JP3951882B2 - Wireless communication terminal and communication control program - Google Patents

Description

[0001]
The present invention relates to a wireless communication terminal. ,as well as, The present invention relates to a communication control program.
[0002]
[Prior art]
Conventionally, mobile phone terminals (hereinafter abbreviated as mobile phones), which is one of the wireless communication terminals, have become widespread, and people who have mobile phones can easily make phone communications anytime, anywhere, The convenience of telephone communication has been dramatically improved, and some mobile phones have an image transmission / reception function for transmitting and receiving images taken with a CCD camera in addition to normal telephone communication by one unit. (For example, refer to Patent Document 1).
[0003]
Further, in recent mobile phones, not only telephone communication and image communication can be performed, but also a PDA (personal data management) function, a WWW (World Wide Web) connection function (browser, e-mail system, image, music, Products with various additional functions such as downloading and uploading of various files including programs, functions for simultaneously transmitting and receiving audio and video in real time, and functions for acquiring self-location information will be devised and marketed. It is becoming. In the future, 3G-324M will be adopted as an image transmission protocol adopted in a wireless communication system. This image transmission protocol divides one communication line into four logical channels, and transmits and receives moving images (MPEG-4 format), audio (AMR format), control signals, and general data. Wireless communication systems and mobile phones that employ a transmission protocol can simultaneously send and receive voice calls and various types of files including images, such as sending a captured image to the other party while talking to the other party. Will be able to.
[0004]
[Patent Document 1]
JP 2001-136256 A (page 2-4, FIG. 1)
[0005]
[Problems to be solved by the invention]
However, in the case of a mobile phone having an imaging function, for example, when shooting a subject during a call, the entire body is shot toward the subject, which is inconvenient during shooting. In addition, even in a mobile phone adopting the above 3G-324M, there is a problem that it is difficult to ensure a good call state when performing shooting, sending / receiving e-mails, and transferring files by connecting to the Internet while making a call.
[0006]
The present invention has been made to solve the conventional problems as described above, and its purpose is a wireless communication terminal capable of remarkably improving the operation of functions other than voice calls. ,as well as, It is to provide a communication control program.
[0007]
[Means for Solving the Problems]
Means of the present invention are as follows.
[0008]
The wireless communication terminal according to the first aspect of the present invention communicates by wireless communication means for performing wireless communication with a base station, and close proximity wireless connection with a lid for outputting data communicated by the wireless communication means. A main body provided with a first close proximity wireless communication means, a second close proximity wireless communication means for performing close proximity wireless communication with the main body, and via the second close proximity wireless communication means Recieved A portable device comprising: a first audio output means for outputting audio included in the data; and a lid provided with display means for displaying a moving image included in the data transmitted via the second proximity wireless communication means. In the communication terminal, the main body unit is provided by the wireless communication means. Recieved When performing a voice call using the second voice output means for outputting voice included in the data and the wireless communication means, Recieved The voice included in the data is transmitted to the lid through the first proximity wireless communication means. Control and said By wireless communication means Recieved If your data includes video and audio, Received Videos included in the data Before Send to the lid via the first proximity wireless communication means While the received Control to output the voice included in the data by the second voice output means Control means It is characterized by comprising.
[0009]
According to a second aspect of the present invention, in the wireless communication terminal of the first aspect of the invention, the main body portion further includes a connector for connecting to an earphone, and the second audio output means is provided by the wireless communication means. Recieved The voice included in the data is output via the connector.
[0010]
According to a third aspect of the present invention, there is provided a wireless communication terminal for performing wireless communication with a base station and wireless communication with a lid in close proximity to output data communicated by the wireless communication device. A main body provided with a first close proximity wireless communication means, a second close proximity wireless communication means for performing close proximity wireless communication with the main body, and via the second close proximity wireless communication means Recieved In a mobile communication terminal comprising: an audio output means for outputting audio included in data; and a lid provided with an imaging means for acquiring a moving image to be transmitted to a base station via the wireless communication means. When performing a voice call using the wireless communication means, Received The voice included in the data is transmitted to the lid through the first proximity wireless communication means. Control and said When transmitting moving images using wireless communication means, the imaging means Acquired said Movie transmitted via second proximity wireless communication means The above Control to receive via the first proximity wireless communication means and transmit to the base station via the wireless communication means Control means; It is characterized by comprising.
[0013]
According to a fourth aspect of the present invention, there is provided a communication control program according to a first aspect of the present invention, wherein a wireless communication unit that performs wireless communication with a base station, and a wireless communication unit that performs close proximity wireless communication with a lid unit to output data communicated by the wireless communication unit. With close proximity wireless communication A first audio output unit that outputs audio included in the data received by the wireless communication unit; Via the main body unit, a second close proximity wireless communication unit that performs close proximity wireless communication with the main body unit, and via the second close proximity wireless communication unit Recieved Output audio contained in data Second Via an audio output unit and the second proximity wireless communication unit Recieved A computer included in the main body of the mobile communication terminal, comprising: a lid provided with a display for displaying a moving image included in the data The above When making a voice call using the wireless communication unit, Received Control to transmit voice included in data to the lid via the first proximity wireless communication unit And said By radio communication department Recieved When the data includes video and audio, it is included in the data received by the wireless communication unit Video While controlling to transmit to the lid through the first proximity wireless communication unit, Received The audio contained in the data Control means for controlling to output from the first audio output unit; It is made to function as.
