JP2004045913A - Electronic equipment system, electronic equipment, and detachable external display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic equipment system, electronic equipment, and a detachable external display device which enable even electronic equipment which has a small-sized display screen to make display on a large screen at need. <P>SOLUTION: The electronic equipment system comprises electronic equipment main bodies 100 and 101 which have display parts for information display inside and detachable external display devices 200 and 300 which can make display of higher quality than the display parts; and the electronic equipment main bodies 100 and 101 have coupling parts for mounting the detachable external display devices 200 and 300 and when the detachable external display devices 200 and 300 are mounted on the coupling parts, the detachable external display devices 200 and 300 automatically display information. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic apparatus system having a display section for displaying information, an electronic apparatus, and a detachable external display device.
[0002]
2. Description of the Related Art In portable electronic devices such as a mobile phone, a PDA (Personal Digital Assistant), and an electronic camera, an LCD (Text Information, Image Information, etc.) required by a user is incorporated in an electronic device body. It is displayed by electronic display means such as a liquid crystal display device. For example, in an electronic camera, a through image before photographing or a photographed image is displayed on a liquid crystal screen or the like.
[0003]
In such a portable electronic device, it is necessary to reduce the size of the housing of the electronic device in order to improve the user's convenience (for easy storage / transportation). As a result, the size of the display screen of the electronic display means incorporated in the electronic device body is necessarily limited. On the other hand, elderly users who have weakened vision have demanded electronic devices with large screens to make it easier to see information.
[0004]
In such a portable electronic device, a small battery is used as a power source, so that an electronic display unit incorporated in the electronic device body has been selected to have low power consumption. Since the quality (resolution, brightness, response speed, etc.) is a conflicting performance, the user has to be patient with low quality display even in a situation where high quality display is required.
[0005]
Further, in such portable electronic devices, relatively low-cost electronic display means have been selected as electronic display means incorporated in the electronic device body in order to reduce the cost of the electronic device. Since the display quality (resolution, brightness, response speed, etc.) is a conflicting performance, the user has no choice but to endure a low quality display even in a situation where a high quality display is required.
[0006]
Therefore, the present invention provides an electronic device system, an electronic device, and a detachable electronic device that can perform high-quality display as needed even in an electronic device having a low-cost electronic display unit, a low-power electronic display unit, or a small display screen. It is an object of the present invention to provide an external display device.
[0007]
In order to achieve the above object, in an electronic apparatus system, an electronic apparatus, and a detachable external display device according to the present invention, the electronic apparatus system includes a display unit for displaying information. And a detachable external display device capable of displaying a higher quality than the display unit. The electronic device main body includes a coupling portion for mounting the detachable external display device. When a display device is mounted, information is automatically displayed on the detachable external display device.
[0008]
In the electronic device system, the electronic device, and the detachable external display device according to the present invention, the electronic device system includes an electronic device main body having a built-in display unit for displaying information and a detachable display device capable of displaying a display of the same quality as the display unit. The electronic device main body includes a connection portion for mounting a detachable external display device, and is built in the electronic device main body when the detachable external display device is mounted on the connection portion. The display screens of the display means and the display screen of the detachable external display device are arranged close to each other so as to constitute one screen, and the display screen of the detachable external display device attached to the electronic device body is provided. At the time of mounting, one information is displayed on one screen constituted by the two display screens.
[0009]
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a diagram illustrating a combination of an electronic device (an electronic camera in FIG. 1) to which the present invention is applied and a detachable external display device that is detachable from the electronic device. A plurality of types of detachable external display devices 200 and 300 can be attached to the plurality of electronic cameras 100 and 101, respectively, and the user can use the electronic camera alone according to the type of electronic camera to be used and the shooting situation. Alternatively, an appropriate one can be selected from a plurality of types of detachable external display devices according to the application and mounted on an electronic camera for use. For example, when the screen of the display means incorporated in the electronic camera to be used is small and it is difficult to confirm the shooting composition, a detachable external display device with a large screen is attached and used. If the display means incorporated in the electronic camera to be used uses a reflective display device (reflective liquid crystal or the like), and it is difficult to check the composition during night view shooting, a self-luminous display device (organic A detachable external display device on which an EL element or the like is mounted is used. Also, if the display brightness of the display means built into the electronic camera to be used is low and it is difficult to confirm the composition when shooting outdoors with high brightness, use a detachable external display device capable of high brightness display. Attach and use.
[0010]
2 and 3 are external views (front and rear views) of an embodiment of the electronic camera 100 to which the present invention is applied. As shown in FIG. 2, a photographing lens 10 for forming a subject image, a photometric circuit 15 for detecting the brightness of the subject, and a housing of the electronic camera 100 are held on the left front side of the electronic camera 100. A grip 14 is provided for ease of use, and a release button 16 for instructing photographing and a connector 11 for mechanically and electrically mounting the detachable external display device 200 or 300 are provided on the upper surface. A connector 12 for mechanically and electrically mounting a detachable external display device is provided on the same right side as viewed from the front of the electronic camera 100.
[0011]
As shown in FIG. 3, an LCD (reflective liquid crystal display device) 21 having a rectangular screen for displaying text and images is arranged at the upper left corner of the back of the electronic camera 100, and the electronic camera 100 is arranged on the right side of the back. A dial 18 operated for switching between power ON / OFF and an operation mode (a photographing mode and a reproduction mode) and a dot 20 indicating a switching position of the dial 18 are arranged. A left direction button 25 and a right direction button 26 to be used are arranged. A connector 13 for mechanically and electrically mounting the detachable external display device is provided at the lower left of the rear surface. A memory card slot 31 for mounting a memory card 77 (removable storage medium) for storing image data and a battery slot 30 for storing a battery are provided on the right side surface when viewed from the back. Note that the aspect ratio of the display screen of the LCD 21 is approximately 2: 1 in the horizontal and vertical directions. The release button 16, the dial 18, the leftward button 25, and the rightward button 26 are all operation keys operated by the user. The connectors 11, 12, and 13 also include a power supply line for supplying power between the electronic camera 100 and the detachable external device 200 or 300.
