JP2009159194A - Image pickup device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image pickup device which controls an video image signal which is displayed in a plurality of connected monitors. <P>SOLUTION: In the image pickup device 100, a system control unit 103 selects the photographed video image signal as an video image signal output to a high resolution output terminal 108, and an video image signal different from the photographed video image signal as an video image signal output to a standard resolution output terminal 109 when connection to the standard resolution monitor and the high resolution monitor is detected. An image processing unit 102 converts the selected video image signal to video image signals corresponding to the high resolution output terminal 108 and the standard resolution output terminal 109, and outputs the converted video image signals to the high resolution monitor and the standard resolution monitor through the corresponding high resolution output terminal 108 and the corresponding standard resolution output terminal 109. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an imaging apparatus.

Currently, imaging apparatuses such as digital cameras that can output images captured on television monitors and videos are widely used. Among such imaging devices, there is one that switches a video signal in accordance with a connected external monitor output cable (see, for example, Patent Document 1). In this imaging apparatus, the connection state of various television monitor output cables is determined, and a high resolution or standard video signal is output to the video output terminal according to the determination.
JP 2005-101865 A

By the way, in the market, there is a demand to connect a plurality of monitors to an imaging device and select a video signal to be displayed for each monitor. However, in the technique described in Patent Document 1, a plurality of monitors are connected to the imaging device at the same time. There is a problem that the case is not considered.
The present invention has been made in view of the above points, and an object thereof is to provide an imaging apparatus capable of controlling video signals to be displayed on a plurality of connected monitors.

The present invention has been made to solve the above problems, and one aspect of the present invention is that an external monitor is connected and a plurality of types of output terminals that output video signals to the external monitor; Detection means for detecting connection of an external monitor to an output terminal, and video to be output to each of the output terminals based on the type of the output terminal when the detection means detects connection of a plurality of external monitors Selection means for selecting a signal, and image processing for converting the video signal selected by the selection means into a video signal corresponding to the type of the output terminal, and outputting the converted video signal to an external monitor through the corresponding output terminal And an imaging device.
With this configuration, when a plurality of external monitors are connected, the imaging apparatus selects a video signal to be output to each of the output terminals based on the type of the output terminal to which the external monitor is connected, and the selected video signal Can be converted into a video signal corresponding to the type of output terminal and output to an external monitor.

According to the present invention, the imaging apparatus is connected to an external monitor and outputs a plurality of types of output terminals that output video signals to the external monitor, and a detection unit that detects connection of the external monitor to the plurality of output terminals. Selection means for selecting a video signal to be output to each of the output terminals based on the type of the output terminal when connection of a plurality of external monitors is detected by the detection means; and the selection means Image processing means for converting the received video signal into a video signal corresponding to the type of the output terminal and outputting the converted video signal to an external monitor through the corresponding output terminal.
Thereby, when a plurality of external monitors are connected, the imaging apparatus can convert different video signals into video signals suitable for each of the external monitors and output the video signals to the respective external monitors. It is possible to control a video signal displayed on a connected external monitor.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram illustrating a configuration of an imaging apparatus 100 according to an embodiment of the present invention. The imaging device 100 temporarily stores an imaging unit 101, an image processing unit 102, a system control unit 103 that performs overall control of the imaging device 100, an image display unit 104, a user setting unit 105, and image data. An image memory 106, a storage medium 107 for storing and storing image data, a high resolution output terminal 108, a standard resolution output terminal 109, a high resolution output terminal state detection unit 110, and a standard resolution output terminal state detection unit 111. , Including.

  The imaging unit 101 reads out a subject image formed by an optical system (not shown) by a fixed imaging element and outputs it as a video signal to the image processing unit 102.