[0014]
According to a fifth aspect of the present invention, there is provided a communication control program according to a first aspect of the present invention, wherein a wireless communication unit that performs wireless communication with a base station, and a wireless communication unit that performs close proximity wireless communication with a lid unit to output data communicated by the wireless communication unit. A main body unit provided with a close proximity wireless communication unit, a second close proximity wireless communication unit that performs close proximity wireless communication with the main body unit, and via the second close proximity wireless communication unit Recieved The main body unit of the mobile communication terminal includes an audio output unit that outputs audio included in data, and a lid unit that includes an imaging unit that acquires a moving image to be transmitted to the base station via the wireless communication unit. When making a voice call using the wireless communication unit, Received Control to transmit voice included in data to the lid via the first proximity wireless communication unit And When transmitting a moving image using the wireless communication unit, the imaging unit Acquired said Movie transmitted via the second proximity wireless communication unit The above Control to receive via the first proximity wireless communication unit and transmit to the base station via the wireless communication unit Control means, It is made to function as.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a plan view and a side view showing a configuration according to a first embodiment of a wireless communication terminal of the present invention. FIG. 1A is a plan view, and FIG. 1B is a side view. The wireless communication terminal (cellular phone terminal) 1 of this example is a type that can be folded in two, with a lid 2 and a main body 3 coupled by a hinge (not shown), and the illustrated state is a state in which the lid 2 is opened. (Referred to as the second mode in this embodiment).
[0019]
The lid 2 includes an imaging unit 4 for photographing a subject, a notification lamp 5 for notifying an incoming call or warning, a speaker 6 for outputting a received voice, and a VGA class for displaying various information such as mail contents, characters, figures and images. Color TFT liquid crystal display unit 7 having resolution, shutter button 8 of imaging unit 4, convex connector 9 for charging and contracting, microphone 10 for collecting transmitted voice, lid unit 2 and main unit 3 is provided on a pivot shaft of a hinge (not shown) that rotatably couples 3, and a detachable switch 11 that separates the lid portion 2 and the main body portion 3, and a hinge cover 12 that covers the hinge.
[0020]
The main body 3 is composed of a monochrome liquid crystal, and the received radio wave intensity, the current time, the name of the caller at the time of the incoming call, and the charge status of the rechargeable battery (not shown) are individually displayed on the lid 2 and the main body 3 by gauge display. In the state where the display unit 13 and the lid unit 2 are covered with the main body unit 3 (referred to as the first mode in the present embodiment), the concave connector 14 that contacts the connector 9 is used in a wireless communication protocol for mobile phones. An antenna 15 for communication corresponding to a frequency band to be transmitted, a key operation unit 16 for inputting various information and function instructions, a speaker 17, a microphone 18 for receiving, a connector 19 for an external interface, a cradle (not shown), A connector 20, an earphone terminal (cover) 21, and a strap connection member 22 for contacting and charging a later-described rechargeable battery in the main body 3 are provided.
[0021]
The key operation unit 16 includes the mail key 161, the outgoing call history key 162, the browser key 163, the address book key 164, the center key 165, the call key (off-hook key) 166, the clear key 167, and the off key (on-hook key) 168. And various keys such as a numeric keypad 169.
[0022]
The wireless communication terminal 1 described above corresponds to the image transmission protocol 3G-324M, and as described above, the display unit 7 for color display and the CMOS device as the image pickup unit 4 are mounted. It can be turned to the back and can be turned to the back. When calling in the second mode of FIG. 1, the user's voice is picked up by the microphone 10, and the voice of the other party is output from the speaker 6.
[0023]
FIG. 2 is a plan view and a side view when the cover 2 of the wireless communication terminal 1 shown in FIG. 1 is closed and folded. FIG. 2A is a plan view and FIG. 2B is a side view. The lid 2 of the wireless communication terminal 1 rotates around a hinge (not shown) and is folded over the main body 3 (folded state), and the microphone 18 is attached to the front end of the back of the lid 2. . The state in which the lid 2 covers the main body 3 is referred to as a first mode.
[0024]
In the first mode, power supply to the display unit 7 shown in FIG. 1 in the standby state is stopped, and the lid unit 2 is basically not in a mode that consumes power. Further, if the connector 9 and the connector 14 shown in FIG. 1 are in contact with each other, the power source of the main body 3 is sufficient, and the rechargeable battery described later in the lid 2 is not sufficiently charged. Then, charging is performed by supplying a charging current from the rechargeable battery of the main body 3 to the rechargeable battery of the lid 2 via the connectors 9 and 14.
[0025]
In this first mode, a call cannot be made, but when an incoming call is detected, only a call can be made. In that case, the voice of the other party is output via the earphone 23 or the earphone microphone 230, and the user's transmission is picked up by the microphone 18 and transmitted to the other party. Further, the imaging unit 4 can be rotated to the back side of the lid unit 2 to take an image. Here, the earphone microphone 230 includes a sound generation unit 233, a microphone 231, and an off-hook switch 232.
