JP2011180331A - Display device and signal switching method of the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device for being automatically changed to an input terminal into which a signal is input. <P>SOLUTION: A synchronizing signal-detecting circuit 20 determines the presence or absence of a signal inputted by an input terminal (T5) 15 from an input terminal (T1) 11. A detecting circuit 30 determines the presence or absence of the signal by processing of an input/output processing section 50, and outputs the result to the synchronizing signal-detecting circuit 20. The synchronizing signal-detecting circuit 20 outputs the input signal presence/absence determination result of the input terminal to a selector multiplexer 40. When the selector multiplexer 40 outputs the input signal presence/absence determination result to the input/output processing section 50, an input terminal switching processing section 50a outputs a switching request of the input terminal to the selector multiplexer 40 based on the input signal presence/absence determination result of the input terminal. The selector multiplexer 40 selects an input terminal based on the switching request of the input terminal, inputs the signal from the selected input terminal, and outputs it to an image processing circuit 60 and panel control circuit 70. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a display device, and more particularly to a display device that determines the presence or absence of an input signal and automatically switches the input signal.

  In recent years, display devices are provided with a plurality of input terminals, and video signals output from these input terminals can be selected and displayed. For example, composite video devices as external devices connected to these input terminals, video devices having S terminals (hereinafter referred to as S video devices), devices having analog VGA terminals (hereinafter referred to as analog VGA devices), analog component terminals Devices (hereinafter referred to as analog component devices), devices equipped with DVI-D terminals (hereinafter referred to as DVI-D devices), devices equipped with HDMI terminals (HDMI devices), LAN, wireless LAN, USB-VGA There are conversion devices with terminals (hereinafter referred to as USB-VGA conversion devices), conversion devices with wireless USB-VGA terminals (hereinafter referred to as wireless USB-VGA conversion devices), USB memories and SD cards. An input terminal is provided that can input video signals from external devices. It is. When inputting a video signal from these external devices to the display device, the user inserts a connector of a cable for connecting these external devices into the input terminal and then performs an input terminal switching operation. However, a user who is unfamiliar with the operation sometimes does not understand the procedure of the input terminal switching operation.

  JP-A-2005-252528 (Patent Document 1) can be cited as a technique for providing such a switching method that is easy to understand the switching operation of the input terminals and has good operability. In the technique disclosed in Patent Document 1, when the insertion / removal of the input terminal is detected, the user can easily grasp the situation by displaying a new image corresponding to the insertion / removal of the input terminal together with the currently displayed image on a multi-screen. A display system is provided. The new image corresponding to the insertion / removal of the input terminal is an image displaying a connection state by the insertion / removal, an image based on the video signal from the newly inserted input terminal, or an image combining them.

JP 2005-252528 A

  However, the display system in the technique disclosed in Patent Document 1 can notify the user of the state of insertion / removal of the input terminal, but the user has to perform the switching operation of the input terminal. For this reason, a user who is unfamiliar with the operation sometimes does not know how to perform the switching operation even if the situation due to the insertion / extraction of the input terminal is displayed. Moreover, since a PinP circuit is required to display a new image by inserting / removing the input terminal together with the currently displayed image on a multi-screen, it is costly.

  The present invention has been made in view of such a situation, and an object thereof is to provide a display device and a signal switching method for the display device that can solve the above-described problems.

The display device of the present invention is a display device that displays an image by inputting a signal from a device connected to any of a plurality of input terminals, and a signal detection unit that detects the presence or absence of a signal at the input terminal; Input terminal switching means for switching an input terminal of the plurality of input terminals to an input terminal whose presence of a signal is detected by the signal detection means is provided.
The display device of the present invention is characterized in that the input terminal switching means switches the input terminal when an elapsed time after power is input to the display device is equal to or longer than a predetermined set time. It is said.
The display device of the present invention is characterized in that the input terminal switching means switches the input terminal when an elapsed time from when power is input to the display device is within a predetermined set time. It is said.
In addition, the display device of the present invention enables switching of the input terminal after a predetermined time has elapsed since the AC power was turned on when the display device is started for the first time after shipment, or after the AC power is turned on. It is characterized by comprising activation method setting means for storing any activation setting selection item for enabling switching of the input terminal within a time period.
The display device of the present invention is characterized in that the input terminal switching means switches the signal of the input terminal based on the activation setting selection item set by the activation method setting means.
Further, the activation method setting means of the display device of the present invention is characterized in that the activation setting selection item is selected and set by a computer connected to the display device.
In addition, the display device of the present invention is characterized by comprising storage means for storing first-time activation information as to whether or not the display device is activated for the first time after shipment.
In addition, the display device of the present invention is a projector device.
Further, the input terminal switching means of the display device of the present invention comprises noise determining means for determining whether the signal at the input terminal is noise, and the noise determining means determines that the signal at the input terminal is not noise. When this is done, the input terminal is switched.
In the display device signal switching method of the present invention, in a display device that displays an image by inputting a signal from a device connected to any of a plurality of input terminals, signal detection is performed to detect the presence or absence of a signal at the input terminal. And an input terminal switching step of switching an input terminal of the plurality of input terminals to an input terminal in which the presence of a signal is detected by the signal detection step.

