathode ray tube, 21... Changeover switch, 22... Mode control transistor.

Claims (1)

[Claims] 1. A television video signal obtained from a normal RF television signal, an external video signal input from an external signal source, and characters to be displayed alone input from an external device such as a personal computer.・Select either one of the first RGB video signal of graphic information and the second RGB video signal of character/graphic information input from the outside and to be superimposed and displayed on the TV screen. a mode switching means for supplying the signal to the cathode ray tube via the signal output circuit; a frequency characteristic correction circuit provided in the signal output amplification circuit to extend the high frequency characteristics of the video signal to be amplified; and a television on which the television video signal is selected. The frequency characteristic correction circuit is connected to the signal output amplifier circuit in the display mode, the video display mode in which the external video signal is selected, and the RGB multiple display mode in which the second RGB video signal is selected. and a control circuit that disconnects the frequency characteristic correction circuit and connects the frequency characteristic correction circuit to the signal output amplification circuit when in an RGB single display mode in which the first RGB video signal is selected. 2. The frequency characteristic correction circuit is constructed by connecting a peaking capacitor to the emitter of a transistor in the signal output amplification stage, and connecting the other end of this capacitor to the collector of the first switching transistor whose emitter is grounded. is on in TV display mode and video display mode, and the two
A second switching transistor is provided which is turned off in the RGB display mode, the emitter of the second transistor is grounded, the collector is connected to the power supply terminal and the base of the first switching transistor, and the second switching transistor is connected to the base of the first switching transistor. 2. A television receiver according to claim 1, wherein a changeover switch is connected to the collector of the transistor, which is open in an RGB single display mode and connected to ground in an RGB multiple display mode.