[0026]
FIG. 3 is a view showing an example of the structure of the rotating portion of the hinge portion that rotatably couples the lid portion 2 and the main body portion 3 described above. The hinge portion that joins the lid portion 2 and the main body portion 3 can separate the lid portion 2 and the main body portion 3 at this portion. The hinge portion of the main body 3 includes a spring 300 wound around the shaft 303, a moving member 308 that is movably fitted to the shaft 303 and moves in the cylinder 302 formed in the hinge portion, and an inner wall of the cylinder 302 The micro switch 301 is arranged at the front end of the shaft 303, and the micro switch 305 is in contact with the upper inner wall of the moving member 308. ing.
[0027]
On the other hand, a guide groove 111 in the hinge portion of the lid portion 2 is provided, and a cylindrical space 112 is formed inside the hinge portion cover 12. In addition, the detachable switch 11 is mounted in the space 112 so as to be movable in the axial direction. The body member 110 of the detachable switch 11 is formed with a convex portion 113 that moves in the guide groove 111 in accordance with the axial movement of the detachable switch. The detachable switch 11 prevents the projection 113 from being detached from the lid portion 2. When the detachable switch 11 is pressed in the direction of arrow a, the main body member 110 moves in the space 112 and the convex portion 113 is guided. The groove 111 is moved, and the moving member 308 is pushed in the arrow b direction.
[0028]
With the above configuration, the spring 300 acts in an extended state. In the state shown in the drawing, the distal end portion of the moving member 308 of the hinge portion on the main body portion 3 side protrudes into the space 112 of the hinge portion on the lid portion 2 side, whereby the main body portion 3 side and the lid portion 2 side are interposed via the hinge. It is in a combined state. In this state, when the attachment / detachment switch 11 is pushed in the direction of arrow a, the moving member 308 that is in contact with the attachment / detachment switch 11 is also pushed and retracted in the direction of arrow b. The coupling | bonding with the cover part 2 cut | disconnects and both can be cut off.
[0029]
In the state where the lid 2 and the main body 3 are separated, the head of the moving member 308 protrudes from the hinge portion on the main body 3 side as shown in the figure by the action of the spring 300. In this state, once the moving member 308 is pushed into the hinge portion on the main body portion 3 side by the hinge on the lid portion 2 side using the inclined portion 307 on the head portion of the moving member 308 and the axial centers of both hinge portions are aligned, it is pushed in. The moving member 308 thus protrudes and is inserted into the hinge portion on the lid portion 2 side, and the lid portion 2 side and the main body portion 3 side are coupled as shown in the figure.
[0030]
Here, the microswitches 301 and 305 are a control unit and a lid, which will be described later, of the main body unit 3 through detection units which will be described later, respectively. It outputs to the control part which the part 2 mentions later. When the above-described operation of pushing in the detachable switch 11 to separate the lid 2 and the main body 3 is performed, the moving member 308 moves in the arrow b direction, and both the micro switches 301 and 305 are turned on. The detection unit detects and shifts to a third mode described later.
[0031]
Further, when the separated lid portion 2 is coupled to the main body portion 3, the moving member 308 does not move so deeply in the arrow direction b side, so that only the microswitch 301 is detected by the detection portion, and the second mode Migrate to Furthermore, in the second mode state, when the contact of the connectors 9 and 14 shown in FIG. 1 is detected by the detection unit, the mode is shifted to the first mode.
[0032]
The lid portion 2 and the main body portion 3 are electrically independent from each other, and when talking in the second mode, the user's voice is picked up by the microphone 10 and the voice of the other party is output from the speaker 6. The voice picked up by the microphone 10 on the lid 2 side is encoded and sent to the main body unit 3 by wireless communication (configured by a proximity wireless communication processing unit described later) that couples the circuits of the unit 2 and the main body unit 3. It is transmitted from the main body 3 to the outside via the antenna 15.
[0033]
In this case, the lid 2 and the main body 3 are linked by a close proximity wireless communication protocol of 2.4 MHz band typified by the Bluetooth standard. For example, the user's voice is encoded by a headset profile of the Bluetooth standard. Then, after transmitting to the main body unit 3, it is further processed wirelessly and transmitted to the outside. The voice data of the other party is processed once by the main body 3 and then transmitted to the lid 2 using the head set profile, decoded by the lid 2 and output from the speaker 6. .
[0034]
FIG. 4 is a plan view showing a state where the lid 2 and the main body 3 are separated from each other. As described above, by pressing the detachable switch 11 in the direction of the arrow a, the lid portion 2 and the main body portion 3 are separated from each other to enter the third mode state. In this third mode state, both outgoing calls and incoming calls are possible, and if only a voice call is made, basically the same processing as in the first mode can be performed. Here, in the figure, 45 and 55 are antennas for proximity wireless communication processing units (described later) mounted on the respective units in order to perform wireless data transmission / reception between the lid unit 2 and the main body unit 3.
