JP2002033989A - Method for transmitting video signal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the number of wired video signal lines at transmitting of video signals from a plurality of video signal sources to one video recorder. SOLUTION: A switching means, which selectively switches the output of video signals to a video signal line M and the stoppage of the output to each other, is provided on the side of each of a plurality of video signal sources 1, and at the same time, one video signal line M connected in parallel with the video signal sources 1, is connected in advance to a reception-side device (video recorder 3). The video signals from the video signal sources 1 are transmitted through the video signal line M connected in parallel with the sources 1 by sending a select signal, which is used for selectively specifying one video signal source 1 out of the signal sources 1 from a selector 3 to the switching means of each signals source 1 through a select signal line L.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a method for transmitting video signals from a plurality of video signal sources.

[0002]

2. Description of the Related Art With the spread of video equipment, recording systems for video signals have been diversified. For example, as shown in FIG. 7, video signals from video signal sources (for example, cameras) 101... 101 attached to a plurality of locations are connected to one system video recording device (for example, VTR) 102 to record an arbitrary video. A system to do this has been built.

[0003]

In the system shown in FIG. 7, the number of video signal lines for transmitting the video signal from the video signal source 101 to the video recording device 102 is required for the number of video signal sources 101. become.

In order to connect a plurality of video signal lines to one video recording device 2, a plurality of video signal lines are selected using a selector 103 which can be connected to one video signal source 101. There is a need. At this time, many video signal lines from each video signal source 101 are routed to the selector 103 to
In addition, more wires are required than necessary, and more labor is required for laying work such as installation work. In addition, expensive and bulky coaxial cables and the like are used for the video signal lines, and the problems of cost and installation space increase. Particularly, the selector 103 is connected to the video recording device 10.
In the case of installation near 2, such a problem becomes the largest, and even if a measure such as transmitting a selection signal and performing remote control is taken, excess wiring to the selector cannot be avoided.

[0005] When the selector 103 is close to the video signal source 101, the above-mentioned problems can be solved to some extent. However, since the video signal sources 101 are often far from each other, The problem of excess wiring still remains.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and aims to reduce wiring of video signal lines when transmitting picture signals from a plurality of video signal sources to one video recording device. It is an object of the present invention to provide a video signal transmission method capable of performing the following.

[0007]

SUMMARY OF THE INVENTION The present invention relates to a method for transmitting video signals from a plurality of video signal sources, wherein each video signal source side outputs and stops a video signal to a video signal line. A switching means for selectively switching is provided, and one video signal line connected in parallel to the plurality of video signal sources is connected to a receiving-side device (for example, a video recording device).
By transmitting a selection signal for selectively specifying one video signal source from a plurality of video signal sources from the selector to the switching means of each video signal source through the selection signal line, the selection signal from each video signal source is transmitted. It is characterized in that a video signal is transmitted through one video signal line.

According to the present invention, a video signal from an arbitrary video signal source can be transmitted by transmitting a selection signal from a selector to a selection signal line. Therefore, by setting the selection signal for each video signal source, video signals from a plurality of video signal sources can be transmitted through one video signal line.

[0009]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is an explanatory diagram of an embodiment of the present invention.

A plurality of video signal sources (for example, cameras) 1... 1
, One video signal line M is connected in parallel. This video signal line M is connected to one video recording device (for example, VTR) 2 installed on the receiving side.

A selection signal line L is connected in parallel to the plurality of video signal sources 1. This selection signal line L is connected to a selector 3 installed near the video recording device 2. The selection signal line L has four signal lines L1, L4, L8,
L16 and the common line Lc (see FIG. 2).

The selector 3 generates a binarized selection signal (4 bits). The selection signal is transmitted to each video signal source 1 through the selection signal line L.

FIG. 2 is a circuit configuration diagram on the video signal source 1 side.

Each video signal source 1 has a switching IC for connecting / disconnecting the video signal source 1 to / from the video signal line M.
5, a comparison IC (4 bits) 4, four switches S1 to S4 connected to the comparison IC 4, and four resistors R1 to R4.
R4 is provided.

The switching IC 5 is driven only when the comparison IC 4 generates a selection coincidence signal. By driving the switching IC 5, the video signal source 1 is connected to the video signal line M, and the video signal from the video signal source 1 is transmitted to the video recording device 2.

The comparison IC 4 has selection signal lines L1, L4,
L8 and L16 are connected, and a selection signal (binary signal) from the selector 3 is input. A common line Lc is connected to the switches S1 to S4.

The comparison IC 4 has four switches S1 to S4.
Assigned a unique device number. Specifically, the device number of the video signal source 1 of N1 is [0, 0, 0,
1] ← (S1: OFF, S2: OFF, S3: OFF, S4: ON), and the device number of the video signal source 1 of N2 is [0,0,1,0] ← (S1: OF
F, S2: OFF, S3: ON, S4: OFF), the device number of the video signal source 1 of N3 is [0, 0, 1, 1] ← (S1: OFF, S2: OFF, S
3: ON, S4: ON),..., The device number of the Nn video signal source 1 is [1,1,1,1] ← (S1: ON, S2: ON, S3: ON, S
4: ON), a unique device number is assigned to each video signal source 1.

The comparison IC 4 compares the selection signal from the selector 3 with a device number assigned in advance, and generates a selection match signal only when the two signals match. As a result, the switching IC 5 is driven to connect the video signal source 1 to the video signal line M, and the video signal from the video signal source 1 is transmitted to the video recording device 2.

Therefore, according to the present embodiment, the content (binary) of the selection signal transmitted from the selector 3 to the selection signal lines L 1, L 4, L 8, L 16 is selected from a plurality of video signal sources 1. The video signal source 1 connected to the video signal line M can be specified.

For example, each of the selection signal lines L1, L4, L8,
The two values of the selection signal sent to L16 are expressed as L1 = 0 and L4 =
0, L3 = 0, L4 = 1, N1 video signal source 1
Therefore, the video signal source N1 is connected to the video signal line M, and the video signal is transmitted to the video recording device 2. Further, each selection signal line L
1, L4, L8, and L16 are represented by L
If 1 = 0, L4 = 0, L8 = 1, L16 = 1, then N3
, The device number [0, 0, 1, 1] of the video signal source 1, and the video signal source 1 of N3 is connected to the video signal line M.

As described above, in this embodiment, the selection signals transmitted from the selector 3 to the selection signal lines L 1, L 4, L 8, L 16 are set in accordance with the device number of the video signal source 1, so that a plurality of video signals can be obtained. The video signal of any one of the signal sources 1... 1 can be transmitted to the video recording device 2. Moreover, such transmission of the video signal can be realized by each connection of the video signal line M and the selection signal line L between the video signal sources 1 and the connection between one video signal source 1 and the video recording device 2. Wiring of video signal wiring such as a coaxial cable can be reduced.

A more specific example of the embodiment of the present invention will be described below with reference to FIGS.

FIG. 3 shows a comparison IC 4 of each video signal source 1.
And a selection signal line L1, L4, L8, L16, a photocoupler IC6 is connected, and the selection signal is transmitted to the comparison IC 4 of each video signal source 1 by a current loop method. By employing such a configuration, it is possible to reduce the signal level of the selection signal to be transmitted and the influence of noise.

In the example shown in FIG. 4, a CPU 7 and an input / output function IC 8 are provided as a selection signal comparison circuit system.
As an interface 9 of the CPU 7, RS422 (RS
232c).

In the example of FIG. 4, a selector 3 (FIG. 1) for generating a selection signal is used as a master, a video signal source 1, and a switch I.
Assuming that the device including the C5 and the CPU 7 is a slave, the CPU 7 on the slave side always waits for a selection signal for selecting itself to be transmitted from the master. Then, when a selection signal for selecting itself is transmitted, the CPU 7 drives the input / output function IC 8. As a result, the selection coincidence signal is supplied to the switching IC 5, and the video signal from the video signal source 1 is transmitted to the video recording device 2 on the master side via the video signal M.

According to the example shown in FIG. 4, failures and failures of the video signal source 1 and the ICs around the video signal source 1 and abnormalities such as humidity and voltage are notified from the dedicated IC or the measuring device to the input / output function IC 8.
It is also possible to add a monitor function for notifying the master side when an abnormality has occurred, when the abnormality occurs.

In the example of FIG. 5, a power switch 10 of the video signal source 1 is provided in place of the switching IC 5 used in FIGS. 2 to 4, and this power switch 10 is switched by a selection coincidence signal generated by the comparison IC 4. By turning on (supplying power to the video signal source 1), the video signal is transmitted to the video signal line M.

According to the example of FIG. 5, since no power is supplied to the video signal source 1 whose device number does not match the selection signal from the selector 3, the power consumption of the video signal source 1 not selected can be suppressed. . Moreover, since the actual operation time of the video signal source 1 is shortened, the number of maintenance operations can be reduced and the life of devices such as cameras can be extended.

