JPH04306992A - communication circuit - 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]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication circuit between a video display device and a device that externally controls the functions of the video display device.

0002

[Prior Art] In recent years, in various systems, each device that makes up the system is equipped with a microprocessor, an LSI that can set the internal state from the outside, etc., and each device has become intelligent. By connecting signal lines for data communication between devices, it has become possible to perform data communication between each device and to control the functions of a slave device from a host device.

Furthermore, by installing a microprocessor or the like in a video display device such as a display monitor device, it has become possible to control the functions of the video display device from an external device such as a host computer.

By the way, as a means of communication for devices that do not require the transfer of large amounts of data, such as display monitor devices, it is common to use serial communication, which requires only a small number of signal lines. Another method for connecting devices and communicating data is the I2C bus method proposed by Philips.

The I2C bus method was originally intended for communicating data between a microprocessor in a device and its peripheral circuits, but because the number of signal lines required for communication is small, it can be used to communicate data between devices. It was also used for communication.

FIG. 4 shows a configuration diagram of a conventional communication system between individual devices, in which 1 is a display monitor device, 2 is a host computer, 3 is a video signal line, and 4 is a data communication signal line. .

In the conventional example configured as described above, the video signal and synchronization signal output from the host computer 2 are sent to the display monitor device 1 via the video signal line 3, and the video signal and synchronization signal output from the display monitor device 1 are The generated control information is sent to the host computer 2 via the data communication signal line 4.

FIG. 5 shows a circuit diagram of an interface circuit according to a conventional communication system. In FIG. 5, the same symbols as those in FIG. 4 indicate the same parts, 101 is a serial data signal line, and 102 is a serial data signal line. A serial clock signal line, 103 is a pull-up resistor for the serial data signal line 101, 104 is a pull-up resistor for the serial clock signal line 102, and 105 is a line for outputting data from the display monitor device 1 to the serial data signal line 101. An open drain circuit 106 is an open drain circuit for outputting data from the display monitor device 1 to the serial clock signal line 102, 107 is a gate circuit for taking in data from the serial data signal line 101 to the display monitor device 1, and 108 is an open drain circuit for outputting data from the display monitor device 1 to the serial clock signal line 102. From the serial clock signal line 102 to the display monitor device 1
109 is an open drain circuit for outputting data from the host computer 2 to the serial data signal line 101; 110 is a gate circuit from the host computer 2 to the serial clock signal line 102;
an open drain circuit for outputting data to, 11
1 is a gate circuit for taking in data from the serial data signal line 101 to the host computer 2, and 112 is a gate circuit for taking in data from the serial clock signal line 102 to the host computer 2.
This is a gate circuit for taking in data.

In the conventional example configured as described above, the case where data is sent from the host computer 2 to the display monitor device 1 will be explained. The host computer 2 changes the potential of the serial clock signal line 102 from a high potential state to a low potential state via an open drain circuit 110, and transfers 1-bit data to the serial data signal line 101 via an open drain circuit 109. After the output, the potential of the serial clock signal line 102 is returned from the low potential state to the high potential state via the open drain circuit 110. The host computer 2 does not change the state of the data on the serial data signal line 101 while maintaining the potential on the serial clock signal line 102 at a high potential state.

On the other hand, when the display monitor device 1 detects, via the gate circuit 108, that the serial clock signal line 102 changes from a low potential state to a high potential state, the display monitor device 1 transfers one bit of data to the serial data signal line. 1
01 through the gate circuit 107.

Thereafter, the host computer 2 changes the serial clock signal line 102 from the high potential state to the low potential state again via the open drain circuit 110.
Prepare to send the next bit of data.

[0012] By repeating the above steps,
The required number of bits of data is transferred from the host computer 2 to the display monitor device 1. Further, when data is transferred from the display monitor device 1 to the host computer 2, the same procedure is followed.