[0035]
That is, in this third mode, the lid 2 functions as an information terminal (PDA) independent of the main body 3 and makes a call to a later-described built-in RAM or a later-described RAM built in the main body 3. Various stored data can be transferred to the lid 2 and displayed on the display unit 7 for browsing. However, the screen operation in the third mode is performed using the center key 165 of the main body unit 3, and various data stored in the main body unit 3 according to the operation of the center key 165, will be described later. Transfer to the lid 2 using the processing unit. In addition, data stored in the RAM 52 can be displayed on the display unit 7. Further, photographing by the imaging unit 4 is executed by detecting an operation of the shutter button 8.
[0036]
FIG. 5 is a diagram showing a display state of the display unit 13 shown in FIGS. The display unit 13 is a part that indicates various states of the wireless communication terminal 1, a segment 131 that displays a charging state of a rechargeable battery that will be described later in the lid unit 2, and a charging state of a rechargeable battery that is described later in the main body unit 3. It comprises a segment 132, an information display area 133 for displaying various information such as the current date and time, the name and telephone number of the other party, and a segment 134 indicating the reception sensitivity.
[0037]
FIG. 6 is a circuit configuration diagram of the wireless communication terminal 1 shown in FIGS. The circuit of the wireless communication terminal 1 is composed of a circuit on the lid portion 2 side and the body portion 3 side, both circuits are connected by proximity wireless communication, which will be described later, and the power supply system is connected by connectors 9 and 14.
[0038]
The circuit on the lid unit 2 side stores various data of the lid unit 2 and the control unit 51 that controls the entire operation, stores image data taken by the imaging unit 4, and data necessary for the operation of the control unit 51 RAM 52, power supply monitoring unit 53 that monitors the charging state of the rechargeable battery 56, proximity wireless communication processing unit 54 that performs wireless communication with the main body unit 3, proximity wireless antenna 55, and lid 2 side side A rechargeable battery 56 that supplies power to the circuit, an audio signal processing unit 57 that encodes and decodes input / output audio signals to and from the microphone 10 and the speaker 6, and a display driver 58 that drives the display unit 7 to display various information. A DSP 59 that encodes an image signal obtained from the imaging unit 4 such as a CCD and converts it into image data, a shutter button detection unit 60 that detects pressing of the shutter button 8 of the imaging unit 4, and a notification lamp 5 blink. And a bus 500 for connecting the driver 61 and each of these components to each other.
[0039]
The circuit on the main body unit 3 side stores various data necessary for the wireless communication terminal 1 and the control unit 31 that controls various operations and the overall operation of the main body unit 3, and data necessary for the operation of the control unit 31. A RAM 32 for storing various data, a ROM 33 for storing various programs for controlling the control unit 31, a key input unit 34 for inputting key press information of the key operation unit 16, and a display driver 35 for driving the display unit 13 to display various information. A sound source circuit unit 36 for generating various audio signals, a driver 37 for amplifying the sound source generated from the sound source circuit unit 36 and outputting it from the speaker 17, and a base station (not shown) via the antenna 15 wirelessly The radio transmission / reception unit 38 for transmitting and receiving data, the voice and data received by the radio transmission / reception unit 38 are demodulated, or the voice and data transmitted from the radio transmission / reception unit 38 are modulated. A wireless signal processing unit 39 that performs processing necessary for any wireless communication, an external interface 40 that connects the main body unit 3 to an external device such as a notebook computer, an audio signal input from the microphone 18 and the earphone microphone 230 is encoded. Detection of contact / separation of the audio signal processing unit 41 and the connectors 9 and 14, detection of on / off signals of the micro switches 301 and 305, and whether the earphone 23 is connected to the earphone terminal 21 or the earphone microphone 230 is connected A detecting unit 42 for detecting whether or not, a power supply monitoring unit 43 for monitoring a charging state of the rechargeable battery 46, a proximity wireless communication processing unit 44 for performing wireless communication with the lid unit 2, an antenna 45 for proximity wireless communication, a main body unit Rechargeable battery (main power supply) 46 for supplying power to the circuit on the 3 side and charging the rechargeable battery 56 on the lid 2 side and these components are connected to each other It has a Rubasu 400. The charging connector 19 supplies a charging current to the rechargeable battery 46 from the outside, the connector 14 is connected to the connector 9 on the lid 2 side, and the charging current from the rechargeable battery 46 to the rechargeable battery 56 on the lid 2 side. Supply.
[0040]
Here, the control unit 51 controls the entire lid unit 2, for example, encodes audio input via the microphone 10 by the audio signal embedding unit 57 and outputs it to the bus 500. Transfer to the close proximity wireless transfer processing unit 54. The proximity wireless communication processing units 44 and 54 have device ID storage units 441 and 541 that store information necessary for authenticating each other when establishing a link between them. The audio signal encoded by the lid unit 2 is converted into a 2.4 MHz band radio signal based on the Bluetooth headset profile by the close proximity wireless communication processing unit 54 and a link is established from the antenna 55. 3 to the close proximity wireless transfer processing unit 44.