  ADVANTAGE OF THE INVENTION According to this invention, the display apparatus itself can provide the display apparatus which performs optimal switching operation according to the connection state of an input terminal automatically, without a user performing switching operation of an input terminal at all. Further, since the switching operation of the input terminal is not required, a cost for mounting a GUI (Graphical User Interface), an operation button, and the like is suppressed, and a space for the operation panel is further reduced. be able to.

It is an external view of the input terminal provided in the rear surface of the display apparatus which concerns on Embodiment 1 of this invention. It is a functional block diagram of the display apparatus which concerns on Embodiment 1 of this invention. It is a flowchart which shows the procedure of the input terminal switching process of the display apparatus which concerns on Embodiment 1 of this invention. It is a flowchart which shows the procedure of the input terminal switching process of the display apparatus which concerns on Embodiment 2 of this invention. It is a flowchart which shows the procedure of the starting method setting process of the display apparatus which concerns on Embodiment 3 of this invention.

Hereinafter, modes for carrying out the present invention (hereinafter referred to as “embodiments”) will be described with reference to the drawings. Note that the signal in the present embodiment is a video signal and has the following characteristics.
1. The display device has a plurality of input terminals. For all the input terminals, when the input terminals are automatically determined, the presence / absence of a signal input (the presence / absence of a synchronization signal or the presence / absence of a connection voltage) is determined. When input of a signal is recognized at an input terminal that has not been input, the input terminal is automatically switched to an input terminal that is permitted to input a signal. Thereby, the switching of the input terminal of the display device can be performed only by the cable insertion / extraction operation of the input terminal.
2. When a signal input is recognized at the input terminal where no signal is input as in 1 above in the display device in the standby state, the lamp of the display device is automatically turned on, and the input terminal that is permitted to input the signal is automatically turned on. Switch.
3. The above operation 1 is performed in real time even when an image is normally displayed.
4). In order to prevent the operation of 1 or 2 from being performed without permission when power is input, the operation of 1 or 2 is not performed until a predetermined time elapses after the power is input (switching). Mode 1).
5. In order to prevent the operation 1 or 2 from being performed without permission when power is input, the operation 1 or 2 is performed only after a predetermined time elapses after the power is input (switching mode). 2).
6). The user can select which of the switching modes 4 and 5 above.
7). The above setting 6 can be determined when the user uses the display device for the first time.
8). With respect to the display device activated in accordance with the above procedure or the user's request to turn on the power, the power can be automatically turned off when a state where all the input terminals are in the no-signal state continues for a predetermined time.
According to the above features 1 to 8, the present invention can perform the switching operation of the input terminal of the display device by using only the insertion / extraction of the cable connecting the device that outputs a signal and the input terminal without using the GUI. Therefore, since it is not necessary for the user to learn a special GUI or operation method, the display device can be switched by anyone. In addition, the display device can reduce the cost of installing a GUI, operation buttons, and the like. Note that the switching mode 1 of the above feature 4 is when the power is restored after a power failure occurs (when the power supply of the display device is turned off and on by the breaker of the switchboard or when an instantaneous power failure occurs due to lightning, etc.) Is assumed to be selected by a user who wants to prevent the user from switching without permission. The switching mode 2 of the feature 5 is assumed to be selected by a user who does not want the input terminal to be switched without permission during the operation of the display device.

<Embodiment 1>
Embodiment 1 is an embodiment in which when an input terminal is inserted or removed, the input terminal is switched to the inserted input terminal. Embodiment 1 shows an example of a switching procedure when one input terminal is inserted. Moreover, the display apparatus 100 in Embodiment 1 can discriminate between a signal input to the input terminal and noise, and can automatically switch to the input terminal to which a non-noise signal is input.

  First, input terminals provided on the rear surface of the display device 100 shown in FIG. 1 will be described. The display device 100 in FIG. 1 is a projector device. As shown in the figure, on the rear surface of the display device 100, there are an RS232C terminal 1, an output terminal 2, an input terminal (T1) 11, an input terminal (T2) 12, an input terminal (T3) 13, an input terminal (T4) 14, and an input terminal ( T5) 15 is provided. The RS-232C terminal 1 is a terminal connected to operate the display device 100 from a computer. The output terminal 2 is a terminal connected to a computer monitor. The input terminal (T1) 11 is a terminal connected to the analog component device. The input terminal (T2) 12 is a terminal connected to the S video device. The input terminal (T3) 13 is a terminal connected to the composite video apparatus. The input terminal (T4) 14 is a terminal connected to the DVI-D device. The input terminal (T5) 15 is a terminal connected to the LAN.

  Next, functions of the display device 100 shown in FIG. 2 will be described. As illustrated, the display device 100 includes an input terminal (T1) 11, an input terminal (T2) 12, an input terminal (T3) 13, an input terminal (T4) 14, an input terminal (T5) 15, a synchronization signal detection circuit 20, It comprises a detection circuit 30, a selector / multiplexer 40, an input / output processing unit 50, an EEPROM 51, an image processing circuit 60, a panel control circuit 70, a panel 80, a control power supply 90, an RS232C terminal 1 and an output terminal 2. The input / output processing unit 50 is provided with an input terminal switching processing unit 50a and an activation method setting processing unit 50b. The input terminal switching processing unit 50a is a part that is also used in the second embodiment to be described later. Moreover, the starting method setting process part 50b is a site | part used by Embodiment 3 mentioned later. The input terminals (T1) 11 to (T5) 15 in FIG. 2 correspond to the input terminals (T1) 11 to (T5) 15 in FIG. The RS232C terminal 1 and the output terminal 2 in FIG. 2 correspond to the RS232C terminal 1 and the output terminal 2 in FIG.