[0012]
4 and 5 are external views (a front view and a rear view) of one embodiment of a high-function type detachable external display device 200 to which the present invention is applied. As shown in FIG. 4, a dial 218 operated on the left side of the front of the detachable external display device 200 to switch between power ON / OFF and a reproduction mode when the detachable external display device 200 is used alone for image reproduction. A dot 220 indicating the switching position of the dial 218 is arranged, and below it are arranged a left button 225 and a right button 226 used for switching the reproduced image when the detachable external display device 200 is used alone. In addition, a grip 214 is provided on the front right side to make it easier to hold the housing of the detachable external display device 200. A memory card slot 231 for mounting a memory card 277 (removable storage medium) for storing image data and a battery slot 230 for accommodating a battery are provided on the right side of the removable external display device 200 when viewed from the front. Can be
[0013]
As shown in FIG. 5, an EL display element (light-emitting electroluminescent device) 221 having a rectangular screen for displaying text and images is arranged on almost the entire back surface of the detachable external display device 200. A connector 212 for mechanically and electrically mounting the electronic camera 100 on the right side is connected to the connector 12 of the electronic camera 100. On the lower surface of the detachable external display device 200, a connector 211 (not shown) for coupling to the connector 11 of the electronic camera 100 and mechanically and electrically mounting the electronic camera 100 is provided. A lock member 219 for the connectors 211 and 212 is provided on the upper surface, and the electronic camera 100 and the detachable external display device 200 can be attached and detached only while the lock member 219 is being pressed. Note that the aspect ratio of the display screen of the EL display element 221 is approximately √2: 1 in the horizontal: vertical direction, and the display performance (screen size, resolution, contrast, response time, etc.) of the EL display element 221 is displayed on the LCD 21. Outperforms performance. The dial 218, the left button 225, and the right button 226 are all operation keys operated by the user. The detachable external display device 200 does not receive power supply from the electronic camera 100 even when it is mounted on the electronic camera 100, and receives power from the battery stored in the battery slot 230.
[0014]
6 and 7 are external views (front and rear views) of a normal type detachable external display device 300 to which the present invention is applied. Since the normal type detachable external display device 300 does not have a memory card slot or a battery slot, it cannot be used alone, and receives electric power from the electronic camera 100 when it is attached to the electronic camera 100. As shown in FIG. 6, the housing of the detachable external display device 300 is smaller than the housing of the electronic camera 100. As shown in FIG. 7, an LCD (reflective liquid crystal display device) 321 having a rectangular screen for displaying text and images is arranged on almost the entire back surface of the detachable external display device 300. Is provided with a connector 312 which is connected to the connector 12 of the electronic camera 100 and is mechanically and electrically attached to the electronic camera 100. In addition, a connector 311 (not shown) for coupling to the connector 11 of the electronic camera 100 and mechanically and electrically attached to the electronic camera 100 is provided on the lower surface of the detachable external display device 300. A lock member 319 for the connectors 311 and 312 is provided on the upper surface, and the electronic camera 100 and the detachable external display device 300 can be attached and detached only while the lock member 319 is being pressed. Note that the aspect ratio of the display screen of the LCD 321 is approximately 2: 1 in the width: height direction, the screen size is the same as that of the LCD 21, and the other display performance (screen size, resolution, contrast, response time, etc.) This is equivalent to the display performance of the LCD 21.
[0015]
FIGS. 8 and 9 are views showing a front view and a rear view when the high-function detachable external display device 200 is attached to the electronic camera 100 (connecting the connector 12 and the connector 212). As shown in FIG. 8, a high-performance detachable external display device 200 is arranged on the side of the electronic camera 100 to be horizontally long as a whole. However, the user can hold the grip 14 and the grip 214 and perform stable operation. Becomes possible. As shown in FIG. 9, when a high-performance detachable external display device 200 is attached to the electronic camera 100, the through image in the shooting mode and the reproduced image in the reproduction mode of the electronic camera 100 are displayed on the detachable external display device 200. Is displayed on the EL display element 221.
[0016]
FIGS. 10 and 11 are diagrams showing a front view and a rear view of a case where the removable external display device 300 of the normal type is mounted on the electronic camera 100 (connecting the connector 12 and the connector 312). As shown in FIG. 10, a detachable external display device 300 is arranged on a side surface of the electronic camera 100, and is horizontally long as a whole. When a normal type detachable external display device 300 is mounted on the side of the electronic camera 100 as shown in FIG. 11, the screen of the LCD 21 arranged at the upper left corner on the back of the electronic camera 100 and the LCD 321 of the detachable external display device 300 Are arranged side by side with a slight gap therebetween, and the two screens constitute one landscape screen. In such a state, the electronic camera 100 is in a panoramic shooting mode, and when setting the composition, a horizontally long panoramic through image is displayed on one screen constituted by the LCD 21 and the LCD 321.
[0017]
FIGS. 12 and 13 are views showing a front view and a rear view when the normal detachable external display device 300 is attached to the electronic camera 100 (the connector 11 and the connector 311 are connected). As shown in FIG. 11, a detachable external display device 300 is arranged on a side surface of the electronic camera 100, and is vertically elongated as a whole. As shown in FIG. 12, when a normal type detachable external display device 300 is mounted on the upper part of the electronic camera 100, the screen of the LCD 21 arranged at the upper left corner on the back of the electronic camera 100 and the LCD 321 of the detachable external display device 300 Are vertically arranged with a slight gap therebetween, and the two screens constitute one vertically long screen. The aspect ratio of the vertically long screen is 1: 2 in the width: height direction, and the screen size is twice that of the LCD 21 and the LCD 321. Therefore, the screen is suitable for portrait shooting such as portrait. When the electronic camera 100 is in such a state, the electronic camera 100 is in a shooting mode for a vertical position, and a vertically long through image is displayed on one screen constituted by the LCD 21 and the LCD 321 at the time of composition setting.
[0018]
FIG. 14 is a block diagram showing an example of an electric configuration inside the electronic camera 100 shown in FIGS. 2 and 3. Each component includes a data / control bus 51 for transmitting various information data and control data. Connected to each other. The data / control bus 51 is connected to the data / control bus of the detachable external display device via the connector 11, the connector 12, and the connector 13. The electronic camera 100 includes a block mainly including a photographing control circuit 60 that performs a photographing operation of image data, a block of a memory card 77 that stores and stores an image file, and a screen control circuit that displays image data and related information. A block centered at 92, a block centered on a CPU 50 (central processing unit) that performs overall control of a user interface such as operation keys 65 and control circuits, and a power control circuit 64 that supplies power to each block. It is composed of blocks.
[0019]
The power supply of the electronic camera 100 is a battery 63, and the CPU 50 controls the power supply control circuit 64 according to the operation state of the dial 18. The CPU 50 is a means for controlling the entire electronic camera 100, and includes a shooting control circuit 60, a screen control circuit 92, and a power control circuit in accordance with input information from the operation keys 65, a timer 74, a detachment detection SW 80, the photometric circuit 15, and the like. Various instructions are given to 64 or the like. The attachment / detachment detection switch 80 is a switch for detecting whether or not a detachable external display device is attached to the connector 11, 12 or 13. The photometric circuit 15 measures the luminance of the subject, and outputs photometric data as the measurement result to the CPU 50. The CPU 50 sets the exposure time and sensitivity of the CCD 55 by the CCD drive circuit 56 according to the photometric data, and controls the aperture value of the aperture 53 by the aperture control circuit 54 via the photographing control circuit 60 according to the set data.
[0020]
The CPU 50 controls the photographing operation via the photographing control circuit 60 in response to the operation of the release button 16 in the photographing mode. The timer 74 has a built-in clock circuit, detects date and time information corresponding to the current date and time, and supplies shooting date and time information to the CPU 50 at the time of shooting. The CPU 50 controls each unit according to a control program stored in a ROM 67 (read only memory). The EEPROM 68 (electrically erasable and writable ROM) is a non-volatile memory, and stores setting information and the like necessary for the operation of the electronic camera 100. The RAM 70 is a volatile memory and is used as a temporary work area of the CPU 50.
