KR0141109B1 - Video signal transmission processing apparatus - Google Patents

Abstract

The present invention relates to a video signal transmission processing apparatus capable of bidirectional transmission control in a video system, and more particularly, to a bidirectional transmission controllable video signal transmission processing apparatus capable of controlling a transmission side at a reception side using a predetermined region of a composite video signal. It is about. To this end, the transmitting end outputs a high level signal during a predetermined vertical blanking area by counting the period of the horizontal synchronization signal outputted from the first synchronization signal separating means and the first synchronization signal separating means for separating the synchronization signal from the composite video signal. When the output of the first catheter and the first counter is a low level signal, the composite video signal outputted by the luminance / tone means is switched. When the output of the first counter is a high level signal, the first switch which mutually switches the control signal of the receiver. The control unit comprises a first control means for receiving the control signal switched by the first switching means as an input, for controlling each unit, and the receiving end for separating the synchronization signal from the key input unit for inputting a user control command and the composite video signal. A predetermined vertical blank by counting the period of the horizontal synchronization signal outputted from the second synchronization signal branching means and the second synchronization signal separating means; When the second counter outputting the high level signal during the king area and the output of the second counter are low level signals, the composite video signal outputted by the luminance / tone means is switched to connect to the display device, and the output of the second counter is high level. In the case of a signal, the control unit switches the control signal to control the second switching means connected to the transmitting end and the first half of the receiving end, encodes a user control command input from the key input unit, and converts the encoded control signal into the first switching means. And a second control means for outputting. Therefore, the receiving side can easily control the transmitting side, and there is no need to provide a separate transmission line, thereby reducing the cost.

Description

Video signal transmission processing device capable of bidirectional transmission control

1 is a system block diagram according to an embodiment of the present invention.

2 is a block diagram of a bidirectional transmission control apparatus according to the present invention.

3 is a timing diagram of the count output means of FIG.

* Explanation of symbols for main parts of the drawings

10: Y / C processing means 20: transmitter

30: receiver 40: first SYNC separation means

50: first counter 60: first switching means

70: first control means 80: first micom

90: first memory 100: decoder

110: display means 120: key input unit

130: second SYNC separation means 140: second counter

150: second switching means 160: second control means

170: second microcomputer 180: encoder

190: second memory 200: delay means

210: logical element

The present invention relates to a video signal transmission processing apparatus capable of bidirectional transmission control in a video system, and more particularly, to a video signal transmission processing apparatus capable of controlling a transmission side at a reception side using a predetermined region of a composite video signal. It is about.

In general, a video signal transmission and processing apparatus is a system for transmitting and receiving video signal information from a transmitting side to a receiving side, and a cassette recorder and a television award transmission system, a laser disc player and a television award transmission system, and a video gadget recorder. For example, a transmission system between a computer and a computer, and a genetic broadcasting system.

However, such a video signal transmission processing apparatus can transmit only from the transmitting side to the receiving side. Therefore, when the distance between the transmitting side and the receiving side is far, there is a problem that it is difficult to control the transmitting side at the receiving side.

In addition, there is an inconvenience in that a separate line must be configured in order to control the transmitting side at the receiving side.

Accordingly, an object of the present invention is to provide a video signal transmission and processing device capable of bidirectional transmission control capable of reverse transmission of a control signal from a reception side to a transmission side by allocating a vertical blanking area among the composite image signals transmitted from the transmission side to solve the above problems. There is.

In order to achieve the above object, luminance / tone processing means for outputting information picked up from a recording medium as a composite video signal, a transmitter for transmitting the composite video signal, and a receiver for image processing the complex video signal transmitted from the transmitter. An image signal transmission processing apparatus capable of bidirectional transmission control of an image system for reversely transmitting a control signal from the receiving end to the transmitting end, comprising:

The transmitting end,

First synchronization signal separating means for separating the synchronization signal from the composite video signal;

A first counter for counting the period of the horizontal synchronizing signal output from the first synchronizing signal separating means and outputting a high level signal during a predetermined vertical blanking area;

First switching means for switching the composite video signal outputted from the luminance / tone means when the output of the first counter is a low level signal, and mutually switching the control signal of the receiver when the output of the first counter is a high level signal; and;

A first control means for receiving a control signal switched by the first switching means as an input and controlling each part of the transmitting end;

The receiving end,

A key input unit for inputting a user control command;

Second synchronizing signal separating means for separating the synchronizing signal from the composite video signal;

Count output means for counting the period of the horizontal synchronizing signal output from said second synchronizing signal separating means and outputting a high level signal during a predetermined vertical blanking area;

When the output of the count output means is a low level signal, the composite image signal outputted from the luminance / tone means is switched and connected to a display device, and when the output of the count output means is a high level signal, a control signal for controlling the transmitting end. Second switching means for switching to connect with the transmitting end;

And a second control means for controlling the first half of the receiving end, encoding the user control command input from the key input part, and outputting the encoded control signal to the first switching means.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the present invention.