  The synchronization signal detection circuit 20 determines the presence / absence of signals input from the input terminal (T1) 11, the input terminal (T2) 12, the input terminal (T3) 13, the input terminal (T4) 14, and the input terminal (T5) 15. Circuit. However, for the input terminal (T 5) 15, the determination result of the presence or absence of an input signal is output to the synchronization signal detection circuit 20 through the detection circuit 30. The detection circuit 30 outputs a signal determined from the signal from the input terminal (T5) 15 and the process executed by the input / output processing unit 50 to the synchronization signal detection circuit 20. The synchronization signal detection circuit 20 outputs the input signal presence / absence determination result of each input terminal to the selector multiplexer 40.

A method for determining the presence / absence of a signal at the input terminal using the synchronization signal detection circuit 20 and the detection circuit 30 will be described by classifying from (1) to (7) according to the type of the external device connected to the display device 100.
(1) Composite video apparatus or S video apparatus In the case of a composite video apparatus or S video apparatus, a video signal such as NTSC, PAL, SECAM, or S / video separated by Y / C is applied to the input terminal of the display apparatus 100. Signal. When the sync signal detection circuit 20 can detect Vsync = 60 Hz / 50 Hz, Hsync = 15 kHz, which is a sync signal of a video signal such as NTSC / PAL / SECAM, or a Y / C separated S video signal, Assume there is a signal. Since the input terminal (T2) 12 is connected to the S video device, the presence or absence of a signal is determined by the method (1). Also, since the input terminal (T3) 13 is connected to the composite video apparatus, the presence or absence of a signal is determined by the method (1).
(2) Analog VGA device or analog component device In the case of an analog VGA device or an analog component device, an analog VGA signal or an analog component signal is applied to the input terminal of the display device 100. The synchronization signal detection circuit 20 detects any of the following synchronization signals (a) to (d) of the analog VGA signal or the analog component signal. When the signal detection circuit 20 detects a synchronization signal having a frequency that can be input, it is determined that there is a signal at the input terminal.
(A) Independent HS / VS signal (waveform to independent terminal)
(B) Composite-On-H (Composite HS / VS signal to HS terminal)
(C) Sync-On-Green (HS / VS signal superimposed on G terminal video)
(D) HS / VS synchronization signal superimposed on the color difference luminance signal For PCs equipped with analog VGA, the synchronization signal detection circuit 20 is an ID unique to the display that informs the PC of the model name and setting value of the connected monitor. When an applied voltage to EDID can be detected, it is possible to have a signal at the input terminal. Since the input terminal (T1) 11 is connected to the analog component device, the presence / absence of a signal is determined by the method (2).
(3) DVI-D Device In the case of the input terminal of the DVI-D device, a voltage of +5 V is always applied to the input terminal of the display device 100. The synchronization signal detection circuit 20 determines that there is a signal at the input terminal when a voltage of +5 V can be detected.
(4) HDMI device In the case of an HDMI device, a voltage of +5 V is always applied to the input terminal. The synchronization signal detection circuit 20 determines that there is a signal at the input terminal when a voltage of +5 V can be detected. However, if the HDMI device includes CEC, which is a standard for realizing a cooperative operation between devices by transmitting a control signal via an HDMI cable, the synchronization signal detection circuit 20 performs input switching by CEC of the HDMI device. When there is a request (CEC IMAGE_VIEW_ON or TEXT_VIEW_ON reception), it is assumed that there is a signal at the input terminal. Since the input terminal (T4) 14 is connected to the DVI-D device, the presence / absence of a signal is determined by the method (3).
(5) LAN or wireless LAN
In the case of LAN or wireless LAN, the signal cable is always connected. For this reason, whether or not a LAN or wireless LAN communication has been received is determined by detecting whether or not the communication has been received using a TCP / IP or UDP / IP application protocol. This detection is performed by monitoring the reception processing of the TCP / IP or UDP / IP application protocol by the input / output processing unit 50. When the detection circuit 30 receives a reception notification of a TCP / IP or UDP / IP application protocol from the input / output processing unit 50, a signal is present at the input terminal. Since the input terminal (T5) 15 is connected to the LAN, the presence / absence of a signal is determined by the method (5).
(6) USB-VGA converter or wireless USB-VGA converter In the case of a USB-VGA converter or wireless USB-VGA converter, the connected external device is handled as a USB display adapter. For this reason, whether or not there is video data is a video cable insertion / extraction, and the video cable insertion / extraction is performed by detecting USB connection / disconnection. This detection is performed by monitoring USB connection / disconnection processing by the input / output processing unit 50. When the detection circuit 30 inputs from the input / output processing unit 50 a connection establishment notification by connection with a wired USB or wireless USB, a signal is present at the input terminal.
(7) USB memory or SD card In the case of a USB memory or SD card, the presence or absence of a signal is determined by whether or not it is connected to the USB memory or SD card. For this reason, whether or not it is connected to a USB memory or an SD card is determined by detecting a connection with a storage medium of a host interface such as a USB host or an SD card reader. This detection is performed by monitoring the connection processing of the host interface with the storage medium by the input / output processing unit 50. When the detection circuit 30 receives a storage medium insertion notification from the input / output processing unit 50, a signal is present at the input terminal.