[0021]
The photographing control circuit 60 performs focusing and zooming of the photographing lens 10 by the lens driving circuit 52, controls the aperture 53 by the diaphragm control circuit 54 to control the exposure amount of the CCD 55, and controls the operation of the CCD 55 by the CCD driving circuit 56. I do. The luminous flux from the subject is formed as a subject image on the CCD 55 by the photographing lens 10 through the diaphragm 53 for adjusting the light amount, and the subject image is picked up by the CCD 55. A CCD 55 (charge-coupled device) having a plurality of pixels is a charge accumulation type image sensor for picking up a subject image, and drives an electric image signal corresponding to the intensity of the subject image formed on the CCD 55 by CCD driving. The signal is output to the analog processing unit 57 according to the drive pulse supplied from the circuit 56. The analog processing unit 57 samples the image signal photoelectrically converted by the CCD 55 at a predetermined timing, and amplifies the sampled signal to a predetermined level. An A / D conversion circuit 58 (analog-to-digital conversion circuit) converts the image signal sampled by the analog processing section 57 into digital data by digitizing the image signal, and a photographing buffer memory 59 temporarily stores the digital data.
[0022]
The photographing control circuit 60 repeats the above operation during the photographing mode, and the screen control circuit 92 reads digital data sequentially stored in the photographing buffer memory 59 via the data / control bus 51 and temporarily stores the digital data in the frame memory 69. The through image display operation of converting the digital data into display image data, storing the converted data in the frame memory 69 again, and displaying the display image data on the LCD 21 is repeated. Further, the screen control circuit 92 obtains text display information from the CPU 50 as necessary, converts the text display information into display text data, stores the text data in the frame memory 69, and causes the LCD 21 to display the display text data. The photographing control circuit 60 detects the focus adjustment state of the photographing lens 10 by analyzing the degree of the high frequency component of the digital data stored in the photographing buffer memory 59, and adjusts the focus of the photographing lens 10 by the lens driving circuit 52 according to the detection result. Do.
[0023]
Upon receiving a shooting instruction from the CPU 50 at the time of release, the shooting control circuit 60 causes the CCD 55 to shoot a subject image via the CCD driving circuit 56, and outputs an image signal generated by the shooting via the analog processing unit 57 and the A / D conversion circuit 58. Then, the image data is temporarily stored in the photographing buffer memory 59 as digital data (raw data). The photographing control circuit 60 converts or compresses the digital data once stored in the photographing buffer memory 59 into a predetermined recording format (such as JPEG) to form image data. The CPU 50 generates an image file by adding predetermined additional information data to the image data, and stores the image file in the memory card 77.
[0024]
In the reproduction mode, the CPU 50 reads the image file stored in the memory card 77, temporarily stores the image data in the frame memory 69, and causes the screen control circuit 92 to display the image data on the LCD 21. Note that when the detachable external display device 200 or 300 is mounted on the electronic camera 100, the CPU 50 transmits image data to the detachable external display device 200 or 300 via the data / control bus 51, and It is displayed on the screen of the display device 200 or 300. The CCD 55 has a substantially square light receiving portion and generates image data corresponding to a square screen. The CPU 50 cuts out image data corresponding to the aspect ratio of the display screen from this image data according to the situation. To display on the display screen.
[0025]
FIG. 15 is a block diagram showing an example of the internal electrical configuration of the detachable external display device 200 shown in FIGS. 4 and 5, where each component is a data / control for transmitting various information data and control data. They are connected to each other via a bus 251. The data / control bus 251 is connected to the data / control bus of the electronic camera via the connectors 211 and 212. The detachable external display device 200 includes a block of a memory card 277 for storing and storing image files, a block mainly including a screen control circuit 292 for displaying image data and related information, and user interfaces such as operation keys 265. It comprises a block centered on a CPU 250 (central processing unit) that performs overall control of each control circuit, a block centered on a power supply control circuit 264 that supplies power to each block, and the like.
[0026]
The power supply of the detachable external display device 200 is a battery 263, and the CPU 250 controls the power supply control circuit 264 according to the operation state of the dial 218. The CPU 250 is a unit that controls the entire detachable external display device 200, and performs various instructions to the screen control circuit 292, the power supply control circuit 264, and the like according to input information from the operation keys 265, the detachment detection SW 280, and the like. The attachment / detachment detection SW 280 is a switch that detects whether the connector 211 or the connector 212 is attached to the electronic camera.
[0027]
The CPU 250 controls each unit according to a control program stored in a ROM 267 (read only memory). The EEPROM 268 (electrically erasable and writable ROM) is a non-volatile memory, and stores setting information and the like necessary for the operation of the detachable external display device 200. The RAM 270 is a volatile memory and is used as a temporary work area of the CPU 250.
[0028]
When the detachable external display device 200 is used alone (playback mode), the CPU 250 reads the image file stored in the memory card 277, temporarily stores the image data in the frame memory 269, and outputs the image data by the screen control circuit 292. The display is performed on the EL display element 221. When the detachable external display device 200 is mounted on the electronic camera, the CPU 250 causes the screen control circuit 292 to display the image data transmitted from the electronic camera on the EL display element 221 via the data / control bus 251.
[0029]
FIG. 16 is a block diagram showing an example of the internal electrical configuration of the detachable external display device 300 shown in FIGS. 6 and 7, where each component is a data / control for transmitting various information data and control data. They are connected to each other via a bus 351. The data / control bus 351 is connected to the data / control bus of the electronic camera via the connectors 311 and 312. The detachable external display device 300 includes a block centered on a screen control circuit 392 that displays image data and related information, and a block centered on a CPU 350 (central processing unit) that performs overall control of each control circuit. Be composed. The power of the detachable external display device 300 is supplied from the electronic camera 100 via the connector 311 or the connector 312. The CPU 350 is a unit that controls the entire detachable external display device 300, and performs various instructions to the screen control circuit 292 according to input information from the detachable detection SW 380. The attachment / detachment detection SW 380 is a switch that detects whether the connector 311 or the connector 312 is attached to the electronic camera. The CPU 350 controls each unit according to a control program stored in a ROM 367 (read only memory). An EEPROM 368 (electrically erasable / writable ROM) is a nonvolatile memory, and stores setting information and the like necessary for the operation of the detachable external display device 300. The RAM 370 is a volatile memory and is used as a temporary work area of the CPU 350. The detachable external display device 300 cannot be used alone, and the image data transmitted from the electronic camera via the data / control bus 351 is displayed on the LCD 321 by the screen control circuit 392 only when attached to the electronic camera.
[0030]
FIG. 17 is a main flowchart of the operation of the electronic camera 100 (CPU 50) in the above embodiment. When the operation is started by operating the dial 18 in S10, it is checked in S11 whether the dial 18 is set to the shooting mode, and the shooting mode is set. If so, the shooting mode subroutine of S20 is executed, and the process returns to S11. If the mode is not set to the photographing mode, it is checked in step S12 whether the dial 18 is set to the reproduction mode. If the mode is set to the reproduction mode, the reproduction mode subroutine of S30 is executed, and the process returns to S11. If the reproduction mode is not set, that is, if the power is turned off, the power is turned off in S13.