1 (A) to (C) show a system block diagram according to an embodiment of the present invention.

1A is a video tape recorder (VTR) and a video signal transmission processing system for a plurality of television receiving periods. In other words, the VTR is a transmitting side and a plurality of television receivers are each provided at a long distance as the receiving side. The bidirectional transmission control apparatus transmits the video signal information of the transmitting side to the receiving side and transmits the control signal information of the receiving side to the transmitting side. Here, the control signal information on the receiving side may include power on / off control, program selection, and the like on the transmitting side.

In FIG. 1 (B), a video tape recorder (VTR) or a laser disk player is shown as a transmitting side, and a computer is shown as a receiving side as an example. Here, the receiving computer transmits signals such as reproduction, rewind, fast forward, power control signals, etc. to the transmitting side for image editing.

1C is a video signal transmission processing system between a cable broadcasting station and a plurality of monitors. The cable station is the sender and the monitor is the receiver. Each monitor can select the desired program and send it to the sender.

2 is a block diagram of a bidirectional transmission control apparatus according to the present invention.

2 is composed of a transmitting end 20 connected to the system on the transmitting side and a receiving end 30 connected to the system on the receiving side.

The transmitting end 20 includes first synchronizing signal separating means 40 for separating the synchronizing signal from the composite video signal output from the luminance / tone (Y / C) processing means 10, and first synchronizing signal separating means 40. The first counter 50 for counting the period of the horizontal synchronization signal output from the control unit, the first switching means 60 for mutually switching the composite video signal and the control signal of the receiving end 30, and the control of the receiving end 30; A first control means 70 for receiving a signal as an input, decoding a control signal and controlling each part of the system on the transmitting side, and a display means 110 for displaying a control signal for controlling each part.

In addition, the first control unit 70 receives the key data as an input, and the first memory unit 90 stores the control signal output from the first microcomputer 80 and the first switching means 60 for controlling the transmitting end 20. And a decoder 100 for decoding the data output from the first memory 90.

The receiving end 30 includes a key input unit 120 for inputting a user's control command, a second synchronization signal separation unit 130 having the same function as the first synchronization signal separation unit 40 and the first counter 50, and And count output means 220, second switching means 150 for mutually switching the composite video signal and the control signal, and second control means 160 for encoding and controlling the user control command of the key input unit 120. Configure.

The second control means 160 is configured to output the data output from the encoder 180 and the encoder 180 that are command-encoded by the second microcomputer 170 and the second microcomputer 170 that control the receiving end 30. It consists of a second memory 190 to store.

The count output means 220 includes a second counter 140 for counting the period of the horizontal synchronization signal, a delay means 200 for delaying a predetermined time, and an AND product 210 for logical AND processing.

Next, the operation of the block diagram shown in FIG. 2 will be described.

First, the Y / C processing means 10 outputs a composite video signal of the information picked up from the recording medium. The first sync signal separating means 40 separates the sync signal from the composite video signal.

The first counter 50 counts the period of the horizontal synchronizing signal from the horizontal synchronizing signal output from the first synchronizing signal separating means 40. Then, a predetermined vertical blanking area in which the video signal is not loaded is allocated to output a high level signal. For example, since the vertical blanking area in which the video signal is not loaded is a section of 10 to 22H (where H is a period of a horizontal synchronization signal), a specific line of the 10 to 22H section is output as a high level signal.

The first switching means 60 switches the first contact point S1 and the second contact point S2 under the control of the first counter 50. That is, when the output of the first counter 50 is low level, the reference contact S0 is connected to the first contact S1 to output the composite video signal output from the Y / C means 10, and the first counter. When the output of 50 is the high level, the reference contact S0 is connected to the first contact S2 to output a control signal output from the receiving end 30 to be described later to the first control means 70.

The first control means 70 stores the control signal of the receiving end 30 in the first memory 90. The signal stored in the first memory 90 is decoded by the decoder 100 under the control of the first microcomputer 80, and processed by the first microcomputer 80 so that the flat display device FLAT or the on-screen display OSD is controlled. On display means 110 such as a device. The signal output from the decoder 100 controls each part of the system on the transmitting side in response to a request of the receiving end 30.

Next, the output operation of the user control signal output from the receiving end 30 will be described.

The second synchronization signal separating means 130 operates in the same manner as the first synchronization signal separating means 40 described above.

The count output unit 220 counts the period of the horizontal projection signal output from the second synchronization signal separation unit 130. That is, the first counter 140 outputs a specific line as a high level signal in the vertical blanking area.

At this time, the reference contact point S0 is switched from the first switching means 60 to the second contact point S2, so that the output of the second synchronization signal separating means 140 is inactive. The delay means 200 delays the output signal of the second counter 140 by 1H. In the logical multiplication device 210, the negative value of the output signal of the second counter 140 and the output signal of the delay means 200 are logically multiplied to output the same value as the output signal of the first counter 60.

3 is a timing diagram of the count output means of FIG.