[0013]

[Problems to be Solved by the Invention] In the conventional example configured as described above, when trying to control the functions of the video display device from another device, it is difficult to connect the video signal line and data between the video display device and the external device. Since it is necessary to set up a communication line,
There was a problem that the number of signal lines increased.

[0014] The present invention has been made to solve such problems, and it is possible to control the functions of a video display device from an external device without increasing the number of signal lines between the external device and the video display device. The purpose of this invention is to provide a communication circuit that can perform

[0015]

[Means for Solving the Problems] The present invention provides a control signal output circuit that synthesizes a control signal with a video signal in synchronization with a horizontal synchronization signal, and a control signal that separates the control signal from the video signal in synchronization with the horizontal synchronization signal. The signal input circuit combines or separates the control signal and the video signal in a time-division manner.

[0016]

[Operation] According to the present invention, during the output period of the horizontal synchronization signal, in other words, the control signal can be synthesized between the video signals in a time-division manner, and the control signal can be separated from the video signals in the time-division manner. Therefore, the video display device can be controlled from the external device, or the external device can be controlled from the video display device, without increasing the number of signal lines between the video display device and the external device.

[0017]

[Embodiment] FIG. 1 is a block diagram of an embodiment of the present invention, and FIG. 2 is a waveform diagram of a video signal in an embodiment of the present invention.
FIG. 3 is a circuit diagram showing a specific circuit configuration of an embodiment of the present invention. In FIG. 1, the same reference numerals as those in FIG.
is a host computer, 3 is a video signal line, 5 is an internal control signal line of display monitor device 1, 6 is an internal control signal line of host computer 2, 7 is an internal video signal line of display monitor device 1, and 8 is a host An internal video signal line of the computer 2; 9 is a horizontal synchronizing signal line inside the display monitor device 1; 10 is a horizontal synchronizing signal line inside the host computer 2; 11 is a control line for video signals inside the display monitor device 1; A data communication circuit 12 that combines signals and separates a control signal and a video signal is a data communication circuit that combines a control signal with a video signal and separates a control signal and a video signal within the host computer 2. It is a data communication circuit that can be used for

First, the operating principle of this embodiment configured as described above will be explained. When sending data from the host computer 2 to the display monitor device 1, the data communication circuit 12 of the host computer 2 transmits data during the output period of the horizontal synchronization signal input from the horizontal synchronization signal line 10.
Horizontal synchronization is achieved by sending the control signal input from the control signal line 6 to the video signal line 3, and by sending the video signal input from the internal video signal line 8 to the video signal line 3 outside the output period of the horizontal synchronization signal. The control signal and the video signal are synthesized in synchronization with the output timing of the signal (hereinafter referred to as "synthesized signal").

On the other hand, the data communication circuit 11 of the display monitor device 1 separates the control signal from the composite signal and sends it to the control signal line 5 during the output period of the horizontal synchronization signal input from the horizontal synchronization signal line 9. Also, by separating the video signal from the composite signal and reading it into the internal video signal line 7 outside the output period of the horizontal synchronization signal, the control signal and video are extracted from the composite signal in synchronization with the output timing of the horizontal synchronization signal. Read the signals separately.

Furthermore, when transmitting data from the display monitor device 1 to the host computer 2, the data communication circuit 11 of the display monitor device 1 performs control during the output period of the horizontal synchronization signal input from the horizontal synchronization signal line 9. The control signal input from the signal line 5 is sent to the video signal line 3, and the video signal is separated from the composite signal and read into the internal video signal line 7 outside the output period of the horizontal synchronization signal. In synchronization with the output timing, the control signal and the video signal input from the host computer 2 are combined, or the video signal is separated from the combined signal and read.

On the other hand, the data communication circuit 12 of the host computer 2 separates the control signal from the composite signal and reads it into the control signal line 6 during the output period of the horizontal synchronization signal input from the horizontal synchronization signal line 10. Also, by sending the video signal input from the internal video signal line 8 to the video signal line 3 outside the output period of the horizontal synchronization signal, the control signal is separated from the composite signal in synchronization with the output timing of the horizontal synchronization signal. Or, the control signal and the video signal are combined.