  The selector multiplexer 40 outputs the input signal presence / absence determination result of the input terminal from the synchronization signal detection circuit 20 to the input / output processing unit 50. The selector multiplexer 40 selects the input terminal based on the input terminal switching request output from the input / output processing unit 50. Next, when the selector multiplexer 40 receives a signal from the selected input terminal, it outputs a signal to the image processing circuit 60 and the panel control circuit 70.

  The input / output processing unit 50 performs the above-described (5) TCP / IP or UDP / IP application protocol reception processing, (6) USB connection / disconnection processing, and (7) storage media connection processing. This is the part to be performed. The input terminal switching processing unit 50 a of the input / output processing unit 50 is a part that switches the input terminal based on the input signal presence / absence determination result of the input terminal output from the selector / multiplexer 40. The input / output processing unit 50 is controlled by a CPU (not shown) that controls the display device 100 in an integrated manner.

  The EEPROM 51 is a rewritable nonvolatile memory connected to the input / output processing unit 50, and stores programs, data, and the like executed by the input / output processing unit 50.

  The image processing circuit 60 performs image processing on the signal output from the selector / multiplexer 40 and outputs the image data subjected to the image processing to the panel 80.

  The panel control circuit 70 is a circuit that controls the panel 80, and includes a lamp ballast circuit that controls the lamp of the panel 80, and the like.

  The panel 80 displays the image data output from the image processing circuit 60.

  The control power supply 90 converts AC power supplied via the breaker 310 of the switchboard 300 into DC power and supplies it to each part of the display device 100. A power switch 91 is provided between the control power supply 90 and the breaker 310.

  The RS232C terminal 1 is connected to the personal computer device main body 210 of the personal computer device 200 that operates the display device 100. The output terminal 2 is connected to the monitor 220 of the personal computer device 200 on which the operation menu of the display device 100 is displayed.

  Next, the procedure of the input terminal switching process executed by the input terminal switching processing unit 50a of the display device 100 will be described. The input terminal switching processing unit 50a can determine whether the signal input to the input terminal is noise, and can switch the input terminal when it is noise. FIG. 3A is a flowchart showing the procedure of the input terminal switching process. FIG. 3B is a flowchart showing the procedure of the signal presence / absence determination subroutine process S40 called from the input terminal switching process. X (X = 1 to 5) in the input terminal switching process shown in FIG. 3 (1) and the signal presence / absence determination subroutine process (S40) shown in FIG. 3 (2) is an index number for indicating an input terminal. The input terminals (TX) (X = 1 to 5) correspond to T1 to T5 in FIGS. C1 to C5 are signal counters that count the number of times there is a signal, and correspond to T1 to T5. C1 to C5 are initialized when there is no signal. Z1 to Z5 are non-signal counters for counting the number of times of no signal, and correspond to T1 to T5. Z1 to Z5 are initialized after switching the input terminal (TX). N1 is the number of times that a predetermined signal is present for the signaled counter CX (X = 1 to 5), and N2 is the predetermined number of no signal for the signalless counter ZX (X = 1 to 5). Is the number of times. That is, it is determined whether CX is equal to or greater than N1, further determines whether ZX is smaller than N2, and when CX is equal to or greater than N1 and ZX is smaller than N2, the corresponding input terminal (TX) is switched.

  First, the input terminal switching process shown in FIG. 3 (1) will be described in the order of steps, and then the signal presence / absence determination subroutine process (S40) shown in FIG. 3 (2) will be described in the order of steps. When the display device 100 is turned on by the user or when the display device 100 in a standby state is activated by the user, the input terminal switching processing unit 50a starts the input terminal switching process.

(Step S10)
First, the input terminal switching processing unit 50a initializes the signal presence counter CX = 0 (X = 1 to 5) of the input terminal (TX) (X = 1 to 5).

(Step S20)
Next, the input terminal switching processing unit 50a initializes the no-signal counter ZX = 0 (X = 1 to 5) of the input terminal (TX) (X = 1 to 5).

(Step S30)
Next, the input terminal switching processing unit 50a initializes (X = 1) the index number (X) of the input terminal (TX).

(Step S40)
Next, the input terminal switching processing unit 50a calls a signal presence / absence determination subroutine process (S40) shown in FIG. 3 (2) to determine the presence / absence of a signal at the input terminal (TX). When there is a signal, the signal presence counter CX of the corresponding input terminal (TX) is incremented and updated. When there is no signal, the no-signal counter ZX of the corresponding input terminal (TX) is incremented and updated. The procedure of the signal presence / absence determination subroutine process (S40) will be described later.

(Step S50)
Next, the input terminal switching processing unit 50a increments and updates the index number (X) of the input terminal (TX) (X = X + 1).

(Step S60)
Next, the input terminal switching processing unit 50a determines whether or not the presence / absence of signals has been determined for all the input terminals (TX) (X> 5). When it is determined whether or not there is a signal for all the input terminals (TX) (Yes in step S60), the process proceeds to step S70 for determining whether there is a signal counter CX that is N1 or more. Further, when the signal presence / absence determination is not performed for all the input terminals (TX) (No in step S60), the signal presence / absence determination subroutine processing S40 is performed to determine the presence / absence of the signal for the next input terminal (TX). The process returns to the calling step S40.

