JPS60102685A - Display unit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a display device used in a computer output device, a word processor, a television, or the like.

2. Description of the Related Art Structures of Conventional Examples and Their Problems In recent years, color display devices have come into widespread use due to the development of computers, word processors, televisions, and the like.

A conventional color display device will be explained below.

FIG. 1 shows a block diagram of a conventional example.

1 is a monochrome video signal polarity inversion program, 2 is a keyboard, 3 is a computer, and 4 is a color display.

Keyboard 2. co/pc 3. The color display 4 is constituted by hardware, and when data is input through the keyboard 2, the computer 3 processes the data in accordance with this data, and the processed data is output to the display 4. Therefore, when the black-and-white video signal polarity inversion program 1 is input from the keyboard 2, data processing for black-and-white video signal polarity inversion is performed by the computer 3, and its output is displayed on the color display 4. This display state is in accordance with the contents of the black-and-white video signal polarity inversion program 1, and it is possible to reverse the black-and-white video signal polarity of part or all of the screen. However, this method requires (1) creation of software;

(2) Lack of immediacy due to time required for software input, etc.

(3) Software costs are too high.

(A 41 signal source whose polarity cannot be reversed cannot be used.

There are other problems.

OBJECTS OF THE INVENTION The present invention solves the above-mentioned conventional problems.In contrast to the conventional black-and-white video signal polarity reversing means using computer software, the present invention includes a black-and-white video signal detection and polarity reversal method in a part of the circuit in a color display device. The purpose of the present invention is to provide a display device which has a built-in circuit and can easily and instantly detect only black and white video signals and invert the polarity by simply operating a switch.

Structure of the Invention The present invention is a display device that includes a circuit for detecting a black and white video signal and a circuit for inverting the polarity of the video signal in the process of signal processing from video signal input to signal output to a display device. , the polarity of only the black and white video signal can be easily and instantly reversed and displayed on the display by electrical or mechanical switch operation.

DESCRIPTION OF EMBODIMENTS FIG. 2A, 73 shows a block diagram of a display device in each embodiment of the present invention.

In FIGS. 2A and 13, 5 is a signal source, 6 is a black and white video signal detection/polarity inversion circuit shown in FIG. 3, 7 is a video input circuit, 8 is a video output circuit, 9 is a color display, and 1o is a This is a mode changeover switch.

1. In FIG. 2A, when the switch 1o is closed, the signal detection/polarity inversion circuit 6 detects the black and white video signal and inverts the polarity of the video signal generated by the signal source 6. After that, the video input circuit 7 performs signal processing, and the video output circuit 8 outputs the video signal. If the video signal is a black and white video signal, the polarity of the video signal is inverted, and if the video signal is a color video signal, the video signal is output in color. Display on the display.

In addition, when the switch 1o is opened, the video signal generated by the signal source 5 is outputted to the video output 8 in a normal state without being detected by the signal detection/polarity inversion circuit 6 and the black and white video signal is not detected and polarity inverted, and is displayed. This is an operation in which the image is displayed in black and white or in color on the device 9.

Next, as shown in FIG. 2B, when the switch 10 is closed, the input circuit 7 processes the video signal generated by the signal source 5, and the signal detection/polarity inversion circuit 6 produces a black and white image. Signal detection and inversion are performed, and if it is a black and white video signal, the polarity is reversed here. If it is a color video signal, it is output to the video output circuit 8 in a normal state and displayed as color or black and white inverted on the display 9. be done.

When the changeover switch 10 is opened, the video signal generated by the signal source 6 is processed by the video input circuit 7, and the black and white video signal detection/inversion circuit 6 outputs it to the video output circuit 8 in a normal state. , can be displayed on the display 9.

FIG. 3 is a block diagram showing a black-and-white video detection/inversion circuit in the same embodiment, and the signal input from the input terminal 11 is amplified by the input detection section 12 which detects that the signal is input. and is transmitted to the inversion circuit 13. At this time, the monochrome/color signal discrimination circuit 14 determines whether the monochrome signal is a color signal, and if it is a monochrome signal, it is transmitted to the polarity inversion switching discrimination circuit 16.

The signal transmitted to the inverting circuit 13 is determined when the switch 10 is in the "closed" polarity inversion mode state and is a black and white signal, and the polarity inversion switching determination circuit 15 determines that the polarity inversion operation should be performed. 13 to perform a polarity reversal operation. Thereafter, the signal is sent to the output section 16 and an output signal appears at the output terminal 17.

FIG. 4 is a circuit diagram showing a specific configuration of the black-and-white video detection/inversion circuit shown in FIG. 3, with ea and eb.