[0031]
FIG. 18 is a detailed flowchart of the attach / detach interrupt processing subroutine started when the electronic camera 100 is turned on and when the external display device is attached to / detached from the electronic camera 100 in the above embodiment. When activated, it checks in S101 whether the external display device is attached or detached by the signal of the attachment / detachment detection SW 80, and if it is detached, in S102, the external display device is connected via the connector to which the external display device is attached. The power supply to the external display device is stopped, and the process returns in S105. If an external display device is mounted, it is checked in step S103 whether the mounted external display device is a normal type. If the external display device is a high-function type external display device other than the normal type, a power supply is built in and a connector is connected. Since it is not necessary to supply power to the external display device via the MFP, the process returns in S105. If the attached external display device is of the normal type, it does not have a built-in power supply, so that power supply to the external display device via the connector is started in S104, and the process returns in S105. In step S103, the type of the external display device is identified by the attachment / detachment detection switch 80 of the electronic camera 100 by differentiating the connector shape and the electrical configuration of the external display device for each type.
[0032]
FIG. 19 is a detailed flowchart of the shooting mode subroutine. When started in S20, it is checked in S201 whether a detachable external display device is attached. If not, in S202, through image data is displayed as shown in FIG. Is displayed on the built-in display (LCD 21), and the process proceeds to S208. If it is attached, it is checked whether the detachable external display device attached in S203 is a high-function type. This check is performed based on information obtained by the CPU 50 of the electronic camera communicating with the CPU of the detachable external display device. If the detachable external display device of the high function type is mounted, the through image data is displayed on the display screen of the detachable external display device of the high function type in S204 as shown in FIG. The processing proceeds to S208 without performing the display of ()). If the high-function detachable external display device is not attached, it is checked in step S205 whether the normal detachable external display device is attached to the connector 12 (side surface). This check is performed by the attachment / detachment detection switch 80. When a normal type detachable external display device is attached to the connector 12 (side surface), image data having an aspect ratio of a panoramic image is extracted from the through image data output by the CCD 55 in S206, and the image data is extracted. 11 is displayed on the display screen of the built-in LCD 21 of the electronic camera 100 and the remaining left half image data is displayed on the display screen of the LCD 321 of the detachable external display device as shown in FIG. A panoramic image is displayed, and the process proceeds to S208. If it is determined in step S206 that the normal type detachable external display device is mounted on the connector 11 (upper surface), the aspect ratio (vertical length) of the vertical position shooting is selected from the through image data output by the CCD 55 in step S207. The image data is extracted, the lower half of the image data is displayed on the display screen of the built-in LCD 21 of the electronic camera 100, and the remaining upper half of the image data is displayed on the display screen of the LCD 321 of the detachable external display device. As a result, a vertically-position photographed image as shown in FIG. 13 is displayed, and the process proceeds to S208.
[0033]
In step S208, it is checked whether the release button 16 has been operated. If the release button 16 has not been operated, the process returns to step S210. If the release button 16 has been operated, the image data is stored in the memory card 77 in step S209, and the process returns in step S210. At this time, shooting date / time data by the timer 74 is added to the image data. In the shooting mode as described above, a through image is displayed on the display screen of the electronic camera 100 or the display screen of the detachable external display device in accordance with the state of attachment of the detachable external display device to the electronic camera 100, The image data is recorded according to the operation of the release button.
[0034]
FIG. 20 is a detailed flowchart of the reproduction mode subroutine. When started in S30, it is checked whether or not the memory card 77 is mounted in S301. If not, the image reproduction cannot be performed and the process returns in S313. If so, it is checked in step S302 whether image data is currently being reproduced in the reproduction mode. If not, the latest image data stored in the memory card 77 as an initial state in step S303. (Image data with the latest shooting date / time data) is designated as the reproduced image data, and the flow advances to S306. If the image data is being reproduced, it is checked in step S304 whether the left button 25 or the right button 26 has been operated. If not, the flow returns to step S313 because there is no need to change the reproduced image data. If the operation has been performed, the reproduction image data is designated according to the button operated in step S305, and the flow advances to step S306. That is, when the left button 25 is operated, the image data whose shooting date and time data is one older than the currently reproduced image data is designated as the reproduced image data, and when the right button 26 is operated, the currently reproduced image data is reproduced. The image data in which the order of the shooting date and time data is newer by one than the image data of is set as the reproduction image data.
[0035]
In S306, it is checked whether or not the detachable external display device is mounted. If not, the reproduction image data designated in S307 is read from the memory card 77 and displayed on the built-in display (LCD 21), and the process returns in S313. If it is attached, it is checked in step S308 whether the attached detachable external display device is a high-function type. If the high-function type detachable external display device is attached, the reproduction image data designated in S309 is attached. Is read from the memory card 77 and displayed on the display screen of the high-performance type detachable external display device, the display on the built-in display (LCD 21) is turned off, and the process returns to S313. If the high-function type detachable external display device is not mounted, it is checked in step S310 whether the normal type detachable external display device is mounted on the connector 12 (side surface). If it is attached to the connector 12 (side surface), the reproduced image data specified in S311 is read from the memory card 77, and image data having an aspect ratio of a panoramic image is extracted from the image data. By displaying the right half image data on the display screen of the built-in LCD 21 of the electronic camera 100 and displaying the remaining left half image data on the display screen of the LCD 321 of the detachable external display device, a panoramic image is displayed. To return. When a normal type detachable external display device is mounted on the connector 11 (upper surface), the reproduction image data designated in S312 is read from the memory card 77, and the aspect ratio of the vertical position photographing is selected from the image data (S312). (Vertical) image data, the lower half of the image data is displayed on the display screen of the built-in LCD 21 of the electronic camera 100, and the remaining upper half of the image data is displayed on the display screen of the LCD 321 of the detachable external display device. To display the vertical position photographed image, and the process returns to S313.
[0036]
FIG. 21 is a main flowchart of the operation of the detachable external display device 200 (CPU 250) of the high-function type in the above embodiment. When the operation is started by operating the dial 218 or by turning on the electronic camera 100 in S40, in S401 Check if it is attached to the electronic camera. This check is performed based on information obtained by the CPU 250 of the high-function detachable external display device 200 communicating with the CPU of the electronic camera. If the electronic camera is attached to the electronic camera, the external control mode is set in S402, and the process returns to S401. Therefore, when mounted on the electronic camera, the power supply itself to the detachable external display device 200 is performed by the battery 263 built in the detachable external display device 200, but the power ON / OFF control depends on the operation state of the dial 218. Controlled by an electronic camera. During the external control mode, the image data transmitted from the electronic camera is displayed on the EL display element.
