JP2680731B2 - 2 screen television receiver - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application The present invention relates to a two-screen television receiver (two-screen TV).

(B) Conventional Technology A two-screen TV called picture-in-picture is well known. FIG. 3 shows a schematic block diagram. (10) is a main screen video signal input terminal, (12) is a main screen video chroma circuit, (14) is a small screen insertion circuit, and (16) is a cathode ray tube (CRT).

(18) is a sub-picture video signal input terminal, (19) is a sub-picture video chroma circuit, and (20) is a picture-in-picture system circuit for reducing the sub-picture video signal. (twenty two)
Is a control CPU. (24) is the RGB signal for Y, RY and BY signals.
It is a matrix circuit that converts into a signal.

(26) is a flyback transformer circuit, which supplies a high voltage to the cathode ray tube (16) and outputs an ABL signal corresponding to the brightness of the screen created from the beam current.
Since the area of the small screen is small, the value of this ABL signal is
It roughly corresponds to the brightness of the main screen. Reference numeral (l ₁ ) is a signal path, which outputs the ABL signal to the main screen video chroma circuit (12) to control brightness such as bright contrast when the screen is bright to darken the main screen. When the screen is dark, the parent screen is made bright. In addition, the sub-screen insertion circuit (1
In 4), the pedestal levels of RGB signals of the sub-screen and the main screen are matched and inserted in the main screen, so the brightness of the sub-screen also changes according to the brightness change of the main screen.

(28) is an ABL signal inverting circuit provided to prevent this. The circuit (28) controls the brightness such as the bright contrast of the video chroma circuit (19) for the sub-screen in the direction opposite to the main screen in order to cancel the brightness change of the sub-screen.

Thereby, even if the brightness of the main screen changes, the brightness of the sub screen is always constant. A TV with such a constant brightness of the sub-screen is disclosed in JP-A-60-171875 (H04N 5
/ 45).

(C) Problems to be Solved by the Invention In such a dual-screen TV, as shown in FIG. 4, when the brightness of the small screen is high, an excessive beam current exceeding the dynamic range of the cathode ray tube is generated. The flow causes a doming phenomenon (a phenomenon in which a large beam current flows and the shadow mask is heated and deformed so that the electron beam does not correctly hit the phosphor and the color changes) in the child screen.

In order to prevent this doming, it is possible to detect the brightness levels of the parent screen and the child screen separately and control the brightness of the parent screen and the child screen based on the detected values, respectively.
No. (H04N 5/45).

However, this TV requires a detection circuit that detects the brightness of the main screen and the sub screen.

The present invention prevents the doming by using the conventional ABL signal indicating the brightness of the entire screen including the parent and the child.

(D) Means for Solving the Problems The present invention controls a parent screen input terminal (10) to which a video signal for a parent screen is input, and a brightness level of a video signal from the parent screen input terminal (10). The first brightness control circuit (12) and the sub-screen input terminal (1
8), a brightness / contrast control circuit (19) having a brightness level control circuit for controlling the brightness of the video signal from the small screen input terminal (12) and a contrast control circuit for controlling the contrast; The brightness / contrast control circuit (19) is added to the video signal for the main screen controlled by the brightness control circuit (12).
A sub-screen insertion circuit (14) provided for inserting a sub-screen video signal controlled by, and a cathode ray tube (16) for projecting the video signal from the sub-screen insertion circuit (14), A first control means (11) for controlling the first luminance signal control circuit (12) by an ABL signal corresponding to the beam current amount of the cathode ray tube (16), and the cathode ray tube (16) by the ABL signal. ) When the case where the brightness of the image displayed on the entire screen is lower than the average brightness is detected, the brightness / contrast is set so as to reduce the brightness and contrast of the sub-screen on the screen of the cathode ray tube (16). A dual-screen television receiver comprising: a brightness level control circuit of a control circuit (19); and a second control means (28 ') for controlling the brightness level and contrast by the contrast control circuit.

(E) Action In the present invention, when the screen is dark, the brightness of the sub-screen is controlled so as to decrease on the screen of the cathode ray tube (16) to prevent doming. Also, when the screen is bright, the AB
The brightness of the main screen is reduced by L operation, and the brightness of the sub screen is increased by the video chroma circuit (19), but since the sub screen matches the pedestal level with the main screen, the sub screen insertion circuit (14) It falls slightly on the picture tube (16) screen due to the decrease in screen brightness.