FIG. 3A is an output signal of the first synchronization signal separation means 40, FIG. 3B is an output signal of the first count 50, and FIG. 3C is a second synchronization signal separation means. 130 is an output signal, and FIG. 3D is an output signal of the second counter 140, and FIG. 3E is an output signal of the delay means 200. FIG. 210 is an output signal.

Next, the timing diagram of FIG. 3 will be described.

When the first counter 50 outputs the high level signal at 18H of the vertical blanking area, the reference contact S0 of the first switching means 60 is connected to the second contact S2 and the second synchronization signal separation means ( The output of 130 is inactive, so it continues to output a low level signal. At this time, the second counter 140 maintains a high level signal state. The delay means 200 delays the output signal of the second counter 140 by 1H (63, 5 mu S in the NTSC method). FIG. 3 (F) is the result of logical multiplication of the negative value of FIG. 3 (D) and FIG.

When the output of the logical multiplication device 210 is at a low level, the reference contact S0 'is connected to the first contact S1' to output a composite video signal, and at a high level, the reference contact S0 'is The control signal of the receiving end is output to the transmitting end by connecting to the second contact S2 '.

In the second control means 160, the second microcomputer 170 processes the user's control command input from the key input unit 120 and then outputs the command to the encoder 180. The encoder 180 encodes the command output from the second microcomputer 170 and outputs the command to the second memory 190.

Here, when the reference contact S0 ′ of the second switching means 150 is connected to the second contact S2; the content of the second memory 190 is determined by the second signal according to the address signal of the second microcomputer 170. Output to the switching means (150). The control signal stored in the second memory 190 is transmitted to the transmitter 20 using the vertical blanking area of the composite video signal.

As described above, the video signal transmission and processing apparatus capable of bidirectional transmission control according to the present invention transmits a user control command of the receiving end to the transmitting end using a predetermined region of the composite video signal, so that the receiving side can be easily controlled as well as separate. There is no need to provide a transmission line has the effect that can be reduced.

Claims (6)

Image processing is performed on the luminance / color tonality means 10 for outputting the composite video signal of the information picked up from the recording medium, the transmitter 20 for transmitting the composite video signal, and the composite video signal transmitted from the transmitter 20. In the video signal transmission processing system for the reverse transmission of the control signal from the receiving end 30 to the transmitting end 20 to the receiving end 30, the transmitting end 20 is a synchronization signal from the composite video signal A first synchronization signal separating means (40) for separating the; A first counter (50) for receiving a horizontal synchronization signal output from the first synchronization signal separating means (40) as an input and outputting a high level signal during a predetermined vertical blanking area; When the output of the first counter 50 is a low level signal, the complex image signal output by the luminance / tone processing means 10 is switched. When the output of the first counter 50 is a high level signal, the receiving end is switched. First switching means (60) for mutually switching the control signal of (30); First control means 70 for receiving the control signal switched by the first switching means 60 to control each part of the transmitting end 20, the receiving end 30 inputs a user control command A key input unit 120 for performing the operation; Second synchronizing signal separating means (130) for separating the synchronizing signal from the composite video signal; Count output means 220 counting the horizontal sync signal output from the first sync signal separating means 130 and outputting a high level signal in a predetermined vertical blanking area; When the output of the counter output means 220 is a low level signal, the composite video signal outputted from the luminance / tone means 10 is connected to a display device, and the output of the count output means 220 is a high level signal. A twenty-first switching means (150) for switching a control signal for controlling the transmitter (20); The second control means 160 for controlling the first half of the receiving end 30 and encoding the user control command input from the key input unit 120 to output the encoded control signal to the first switching means 150. Bidirectional transmission control image signal transmission processing apparatus characterized in that it comprises. 2. The apparatus according to claim 1, wherein the first synchronizing signal separating means (40) and the second synchronizing signal separating means (130) operate in the same composite video signal region. The method of claim 1, wherein the count output means 220 is a delay means for delaying the output value of the second counter for counting the horizontal synchronization signal output from the second synchronization signal separating means 130 by a predetermined time (200) And a logical multiplication device (210) for logically multiplying an output value of the second counter (140) and an inverse output value of the delay means (200). 4. A bidirectional method according to claim 1 or 3, wherein the first counter (50) and the second counter (140) activate a predetermined line by counting the period (H) of the horizontal synchronization signal. Image signal transmission processing apparatus capable of transmission control. The control apparatus of claim 1, wherein the first control means 70 temporarily stores a control signal output from the first microcomputer 80 and the first switching means 60 that control the operation of the transmitter 20. Bidirectional transmission control possible video signal transmission processing device characterized in that it comprises a decoder 100 for decoding the data of the first memory (90) under the control of the first memory (90) and the first microcomputer (80) . The second microcomputer 9170 and the second control unit of claim 1, wherein the second control unit 160 controls an operation of the receiving terminal 30 and processes a user control command input from the key input unit 120. Two-way transmission control image signal transmission processing, characterized in that it consists of an encoder 180 for encoding a command output from the microcomputer 170 and a second memory 190 for temporarily storing the data encoded by the encoder (180) Device.