(Step S70)
When step S60 is Yes, the input terminal switching processing unit 50a checks all the signal presence counters CX and determines whether there is a signal presence counter CX equal to or greater than N1. For example, since the display device 100 according to the first embodiment has five input terminals (TX), it is determined whether the signal-carrying counters C1 to C5 corresponding to the input terminals T1 to T5 are N1 or more. When there is a signal counter CX equal to or greater than N1 in the signal counter CX (Yes in step S70), the process proceeds to step S80 for determining whether the signalless counter ZX corresponding to CX is equal to or greater than N2. If the signal counter CX has no signal counter CX greater than or equal to N1 (No in step S70), the index number (X) of the input terminal (TX) is initialized (I = 1). Return to.

(Step S80)
When step S70 is Yes, the input terminal switching processing unit 50a determines whether the signalless counter ZX corresponding to CX that is N1 or more is N2 or more. When the no-signal counter ZX corresponding to CX which is N1 or more is N2 or more (Yes in Step S80), the index number (X) of the input terminal (TX) is initialized (X = 1). Return to. When the signalless counter ZX corresponding to CX that is N1 or more is not N2 or more (No in Step S80), the process proceeds to Step S90 for switching to the input terminal (TX) corresponding to CX that is N1 or more.

(Step S90)
When step S80 is No, the input terminal switching processing unit 50a outputs a request for switching to the input terminal (TX) corresponding to CX that is N1 or more to the selector multiplexer 40. When the selector multiplexer 40 receives an input terminal (TX) switching request, the selector multiplexer 40 selects the input terminal (TX) based on the switching request.

(Step S100)
Next, the input terminal switching processing unit 50a initializes the signalless counters Z1 to Zn (ZX = 0, X = 1 to 5), and initializes the index number (X) of the input terminal (TX) (X = 1) is returned to step S30.

  Next, the signal presence / absence determination subroutine process (S40) shown in FIG. The signal presence / absence determination subroutine process (S40) starts when called from the input terminal switching processing unit 50a in step S40 of the input terminal switching process of FIG. 3 (1).

(Step S41)
First, the input terminal switching processing unit 50a extracts the presence / absence of a signal corresponding to the input terminal (TX) from the determination result of the presence / absence of the input signal output from the selector / multiplexer 40.

(Step S42)
Next, the input terminal switching processing unit 50a determines whether or not there is a signal input to the input terminal (TX) from the presence / absence of a signal corresponding to the input terminal (TX) extracted in step S41. If there is a signal input at the input terminal (TX), the process proceeds to step S43 where the signal presence counter CX corresponding to the input terminal (TX) is incremented and updated (CX = CX + 1). If there is no signal at the input terminal (TX), the process proceeds to step S44 to initialize (CX = 0) the signal counter CX corresponding to the input terminal (TX).

(Step S43)
When step S42 is Yes, the input terminal switching processing unit 50a increments and updates the signaled counter CX corresponding to the input terminal (TX) (CX = CX + 1). The input terminal switching processor 50a returns to step S50 of the input terminal switching process shown in FIG.

(Step S44)
When step S42 is No, the input terminal switching processing unit 50a initializes the signal presence counter CX corresponding to the input terminal (TX) (CX = 0). As described above, by initializing the signal-carrying counter CX when no signal is input, it is determined as noise except when the signal is continuously N1 or more.

(Step S45)
Next, the input terminal switching processing unit 50a increments and updates the signalless counter ZX corresponding to the input terminal (TX) (ZX = ZX + 1). The input terminal switching processor 50a returns to step S50 of the input terminal switching process shown in FIG.

  According to the input terminal switching process of the first embodiment as described above, the display device itself automatically switches the input terminal according to the connection state of the input terminal without any user switching operation of the input terminal. Can do. Further, it is possible to discriminate between a signal input to the input terminal and noise (noise discriminating means) so that the input terminal is not switched when there is noise.

<Embodiment 2>
The display device 100 according to the second embodiment is based on a switching condition based on an elapsed time (hereinafter simply referred to as “elapsed time”) after the control power supply 90 is connected to the display device 100 when the input terminal is connected or disconnected. Thus, it is possible to determine whether to switch the input terminal inserted. In the second embodiment, an example of a switching procedure when one input terminal is inserted as in the first embodiment is shown. When the power is input from the control power supply 90, the input terminal is not switched until the elapsed time (hereinafter referred to as TIME1) so that the input terminal is not switched without permission. For example, when the user turns off the breaker 310 of the switchboard 300 while the power switch 91 of the display device 100 is turned on, the input terminal is not switched without permission for a predetermined time (hereinafter, TIME2). The input terminal can be switched only until the time elapses. In the second embodiment, as in the first embodiment, it is possible to determine whether or not the signal input to the input terminal is noise, and to automatically switch to the input terminal to which a signal that is not noise is input.

  The display device 100 according to the second embodiment is the same as the display device 100 according to the first embodiment illustrated in FIGS. 1 and 2. The EEPROM 51 is switched when the elapsed time is not less than TIME1 which is the first predetermined time (switching mode 1), or is switched when the elapsed time is within TIME2 which is the second predetermined time (switching mode 2). The switching mode selection information in which any one of the switching modes is selected is stored.