[0041]
In addition, the control unit 51 detects that the camera mode has been switched by operating the shutter button 8, and if the second mode or the third mode is selected, the captured image captured by the imaging unit 4 is displayed on the display unit. Display as a through image. If the operation of the shutter button 8 is detected irrespective of any mode, the captured image of the imaging unit 4 is encoded by the DSP 59 and output to the bus 500, and then stored in the RAM 52 under the control of the control unit 51. And transferred to the close proximity wireless transfer processing unit 54. Here, the encoded imaged audio signal is converted into a 2.4 MHz band radio signal based on the data communication profile of the Bluetooth standard, and is output to the main body unit 3 where the link is established by the antenna 55.
[0042]
Further, the signal received by the antenna 55 according to the headset profile is converted into an audio signal (digital signal) by the close proximity wireless communication processing unit 54 and transferred to the audio signal processing unit 57 via the bus 500 where it is decoded. The converted voice is output from the speaker 6. Further, when the control unit 31 detects an incoming call to the wireless transmission / reception unit 38, the fact is transmitted from the main body unit 3 to the lid unit 2 by proximity wireless communication to drive the notification lamp 5 and to be stored in the display driver 58. The various information thus displayed is displayed on the display unit 7 under the control of the control unit 51. The power supplied from the main body 3 by the connector 14 and the connector 9 in the state of the first mode is charged to the rechargeable battery 56. The state of charge of the rechargeable battery 56 is monitored by the power supply monitoring unit 53 and is periodically transmitted to the main body unit 3.
[0043]
FIG. 7 is a configuration diagram showing the storage area of the RAM 32 described above. The RAM 32 is a subscriber (user information) storage area 391 for storing various backup data such as subscriber IDs (identification information), telephone numbers, address book data, short mails, and network connection information such as dial numbers of access points. The detection unit 42 detects contact with the microswitches 301 and 305 and the connectors 9 and 14, and according to the result, it is determined whether the mode is the first, second, or third mode, and a flag as shown in FIG. Mode flag area 392 for setting or resetting A or flag B, outgoing call history storage area 393 for sequentially recording the telephone numbers dialed off by the user and the telephone notified by calling party number notification when an incoming call request is detected Incoming call history storage area 394 for storing numbers, which can be registered arbitrarily by the user or transferred from an external interface, etc. Address book storage area 395 for storing personal contact data that has been sent, mail data storage area 396 for storing mail data received by packet communication in the above-mentioned protocol, or mail data storage area 396 for storing created mail data not transmitted The work area 397 temporarily stores the image (data) transmitted by the e-mail. Here, in the address book storage area 395, as shown in FIG. 9, the storage address, name, contact telephone number, flag C (a flag indicating whether the person has a mail address or is registered) ), Email address, and other personal information.
[0044]
For example, the control unit 31 encodes the voice input through the microphone 18 in the first mode and the third mode by the audio signal processing unit 41 and outputs the encoded audio to the bus 400. Transfer to the signal processor 39. The audio signal encoded by the radio signal processing unit 39 is converted into a signal format based on a radio communication protocol for a mobile phone by the radio transmission / reception unit 38 and output by the antenna 15.
[0045]
Various data received by the close proximity wireless communication processing unit 44 (image data captured by the imaging unit 4 of the lid unit 2) is converted into a signal format based on the image transmission protocol 3G-324M by the wireless transmission / reception unit 38. And output from the antenna 15. Further, the signal received by the antenna 15 is transferred to the audio signal processing unit 41 via the radio transmission / reception unit 38, the radio signal processing unit 39, and the bus 400, and the decoded audio is transmitted to the earphone via the earphone terminal 21. 23.
[0046]
Further, a signal received by the antenna 15 by the image transmission protocol is stored in the RAM 32 or transferred to the close proximity wireless communication processing unit 44 via the wireless transmission / reception unit 38, the wireless signal processing unit 39, and the bus 400. Here, the received signal is converted into a 2.4 MHz band radio signal based on the data communication profile of the Bluetooth standard, and is output to the lid unit 2 having the link established by the antenna 45. Further, when the earphone microphone 230 is connected to the earphone terminal 21 instead of the earphone 23, the control unit 31 detects the operation of the switch 232 so that the sound to be input from the microphone 18 is input from the microphone 231. Switch.
[0047]
Next, the operation of the present embodiment will be described. First, when the wireless communication terminal 1 of this example is in the first mode in which the main body 3 is covered with the lid 2 (the wireless communication terminal 1 is folded), the wireless communication terminal 1 is stored in a bag or the like and wirelessly communicated. The case where the terminal 1 is not used is assumed. In such a state, the voltage monitoring operation of the battery 41 mounted on the main body 3 is performed, and this operation will be described below with reference to the flowchart of FIG.
[0048]
First, in step S1, the power supply monitoring unit 43 of the main body unit 3 checks the voltage state of the rechargeable battery 46 to determine what the voltage level is. If it is level 1, the process proceeds to step S9. If it is 2, the process proceeds to step S2. Here, level 1, level 2, and level 3 indicate the voltage levels of the rechargeable batteries 46 and 56, respectively, and the higher the number, the lower the voltage level, and the charge stored in the rechargeable battery is reduced. It shows that it is decreasing.