[0037]
If it is determined in step S401 that the dial 218 is not attached to the electronic camera, it is checked in step S403 whether the dial 218 is set to power off. If the power is set to off, the power is turned off in step S404. If the power is not set to OFF, it is checked in step S405 whether the memory card 277 is mounted. If the memory card 277 is not mounted, image reproduction cannot be performed, and the process returns to step S401. If so, it is checked in step S406 whether the image data is currently being reproduced. If not, the latest image data stored in the memory card 277 as the initial state (the date and time of shooting The most recent image data) is designated as the reproduced image data, and the process proceeds to S410. If the image data is being reproduced, it is checked in step S408 whether the left button 225 or the right button 226 has been operated. If not, the process returns to step S401 because there is no need to change the reproduced image data. If the button has been operated, the reproduction image data is designated according to the button operated in step S409, and the flow advances to step S410. That is, when the left button 225 is operated, the image data whose shooting date and time data is one older than the currently reproduced image data is designated as the reproduced image data, and when the right button 226 is operated, the currently reproduced image data is reproduced. The image data in which the order of the shooting date and time data is newer by one than the image data of is set as the reproduction image data. The reproduction image data designated in S410 is read from the memory card 277, displayed on the EL display element 221, and the process returns to S401.
[0038]
FIG. 22 is a main flowchart of the operation of the normal-type detachable external display device 300 (CPU 350) in the above-described embodiment. When power is supplied to the electronic camera in S50 and mounting is started, the electronic camera is mounted in the electronic camera in S501. Check if it is. This check is performed based on information obtained by the CPU 350 of the normal type detachable external display device 300 communicating with the CPU of the electronic camera. If the electronic camera is attached to the electronic camera, the external control mode is set in S502, and the process returns to S501. Therefore, at the time of attachment to the electronic camera, power is supplied to the detachable external display device 300 by the electronic camera, and ON / OFF control of the power is controlled by the operation state of the dial of the electronic camera. During the external control mode, image data transmitted from the electronic camera is displayed on the LCD 321.
[0039]
In the above embodiment (FIGS. 1 to 22), the electronic camera 100 detects that the detachable external display device 200 capable of high-quality display is mounted on the electronic camera 100, and information to be automatically displayed. Is displayed by the EL display element 221 of the detachable external display device 200, so that the user can use the electronic camera 100 alone in the case of snap photography requiring portability, and The image can be confirmed by the LCD 21 incorporated in the electronic camera 100. In the case of night view shooting or landscape shooting, the detachable external display device 200 can be attached to the electronic camera 100 as necessary to provide high quality display without any trouble. (High definition, high brightness, large screen, high responsiveness, high contrast) images can be confirmed.
[0040]
In the above embodiment (FIGS. 1 to 22), since the detachable external display device 200 includes a battery and a memory card slot, the user stores image information captured by the electronic camera 100 in the memory card, By attaching the memory card to the external display device 200, the external display device 200 can reproduce and browse images with high quality display (high definition, high brightness, large screen, high responsiveness, and high contrast) by itself. it can.
[0041]
In the above embodiment (FIGS. 1 to 22), the high-function type detachable external display device 200 has a built-in battery. Even when a large high quality display is performed, it is not necessary to pay attention to the consumption of the battery on the electronic camera 100 side.
[0042]
In the above-described embodiment (FIGS. 1 to 22), since the high-function type detachable external display device 200 is provided with the grip 214, the user can operate the high-function type detachable external display device 200 electronically. When mounted on the camera 100 and used, even when the size of the electronic camera 100 and the external display device 200 increases, the grip 14 of the electronic camera 100 and the grip 214 of the external display device 200 can be held with both hands. In addition, it is possible to perform shooting without camera shake.
[0043]
In the above-described embodiment (FIGS. 1 to 22), the attachment / detachment with the LCD 321 capable of displaying (display pixel pitch, display luminance, screen size, responsiveness, contrast) equivalent to the LCD 21 built in the electronic camera 100 is performed. Since the external display device 300 of the type is mounted on the electronic camera 100 and one screen is composed of two adjacent screens (LCD 21 and LCD 321) at the time of mounting, an image is displayed on the synthesized display screen. The user can use the electronic camera 100 alone in the case of snap photography where portability is required, and can confirm the image by the LCD 21 incorporated in the electronic camera 100, and in the case of landscape photography, By simply attaching the detachable external display device 300 to the electronic camera 100 according to the above, it is possible to check the image on a large screen without any trouble. It can be. Since the screen aspect ratio (vertical: horizontal) of the LCD 21 of the electronic camera 100 and the LCD 321 of the external display device 300 is substantially 1: √2, the aspect ratio (vertical: horizontal: vertical: Horizontal) is also approximately √2: 1, and the composite screen can be used as the original screen and the screen for vertical position shooting.
[0044]
In the above-described embodiment (FIGS. 1 to 22), the attachment / detachment with the LCD 321 capable of displaying (display pixel pitch, display luminance, screen size, responsiveness, contrast) equivalent to the LCD 21 built in the electronic camera 100 is performed. The electronic camera 100 detects that the external display device 300 of the type is mounted on the side of the electronic camera 100, and the electronic camera 100 automatically enters the panorama shooting mode, and is configured by two adjacent screens (LCD21, LCD321). Since the panoramic image is displayed on one elongated display screen, the user can use the electronic camera 100 alone in the case of snap photography requiring portability, and use the LCD 21 incorporated in the electronic camera 100. The image can be confirmed by the user, and in the case of panoramic shooting, the detachable external display device 300 is turned on. Simply attached to the camera 100, and sets the electronic camera 100 to the trouble with no panoramic mode, it is possible to check the image in elongated screen suitable for panoramic photography.
[0045]
In the above embodiment (FIGS. 1 to 22), the electronic camera 100 includes connectors for mounting external display devices at a plurality of positions on the housing, and the external display device 200 and the external display device 300 are also provided on the housing. In order to provide a connector for mounting the electronic camera at a plurality of positions, the user mounts the connectors at desired positions on each other as necessary, thereby forming a desired screen configuration (vertical position / horizontal position, horizontal / vertical length). ) Can be selected, and an electronic camera can be used to display an image at a user's favorite position, or when an external display device is attached to the electronic camera for use, the user can select his / her favorite device form (weight). Balance, landscape configuration / portrait configuration) can be selected.
(Explanation of Modifications) The present invention is not limited to the embodiments described above, and various modifications and changes are possible.
[0046]
In the above embodiment (FIGS. 1 to 22), when the detachable external display device is mounted on the electronic camera 100, the relative positional relationship between the electronic camera 100 and the detachable external display device is fixed. By devising the mechanism described above, the relative positional relationship between the electronic camera 100 and the detachable external display device can be made flexible, and the usability of the user can be improved. For example, as shown in FIG. 23, by using a rotating mechanism (swivel mechanism) as the connector mechanism, the external display device 200 can be rotated about the rotation axis 201 with respect to the electronic camera 100 and used. Further, for example, as shown in FIG. 24, by using a hinge mechanism as the connector mechanism, the external display device 200 can be rotated around the rotation axis 202 with respect to the electronic camera 100 and used. Further, if the rear surface of the external display device 200 (the surface with the EL display element 321) can be rotated until the rear surface of the electronic camera 100 is overlapped, the display screens of the LCD 21 and the EL display element 221 can be protected from the outside. It can be stored compactly. Further, if the connector mechanism is configured as a universal joint, the image can be confirmed in a direction that is easy for the user to see regardless of the shooting direction.