(F) Embodiment An embodiment of the present invention will be described with reference to FIGS. 1 to 3. In FIG. 1, (28 ') is an ABL signal inverting circuit. (R1) to (R5) are resistors, and (C1) and (C2) are capacitors. (19) is a video chroma circuit for the sub-screen, (19a) is a contrast control terminal, and (19b) is a bright control terminal. (Tr ₁ ) is a transistor. (V
R1) (VR2) is a sub variable volume for bright / contrast control.

Fig. 2 shows the ABL input to the input terminal (28a ') of Fig. 1.
The relationship between the signal and the value of the bright contrast control signal output from the point (28b ') is shown. The ABL signal of this TV is about 3.7V when the screen of the CRT is all black and about 6.0V when it is all white. The gradient and value of the brightness / contrast control voltage for the sub-screen in FIG. 2 are drawn into the brightness drop of the main screen when the main screen is bright and the brightness level output from the video chroma circuit for the sub-screen. Is set, but the brightness in the sub-screen is set to decrease on the screen. When the parent screen is dark, the luminance level of the child screen is set so that both the video chroma circuit output and the screen drop. In this way, bright
The contrast control voltage is set by the resistor shown in FIG. For example, the resistance (R2) (R3) is the upper limit (10.8
V) is set. In addition, the resistance (R4) (R5) sets the ABL voltage value that starts to fall, and the resistance (R1) transistor (Tr)
The tilt is selected with.

That is, as can be seen from the characteristics of FIG. 2, the darker the screen, the higher the value of the control signal. Then, the brightness and contrast are reduced by controlling the bright contrast of the video chroma circuit (19) of the sub-screen. Then, the amount of decrease in the brightness is still calculated even if the increase in the brightness of the small screen in the small screen insertion circuit (14) is added.
It is set to descend. Accordingly, cathode ray tubes (16)
When the parent screen of is black, the child screen on the screen of the cathode ray tube is also dark, preventing the occurrence of doming. It should be noted that when the main screen is dark and the sub screen is also a dark screen, the sub screen becomes darker, but emphasis was placed on preventing doming.

(G) Effect of the Invention As described above, according to the present invention, doming can be prevented without providing the parent screen luminance detecting means and the child screen luminance detecting means.

[Brief description of the drawings]

FIG. 1 shows an embodiment of the present invention. FIG. 2 is a diagram for explaining the operation. FIG. 3, FIG. 4 and FIG. 5 are diagrams for explaining a conventional example. (12) …… Video chroma circuit (first brightness control circuit), (19) …… Video chroma circuit (second brightness control circuit), (14) …… Inset screen insertion circuit, (16) …… CRT (Cathode ray tube), (l ₁ ) ... signal path (first control means), (28 ') ... ABL signal inverting circuit (second control means).

Front Page Continuation (72) Inventor Yuji Hase 2-18, Keihan Hondori, Moriguchi City, Osaka Sanyo Electric Co., Ltd. (56) Reference JP-A-2-67086 (JP, A) JP-A-63-185172 (JP, A)

Claims (1)

(57) [Claims] 1. A main screen input terminal (10) to which a main screen video signal is input, and a first brightness control circuit (12) for controlling the brightness level of the video signal from the main screen input terminal (10). ) And the sub-screen video signal is input to the sub-screen input terminal (18)
A brightness / contrast control circuit (19) having a brightness level control circuit for controlling the brightness of the video signal from the sub-screen input terminal (12) and a contrast control circuit for controlling the contrast, and the first brightness control A sub-screen insertion circuit (14) provided for inserting the sub-screen video signal controlled by the brightness / contrast control circuit (19) into the main-screen video signal controlled by the circuit (12) A cathode ray tube (16) for displaying a video signal from the sub-screen insertion circuit (14), and an ABL signal corresponding to the beam current amount of the cathode ray tube (16) for the first luminance signal control circuit ( 1) controlling 12)
Of the cathode ray tube (16) when it is detected that the brightness of the image displayed on the entire screen of the cathode ray tube (16) is darker than the average luminance by the control means (11) and the ABL signal. Second control means (28 ') for controlling the brightness level and contrast by the brightness level control circuit and the contrast control circuit of the brightness / contrast control circuit (19) so as to reduce the brightness and contrast of the sub-screen on the screen. , A two-screen television receiver comprising: