JP2005084116A - Display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To share one input/output terminal for inputting and outputting internal/external picture signals, and to avoid breakage of the device, when the internal/external picture signals collide. <P>SOLUTION: The device is composed of a picture signal generation means 106 for the internal picture signal; an external apparatus connection means 101 for exclusively connecting a display device 302 and a signal output device 301 for the external picture signal; a picture input/output selecting means 102 for selecting the output of the internal picture signal or the input of the external picture signal; an input/output switch determinating means 103 for determining the selection signal; a signal switching means 104 for switching the external/internal picture signals, according to a determination signal; a signal collision detecting means 109 for detecting the conflict of the external/internal picture signals; an input signal processing means 105 for the external picture signal; a signal switch means 107 operating, according to the determination signal; and a picture signal display means 108 for the processed picture signal or the internal picture signal, where the input/output switch determination means switches the signal switch means to the input side, when signal collision is detected. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a video display device, and more particularly to a display means for generating an internal video signal, inputting an external video signal, and displaying the internal video signal or the external video signal. The present invention relates to a video display device capable of outputting a signal to the outside.

  A conventional video display device such as a display has only an input terminal for inputting a video signal output from a video signal output device such as a personal computer. In addition, a video signal output device such as a notebook computer having a video signal generation means and a video display means has only an output terminal for outputting the generated video signal. 2. Description of the Related Art Conventionally, as an apparatus having such a video signal input / output function, there is an apparatus in which an input terminal and an output terminal are separately provided. Providing two or more terminals having the same shape as the input function and the output function having the same shape causes a problem of erroneous connection. A technique for solving this problem has been disclosed (for example, see Patent Document 1).

  FIG. 7 is a configuration diagram of a video display device disclosed in Patent Document 1. In FIG. This has two or more terminals (external device connection means) 101a and 101b, the synchronization signal detection means 114 detects what signal is input to the terminal 101a or 101b, and the connection is switched according to the detection result. The circuit to be connected is switched by switching the unit 104a.

  When a video signal is input from the outside to one of the terminals 101a and 101b, the synchronization signal detecting means 114 detects the synchronization signal based on the input video signal, and switches the connection switching unit 104a to input the video signal. The video signal is transmitted to the processing unit 105a. Thus, when a video signal is input from the outside to any one of the terminals, the video signal is transmitted to the video signal input processing unit 105a of the apparatus, so that it can be used as an input terminal. If no synchronization signal is detected at the terminals 101a and 101b, the synchronization signal detection means 114 switches the connection switching unit 104a so that the signal path of the terminal to which no video signal is input is routed to the video signal output processing unit 106a of the apparatus. It is a mechanism to switch. That is, when no video signal input is detected at the terminal 101a or 101b, the video signal from the video signal output processing unit 106a is always output to the terminal. However, even when the video signal output device 303 connected to the outside is in the power-off state, the synchronization signal detection unit 114 cannot determine the input of the video signal, and thus continues to output the signal.

  In general, a video signal handled on a television has a low voltage level, so that even if a current flows into an externally connected device, the possibility of malfunction or device destruction is low. However, in the case of a video signal handled by a video signal output device such as a personal computer and a video display device such as a display, a voltage amplitude of TTL level is generally included as a synchronization signal. For this reason, when Patent Document 1 is applied, a current flows into the video signal output device 303, and there is a problem that malfunctions and device destruction of the internal circuit and the video signal output device 303 may occur.

  In general, adding an external connection terminal tends to impair the design. If the connector cover is used so as not to impair the design, the number of parts increases. Furthermore, in general, the connection terminal is often arranged in a place as inconspicuous as possible on the side surface of the apparatus. However, such an inconspicuous space is limited, and there is a tendency for the arrangement location to be limited. Therefore, providing two or more terminals as in the video display device disclosed in Patent Document 1 causes a problem in terms of design and space saving.

  In addition, a technique for sharing an input terminal and an output terminal and realizing it with one terminal is disclosed (for example, see Patent Document 2). FIG. 8 is a configuration diagram of a video display device disclosed in Patent Document 2. In FIG. As the operation of FIG. 8, when the user sets the input by the video input / output selection means 102, the input setting information is transmitted to the input / output switching determination means 103, the switch of the signal switching means 104 is set to input selection, and the signal switching means 107 is set to external video signal selection. At this time, when the video signal output device 301 is connected to the external device connection unit 101, the video signal of the video signal output device 301 is input to the input signal processing unit 106, and the video signal can be displayed on the video display unit 108. It is processed.

  When the user sets the output by the video input / output selection unit 102, the output setting information is transmitted to the input / output switching determination unit 103. The input / output switching determination unit 103 switches the signal switching unit 104 to the output setting, and the signal switching unit 107. Set to internal video signal selection. At this time, when the video display device 301 is connected to the external connection unit 101, the video signal generated by the video signal generation unit 106 is transmitted through the signal switching unit 104 and the terminal (external device connection unit) 101. 301 is output. When the synchronization signal detection unit 114 cannot detect the input of the synchronization signal from the outside, the signal switching unit 104 is automatically switched to the output setting.

  As described above, in the configuration in which the input terminal and the output terminal are shared, the number of terminals is changed from two to one, which is advantageous in terms of space. However, in Japanese Patent Application Laid-Open No. 2004-260260, the user manually switches the input / output setting arbitrarily, so that the internal video generated by the video signal generation means 106 inside the video display device 100 is erroneously connected while the video signal output device 301 is connected. If a signal is output, a video signal collision occurs. In addition, when the synchronization signal input to the terminal 101 from the outside cannot be detected, the setting is automatically switched to the output setting. Even when the video signal output device 301 connected to the outside is being powered off, Since the input / output switching determination unit 103 cannot determine the input of the video signal, the video signal is continuously output.

  As described above, the video signal handled by the video signal output device and the video display device includes the voltage amplitude of the TTL level as the synchronization signal. Therefore, when Patent Document 2 is applied, the video signal output is performed. There is a problem that current flows into the device 301 and malfunction of the internal circuit and the video signal output device 301 may occur.

Further, a technique for detecting that the video signal output device 301 is connected even when the externally connected video signal output device 301 is powered off is disclosed (for example, see Patent Document 3). The method determines the presence or absence of a 75Ω termination resistance of the externally connected device, and if it is detected that there is a 75Ω termination resistance, determines that the video signal output device is connected and switches to the input setting. If it is detected that there is no termination resistor, it is determined that the video signal output device is not connected, and the output setting is switched. This method is generally effective for video signals handled by a television. However, both a video signal output device such as a personal computer and a video display device such as a display generally have a 75Ω termination, so that the device is discriminated. It is not applicable as a method. In addition, since the protection function at the time of signal collision is not provided when the user arbitrarily switches, if the output signals accidentally collide with each other, the internal circuit and the video signal output device are Possible damage.
JP-A-10-126589 JP 2001-86416 A JP 2002-262129 A

  As described above, the conventional video display device having the video signal input / output function has a problem in space saving because the input / output terminals are provided separately as shown in FIG. In addition, when realizing a video display device having an input / output function with one terminal as shown in FIG. 8, there is a risk of connecting output connectors by mistake, or current may be supplied to the device that is turned off. There is a problem that both devices are destroyed by the signal collision. Further, when a means for detecting a collision of video signals is provided in the video signal line, there is a problem of image quality deterioration due to the influence of high frequency component loss or the like.

In order to solve the above problems, a video display device according to the present invention includes a video signal generation unit that generates an internal video signal, a video display device that displays the internal video signal, and a video signal output device that outputs an external video signal. Exclusively connectable external device connection means, video input / output selection means for selecting whether to output the internal video signal or to input the external video signal, and a selection signal from the video input / output selection means An external video signal from the external device connection means is input or an internal video signal is output from the external device connection means in accordance with a discrimination signal from the input / output switch discrimination means for discrimination A first signal switching means for switching between the first signal switching means, an external video signal from the first signal switching means and an internal video signal from the video signal generation means are detected to collide with each other. A signal collision detection unit that transmits a collision detection signal to the input / output switching determination unit, an input signal processing unit that processes an external video signal from the first signal switching unit, and a determination signal from the input / output switching determination unit And a second signal switching means for switching between the external video signal processed by the input signal processing means and the internal video signal, and the processed external video signal or internal video signal from the second signal switching means. The input / output switching determining means switches the first signal switching means when receiving the collision detection signal.

  According to the present invention, even when the video signal input / output function is provided at the same time, the space of the device can be saved, and even when the video signal collides, it is possible to avoid the destruction of the device. . In addition, when a collision of video signals is detected, the detection is performed without degrading the image quality, and in some cases, the occurrence of a signal collision can be avoided.

  In the present invention, the signal collision is detected, and when the signal collision is detected, the signal switching means for switching between the output of the internal video signal and the input of the external video signal is switched to the input side. The input / output connector can be realized by a single connector.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing an image display apparatus having a function of inputting and outputting an image signal with one terminal according to an embodiment of the present invention.
Interface formats for handling video signals include D-SUB (15-Pin D-Shell Display Connector) and DVI (Digital Visual Interface) proposed by VESA (Video Electronics Standards Association) of the US standardization organization. In contrast to D-SUB that handles analog signals, DVI includes DVI-I, which adapts to both analog and digital video signals, and DVI-A, which adapts only to analog signals.

  In FIG. 1, an external device connection unit 101 is a connection terminal having one of a D-SUB connector, a DVI-I connector, and a DVI-A connector. The cable 201 is a connection cable adapted to any one of D-SUB, DVI-I, and DVI-A. The video signal output device 301 and the video display device 302 are devices each having one of a D-SUB connector, a DVI-I connector, and a DVI-A connector as a video signal connection unit. The video input / output selection unit 102 is a selection unit using an external button or the like, and transmits selection information (setting information) to the input / output switching determination unit 103. The input / output switching determination unit 103 includes the signal switching unit 104 and the signal switching unit. 107 has a function of switching. The signal switching means 104 and the signal switching means 107 are switches that connect and switch circuits bi-directionally on a one-to-two basis.

  The video signal generation unit 106 generates a video signal that can be displayed by the video display unit 108, and the input signal processing unit 105 receives the external video signal input from the video signal output device 301 via the external device connection unit 101. Conversion processing to a video signal that can be displayed on the video display means 108 is performed. The signal collision detection unit 109 detects when the internal video signal output from the video signal generation unit 106 and the external video signal input from the video signal output device 301 collide with each other, and collides with the input / output switching determination unit 103. Send a detection signal. The video display means 108 is a video display means using a liquid crystal panel (hereinafter referred to as LCD) or a cathode ray tube (hereinafter referred to as CRT), and uses a display device such as a CRT or LCD.

Next, the operation of the above configuration will be described.
For example, a video monk output device 301 that generates and outputs a video signal, such as a personal computer, and a video display device 302 that displays an input video signal, such as a display, are exclusive of the external device connection unit 101 via a cable 201. Video signals are input and output. The internal video signal generated by the video signal generation unit 106 inside the video display device 100 is output to the signal switching unit 107 and also output to the signal switching unit 104 via the signal collision detection unit 109. When the video input / output selection unit 102 detects the input setting of the external video signal or the output setting of the internal video signal by the operation of the user's button or the like, the setting information is transmitted to the input / output switching determination unit 103.

  The input / output switching discriminating means 103 switches the signal switching means 104 to input selection or output selection according to the setting information from the video input / output selection means 102, and the external video processed by the input signal processing means 105. Switching is performed so that the signal or the internal video signal from the video signal generation means 106 is displayed on the video display means 108. The input / output switching determination means 103 has means for holding the setting information of the input setting or output setting, and the held setting information is automatically sent to the signal switching means 104 and the signal switching means 107 when the power is turned on next time. By setting, a function may be provided that can save the user from input operation.

Next, the operation when input is set will be described.
When the user makes an input setting by the video input / output selection means 102, the input setting information is transmitted to the input / output switching determination means 103, and the switch of the signal switching means 104 is set to the input selection of the external video signal. At this time, the D-SUB, DVI-I, or DVI-A signal can be obtained by simultaneously switching all the video signal pin assignments except the ground signal among the signals included in the external device connection means 101 to the input connector pin assignment. The external device connection means 101 can be used as an input connector without changing the pin arrangement, and a conventional cable can be used as the cable 201. In addition, the input / output switching discriminating means 103 switches the switch of the signal switching means 107 to external video signal selection from the input signal processing means 105.

  When the video signal output device 301 is connected to the external device connection means 101, the external video signal from the video signal output device 301 is input to the input signal processing means 105, and the video signal that can be displayed on the video display means 108 is obtained. The signal is converted and output to the signal switching means 107. Since the signal switching means 107 selects the external video signal side by the input / output switching determination means 103, the external video signal processed by the input signal processing means 105 is sent to the video display means 108 via the signal switching means 107. Entered. In this manner, the external video signal input from the video signal output device 301 is displayed by the video display means 108.

Next, the operation when the output is set will be described.
When the user makes an output setting by the video input / output selection unit 102, the output setting information is transmitted to the input / output switching determination unit 103, and the input / output switching determination unit 103 switches the signal switching unit 104 to the output setting. At this time, all the video signal pin assignments except for the ground signal among the signals included in the external device connection means 101 can be simultaneously switched to the output connector pin assignment, so that the D-SUB, DVI-I, or DVI-A The external device connecting means 101 can be used as an output connector without changing the signal pin arrangement, and a conventional cable can be used as the cable 201.

  Further, the input / output switching discriminating unit 103 switches the signal switching unit 107 to output selection of the internal video signal. Accordingly, the internal video signal is selected by the signal switching means 107 and the video is displayed by the video display means 108. At the same time, the internal video signal is output to the signal switching means 104 via the signal collision detection means 109.

  In this state, if the video signal output device 301 is connected to the external device connection unit 101, the external video signal is input to the collision detection unit 109 via the signal switching unit 104 and collides with the internal video signal. At this time, the signal collision detection unit 109 outputs a collision detection signal to the input / output switching determination unit 103, and the input / output switching determination unit 103 that has received the signal detects the signal switching unit 104 regardless of the setting of the video input / output selection unit 102. Switch to input setting. Thereby, signal collision can be eliminated.

  When the video display device 302 is connected to the external device connection unit 101 instead of the video signal output device 301, the internal video signal is output to the external device connection unit 101 by the output selection of the signal switching unit 104, and the cable 201 To the video display device 302 and displayed.

  Note that when the internal video signal is displayed on the video display means 108, it is not necessary to output the internal video signal to the outside of the apparatus 100. Therefore, the signal switching means 104 is input by the input / output switching determination means 103. A function may be provided for selecting and switching the signal switching means 107 to internal selection. In this case, the internal video signal is selected by the signal switching unit 107 and displayed on the video display unit 108, but is not output to the external device connection unit 101 because the signal switching unit 104 is selected for input.

As described above, according to the video display apparatus of the first embodiment, the following effects relating to claims 1, 2, and 3 can be obtained.
Effect of Claim 1: Even when the input / output functions for the internal and external video signals are provided at the same time, the input / output connector can be realized by one connector, and the space of the apparatus can be reduced. Further, even when two video signals collide, it is possible to avoid the destruction of the apparatus.
The effect concerning Claim 2: It becomes possible to use the conventional cable as a video signal connection cable with an external apparatus.
The effect concerning Claim 3: A user's input operation can be reduced.

FIG. 2 is a block diagram of a video display apparatus according to Embodiment 2 of the present invention. Portions corresponding to those in FIG. The second embodiment relates to the configuration of the signal collision detection unit 109.
In FIG. 2, a resistor 109d and a transistor 109e are overcurrent detection means connected only to the synchronizing signal line of the video signal generation means 106, and the resistor 109b and the resistor 109d are signals output to the external device connection means 101. It is a resistor that limits the current. The transistor 109c is a power source backflow prevention means for the video signal generation means 106, and is grounded at the emitter. The power source 109 a is a power source for generating a synchronization signal to the external device connection unit 101. The resistor 109f and the capacitor 109g are means for delaying the detection time when an overcurrent occurs and providing a response dead zone. The power source 109h and the resistor 109i are a charging circuit for charging the capacitor 109g.

  The external device connection means 101 is connected to RGB (red, green and blue) signals and synchronization signal lines, and the signal switching means 110 added to the RGB signal lines inputs or disconnects the internal video signal to the external device connection means 101. This is a switch for performing selection. The resistor 111 has a constant input / output impedance of the analog RGB signal of the internal video signal output from the video signal generation unit 106 or the analog RGB signal of the external video signal input from the video signal output device 301 to the external device connection unit 101. The impedance is for impedance, and is generally set to 75Ω in the analog RGB signal. 2 does not show the signal switching means 107 and the video display means 108, the illustration of the signal collision detection means 109 is omitted for convenience of explanation, and the actual apparatus configuration is the same as FIG. It is connected to the.

Next, an operation when the video signal output device 301 or the video display device 302 is connected to the external device connection unit 101 when the signal switching unit 104 is selected for output in the above configuration will be described.
The resistor 109d and the transistor 109e are connected only to the synchronization signal line generated by the video signal generating means 106. The analog RGB signal line output from the video signal output device 301 and input to the external device connection unit 101 and the analog RGB signal line output from the video signal generation unit 106 are wired via the signal switching unit 110. The resistor 111 is a common impedance matching resistor.

First, the case where the video signal output device 301 is connected will be described.
The transistor 109c is turned on when the synchronizing signal output from the video signal generating means 106 is at the H level. At this time, if the synchronization signal output from the video signal output device 301 is at the H level, the current from the video signal output device 301 flows into the device 100 and is grounded via the resistor 109d and the transistor 109c. Overcurrent flows too much and the video signal output device 301 is in a state of being destroyed.