[0047]
In the above embodiment (FIGS. 1 to 22), when the detachable external display device is attached to the electronic camera 100, the electronic camera 100 transmits information (power on / off, type) relating to the detachable external display device to the detachable detection SW 80 and Although it is obtained by communication between the CPU 50 of the electronic camera 100 and the CPU of the external display device, it may be performed by only one of them. Although the electronic camera 100 has been described as being equipped with a high-performance type and a normal type external display device, other types of external display devices can be mounted on the camera 100. In this case, the electronic camera 100 has detailed information on the attached external display device (power consumption, presence / absence of power supply, display pixel pitch, display screen size, display screen shape, response performance, contrast performance, brightness performance, display element type, etc. ) And obtains the information of the electronic camera 100 itself (image information, shooting conditions, power supply capability, remaining power, display pixel pitch, display screen size, display screen shape, response performance, contrast performance, brightness performance). , Display element type, etc.), and automatically and optimally performs power supply and display control to the attached external display device according to the comparison result. By doing so, the user can save the trouble of setting the electronic camera 100 according to the performance of the external display device attached to the electronic camera 100, and can confirm an image on the external display device immediately after the attachment. it can.
[0048]
In the above embodiment (FIGS. 1 to 22), when the electronic camera 100 is mounted with the high-function type (EL display element) external display device 200, the image is always displayed on the high-function type external display device 200. Although the electronic camera 100 displays the image, the electronic camera 100 may display the image on the high-function type external display device 200 only when the ambient luminance measured by the photometric circuit 15 is lower than a predetermined value. Good. Further, for example, it is detected that a high-definition type external display device having a display pixel pitch smaller than that of a display element incorporated in the electronic camera 100 is attached to the electronic camera 100. The image may be displayed on a fine type external display device. Alternatively, the electronic camera 100 may perform frequency analysis of the image data and display the image on the high-definition type external display device only when the high-frequency component is equal to or more than a predetermined value. In this way, when the user uses the electronic camera 100 by attaching the external display device to the electronic camera 100, the user can save the trouble of setting the electronic camera 100 according to the shooting conditions and the image characteristics, and can reduce battery consumption. .
[0049]
In the above embodiment (FIGS. 1 to 22), the external display device 200 and the external display device 300 have only one display screen, but may have a plurality of display screens. For example, if an LCD 322 is provided on the front of the external display device 300 as shown in FIG. 25, an image to be photographed can be confirmed from the subject side, so that the subject becomes a favorite pose while watching this image. Or check the composition during self-timer shooting. Further, instead of the external display device 300 having the LCD 321 and the LCD 322, the external display device 300 is rotatable with respect to the electronic camera 100 by a mechanism as shown in FIG. 23, and the CPU 350 detects the rotation angle by the attachment / detachment detection SW 380. When the LCD 321 is turned and directed in the direction of the subject, the image can be viewed normally from the subject side by displaying the image on the LCD 321 with the vertical direction reversed. With this configuration, the external display device 300 does not need to include two LCDs, so that the external display device 300 can be reduced in size at low cost and power consumption can be suppressed.
[0050]
In the above embodiment (FIGS. 1 to 22), the normal type detachable external display device 300 includes the LCD 321 having the same screen size as the LCD 21 of the electronic camera 100. An LCD having only a large screen size with the same performance as the LCD 21 may be provided. For example, as shown in the rear view of the detachable external display device 400 in FIG. 26, the detachable external display device 400 has a shape excluding the lower right 1/4 screen of the display screen of the LCD 21 of the electronic camera 100, which is twice as long and wide. And a connector 412 and a lock member 419 to be attached to the electronic camera 100. When the detachable external display device 400 is attached to the electronic camera 100, the LCD 21 fits into the LCD 421 as shown in FIG. 27, thereby forming a display screen having a size twice as large as the display screen size of the LCD 21. An image is displayed on the display screen. In this way, a large screen can be displayed with a compact configuration.
[0051]
In the above-described embodiment (FIGS. 26 and 27), an image can be viewed on a display screen that is twice as large as the display screen size of the LCD 21 of the electronic camera 100, but a gap is formed in a part of the screen. For this reason, the gap may become obstructive in some cases. In such a case, a detachable external display device 500 as shown in FIGS. 28 and 29 can be used. FIG. 28 is a front view of the detachable external display device 500, showing a case where the electronic camera 100 is mounted on the front surface of the detachable external display device 500 using a connector 513 (not shown) corresponding to the connector 13 of the electronic camera 100. Is shown. As shown in FIG. 28, a grip 514 for facilitating holding the housing of the detachable external display device 500 is provided on the front left side of the detachable external display device 500. A memory card slot 531 for mounting a memory card for storing image data and a battery slot 530 for accommodating a battery are provided on the right side of the detachable external display device 500 when viewed from the front.
[0052]
As shown in FIG. 29, an EL display element 521 having a large rectangular screen (larger than the screen size of the LCD 21) for displaying text and images is arranged on almost the entire back surface of the detachable external display device 500. In addition, since the operation keys on the back of the electronic camera 100 cannot be operated when the electronic camera 100 is attached to the electronic camera 100, the operation keys used in place of the operation keys are arranged at the upper right of the back of the detachable external display device 500. That is, a dial 518 operated to switch on / off the power of the electronic camera 100 and an operation mode (photographing mode and playback mode), a dot 520 indicating a switching position of the dial 518, and a leftward direction used to switch playback images A button 525 and a right button 526 are arranged. A release button 516 and a lock member 519 for the connector 513 are provided on the upper surface, and the electronic camera 100 and the detachable external display device 500 can be attached and detached only while the lock member 519 is pressed. Also, the detachable external display device 200 does not receive power supply from the electronic camera 100 even when it is mounted on the electronic camera 100, but is supplied with power from the battery stored in the battery slot 230, and has a memory mounted on the memory card slot 531 when used alone. Image data can be read from the card and displayed on the EL display element 521.
[0053]
When the electronic camera 100 detects that the detachable external display device 500 is attached, it ignores the operation of the operation keys on the electronic camera 100 and operates the operation keys (release button 516, dial 518, dial 518, The operations of the left button 525 and the right button 526) are validated. The state of the operation keys on the detachable external display device 500 is read by a CPU built in the detachable external display device 500 and transmitted to the CPU 50 on the electronic camera 100 by communication. In this way, the image can be confirmed on a large-screen display with no gap, and the detachable external display device 500 is mounted on the thin-shaped electronic camera 100 because the detachable external display device 500 is mounted on the front and back. It is possible to provide a device having a compact configuration for the screen size. In addition, an operation key that can not be used due to mounting of the detachable external display device 500 on the electronic camera 100 is provided on the detachable external display device 500 side, and the electronic camera 100 is operated by the operation key when mounted. be able to.