Next, a method of combining or separating control signal data and a video signal will be explained in more detail with reference to FIG. A device that synthesizes control signal data transmits data in synchronization with a horizontal synchronization signal (see Figure 2 (a)), and outputs a control signal at the rising edge of the horizontal synchronization signal (
(See Figure 2(c)), and by outputting the video signal at the falling edge of the horizontal synchronization signal (See Figure 2(b)), the control signal is combined with the video signal and output (Figure 2(d)) reference)
.

[0023] Furthermore, on the device side that separates the data of the control signal, the data is received in synchronization with the horizontal synchronization signal (see Fig. 2(a)), and the control signal and the video signal are separated at the rising edge of the horizontal synchronization signal. Separate the control signal from the composite signal of
The period until the next output horizontal synchronization signal rises,
By holding the data, the control signal is restored and output (see FIG. 2(e)).

Although FIG. 2 describes the case of a video signal in which the video signal and the synchronization signal are separated, even in the case of a video signal in which the video signal and the synchronization signal are combined, the color video signal If so, the control signal can be combined with the video signal of the color to which the synchronization signal has not been combined.

Even in the case of a monochrome video signal, the video signal, synchronization signal, and control signal can be synthesized by changing the level of the synchronization signal depending on the state of the control signal.

FIG. 3 shows a specific circuit configuration of the communication circuit of the present invention. In FIG. 3, the same reference numerals as those in FIG. 1 indicate the same parts, and 201 indicates a control signal. A shift register circuit outputs the converted serial signal in synchronization with the horizontal synchronization signal, 202 is an analog switch circuit that is turned on when the horizontal synchronization signal line 9 is in a low potential state, and 203 and 204 are analog switch circuits that are connected to the horizontal synchronization signal line 9. An analog switch circuit 205 that is conductive when in a high potential state is a shift register circuit that converts an input serial signal into a control signal in synchronization with a horizontal synchronization signal.

Data communication circuit 11 configured as described above
First, a method of combining a control signal with a video signal and sending it out will be explained. When the horizontal synchronization signal rises and the horizontal synchronization signal line 9 becomes a high potential state, the shift register circuit 201 outputs a serial signal obtained by converting the control signal, and at the same time, the analog switch circuit 202 turns off and the internal video signal The line 7 and the video signal line 3 are disconnected, the analog switch circuit 203 is turned on, and the shift register circuit 201 is connected to the video signal line 3. Therefore, during the output period of the horizontal synchronization signal, a serial signal is output from the shift register circuit 201 to the video signal line 3.

Further, when the horizontal synchronizing signal falls and the horizontal synchronizing signal line 9 becomes a low potential state, a video signal is output from the internal video signal line 7, and at the same time, the analog switch circuit 2
02 is turned on, the internal video signal line 7 and the video signal line 3 are connected, and the analog switch circuit 20
3 is turned off, and the shift register circuit 201 and the video signal line 3 are disconnected. Therefore, outside the output period of the horizontal synchronization signal, the internal video signal line 7 is connected to the video signal line 3.
The video signal is output.

As a result, the serial signal and the video signal are alternately output to the video signal line 3, and the serial signal and the video signal are combined on the video signal line 3.

Next, a method of separating and reading the control signal from the video signal will be explained. When the horizontal synchronization signal rises and the horizontal synchronization signal line 9 becomes a high potential state, the analog switch circuit 202 is turned off, the internal video signal line 7 is disconnected from the video signal line 3, and the analog switch circuit 204 is turned off. When turned on, the shift register circuit 205 is connected to the video signal line 3. Therefore, during the output period of the horizontal synchronization signal, a serial signal is input from the video signal line 3 to the shift register circuit 201, converted into a control signal, and output.