  Next, the procedure of the input terminal switching process executed by the input terminal switching processing unit 50a of the display device 100 according to the second embodiment will be described. The input terminal switching processing unit 50a can determine whether the signal input to the input terminal is noise, and can switch the input terminal when it is noise. FIG. 4 is a flowchart showing the procedure of the input terminal switching process. The input terminal switching process shown in FIG. 4 is the same as the input terminal switching shown in FIG. 3A except that step S21, step S22, step S81, step S82 and step 83 are added and step S80 is changed. This is the same as the process flowchart. Further, the signal presence / absence determination subroutine processing S40 called in step S40 of FIG. 4 is the same as the signal presence / absence determination subroutine processing (S40) shown in FIG. 3 (2) of the first embodiment.

  First, the input terminal switching process shown in FIG. 4 will be described in the order of steps. When the display device 100 is turned on by the user or when the display device 100 in a standby state is activated by the user, the input terminal switching processing unit 50a starts the input terminal switching process.

(Step S10)
First, the input terminal switching processing unit 50a initializes the signal presence counter CX = 0 (X = 1 to 5) of the input terminal (TX) (X = 1 to 5).

(Step S20)
Next, the input terminal switching processing unit 50a initializes the no-signal counter ZX = 0 (X = 1 to 5) of the input terminal (TX) (X = 1 to 5).

(Step S21)
Next, the input terminal switching processing unit 50 a takes out the switching mode selection information from the EEPROM 51.

(Step S22)
Next, the input terminal switching processing unit 50a starts counting time.

(Step S30)
Next, the input terminal switching processing unit 50a initializes (X = 1) the index number (X) of the input terminal (TX).

(Step S40)
Next, the input terminal switching processing unit 50a calls a signal presence / absence determination subroutine process (S40) shown in FIG. 3 (2) to determine the presence / absence of a signal at the input terminal (TX). When there is a signal, the signal presence counter CX of the corresponding input terminal (TX) is incremented and updated. When there is no signal, the no-signal counter ZX of the corresponding input terminal (TX) is incremented and updated. The procedure of the signal presence / absence determination subroutine process (S40) will be described later.

(Step S50)
Next, the input terminal switching processing unit 50a increments and updates the index number (X) of the input terminal (TX) (X = X + 1).

(Step S60)
Next, the input terminal switching processing unit 50a determines whether or not the presence / absence of signals has been determined for all the input terminals (TX) (X> 5). When it is determined whether or not there is a signal for all the input terminals (TX) (Yes in step S60), the process proceeds to step S70 for determining whether there is a signal counter CX that is N1 or more. Further, when the signal presence / absence determination is not performed for all the input terminals (TX) (No in step S60), the signal presence / absence determination subroutine processing S40 is performed to determine the presence / absence of the signal for the next input terminal (TX). The process returns to the calling step S40.

(Step S70)
When step S60 is Yes, the input terminal switching processing unit 50a checks all the signal presence counters CX and determines whether there is a signal presence counter CX equal to or greater than N1. For example, since the display device 100 according to the second embodiment has five input terminals (TX), it is determined whether the signal-carrying counters C1 to C5 corresponding to the input terminals T1 to T5 are N1 or more. When there is a signal counter CX equal to or greater than N1 in the signal counter CX (Yes in step S70), the process proceeds to step S80 for determining whether the signalless counter ZX corresponding to CX is equal to or greater than N2. If the signal counter CX has no signal counter CX greater than or equal to N1 (No in step S70), the index number (X) of the input terminal (TX) is initialized (I = 1). Return to.

(Step S80)
When step S70 is Yes, the input terminal switching processing unit 50a determines whether the signalless counter ZX corresponding to CX that is N1 or more is N2 or more. When the no-signal counter ZX corresponding to CX which is N1 or more is N2 or more (Yes in Step S80), the index number (X) of the input terminal (TX) is initialized (X = 1). Return to. When the signalless counter ZX corresponding to CX that is N1 or more is not N2 or more (No in step S80), the process proceeds to step S81 for determining whether the switching mode selection information is the switching mode 1.

(Step S81)
When step S80 is No, the input terminal switching processing unit 50a determines whether the switching mode selection information extracted from the EEPROM 51 is the switching mode 1. When the mode is the switching mode 1 (Yes in step S81), the process proceeds to step S82 for determining whether the elapsed time is TIME1 or more. When it is not the switching mode 1 (No in Step S81), the process proceeds to Step S83 for determining whether the elapsed time is within TIME2.

(Step S82)
When step S81 is Yes, the input terminal switching processing unit 50a determines whether or not the elapsed time at which the counting is started in step S22 is equal to or greater than a predetermined TIME1. When it is TIME1 or more (Yes in step S82), the process proceeds to step S90 for switching to the input terminal (TX) corresponding to CX that is N1 or more. When it is not equal to or greater than TIME 1 (No in step S82), the process returns to step S30 where the index number (X) of the input terminal (TX) is initialized (X = 1).

(Step S83)
When step S81 is No, the input terminal switching processing unit 50a determines whether or not the elapsed time when the counting is started in step S22 is within a predetermined TIME2. When it is within TIME2 (Yes in step S83), the process proceeds to step S90 for switching to the input terminal (TX) corresponding to CX that is N1 or more. When it is not within TIME2 (No in step S83), the input terminal switching processing unit 50a returns to step S30 for initializing (X = 1) the index number (X) of the input terminal (TX).