[0049]
In step S <b> 2, the charging performed from the rechargeable battery 46 of the main body 3 to the rechargeable battery 56 of the lid 2 via the connectors 14 and 9 is stopped. This is because when the wireless communication terminal 1 is in the first mode (that is, when the connector 9 and the connector 14 are in contact with each other), the lid 2 does not consume power. This is a process performed to ensure that the main body unit 3 operates at a minimum. Thereafter, in step S3, the voltage monitoring unit 43 of the main body unit 3 checks the voltage state of the rechargeable battery 46 to determine whether the result is level 3. If not, the process proceeds to step S9. If it is level 3, the voltage state of the rechargeable battery 56 is checked by the power supply monitoring unit 53 of the lid 2 in step S4, and it is determined whether it is level 3 in step S5. As a result, if it is determined that the level is 3, the process proceeds to step S7, and a sound for notifying the low voltage of the lid portion 2 from the speaker 17 through the driver 37 from the sound source circuit unit 36 until a predetermined time elapses in step S8. After the occurrence, the power supply from the rechargeable battery 56 to the lid 2 is stopped. On the other hand, when the voltage state of the rechargeable battery 56 is not level 3, the power is supplied from the rechargeable battery 56 to the rechargeable battery 46 via the connectors 9 and 14 in step S56, and the rechargeable battery 46 is charged and charged. And return. That is, in the first mode, the rechargeable battery 56 operates as a backup for the rechargeable battery 46.
[0050]
If the voltage state of the rechargeable battery 46 is not level 3 in step S3, it is determined in step S9 whether or not the detection unit 42 has detected that the connector 9 and the connector 14 are separated from each other. In the case where it is detected (the cover 2 is opened with respect to the main body 3), the flag A in the mode flag area 392 of the RAM 32 is set to "1". Set to shift to the second mode, and the processing of the second mode is performed in step S11.
[0051]
During the processing in the second mode, in step S12, it is determined whether or not the detection unit 42 detects that the contact part 304 is in contact with the microswitch 301 and is turned on, and if it is detected. The process proceeds to step S13, and if not detected, the process proceeds to step S18. In step S18, it is determined whether or not the detection unit 42 has detected that the connectors 9 and 14 have been connected. If not, the process returns to step S11. If detected, the lid 2 is closed with respect to the main body. ) Proceeds to step S19.
[0052]
When it is detected in step S12 that the micro switches 301 and 305 are turned on (the lid 2 and the main body 3 are separated) and the process proceeds to step S13, “1” is set to the flag B in the mode flag area 392 of the RAM 32. In step S14, the third mode is set. In step S15, the third mode is processed. During the processing in the third mode, it is determined in step S16 whether or not the detection unit 42 has detected that the contact unit 304 has come into contact with the micro switch 301 and turned on (the lid unit 2 and the main body unit 3). In the combined state), “0” is written in the flag B of the mode flag area 392 of the RAM 32 in step S17, and the process returns to step S10.
[0053]
When the connection between the connector 9 and the connector 14 is detected in step S18 and the process proceeds to step S19, the voltage of the rechargeable battery 46 is checked by the power supply monitoring unit 43, and whether the voltage of the rechargeable battery 46 is level 1 in step S20. Or whether it is level 2 or 3. In the case of level 1, charging of the rechargeable battery 56 is started from the rechargeable battery 46 through the connector 14 and the connector 9 in step S21, and the process proceeds to the first mode in step S22. When the voltage of the rechargeable battery 46 is at levels 2 and 3, the process proceeds to step S22 and shifts to the first mode.
[0054]
FIG. 11 illustrates the operation when the wireless communication terminal 1 is in the first mode in a state where the lid 2 of the wireless communication terminal 1 is closed with respect to the main body 3 (a state where the wireless communication terminal 1 is folded). First, in step S23, when an incoming call to the wireless transmission / reception unit 38 is detected, in step S24, a sound source from the sound source circuit unit 36 is output from the speaker 17 via the driver 37, thereby ringing the ringer, and the display driver 35. The display unit 13 displays information such as the incoming telephone number and the caller name. Thereafter, in step S25, it is determined whether or not it is detected that something is connected to the earphone terminal 21 by the detection unit 42. If not detected, the process proceeds to step S32, and if detected, the process proceeds to step S26.
[0055]
In step S26, it is determined whether or not the detection unit 42 has detected that the switch 231 of the earphone microphone 230 has been pressed and has been off-hooked. If not detected, the process proceeds to step S30. If detected, the process proceeds to step S27. When the user's voice is input using the microphone 231 in step S27, the input voice is encoded by the voice signal processing unit 41, and the encoded voice signal is modulated by the radio signal processing unit 39, and then the radio signal is processed. It is transmitted from the transmission / reception unit 38 via the antenna 15. The received signal from the other party received by the wireless transmission / reception unit 38 via the antenna 15 is demodulated by the wireless signal processing unit 39 and then decoded by the audio signal processing unit 41, and the decoded analog audio signal is decoded. Is output from the sound generation unit 233 of the earphone microphone 230. During this call, if it is determined in step S28 that the other party's on-hook or on-hook operation of the switch 232 has been detected, the process proceeds to step S29 and the call is terminated.