[0054]
In the above embodiment (FIGS. 1 to 22), the electronic camera uses the LCD 21 and the high-function detachable external display device 300 uses the EL display element 221 as a display element. It does not matter. For example, a black-and-white liquid crystal display device (LCD) that allows the display pixel pitch on the electronic camera 100 side to be fine in display pixels for the purpose of confirming the focus at the time of photographing, and a display device of a detachable external display device 300 of a high-performance type for browsing purposes May be a color liquid crystal display element (LCD). Also, for example, the display element on the electronic camera 100 side is a reflection type LCD (without backlight) in consideration of energy saving, and the display element of the detachable external display device 300 of a high function type is a semi-transmission type LCD ( (With backlight). Also, for example, the display element on the electronic camera 100 side is a narrow-view LCD (the viewing angle is relatively narrow) in consideration of privacy at the time of personal use, and a detachable external display device of a high function type in consideration of simultaneous browsing by a plurality of users. The 300 display elements may be wide-view LCDs (having a relatively wide viewing angle).
[0055]
In the above embodiment (FIGS. 1 to 22), the electronic camera uses the LCD 21 and the high-function detachable external display device 300 uses the EL display element 221 as a display element. It does not matter. For example, a memory display element (or a non-volatile display element) called electronic paper which can hold display contents even when the power is off may be used as the high-function type detachable external display device 300. FIGS. 30 and 31 are examples of a memory display element constituting a display section of the detachable external display device 300, and are explanatory diagrams of a memory display element employing a so-called microcapsule electrophoresis method. The memory display element includes a negatively charged black powder 43 (carbon particles) and a positively charged white powder 44 (oxidized) between a transparent plate 41 having a transparent electrode surface and a back plate 40 having a back electrode surface. The structure is such that a microcapsule 42 enclosing titanium particles) is sandwiched therebetween, and the display is observed from the transparent plate 41 side. As shown in FIG. 30, when a positive voltage is applied to the transparent electrode surface side of the transparent plate 41 and a negative voltage is applied to the rear electrode surface side of the back plate 40, the positively charged titanium oxide particles 44 in the microcapsules 42 become Since the carbon particles 43 attracted to the surface and negatively charged are attracted to the transparent electrode surface, a state where black is displayed is observed from the transparent plate 41 side. Conversely, as shown in FIG. 31, when a negative voltage is applied to the transparent electrode surface side of the transparent plate 41 and a positive voltage is applied to the back electrode surface side of the back plate 40, the positively charged titanium oxide particles 44 in the microcapsules 42 are formed. Since the negatively charged carbon particles 43 attracted to the transparent electrode surface are attracted to the rear electrode surface, a state where white is displayed from the transparent plate 41 side is observed. Further, the titanium oxide particles 44 and the carbon particles 43 in the microcapsules 42 are still adsorbed to the respective plate sides even after the application of the voltage to the transparent electrode surface and the back electrode surface. It is maintained even when the power is off. Other display devices using ferroelectric liquid crystal, cholesteric liquid crystal and polymer dispersed liquid crystal, twisting ball devices developed by Xerox, and In-Plane type devices developed by Canon Inc. A display element having a nonvolatile display function such as an electrophoretic display element can be used. If such a memory-type display element is used as the display unit of the high-function type detachable external display device 300, images and data can be displayed on the display unit of the high-function type detachable external display device 300 while the power is off. Since it is possible to continue, by displaying the last image or image data captured by the electronic camera 100, the electronic camera 100 can be used as a memo for a shooting state.
[0056]
In the above embodiment (FIGS. 1 to 22), the electronic camera 100 can have a detachable external display device attached to the connectors 11, 12, and 13. May be mounted. For example, FIG. 32 illustrates an example in which a detachable external communication device (a wireless mobile phone or the like) 600 is attached to the electronic camera 100. In this case, an image captured by the electronic camera 100 and the like are transmitted through the external communication device 600. It can be immediately transmitted to an external image server or the like. Further, an auxiliary power supply device for strengthening the power supply of the electronic camera 100 or a large-capacity auxiliary storage device for storing images taken by the electronic camera 100 may be attached to the connectors 11, 12, and 13. Alternatively, various detachable external devices may be simultaneously attached to each of the plurality of connectors. In this way, by allowing external devices for various uses to be attached to the plurality of connectors, the user can efficiently configure a photographing device of an optimal system according to a photographing situation. Further, if power is supplied from the power supply of the external device to the electronic camera, the power consumption of the power supply of the electronic camera when the external device is mounted can be suppressed.
[0057]
In the above embodiment (FIGS. 1 to 22), the detachable external display device can be attached to the electronic camera via the connector. However, by unifying the connector mechanism (mechanical configuration, electrical configuration). Alternatively, the detachable external display device can be mounted on an electronic device other than the electronic camera. For example, as shown in FIG. 33, a connector 712 (not shown) is provided on a wireless mobile phone 700 having an LCD 721, and the connector 712 is connected to the connector 212 of the detachable external display device 200 of a high-performance type. When the external display device 200 is mounted, the image displayed on the LCD 721 when the device 700 is used alone is displayed on the display screen 221 of the external display device 200. The invention can be applied to a PDA and a portable game machine other than the mobile phone. In this way, high-quality display can be performed as necessary even for an electronic device that can only display low-quality images. Further, since the external display device, the auxiliary power supply, and the auxiliary storage device can be shared by various electronic devices, the user can construct the electronic device system at low cost. The CPU of the electronic device communicates with the CPU of the attached external device to recognize the function and performance of the attached external device, and performs an operation suitable for the attached external device based on the recognition result. be able to.
[0058]
In the above embodiment (FIGS. 1 to 22), a still image is displayed on the display element on the detachable display device side, but the display on the detachable display device side is not limited to a still image. It may be a moving image. Further, the display on the detachable display device is not limited to an image, but may be text information or map information. Further, the configuration of the connector may be an original specification, or may be a specification of an existing connector (USB, IEEE1394, etc.).
[0059]
As described above, in the electronic device system, the electronic device, and the detachable external display device according to the present invention, the detachable external display device capable of high-quality display can be mounted on the electronic device body. Therefore, the user can enjoy the convenience (small size, low cost, low power consumption) of the electronic device main body at the time of normal information display, and by attaching a detachable external display device to the electronic device main body depending on the situation, Information can be viewed with high-quality display (large screen, high definition, high brightness, high contrast, high responsiveness, etc.).
[0060]
Further, in the electronic device system, the electronic device and the detachable external display device according to the present invention, a detachable external display device capable of performing a display equivalent to the display means built in the electronic device body is attached to the electronic device body, The display screen of the display means incorporated in the electronic device body and the display screen of the detachable external display device constitute one display screen, and information is displayed on the synthesized display screen. When the information is displayed, the convenience (small size, low cost, low power consumption) of the electronic device body can be enjoyed, and information can be viewed on a large screen by attaching a detachable external display device to the electronic device body according to the situation. be able to.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of the present invention.