  Here, when a potential difference is generated such that the transistor 109e is turned on at both ends of the resistor 109d due to the overcurrent, since the transistor 109c is turned on and the emitter is grounded, the charge of the capacitor 109g is reduced to the resistor 109f, the transistor 109e, It is discharged through the transistor 109c. When the electric charge of the capacitor 109g is completely discharged, a collision detection signal is transmitted to the input / output switching determination means 103. When the collision detection signal is detected, the input / output switching determination unit 103 switches the signal switching unit 104 from the output selection to the input selection and simultaneously switches the signal switching unit 110 to be disconnected. As a result, the synchronization signal from the video signal output device 301 is transmitted to the input signal processing means 105 via the external device connection means 101 and the signal switching means 104, so that the synchronization signal from the video signal generation means 106 Signal collisions are avoided.

  Further, the analog RGB signal from the video signal output device 301 is also disconnected from the video signal generation unit 106 by the signal switching unit 110, so that collision with the analog RGB signal from the video signal generation unit 106 is avoided. At the same time, impedance matching is performed by the resistor 111 and the result is input to the input signal processing means 105.

  When the synchronization signal output from the video signal generation means 106 is at L level, the transistor 109c is turned off. At this time, if the synchronization signal output from the video signal output device 301 is L level or the power supply of the video signal output device 301 is cut off, the current from the power source 109a flows into the video signal output device 301, but the resistor 109b Since the current is limited by the resistor 109d, the video signal output device 301 is protected from destruction.

  When the synchronization signal output from the video signal generation means 106 is at L level, the transistor 109c is turned off. At this time, the current from the power source 109a flows to the external device connecting unit 101 via the resistor 109b and the resistor 109d. However, if the synchronization signal level output from the video signal output device 301 is H level, it is the same potential. Since no current flows into the video signal output device 301, the device is not destroyed.

  The transistor 109c is turned on when the synchronization signal output from the video signal generation means 106 is at the H level, but is the same potential if the synchronization signal level output from the video signal output device 301 is at the L level. Since no current flows from the output device 301 to the device 100, the device does not break down.

Next, a case where the video display device 302 is connected while the signal switching unit 104 selects the output will be described.
When the video display device 302 is connected and the synchronization signal line output from the video signal generating means 106 is at the H level, the transistor 109c is turned on. Here, since there is a considerable capacitance component in the synchronization signal line of the connected video display device 302, the charge in the capacitive component of the video display device 302 flows into the device 100. The current flowing from the video display device 302 into the device 100 is discharged through the resistor 109d because the transistor 109c is grounded to the emitter. At this time, if an overcurrent flows through the resistor 109d and a potential difference is generated such that the transistor 109e is turned on, the charge of the capacitor 109g is discharged through the resistor 109f, the transistor 109e, and the transistor 109c. By being transmitted to the determination unit 103, the output selection is switched to the input selection, and the video signal to the video display device 302 is cut off.

  However, at this time, a time constant in which the charge in the capacitance component in the video display device 302 is discharged through the resistor 109d is predicted in advance, and the charge of the capacitor 109g is discharged through the resistor 109f with respect to the time constant. If a large time constant is set, the collision detection signal is not transmitted to the input / output switching determination means 103.

  Therefore, the input / output switching determination unit 103 holds the setting of the signal switching unit 104 as the output setting and holds the switch of the signal switching unit 110 on, so that the internal video signal generated by the video signal generation unit 106 is maintained. Is output to the video display device 302 via the external device connection means 101. Thus, by providing a response dead zone for the collision detection signal, when the video display device is connected, the video signal is output without the protective function that the output is switched to the input by the input / output switching determination unit 103. Can continue to output.

  When the video display device 302 is connected and the synchronization signal line output from the video signal generating means 106 is at L level, the transistor 109c is turned off. At this time, the current from the power source 109a is output to the signal switching unit 104 via the resistor 109b and the resistor 109d, and the signal switching unit 104 is currently selecting the output. Therefore, the video display device 302 is connected via the external device connecting unit 101. Is output.

As described above, according to the video display device of the second embodiment, the following effects related to claims 4 to 8 and 9 can be obtained.
Effects relating to Claims 4 to 8: By adding the overcurrent detection means, it is possible to detect that the video signal has collided. When a signal collision is detected, the signals of the synchronization signal line and the analog RGB signal line respectively. Since the switching means are simultaneously switched to avoid the signal collision state, it is possible to avoid the destruction of the apparatus caused by the signal collision.