[0056]
If off-hook by the switch 232 of the earphone microphone 230 is not detected in step S26, since the earphone 23 is connected to the earphone terminal 21, the transmitted voice is input by the microphone 18 in step S30, and the received voice is converted to the earphone. 23, and the call route is almost the same as the route described in step S27 except that the voice input / output location is different. During this call, if it is detected in step S31 that the other party's on-hook or earphone 23 has been disconnected from the earphone terminal 21, the process proceeds to step S29 to end the call.
[0057]
If the connection to the earphone terminal 21 is not detected in step S25, it is determined whether or not the detection unit 42 detects that the connector 9 and the connector 14 are separated in step S32, that is, whether or not the lid 2 is opened. If it is opened, the process proceeds to step S36 in FIG. 12, and if the lid 2 is closed, the process proceeds to step S33. In this step S33, it is determined whether or not the shutter button detector 60 has detected that the shutter button 8 has been pressed while the ringer is ringing, that is, whether or not the incoming call request has been stopped. If not, the process returns to step S25. If the incoming call request is stopped, the incoming call history data in the incoming call history storage area 394 in the RAM 32 is updated in step S34 and the process returns. In addition, when the shutter button 8 is pressed in a state where the lid 2 is closed and the ringer is ringing, it is programmed so that an incoming call request stop instruction is issued.
[0058]
FIG. 12 is a flowchart showing the operation in the second mode in which the lid 2 of the wireless communication terminal 1 is open with respect to the main body 3. In this second mode, the caller holds the wireless communication terminal 1 as shown in FIG. 15A and makes a call in the same manner as a normal mobile phone.
[0059]
First, in step S35, it is determined whether an incoming call to the wireless transmission / reception unit 38 has been detected. If not detected, the process proceeds to step S47. If detected, the process proceeds to step S36 between the close proximity wireless communication processing units 44 and 54. Negotiation is started by performing communication processing via the antennas 45 and 55. In step S37, the sound source from the sound source circuit unit 36 is output from the speaker 17 via the driver 37, and the ringer is sounded and displayed. The driver 35 displays information such as the incoming telephone number and caller name on the display unit 13. Next, in step S38, it is determined whether or not it has been detected that the off-hook key 166 of the key operation unit 16 has been pressed, and if detected, the process proceeds to step S39, and if not detected, the process proceeds to step S43. In step S43, it is determined whether or not the incoming call request is stopped. If it is not stopped, the process returns to step S37. If it is stopped, the process proceeds to step S44, and the incoming call history data in the RAM 32 is updated.
[0060]
If an off-hook is detected in step S38, communication using the headset profile is started in step S39, the transmitted voice is input from the microphone 10, and the received voice is output from the speaker 6 to talk to the other party. That is, when a user's voice is input using the microphone 10, the input voice is encoded by the audio signal processing unit 57, and after the encoded audio signal is modulated by the proximity wireless communication processing unit 54, Sent. The radio signal received by the antenna 45 is demodulated by the near field radio communication processing unit 44 and then input to the radio signal processing unit 39, modulated there, and then transmitted from the radio transmission / reception unit 38 via the antenna 15. .
[0061]
The received signal from the other party received by the wireless transmission / reception unit 38 via the antenna 15 is demodulated by the wireless signal processing unit 39 and then input to the close proximity wireless communication processing unit 44, where it is modulated and transmitted from the antenna 45. Sent. The radio signal received by the antenna 55 is demodulated by the close proximity wireless communication processing unit 54, decoded by the audio signal processing unit 57, and then output from the speaker 6. During this call, it is determined in step S40 whether or not the detection unit 42 has detected that the microswitches 301 and 305 are turned on (the lid 2 and the main body 3 have been separated). If separated, the process proceeds to step S41. In step S41, it is determined whether or not the on-hook key 168 has been pressed to detect on-hook. If not detected, the process returns to step S39. If detected, the call is terminated and the process returns in step S42.
[0062]
When the lid part 2 and the main body part 3 are separated in step S40, it is determined in step S45 whether or not the detection unit 42 has detected that something has been connected to the earphone terminal 21, and if not detected, the process proceeds to step S39. If the link is detected and the link is detected in step S46, communication is started between the proximity wireless communication processing units 44 and 54 via the antennas 45 and 55 to start the negotiation and release the link. move on.
[0063]
If an incoming call is not detected in step S35, it is determined whether a call operation is detected in step S47. If not detected, the process proceeds to step S51. If detected, the process proceeds to step S48. In step S48, negotiation is started by establishing communication between the close proximity wireless communication processing units 44 and 54 via the antennas 45 and 55 to establish a link. Then, the process proceeds to step S49 and a call request signal is transmitted from the wireless transmission / reception unit 38. After the transmission, when an off-hook operation on the other side is detected in step S50, the process proceeds to step S39.
[0064]
If the call operation is not detected in step S47, it is detected in step S51 whether the center key 165 is operated to shift to the camera mode, and if not detected, that is, if the camera mode is not shifted. Proceeding to step S53, other mode processing is performed, and when transition to the camera mode is detected, the processing proceeds to step S52 and camera mode processing is performed.