(Step S90)
When step S80 is No, the input terminal switching processing unit 50a outputs a request for switching to the input terminal (TX) corresponding to CX that is N1 or more to the selector multiplexer 40. Upon receiving the input terminal (TX) switching request, the selector multiplexer 40 selects the input terminal (TX) based on the input terminal (TX) switching request.

(Step S100)
Next, the input terminal switching processing unit 50a performs no signal counter ZX = 0 (X = 1 to 5), and initializes (X = 1) the index number (X) of the input terminal (TX). Return to.

  According to the input terminal switching process of the second embodiment as described above, the display device itself is adapted to the connection state of the input terminal based on the switching condition based on the elapsed time without performing any switching operation of the input terminal by the user. The input terminals can be switched automatically. By switching the connection of the input terminals based on the switching condition based on the elapsed time in this way, it is possible to prevent the input terminal from being unintentionally switched by the user. Further, it is possible to discriminate between a signal input to the input terminal and noise (noise discriminating means) so that the input terminal is not switched when there is noise.

<Embodiment 3>
The third embodiment is an embodiment in which either the switching mode 1 or the switching mode 2 can be selected when starting the display device, and the switching process of the input terminal of the display device is performed in the selected switching mode.

  The display device 100 according to the third embodiment is the same as the display device 100 according to the first embodiment illustrated in FIGS. 1 and 2. It should be noted that the activation method setting processing unit 50b of the input / output processing unit 50 does not switch between “switching mode 1” and “switching mode 2” when the display device 100 is activated for the first time after shipment (hereinafter referred to as activation setting selection item). Is stored in the EEPROM 51. The EEPROM 51 stores initial activation information that can be used to determine whether the activation is the first activation after shipment.

  Next, the procedure of the activation method setting process executed by the activation method setting processing unit 50b of the display device 100 according to the present embodiment will be described. FIG. 5 is a flowchart showing the procedure of the activation method setting process. The activation method setting process shown in FIG. 5 will be described in the order of steps. FIG. 5 is a flowchart when the switching mode is set by the user when starting for the first time after shipment. First, the personal computer device main body 210 of the personal computer device 200 is connected to the RS232C terminal 1 shown in FIG. 2, and the monitor 220 of the personal computer device 200 is connected to the output terminal 2. When the user turns on the power switch 91 of the display device 100, the activation method setting processing unit 50b starts the activation method setting process. When the display device 100 includes setting means such as an operation panel, the setting can be made directly from the main body of the display device 100 without being connected to the personal computer device 200.

(Step S210)
First, the activation method setting processing unit 50 b takes out the initial activation information from the EEPROM 51.

(Step S220)
Next, the activation method setting processing unit 50b determines whether the activation is the first activation after shipment from the initial activation information extracted from the EEPROM 51. When starting for the first time after shipment (Yes in step S220), the process proceeds to step S230 where the start setting selection item is displayed on the monitor 220 of the personal computer device 200. If it is not the first activation after shipment (No in step S220), the activation method setting processing unit 50b ends the activation method setting process.

(Step S230)
Next, the activation method setting processing unit 50 b outputs image data of the activation setting selection item to the output terminal 2 in order to display the activation setting selection item on the monitor 220 of the personal computer device 200. An image for selecting “Switch input terminal in switching mode 1” or “Switch input terminal in switching mode 2” is displayed on the monitor 220.

(Step S240)
Next, when the user selects either “switch the input terminal in the switching mode 1” or “switch the input terminal in the switching mode 2” by an operation from the personal computer device 210, the RS232C terminal 1 is selected. The selected startup setting selection item is output. The activation method setting processing unit 50b inputs an activation setting selection item selected from the RS232C terminal 1.

(Step S250)
Next, the activation method setting processing unit 50b determines whether “switch input terminal in switching mode 1” is selected. When “switch input terminal in switching mode 1” is selected (Yes in step S250), the setting item “switch input terminal in switching mode 1” is stored in the EEPROM 51 in step S260. move on. When “switch input terminal in switching mode 2” is selected (No in step S250), a setting item “switch input terminal in switching mode 2” is stored in the EEPROM 51. S270 Proceed to

(Step S260)
Next, the activation method setting processing unit 50 b stores a setting item “switch input terminal in switching mode 1” in the EEPROM 51.

(Step S270)
Next, the activation method setting processing unit 50 b stores a setting item “switch input terminal in switching mode 2” in the EEPROM 51.

(Step S280)
Next, the activation method setting processing unit 50b updates the initial activation information to “initial activation completed”, stores it in the EEPROM 51, and ends the activation method setting process.