  The image processing unit 102 has a function of outputting a video signal to the image display unit 104, the high resolution output terminal 108, and the standard resolution output terminal 109 based on the control signal of the system control unit 103. Further, the image processing unit 102 performs gamma correction for adjusting brightness and color saturation and white balance processing for color correction on the video signal captured from the imaging unit 101 based on the control signal of the system control unit 103. The processed video signal is temporarily stored in the image memory 106 as image data. Further, when a recording request is received from the system control unit 103, the image processing unit 102 records the image data temporarily stored in the image memory 106 on the storage medium 107 with or without compression. Let Further, when there is a reproduction request from the system control unit 103, the image processing unit 102 reads the image data from the storage medium 107, temporarily stores it in the image memory 106, and converts the video signal of the image data into an image. The data is output to the display unit 104, the high resolution output terminal 108, or the standard resolution output terminal 109.

  The image display unit 104 is configured by a liquid crystal display or the like, and displays a menu screen or image data stored in the image memory 106. The user setting unit 105 includes various buttons, a touch panel, and the like, and is used for operating the imaging apparatus 100.

  The high resolution output terminal 108 is a terminal for connecting an external output cable of the external monitor, and outputs the video signal input from the image processing unit 102 to an external monitor (high resolution monitor) as a connection destination. Here, the video signal input from the image processing unit 102 is a high-resolution video signal converted to a resolution (high resolution) of a high-resolution monitor. The high-resolution monitor connected to the high-resolution output terminal 108 is a high-definition television monitor or the like. At this time, the high resolution video signal is, for example, a video signal having a resolution of 1920 × 1080 in effective pixels.

The standard resolution output terminal 109 is a terminal for connecting an external output cable of the external monitor, and outputs a video signal input from the image processing unit 102 to a connection destination external monitor (standard resolution monitor). Here, the video signal input from the image processing unit 102 is a standard resolution video signal converted into the resolution (standard resolution) of the standard resolution monitor. The standard resolution monitor connected to the standard resolution output terminal 109 is, for example, an NTSC (National Television Standards Committee) television monitor. At this time, the standard resolution video signal is a video signal having a resolution of about 720 × 480 in the number of effective pixels.
The high resolution video signal is a video signal having a higher resolution than the standard resolution video signal. The high resolution monitor can display at a higher resolution than the standard resolution monitor.

The high resolution output terminal state detection unit 110 detects that an external output cable is connected to the high resolution output terminal 108 and notifies the system control unit 103 of the detection result.
The standard resolution output terminal state detection unit 111 detects that an external output cable is connected to the standard resolution output terminal 109 and notifies the system control unit 103 of the detection result.

  Here, the system control unit 103 outputs the output contents to the image display unit 104, the high resolution output terminal 108, and the standard resolution output terminal 109 according to the external output cable connection state of the high resolution output terminal 108 and the standard resolution output terminal 109. It is configured to have a switching function.

FIG. 2 is a flowchart showing the switching control operation in the system control unit 103 of the present embodiment.
The system control unit 103 first determines whether or not an external output cable is connected based on detection results in the high-resolution output terminal state detection unit 110 and the standard-resolution output terminal state detection unit 111 (step S1).

  When the external output cable is not connected, the process proceeds to step S5, and the system control unit 103 displays image data corresponding to the captured image among the image data stored in the image memory 106 as an image display unit. 104. Specifically, based on the control signal input from the system control unit 103, the image processing unit 102 configures the image display unit 104 with the resolution of the video signal indicating the captured image (that is, the captured video signal). The image is converted into the resolution of the liquid crystal display and output to the image display unit 104. As a result, the captured image is displayed on the image display unit 104.

When the external output cable is connected (step S1: Yes), the system control unit 103 connects the external output cable to the high resolution output terminal 108 based on the detection result of the high resolution output terminal state detection unit 110. It is determined whether or not (step S2).
Here, it is determined whether or not the external output cable is connected to the high resolution output terminal 108 even if the external output cable is connected to the standard resolution output terminal 109. This is to give priority. Thereby, even when a plurality of external monitors are connected, the user can view the video with a higher resolution image.