Further, when the horizontal synchronizing signal falls and the horizontal synchronizing signal line 9 becomes a low potential state, the analog switch circuit 204 is turned off, and the shift register circuit 20
5 is disconnected from the video signal line 3, the analog switch circuit 202 is turned on, and the internal video signal line 7 is connected to the video signal line 3. Therefore, a video signal is output from the internal video signal line 7 to the video signal line 3 outside the output period of the horizontal synchronization signal.

As a result, during the input period of the horizontal synchronizing signal, the serial signal is input from the video signal line 3 to the shift register circuit 201, the control signal is output from the shift register circuit 201, and the horizontal synchronizing signal is Outside the input period,
A video signal is output from the internal video signal line 7 to the video signal line 3. That is, reading the serial signal and sending out the video signal can be performed alternately.

In this embodiment, the shift register circuit 201 that sends out the serial signal and the shift register circuit 205 that reads the serial signal are described separately, but a single shift register circuit can also be used for both purposes.

[0034]

[Effects of the Invention] As explained above, according to the present invention,
During the output period of the horizontal synchronization signal, in other words, the control signal can be synthesized between the video signals in a time-division manner, and the control signal can be separated from the video signals in a time-division manner, so that the video display device This has the effect that the video display device can be controlled from the external device, or the external device can be controlled from the video display device, without increasing the number of signal lines between the video display device and the external device.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention.

FIG. 2 is a waveform diagram when combining or separating control signal data and a video signal according to an embodiment of the present invention;
is a positive horizontal synchronization signal, (b) is a positive video signal,
(c) is a control signal, (d) is a composite signal of a video signal and a control signal, and (e) is a control signal separated from the composite signal.

FIG. 3 is a circuit diagram showing a specific configuration of a communication circuit of the present invention.

FIG. 4 is a configuration diagram showing a conventional communication method.

FIG. 5 is a circuit diagram of an interface circuit of a conventional communication method.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1... Display monitor device, 2... Host computer, 3... Video signal line, 5, 6... Control signal line, 7, 8... Internal video signal line, 9, 10... Horizontal synchronization signal line, 11, 12... Data communication circuit , 20
1,205...shift register circuit, 202,203
, 204...analog switch circuit.

Claims (4)

[Claims] 1. A communication circuit for sending a video signal from an external device to a video display device, comprising means for time-divisionally synthesizing a control signal with the video signal, and a means for time-divisionally synthesizing a control signal with the video signal. A communication circuit characterized in that a means for dividing and outputting the separated data is provided between the external device and the video display device. 2. The synthesizing means converts the control signal into a serial signal and synthesizes it with the video signal of the video signal line in synchronization with a horizontal synchronizing signal, and the separating means converts the control signal into a serial signal and synthesizes it with the video signal of the video signal line. 2. The communication circuit according to claim 1, wherein the serial signal combined with the video signal of a line is separated in synchronization with the horizontal synchronizing signal, and then the serial signal is restored to the control signal. 3. The synthesizing means includes a first shift register circuit that converts the control signal into the serial signal and outputs the serial signal in synchronization with the horizontal synchronizing signal; a first analog switch circuit that connects a shift register circuit and the video signal line to output the serial signal to the video signal line; and a first analog switch circuit that connects the shift register circuit and the video signal line to output the serial signal to the video signal line; 3. The communication circuit according to claim 2, further comprising a second analog switch circuit connected to a line to output the video signal to the video signal line. 4. The separating means includes a second shift register circuit that converts the serial signal into a control signal and outputs the control signal in synchronization with a horizontal synchronizing signal; a third shift register circuit that connects the line and the second shift register circuit to read the serial signal;
connecting the internal video signal line and the video signal line outside the output period of the horizontal synchronization signal,
3. The communication circuit according to claim 2, further comprising a fourth analog switch circuit that reads the video signal into the internal video signal line or outputs the video signal to the video signal line.