  In addition, by providing a response dead band to the collision detection signal, the protection function does not work when a video display device is connected, and the protection function is ensured only when a video signal output device is connected and a signal collision occurs. Can work. Furthermore, by providing the signal switching means 110 in the analog RGB signal line, it is possible to share a resistor that makes the input / output impedance constant, and it is possible to reduce the number of parts.

  The effect relating to claim 9 is that the overcurrent detection means is added only to the synchronization signal line which has little influence on the image quality even if the high-frequency component is lost, thereby causing the signal collision without causing deterioration of the image quality of the analog RGB signal. When this is detected, collision of analog RGB signal lines can also be avoided.

FIG. 3 is a block diagram relating to the signal collision detection means 109 of the video display apparatus according to the third embodiment of the present invention. The same reference numerals are given to the portions corresponding to those in FIG.
In FIG. 3, a specific signal detection unit 112 detects a specific signal output from the video signal output device 301 and input to the external device connection unit 101. When a specific signal is detected, the specific signal detection unit 112 outputs a specific signal to the input / output switching determination unit 103. Send a detection signal.

In the above configuration, an operation for detecting a specific signal output from the video signal output device 301 and input to the external device connection unit 101 will be described with reference to the flowchart of FIG.
In the system using the D-SUB as the specific signal, a + 5V power line flowing in the 9th pin included in the connector, a DDC (Display Data Channel) data signal flowing in the 12th pin, and a DDC flowing in the 15th pin There are a clock signal, a horizontal synchronizing signal flowing in the 13th pin, and a vertical synchronizing signal flowing in the 14th pin.

  In the system using DVI-I or DVI-A, the + 5V power line flowing in the 14th pin included in the connector, the DDC data signal flowing in the 7th pin, the DDC clock signal flowing in the 6th pin, the C4th There is a horizontal synchronizing signal flowing through the pin and a vertical synchronizing signal flowing through the eighth pin. The pin arrangement of the above connectors is proposed by the US standardization organization VESA, and all the pin arrangements are the same as long as the devices conform to this. Further, according to the proposal of the VESA, the D-SUB connector has the 10th pin and the DVI connector has the 15th pin for the sync signal ground signal pin array.

  By pulling up the synchronizing signal ground signal pin with the video display device 100 and detecting the voltage level of the pin, the external device is not connected if it is H level, and the external device is connected if it is L level. It is a known technique that can be detected.

  In FIG. 4, in step S <b> 401, the unique signal detection unit 112 detects whether the video signal output device 301 is connected to the external device connection unit 101 via the cable 201 by the external device detection. When the unique signal detection unit 112 detects that the device is not connected, the signal switching unit 104 may be set to input selection regardless of the setting from the user from step S402.

  In step S403, it is detected whether there is information input through the video input / output selection means 102 by setting input by the user's operation. If it is detected that there is information input, input selection is made in step S404. Or whether it is an output selection. If it is determined in step S404 that output selection information has been input to the input / output switching determination unit 103, the signal switching unit 107 is set by the input / output switching determination unit 103 to select the internal video signal in step S405. The internal video signal generated by the generation unit 106 is transmitted to the video display unit 108 via the signal switching unit 107 and the video is displayed.

  At this time, the signal switching means 104 is set to input selection. In the next step S406, the specific signal output from the video signal output device 301 and input to the external device connection means 101 is detected by collating with the pin arrangement. At this time, the unique signal detection means 112 outputs the signal switching means 104 by the input / output switching determination means 103 if none of the unique signals is detected for a certain period arbitrarily set according to the detection accuracy of the detection means. Selection is set (step S408). When the unique signal detecting unit 112 detects the unique signal, the input / output switching discriminating unit 103 sets the signal switching unit 104 as input selection and ends the switching process (step S407).

In step S406, when the unique signal detecting unit 112 detects the unique signal, the signal switching unit 104 is set to input selection when any one of the plural unique signals is detected, and the switching process is terminated. Immediacy may be prioritized, or if there is only one result of detecting all, the certainty that the signal switching means 104 is set to input selection and the switching process is terminated may be prioritized. Further, it is possible to improve the immediacy by detecting only one specific signal among the specific signals and setting the output selection and ending the switching process if no specific signal is detected.
Thus, the type of the specific signal to be detected is arbitrarily set according to the immediacy of the detection function or the detection accuracy.