  According to the startup method setting process of the third embodiment as described above, when “switch input terminal in switching mode 1” is selected, the control power supply 90 is connected to the display device 100, and the power supply of the display device 100 is connected. When the switch 91 is turned on, the input terminal switching processing unit 50a of the display device 100 after a predetermined time automatically executes the input terminal switching process. Accordingly, when the control power supply 90 is turned on by the power switch 91 of the display device 100 at a place where the display device 100 is used, the display device 100 is automatically switched to an input terminal to which a signal is input. Further, when “switch input terminal in switching mode 2” is selected, a power failure occurs when the power switch 91 of the display device 100 is on, and then power is restored (the breaker 310 of the switchboard 300 is turned off, When the breaker 310 of the display device 100 is turned on within a predetermined time when the power is turned on or when an instantaneous power failure occurs, the input terminal switching processing unit 50a of the display device 100 automatically performs the input terminal switching processing. To run. Therefore, when the breaker 310 is turned on when the display device 100 is fixed at a high position where the user cannot easily operate, the input terminal is automatically switched to the signal input terminal. When “Switch input terminal in switching mode 1” is set, the supply of power from the breaker 310 is stopped due to a power failure, and then the power supply is automatically supplied from the breaker 310 by a power recovery (such as an instantaneous power failure). Since the input terminal is not switched even when the operation is started, unintentional switching of the input terminal can be prevented.

  In the present embodiment, the display device 100 provided with five input terminals has been described, but the number of input terminals is not limited to this. In addition, the embodiment in the case where one input terminal is connected to the display device 100 has been described. However, by selecting an input terminal with priority on the last arrival, a new connection can be made without disconnecting the cable from the already connected input terminal. It is also possible to switch to an input terminal to which a cable is connected. Also, the cable connected to the input terminal can be wireless. In addition, when there is no signal from all the input terminals for a certain period of time, the display device 100 can be automatically turned off. Further, in the display device 100 having a lamp, it is also possible to automatically turn on the lamp of the display device 100 when a signal input is accepted at an input terminal that has not received a signal for a certain period of time from the standby state. .

  The user connects the cable of the external device to the input terminal of the display device 100 without performing an input operation or an input operation based on the picture to be displayed (wireless connection is not necessary for the wireless device, and the cable remains connected). If this is the case, the connection of the cable is not necessary), and the signal is output by turning on the power of the external device, so that the signal can be switched. As described above, according to the first and second embodiments, the “input switching button” is not necessary, and the “power switch of the display device” is not necessary according to the third embodiment, so that the space for the power switch can be reduced. Due to such an effect, the present invention can be applied to an ultra-compact projector apparatus having no space having an operation panel or a remote control receiver. Accordingly, the size of the display device can be reduced, and as a result, the cost of the display device can be reduced.

  As mentioned above, although this invention was demonstrated by specific embodiment, it cannot be overemphasized that the said embodiment is an illustration of this invention and is not limited to this embodiment.

  The present invention is suitable for a display device, but is not limited to a display device, and can be applied to any device that includes a plurality of input terminals and inputs signals from the input terminals.

1 ... RS232C terminal 2 ... Output terminal 11 ... Input terminal (T1)
12 .... Input terminal (T2)
13 ... Input terminal (T3)
14 .... Input terminal (T4)
15 ......... Input terminal (T5)
20 ..... Sync signal detection circuit 30 ..... Detection circuit 40 ..... Selector multiplexer 50 ..... Input / output processing unit 50a ... Input terminal switching processing unit 50b ... Start-up method setting processing unit 51 ... EEPROM
60... Image processing circuit 70... Panel control circuit 80... Panel 90. ········ Power switch 100 ······· Display device 200 ········· PC device 210 ················· PC device body 220・ ・ ・ ・ ・ ・ ・ ・ Monitor 300 ・ ・ ・ ・ ・ ・ ・ ・ ・ Switchboard 310 ・ ・ ・ ・ ・ ・ ・ ・ breaker

Claims (10)

In a display device that displays an image by inputting a signal from a device connected to any of a plurality of input terminals,
Signal detection means for detecting the presence or absence of a signal at the input terminal;
An input terminal switching means for switching an input terminal of the plurality of input terminals to an input terminal in which the presence of a signal is detected by the signal detection means;
A display device comprising:   2. The display according to claim 1, wherein the input terminal switching unit switches the input terminal when an elapsed time after power is input to the display device is equal to or longer than a predetermined time. apparatus.   The display according to claim 1, wherein the input terminal switching unit switches the input terminal when an elapsed time after power is input to the display device is within a predetermined set time. apparatus.   When the display device is shipped for the first time after startup, the input terminal can be switched after a predetermined time has elapsed since the power was turned on, or the input terminal can be switched within a predetermined time after the power is turned on. 4. The display device according to claim 1, further comprising activation method setting means for storing any activation setting selection item.   5. The display device according to claim 4, wherein the input terminal switching unit switches the signal of the input terminal based on the activation setting selection item set by the activation method setting unit. .   6. The display device according to claim 5, wherein the activation method setting means selects and sets the activation setting selection item by a computer connected to the display device.   The display device according to any one of claims 4 to 6, further comprising storage means for storing first-time activation information indicating whether or not the display device is activated for the first time after shipment.   The display device according to claim 1, wherein the display device is a projector device. The input terminal switching means includes noise determining means for determining whether the signal of the input terminal is noise,
9. The display device according to claim 1, wherein when the noise determination unit determines that the signal of the input terminal is not noise, the display device is switched to the input terminal. 9. In a display device that displays an image by inputting a signal from a device connected to any of a plurality of input terminals,
A signal detection step of detecting the presence or absence of a signal at the input terminal;
An input terminal switching step of switching the input terminal to the input terminal from which the presence of a signal is detected by the signal detection step among the plurality of input terminals;
A signal switching method for a display device, comprising:

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