  If the external output cable is not connected to the high resolution output terminal 108, the system control unit 103 proceeds to step S4 and performs standard resolution output mode processing. That is, the captured image is displayed on the standard resolution monitor and the image display unit 104. Specifically, the video signal captured by the image processing unit 102 is output to the standard resolution monitor and the image display unit 104 based on the control signal input from the system control unit 103. At this time, the image processing unit 102 converts the resolution of the captured video signal into the standard resolution and outputs the standard resolution monitor via the standard resolution output terminal 109. FIG. 3 is a schematic diagram illustrating a screen example displayed on the image display unit 104 and the standard resolution monitor 200 when an external output cable is connected only to the standard resolution output terminal 109. The image display unit 104 and the standard resolution monitor 200 display captured images.

  When an external output cable is connected to the high resolution output terminal 108 (step S2: Yes), the system control unit 103 performs high resolution output mode processing (step S3). That is, the captured image is displayed on the high resolution monitor. Details of the high-resolution output mode processing will be described later.

Note that the switching control process shown above is always performed. For example, when an external output cable is connected to the high resolution output terminal 108 while outputting a video signal captured on the standard resolution monitor 200, the standard resolution is displayed. The output to the monitor 200 is stopped, and the image signal captured on the high resolution monitor is output.
In step S4, the captured image is displayed on the image display unit 104. However, a menu screen may be displayed on the image display unit 104.

FIG. 4 is a flowchart showing the operation of the high resolution output mode processing in the system control unit 103 of the present embodiment.
The system control unit 103 first determines whether an external output cable is connected to the standard resolution output terminal 109 based on the detection result of the standard resolution output terminal state detection unit 111 (step S11). If an external output cable is connected to the standard resolution output terminal 109, the system control unit 103 displays a menu screen on the standard resolution monitor 200 (step S12). Specifically, based on the control signal input from the system control unit 103, the image processing unit 102 converts the resolution of the video signal indicating the menu screen into the standard resolution, and the standard resolution is output via the standard resolution output terminal 109. Output to the monitor 200.

  On the other hand, when the external output cable is not connected to the standard resolution output terminal 109, the system control unit 103 restricts the output to the standard resolution monitor 200 (step S13).

Next, the system control unit 103 displays a menu screen on the image display unit 104 (step S14). Specifically, based on the control signal input from the system control unit 103, the image processing unit 102 converts the resolution of the video signal indicating the menu screen into the resolution of the liquid crystal display that constitutes the image display unit 104, and the image is displayed. The data is output to the display unit 104.
Next, the system control unit 103 displays the captured image on the high resolution monitor connected to the high resolution output terminal 108 (step S15). Specifically, based on the control signal input from the system control unit 103, the image processing unit 102 converts the resolution of the captured video signal to a high resolution and outputs a high resolution monitor via the high resolution output terminal 108. Output to.

  As described above, when an external monitor having a different resolution is connected, the imaging apparatus 100 displays the captured image on the high resolution monitor 300 and displays the menu screen on the standard resolution monitor 200 and the image display unit 104. . This eliminates the need to display a menu screen on top of the captured image, and allows the user to view fine video from the high resolution monitor 300 to every corner.

  FIG. 5 is a schematic diagram showing an example of a screen displayed on each monitor in the high resolution output mode processing. In the screen shown in FIG. 5, a menu screen is displayed on the image display unit 104 and the standard resolution monitor 200. In addition, the captured image is displayed on the high resolution monitor 300. The menu screen shown in FIG. 5 is a menu screen for image processing performed on the image displayed on the high resolution monitor 300. For example, when the user selects “Resize” on the menu screen displayed on the standard resolution monitor 200, the size of the image displayed on the high resolution monitor 300 can be changed.

  As described above, according to the present embodiment, when a plurality of external monitors are connected to the imaging apparatus 100, the imaging apparatus 100 selects a higher resolution external monitor and displays the captured image on the external monitor. To do. At that time, since a different screen (for example, a menu screen) from the selected external monitor is displayed on the other external monitor, it is possible to control video signals to be displayed on a plurality of connected external monitors. . Thereby, even when a plurality of external monitors are connected, the user can view the video with a higher resolution image. In addition, even when the imaging device is shooting, the resolution of the captured video signal is converted to a high resolution and output to the high resolution monitor 300, so that video display utilizing the performance of the high resolution monitor 300 is possible.