6C is a two-person Exclusive Sheave OR (hereinafter referred to as EX/OR
) gate, 6d is 2-man OR gate, 6e is 3-man EX
・OR gate, 10 is mode changeover switch, ef, eg
, ah, ei are pull-up resistors, 6m, 6fi, 60 are red video signal input terminals, green video signal input terminals, blue video signal input terminals, ej, ek, 6d are red video signal output terminals, respectively. , a green video signal output terminal, a blue video signal output terminal, and 6p a power supply terminal. Input terminal 6m
, 6n, 60 are connected to the signal source 5 or the video input circuit 11, and 6g is connected to the output terminals 6j, 6, and the video input circuit 7.
Alternatively, it is connected to the video output circuit 12.

The operation of the black and white video signal detection and polarity inversion circuit shown in FIG. 4 will be explained.

First, when a black and white video signal is input to the video input signal terminals 5m, 6n, and 60 and the selector switch 1o is set to 'R',
Video input signal terminals am, en, e.

Since in-phase video signals are input to EX-OR
The output of gate 6e is II1. OWI+ (hereinafter referred to as I
IL II). One side of the NOR gate 6d is the EZ/OR gate 6e, and the other side is the changeover switch 1o.
(Since it is currently closed, it is in the state of "I L l".), so the output is "High '" (hereinafter "H
” ).Two-man EX-OR gate, 6!L.

One of 6b and 6Q is the video input signal terminal 6m.
, 6n, 60, and the other is a two-person OR
Since "H"' is inputted by the gate 6d, 2
Human power EX-OR game) 6a, 6b.

6C outputs a signal whose polarity is inverted from that of the input video signal. That is, when the changeover switch 10 is closed and a monochrome video signal is input, the polarity is reversed.

Second, when a color video signal is input to the video input signal terminals 6m, 6n, and 60 and the selector switch 10 is set to "closed",
At this time, the video input signal terminal is 6m.

Video signals having completely different phases are input to 6n and 60. Therefore, the output of EX・OR game) 68 is “H”
Therefore, the output of the NOR gate 6d becomes L II. At this time, the outputs of the two-man EX/OR gates 6a, 6b, and 6c are the video signal output terminals e+co and ek because one side of the input terminal is "'L".

64 outputs a normal color video signal that is exactly the same as the video input signal terminals 6m, 6n, and 60. That is, when the changeover switch 1o is closed and a color video signal is input to the black and white video signal detection/polarity inversion circuit 6, it is output in a normal state.

Thirdly, when black and white video signals are input to the video input signal terminals 6m, 6n, and 60 and the selector switch 10 is set to "open",
The two-man power NOR gate 6d has one input set to "H" by the pull-up resistor 61, so the three-man power E
x-OR game) No matter what logical state 6e is, 6
(The output of the 12-manpower OR gate is L''.2-manpower E
Since one input of the X-OR gates 62L, 6b, and 60 is in the "L'' state by the two-man OR gate 6d, a signal having the same phase as the input is outputted. Therefore, when the changeover switch 1o is opened and a monochrome video signal is input, it is output in a normal state.

Fourthly, when a color video signal is input to the video input signal terminals 6m, 6n, and 60 and the changeover switch 10 is set to ``open'', the output will not match the input for exactly the same reason as the third case. In-phase signals appear.

Effects of the Invention As described above, the present invention is capable of inverting the polarity of only black and white video signals, regardless of the signal source. Furthermore, when inverting the polarity of a black and white video signal, the operation is easy and does not require any troublesome effort.

Furthermore, even when creating a text, black text can be displayed on a white background, similar to when writing text with black text on a blank sheet of paper. (
However, only for black and white video signals. ) Furthermore, the polarity of only the black and white video signal can be inverted, completely unrelated to the color video signal.

Furthermore, if a black and white negative film is converted into a video signal using a TV camera or the like, and the polarity is reversed using the present invention,
It is possible to see a normal picture.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a conventional display device, FIG. 2A,
B is a block diagram showing a display device in each embodiment of the present invention, FIG. 3 is a block diagram of main parts of the same embodiment, and FIG.
FIG. 2 is a specific circuit diagram of the circuit shown in the figure. 5...Signal source, 6...Black and white video signal detection/polarity inversion circuit, 7...Video input circuit, 8...-
...Video output circuit, 9...Color display, 10...
・Mode selector switch, 12...Input detection section, 13
...Inversion circuit, 14...Black and white/color signal discrimination circuit, 16...Polarity inversion switching discrimination circuit, 6a
, 6b, 60...2-man EX/OR gate, 6d...
・2-man power OR gate, 6 e --= 3-man power EX, O
R gate, ef. eg, 6h, ei...Pull-up resistor, 6
m. 6n, 60...Video signal input terminal. Name of agent: Patent attorney Toshio Nakao and 1 other IM
x Figure 2

Claims (1)

[Claims] a switch means for generating an inverted signal for inverting the polarity of a video signal generated at a signal source; a detection means for detecting a monochrome video signal among the video signals; A display device comprising a polarity reversing means for reversing the polarity of the black and white video signal according to the polarity reversing means, and a display device for performing display based on the video signal output from the polarity reversing means.