FIG. 2 is an external view (front view) of the electronic camera.
FIG. 3 is an external view (a rear view) of the electronic camera.
FIG. 4 is an external view (front view) of the external display device.
FIG. 5 is an external view (a rear view) of the external display device.
FIG. 6 is an external view (front view) of the external display device.
FIG. 7 is an external view (a rear view) of the external display device.
FIG. 8 is an external view (front view) when the electronic camera and the external display device are mounted.
FIG. 9 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 10 is an external view (front view) when the electronic camera and the external display device are mounted.
FIG. 11 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 12 is an external view (front view) when the electronic camera and the external display device are mounted.
FIG. 13 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 14 is a block diagram showing an electric configuration of the electronic camera.
FIG. 15 is a block diagram illustrating an electrical configuration of an external display device.
FIG. 16 is a block diagram illustrating an electrical configuration of an external display device.
FIG. 17 is a main flowchart of the electronic camera.
FIG. 18 is a flowchart of a subroutine of the electronic camera.
FIG. 19 is a flowchart of a subroutine of the electronic camera.
FIG. 20 is a flowchart of a subroutine of the electronic camera.
FIG. 21 is a main flowchart of the external display device.
FIG. 22 is a main flowchart of the external display device.
FIG. 23 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 24 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 25 is an external view (front view) when the electronic camera and the external display device are mounted.
FIG. 26 is an external view (a rear view) of the external display device.
FIG. 27 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 28 is an external view (front view) when the electronic camera and the external display device are mounted.
FIG. 29 is an external view (rear view) when the electronic camera and the external display device are mounted.
FIG. 30 is an explanatory diagram of a memory display unit.
FIG. 31 is an explanatory diagram of a memory display unit.
FIG. 32 is an external view (front view) when the electronic camera and the external communication device are mounted.
FIG. 33 is an external view (rear view) when the mobile phone and the external display device are mounted.
[Explanation of symbols]
10 Shooting lens
11,12,13 Connector
16 Release button
18 dial
21 LCD
25 Left button
26 Right button
50 CPU
55 CCD
63 Main Battery
77 Memory Card
92 Screen control circuit
100 electronic camera
101 Electronic Camera
200 High-performance detachable external display device
221 EL display element
300 High-performance detachable external display device
321 LCD
400 Detachable external display device
500 Detachable external display device
600 Detachable external communication device
700 wireless mobile phone

Claims (18)

An electronic device system including an electronic device and a detachable external display device that is detachable from the electronic device,
The electronic device has a main body display unit for displaying information, a display control unit for displaying information on the main body display unit, and a main body connector for mechanically and electrically connecting the detachable external display device. Transmission means for transmitting the information to be displayed to the detachable external display device via the main body connector,
The detachable external display device, a device connector corresponding to the main body connector for mechanically and electrically connected to the electronic device, and an attached display means for displaying information transmitted from the transmission means, Output means for outputting characteristic information of the detachable external display device,
When the detachable external display device is mounted on the electronic device, the display screen of the main body display unit and the display screen of the attached display unit are configured to be adjacent to each other, and the display control unit includes the main body display unit. And displaying one piece of information on the main body display means and the attached display means so that one piece of information is displayed on a screen constituted by the display screen of the attached display means and the display screen of the attached display means. And electronic equipment system. 2. The electronic device system according to claim 1, wherein, when the detachable external display device is mounted on the electronic device, a display screen of the adjacent main body display unit and a display screen of the attached display unit are an elongated panoramic screen. The electronic device system, wherein the display unit displays panoramic image information on the panoramic screen. An electronic device system including an electronic device and a plurality of detachable external display devices having different characteristics that are detachable from the electronic device,
The electronic device has a main body display unit for displaying information, a display control unit for displaying information on the main body display unit, and a main body connector for mechanically and electrically connecting the detachable external display device. Information input means for inputting characteristic information relating to the characteristics of the attached detachable external display device, and transmission means for transmitting the information to be displayed to the detachable external display device via the main body connector,
The detachable external display device, a device connector corresponding to the main body connector for mechanically and electrically connected to the electronic device, and an attached display means for displaying information transmitted from the transmission means, Output means for outputting characteristic information on characteristics of the detachable external display device,
The display control means selects whether to display information to be displayed on the main body display means or the attached display means in accordance with the characteristic information of the detachable external display device obtained by the input means. And electronic equipment system. 4. The electronic device system according to claim 3, wherein the characteristic information is information relating to display characteristics of the attached display means, and relates to any one of display color, screen size, display luminance, display pixel pitch, display contrast, and display responsiveness. Information, and the display control means causes the attached display means to display information to be displayed when a display characteristic of the attached display means included in the characteristic information exceeds a display characteristic of the main body display means. Electronic equipment system characterized. 4. The electronic device system according to claim 3, wherein the electronic device includes a main body power supply and a power supply control unit for controlling the power supply, and the characteristic information includes the detachable external display device including a device power supply. The power control means, based on the characteristic information, when the attached detachable external display device does not have a built-in device power supply, supplies power from the main body power supply to the attached detachable external display device. An electronic equipment system characterized by being supplied. The electronic device system according to claim 3, wherein the detachable external display device has a built-in device power supply, and when the detachable external display device is attached to the electronic device, the detachable external display device is connected to the electronic device. An electronic device system, wherein power is supplied to the electronic device from a device power supply. 4. The electronic device system according to claim 3, wherein the detachable external display device has a built-in storage unit for storing a device power supply and information, and is stored in the storage unit in a single state not mounted on the electronic device. An electronic device system, wherein information can be displayed on the attached display means. 4. The electronic device system according to claim 3, wherein the detachable external display device includes a plurality of attached display means for displaying information. The electronic device system according to claim 3, wherein the electronic device includes the main body connectors at a plurality of positions on a housing of the electronic device. 4. The electronic device system according to claim 3, wherein the detachable external display device includes the device connectors at a plurality of positions on a housing of the detachable external display device. 4. The electronic device system according to claim 3, wherein the main body connector and the device connector have a mechanical structure in which a relative position is variable while being connected when connected. . 12. The electronic device according to claim 11, wherein the external electronic device changes a display method of information displayed on the attached display means according to a relative positional relationship with the electronic device. system. 4. The electronic device system according to claim 3, wherein the detachable external display device includes an operation member for operating the electronic device, and the operation member is provided when the detachable external display device is mounted on the electronic device. An electronic device system, wherein the electronic device can be operated by a computer. 4. The electronic device system according to claim 3, wherein the electronic device is capable of mounting an auxiliary power supply device, an auxiliary storage device, or an auxiliary communication device to the main body connector. 4. The electronic device system according to claim 3, wherein the information displayed on the main body display means or the attached display means is still image information, moving image information, text information, or map information. . An electronic device used in the electronic device system according to claim 1. 17. The electronic device according to claim 16, wherein the electronic device is an electronic camera or a mobile phone. A detachable external display device used in the electronic device system according to claim 1.

Images