  Next, an imaging apparatus 100 according to the second embodiment of the present invention will be described. The imaging apparatus 100 according to the present embodiment captures an image on the standard resolution monitor 200 when monitor information cannot be acquired from the high resolution monitor 300 even when an external output cable is connected to the high resolution output terminal 108. The displayed image is displayed. Since other configurations are the same as those of the first embodiment, the description thereof is omitted.

FIG. 6 is a flowchart showing the switching control operation in the system control unit 103 of the present embodiment.
If the system control unit 103 determines in step S3 that an external output cable is connected to the high resolution output terminal 108, the system control unit 103 acquires monitor information from the high resolution monitor 300 connected to the high resolution output terminal 108 (step S3). S21). Specifically, a monitor information acquisition request is transmitted to the high resolution monitor 300. Next, the system control unit 103 determines whether or not the monitor information has been normally acquired (step S22). At this time, if the monitor information cannot be received from the high resolution monitor 300, or if the received monitor information is not valid, it is determined that the monitor information could not be acquired. If the acquisition is successful, the system control unit 103 performs the high resolution output mode process shown in FIG. 4 (step S23).

  If the monitor information is not successfully acquired, the system control unit 103 restricts the output to the high resolution monitor 300 (step S24), and is the external resolution cable connected to the standard resolution output terminal 109? It is determined whether or not (step S25).

If an external output cable is not connected to the standard resolution output terminal 109, the process proceeds to step 27, and the system control unit 103 restricts output to the standard resolution monitor 200. On the other hand, if an external output cable is connected to the standard resolution output terminal 109, the system control unit 103 displays the captured image on the standard resolution monitor 200 (step S26).
Finally, the system control unit 103 displays the captured image on the image display unit 104 (step S28).

  In step S28, the captured image is displayed on the image display unit 104. However, a menu screen may be displayed on the image display unit 104.

  As described above, according to the present embodiment, the imaging apparatus 100 can acquire monitor information from the high-resolution monitor 300 even when the external output cable is connected to the high-resolution output terminal 108. The captured image is displayed on the standard resolution monitor 200. Thereby, the imaging apparatus 100 can display an image normally even when the power of the high-resolution monitor 300 is turned off, for example.

Also, a program for realizing the steps shown in FIGS. 2, 4 and 6 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed. Thus, the switching control process may be performed. Here, the “computer system” may include an OS and hardware such as peripheral devices.
Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” means a flexible disk, a magneto-optical disk, a ROM, a writable nonvolatile memory such as a flash memory, a portable medium such as a CD-ROM, a hard disk built in a computer system, etc. This is a storage device.

Further, the “computer-readable recording medium” means a volatile memory (for example, DRAM (Dynamic Random Access Memory)), etc., which hold programs for a certain period of time.
The program may be transmitted from a computer system storing the program in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the “transmission medium” for transmitting the program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
The program may be for realizing a part of the functions described above. Furthermore, what can implement | achieve the function mentioned above in combination with the program already recorded on the computer system, and what is called a difference file (difference program) may be sufficient.

  As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to the above, and various design changes and the like can be made without departing from the scope of the present invention. It is possible to

  For example, in the present embodiment, the case where there are two output terminals, that is, the high resolution output terminal 108 and the standard resolution output terminal 109 has been described, but two or more output terminals may be provided. At this time, the output terminal for outputting the captured video signal is an output terminal for connecting an external monitor having the highest resolution.

  When a plurality of external monitors are connected, the menu screen is displayed on the standard resolution monitor 200 and the image display unit 104, but thumbnail images may be displayed as a list. FIG. 7 is a schematic diagram showing an example of a screen displayed on each monitor in the high resolution output mode processing. In the screen shown in FIG. 7, thumbnail images, which are reduced images, are displayed on nine screens of 3 × 3 in the image display unit 104 and the standard resolution monitor 200. The high resolution monitor 300 displays an image indicated by the thumbnail image 21 surrounded by a thick black frame displayed on the image display unit 104 and the standard resolution monitor 200.