When the signal switching unit 104 is set to output selection in step S408, the internal video signal generated by the video signal generation unit 106 is output to an externally connected device via the external device connection unit 101. When the signal switching unit 104 is set to input selection after the specific signal detecting unit 112 detects that the specific signal is present in step S407, the video signal from the external device connecting unit 101 is input to the input signal processing unit 105. Then, it is processed into a video signal that can be displayed by the video display means 108.
However, since the signal switching unit 107 selects the internal video signal, the video signal from the video signal generation unit 106 is displayed by the video display unit 108.

If it is determined in step S404 that the input selection setting information has been input to the input / output determination switching unit 103 via the video input / output selection unit 102 by the setting input from the user, the input / output switching determination unit 103 outputs a signal in step S409. The switching means 107 is set to select an external video signal.

  In step S402, the signal switching unit I104 is set to input selection, and the video signal input from the external device connection unit 101 is transmitted to the input signal processing unit 105. Here, since the signal switching unit 107 is set to select the external video signal in step S409, the external video signal processed by the input signal processing unit 105 is transmitted to the video display unit 107 via the signal switching unit 107. The video is transmitted to 108 and displayed.

  As described above, according to the video display device according to the third embodiment, with respect to claims 10 to 13, it is possible to obtain an effect capable of avoiding the destruction of the device due to the collision of the video signals.

  In the above-described first to third embodiments, when the signal switching unit 104 detects a specific signal indicating that the signal collision or the video signal output device 301 is connected while setting the output selection, the signal is not related to the user's intention. The switching means 104 is set to input selection. In the fourth embodiment, a method will be described in which, when the signal switching unit 104 is set to input selection regardless of the user's intention, the state of the apparatus is recognized by the user, and further a warning is given that a signal collision has occurred. .

FIG. 5 is a block diagram of a video display apparatus according to Embodiment 4 of the present invention, and the same reference numerals are given to portions corresponding to those in FIG.
In FIG. 5, the input / output switching determination unit 103 has a function of switching between the signal switching unit 104 and the signal switching unit 107 and outputs the state of the signal switching unit 104 to the state monitoring unit 113. The state monitoring unit 113 has a function of monitoring the state of the signal switching unit 104 based on information from the input / output discrimination switching unit 103 and superimposing information on the video signal generated by the video signal generation unit 106 according to the information. .

In the above configuration, the state of the signal switching unit 104 and the operation of the state monitoring unit 113 will be described with reference to the flowchart of FIG.
In step S601, the state monitoring unit 113 determines whether the signal switching unit 104 is an output selection or an input selection. If it is an input selection, the state is maintained until an output selection is performed by the video input / output selection means 102 next time. If it is the output selection, in the next step S602, it is continuously monitored that the signal switching means 104 is set to the input selection by the input / output switching determination means 103.

  When the input / output switching determination means 103 detects that the signal switching means 104 has been set to input selection, in the next step S603, it is determined by what information the input / output switching determination means 103 has set the input selection. That is, the presence / absence of the signal collision detection signal, the presence / absence of the specific signal detection signal, and the presence / absence of input selection from the video input / output selection means 102 are determined.

  Here, if it is determined that there is a signal collision detection signal or a unique signal detection signal, in the next step S604, a message that the input selection is switched to the internal video signal generated by the video signal generation means 106 By superimposing the information and displaying it on the video display means 108, it is notified that the user output selection has been switched to the input selection. The message information to be superimposed here has an effect that the recognition rate of the user can be improved by not only displaying characters but also displaying a picture with an icon or the like or performing blinking display.

  If it is determined in step S603 that input selection has been set by the video input / output selection means 102, monitoring is terminated without superimposing message information on the video signal, and it is monitored that output selection is set again in step S601. Keep doing.

  As described above, according to the video display device according to the fourth embodiment, when the output selection is set according to the user's intention according to claims 14 and 15, the user's intention is detected by detecting a signal collision or a specific signal. Even when the output setting is switched to the input setting regardless of the above, it is possible to notify the user of the state of the apparatus and to improve the recognition of the occurrence of signal collision.