In the above-described embodiments shown in FIGS.
Although an example in which a video signal source is selected using a 4-bit selection signal has been described, the number of bits of the selection signal is arbitrary, and may be appropriately selected according to the number of video signal sources.

Another embodiment of the present invention will be described with reference to FIG.

First, in general, a video signal consists of 52 pictures on one screen.
It is composed of five scanning lines, and is scanned by skipping every scanning line. In other words, the video signal is divided into half screens,
For example, it is composed of a screen for scanning odd lines and two screens for scanning even lines. This is called interlace (interlaced scanning). These two screens are almost similar images, and when one of the odd or even screens is used to form a screen, the resolution is lower than that of the screen composed of two screens, but there is no problem depending on the purpose of use. There are many. The example of FIG. 6 utilizes such a point, and a specific configuration thereof will be described below.

The master includes a selection signal generating device 23, a signal recording device 2, a signal detection and removal device 28, and the like.
The slave includes a video signal source 1, a switching IC 5, a selection signal separation device 24, an input / output function IC 25, a CPU 26, a signal mixing device 27, and the like.

The selection signal generator 23 generates a selection signal having a length corresponding to half the time of the video signal, that is, the time corresponding to the odd or even part. The selection signal is supplied to each slave through the signal line C (signal flow: L
direction).

The selection signal separating device 24 on the slave side separates the selection signal from the signal from the selection signal generating device 23. The separated selection signal is taken into the CPU 26 via the input / output function IC 25. The CPU 26 recognizes whether or not the captured signal is a signal for selecting itself,
If it is a signal for selecting itself, the input / output function IC 25 is driven to give a selection coincidence signal to the switching IC 5. Thereby, the video signal source 1 is connected to the signal line C (signal flow: M direction).

A signal mixing device 27 is connected between the video signal source 1 and the switching IC 5. The signal mixing device 27
This is provided to solve the problem caused by the difference in the form between the signal sent from the master and the selection signal. Half of the video signal is removed using the synchronization signal of the video signal (an even part in this example). The selection signal separated by the selection signal separation device 24 is superimposed on the removed blank.

The synchronizing signal is a signal inserted when each of the video signals changes, and is a signal that does not directly affect the video signal.

At the input stage of the video recording device 2 on the master side, a signal detection and removal device 28 is provided. The signal detection and removal device 28 is configured to detect a synchronization signal included in the video signal from the slave and remove a selection signal superimposed on half (an even part) of the video. Is input to the video recording device 2. The selection signal generator 23 on the master side monitors whether or not the selection signal superimposed on the video signal from the slave matches the selection signal transmitted to the slave.

[0039]

According to the present invention, video signals from a plurality of video signal sources can be transmitted by one video signal line connected to each video signal source in parallel. Wiring can be reduced, and laying work of video signal wiring can be simplified.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of an embodiment of the present invention.

FIG. 2 is a circuit configuration diagram on a video signal source side according to an embodiment of the present invention.

FIG. 3 is a diagram showing a modification of the embodiment of the present invention.

FIG. 4 is a diagram showing another modification of the embodiment of the present invention.

FIG. 5 is a diagram showing another modification of the embodiment of the present invention.

FIG. 6 is an explanatory diagram of another embodiment of the present invention.

FIG. 7 is an explanatory diagram of a conventional video signal transmission system.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 video signal source 2 video recording device 3 selector 4 comparison IC 5 switching IC 6 photocoupler IC 7 CPU 8 input / output function IC 9 interface (RS422) 10 power switch (for video signal source) 23 selection signal generator 24 selection signal Separation device 25 Input / output function IC 26 CPU 27 Signal mixing device 28 Signal detection and removal device

Continued on the front page F term (reference) 5C023 AA21 AA26 AA27 AA34 BA15 CA01 EA02 5C053 FA14 FA30 FA30 JA30 KA17 KA26 LA01

Claims (1)

[Claims] 1. A method for transmitting video signals from a plurality of video signal sources, wherein each video signal source is provided with switching means for selectively switching between outputting and stopping video signals to a video signal line. At the same time, one video signal line connected in parallel to the plurality of video signal sources is connected to a device on the receiving side to selectively specify one video signal source from the plurality of video signal sources. The video signal from each video signal source is transmitted through one video signal line by transmitting the selection signal from the selector to the switching means of each video signal source through the selection signal line. Transmission method.