  In the present embodiment, when a plurality of external output cables are connected, the same display is performed on the image display unit 104 and the standard resolution monitor 200. However, different displays may be performed on the respective screens. For example, a menu screen may be displayed on the image display unit 104, a list of thumbnail images may be displayed on the standard resolution monitor 200, and a captured image may be displayed on the high resolution monitor 300.

1 is a block diagram illustrating a configuration of an imaging apparatus according to a first embodiment of the present invention. It is a flowchart which shows the operation | movement of the switching control in the system control part of the embodiment. It is the schematic which showed the example of a screen displayed on the image display part and standard resolution monitor in the embodiment. It is a flowchart which shows the operation | movement of the high resolution output mode process in the system control part of the embodiment. It is the schematic which showed the example of a screen displayed on each monitor in the high resolution output mode process in the embodiment. It is a flowchart which shows the operation | movement of the switching control in the system control part of 2nd Embodiment by this invention. It is the schematic which showed the example of a screen displayed on each monitor in a high resolution output mode process.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 21 ... Thumbnail image 100 ... Imaging device 101 ... Imaging part 102 ... Image processing part 103 ... System control part 104 ... Image display part 105 ... User setting part 106 ... Image memory 107 ... Storage medium 108 ... High-resolution output terminal 109 ... Standard resolution Output terminal 110: High resolution output terminal state detection unit 111: Standard resolution output terminal state detection unit 200: Standard resolution monitor 300 ... High resolution monitor

Claims (6)

An external monitor is connected, and multiple types of output terminals for outputting video signals to the external monitor,
Detecting means for detecting connection of an external monitor to the plurality of output terminals;
A selection means for selecting a video signal to be output to each of the output terminals based on the type of the output terminal when connection of a plurality of external monitors is detected by the detection means;
Image processing means for converting the video signal selected by the selection means into a video signal corresponding to the type of the output terminal, and outputting the converted video signal to an external monitor through the corresponding output terminal;
An imaging apparatus comprising:   The imaging apparatus according to claim 1, wherein the selection unit selects a captured video signal as a video signal output to an output terminal to which an external monitor having the highest resolution is connected.   The selection means selects a video signal different from the captured video signal as a video signal to be output to an output terminal other than an output terminal to which the external monitor having the highest resolution is connected. The imaging device described in 1.   When the selection means detects a connection of an external monitor having a higher resolution than the output terminal while outputting a video signal picked up by the output terminal, the selection means is connected to the output terminal to which the high-resolution external monitor is connected. The imaging apparatus according to claim 2 or 3, wherein the captured video signal is selected as an output video signal.   The selection means outputs to the output terminal to which the next high-resolution external monitor is connected when the monitor information cannot be normally acquired from the external monitor connected to the output terminal that outputs the captured video signal. The imaging apparatus according to claim 2, wherein the captured video signal is selected as a video signal to be processed. The external monitor is
A standard resolution monitor;
A high-resolution monitor,
Have
The output terminal is
A standard resolution output terminal to which the standard resolution monitor is connected;
A high-resolution output terminal to which the high-resolution monitor is connected;
Have
The detection means includes
Standard resolution output terminal status detection means for detecting connection of a standard resolution monitor to the standard resolution output terminal;
High-resolution output terminal state detection means for detecting connection of a high-resolution monitor to the high-resolution output terminal;
Have
The selection means captures an image as a video signal to be output to the high resolution output terminal when connection between the standard resolution monitor and the high resolution monitor is detected by the standard resolution output terminal state detection means and the high resolution output terminal state detection means. 6. The imaging apparatus according to claim 1, wherein a video signal different from the captured video signal is selected as a video signal to be output to the standard resolution output terminal. .

Images