It is a block diagram which shows the video display apparatus by Example 1 of this invention. It is a block diagram which shows the video display apparatus by Example 2 of this invention. It is a block diagram which shows the video display apparatus by Example 3 of this invention. It is a flowchart which shows the operation | movement by Example 3 of this invention. It is a block diagram which shows the video display apparatus by Example 4 of this invention. It is a flowchart which shows the operation | movement by Example 4 of this invention. It is a block diagram showing a conventional video display device. It is a block diagram which shows the conventional video display apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Image | video display apparatus 101 External apparatus connection means 102 Image | video input / output selection means 103 Input / output switching discrimination means 104 Signal switching means 105 Input signal processing means 106 Video signal generation means 107 Signal switching means 108 Video display means 109 Signal collision detection means 110 Signal switching means 111 Resistance 112 Specific signal detection means 113 State monitoring means 114 Synchronization signal detection means 109a, 109h Power supply 109b, 109d, 109f, 109 Resistance 109c, 109e Transistor 109g Capacitor 201 D-SUB or DVI cable 301 Video signal output device 302 Video display device

Claims (15)

Video signal generating means for generating an internal video signal;
An external device connection means capable of exclusively connecting the video display device displaying the internal video signal and the video signal output device outputting the external video signal;
Video input / output selection means for selecting whether to output the internal video signal or to input the external video signal;
Input / output switching determination means for determining a selection signal from the video input / output selection means;
First signal switching means for switching whether to input an external video signal from the external device connection means or to output the internal video signal from the external device connection means in accordance with a determination signal from the input / output switching determination means When,
A signal collision detection unit that detects a collision between the external video signal from the first signal switching unit and the internal video signal from the video signal generation unit and transmits a collision detection signal to the input / output switching determination unit;
Input signal processing means for processing an external video signal from the first signal switching means;
Second signal switching means for switching between the external video signal processed by the input signal processing means and the internal video signal in accordance with a determination signal from the input / output switching determination means;
And a video display means for displaying the processed external video signal or internal video signal from the second signal switching means,
The video display device, wherein the input / output switching determining means switches the first signal switching means when receiving the collision detection signal.   The external video signal is input or the internal video signal is output by sharing one terminal as the external device connection means, and the signal included in the terminal of the external device connection means is output by the first signal switching means. A D-SUB cable is used as a video signal connection cable for connecting the video display device or the video output device by exclusively switching all video signal pin assignments except the ground signal to the input or output pin assignment at the same time. The video display device according to claim 1, wherein a DVI cable can be used.   A holding means for holding the input or output setting information selected by the video input / output selection means is provided, and the previously set state is continued by reflecting the held setting information at the next power-on. The video display device according to claim 1, wherein the video display device is a video display device. The said signal collision detection means is comprised by the overcurrent detection means which detects the overcurrent between the said 1st signal switching means and the said video signal generation means, The claim 1, 2 or 3 characterized by the above-mentioned. Video display device. 5. The video display device according to claim 4, wherein the overcurrent detection means is composed of a resistor and a transistor, and is provided with a response dead zone for overcurrent detection using a capacitor. 6. The video display device according to claim 5, wherein when the signal collision is detected by the overcurrent detection means, the signal collision is avoided by switching the first signal switching means to an input setting. Output current limiting means for preventing destruction due to current inflow to the video signal output device when the internal video signal is output via the external device connection means when the power of the video signal output device is stopped. The video display device according to claim 1, wherein the video display device is provided. Third signal switching means for switching the analog RGB signal from the video signal generating means to transmission or non-transmission to the external device connection means is provided, and the analog RGB signal line from the third signal switching means and the external device connection are provided. A resistor for making the input / output impedance of the analog RGB signal constant is shared by connecting the analog RGB signal line from the video signal output device input via the means to the wired or OR. The video display device according to claim 1. 9. The video display device according to claim 5, wherein the overcurrent detection unit is provided only on a video synchronization signal line from a previous video signal generation unit. Detecting a specific signal output from the video signal output device input via the external device connection means when detecting the presence or absence of connection with the video signal output device 10. The video display device according to claim 1, further comprising a signal detection unit. 11. The video display apparatus according to claim 10, wherein the specific signal detection means detects a DDC signal output from the video signal output apparatus and switches the first signal switching means to input settings. 12. The video display device according to claim 10, wherein the specific signal detection unit detects a + 5V power supply line output from the video signal output device and switches the first signal switching unit to an input setting. . 13. The specific signal detection unit detects a video synchronization signal line output from the video signal output device, and switches the first signal switching unit to an input setting. Video display device. 14. The video display device according to claim 5, further comprising a monitoring unit that monitors the detection by the overcurrent detection unit or the specific signal detection unit and notifies the user of the detection. . 15. The video display apparatus according to claim 14, wherein the monitoring unit improves the recognizability to the user by superimposing information on the internal video signal and displaying the information on the video display unit.

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