[0065]
FIG. 13 is a flowchart showing the operation of the terminal in the third mode in which the lid 2 and the main body 3 are separated. In this third mode, as shown in FIG. 15B, the caller has the cover 2 of the wireless communication terminal 1 in the left hand, the main body 3 of the wireless communication terminal 1 in the right hand, and the main body 3 For example, the earphone 23 attached to the mobile phone is used for the right ear. An earphone microphone 230 may be used instead of the earphone 23.
[0066]
In step S54, it is determined whether the incoming / outgoing call is detected by the wireless transmission / reception unit 38. If not detected, the process proceeds to step S65. If detected, the process proceeds to step S55. In step S55, the sound source from the sound source circuit unit 36 is output from the speaker 17 through the driver 37, so that the ringer is sounded, and the display unit 35 is informed of the incoming telephone number, caller name, etc. through the display driver 35. Display information.
[0067]
Next, in step S56, it is determined whether the detection unit 42 has detected that something is connected to the earphone terminal 21 by the detection unit 42. If not detected, the process proceeds to step S61. If detected, the process proceeds to step S57. Proceed to In step S57, it is determined whether or not the detection unit 42 has detected that the switch 232 of the earphone microphone 230 has been pressed and has been off-hooked. If not detected, the process proceeds to step S63. If detected, the process proceeds to step S58.
[0068]
When the user's voice is input using the microphone 231 in step S58, the input voice is encoded by the voice signal processing unit 41. After the encoded voice signal is modulated by the radio signal processing unit 39, the wireless signal processing unit 39 performs wireless communication. It is transmitted from the transmission / reception unit 38 via the antenna 15. The received signal from the other party received by the wireless transmission / reception unit 38 via the antenna 15 is demodulated by the wireless signal processing unit 39 and then decoded by the audio signal processing unit 41, and the decoded analog audio signal is decoded. Is output from the sound generation unit 233 of the earphone microphone 230. During this call, if it is determined in step S59 that the other party's on-hook or on-hook operation of the switch 232 has been detected, the process proceeds to step S60 and the call is terminated.
[0069]
When the operation of the switch 232 is not detected in step S57, the process proceeds to step S63, and a call is performed in which the transmitted voice is input by the microphone 18 and the voice is output by the earphone 23. If it is determined in step S64 during the call that the other party's on-hook or on-hook operation of the switch 232 has been detected, the process proceeds to step S60 and the call is terminated.
[0070]
If it is detected in step S56 that nothing is connected to the earphone terminal 21, the process proceeds to step S61 to determine whether or not the incoming call request is stopped, and if so, the process proceeds to step S62 and the incoming history data in the RAM 32 is determined. Is updated, the ringer output from the speaker 17 is stopped, and the process returns.
[0071]
If no incoming call is detected in step S54, the process proceeds to step S65 to determine whether the earphone 23 or the earphone microphone 230 is connected to the earphone terminal 21, and if not, an error is displayed in step S71 and the process returns. To do. If the earphone 23 or the earphone microphone 230 is connected, the process proceeds to step S66 to determine whether the call operation is detected. If not detected, the process returns. If the call operation is detected, the process proceeds to step S67.
[0072]
In step S67, a call request signal is transmitted from the wireless transmission / reception unit 38 via the antenna 15. Thereafter, in step S68, when the other party's off-hook operation is detected, the process proceeds to step S69, where the transmitted voice is input by the microphone 18, and the incoming call is received. A call is made in which voice is output from the speaker 17. If an on-hook operation by pressing the other party's on-hook or on-hook key 168 is detected in step S70 during this call, the process proceeds to step S60 to end the call and then returns.
[0073]
FIG. 14 is a flowchart when the wireless communication terminal 1 detects a shift to the camera mode during a call and performs a shooting operation in the camera mode in parallel while performing a voice call process. First, during a call, it is determined whether or not the shutter button detection unit 60 has detected that the shutter button 8 has been pressed in step S72, or the center key 165 has been operated to enter the shooting mode. Returns, and if detected, proceeds to step S73. In step S73, it is determined whether or not the first mode is that the lid 2 is closed. If it is not the first mode, the process proceeds to step S86, and if it is the first mode in which the lid 2 is closed, Proceed to step S74.
[0074]
In step S74, it is determined whether or not the imaging unit 4 is facing the back of the lid 2. If the imaging unit 4 is not facing the back, the notification lamp 5 is blinked in step S85, and the user is directed to the imaging unit 4 toward the back. To warn. If the imaging unit 4 is facing the back side, the process proceeds to step S75, and waits until an operation of pressing the shutter button 8 is detected again in step S76. When the shutter button 8 is pressed again, the process proceeds to step S77, and the image data obtained by encoding the image signal obtained by the imaging unit 4 with the DSP 59 is captured in step S77 and stored in the RAM 52. Thereafter, the process proceeds to step S78, the address book storage area 395 in the RAM 32 is searched, destination information such as the mail address of the other party is searched, and it is determined whether there is a mail address in step S79. Returning to step S73, if there is a mail address, the process proceeds to step S80.
[0075]
In step S80, negotiation is started and communication is established between the close proximity wireless communication processing units 44 and 54 via the antennas 45 and 55 to establish a link. Then, the process proceeds to step S81, and the image data stored in the RAM 52 is stored. After transferring to the RAM 32 on the main body unit 3 side via the close proximity wireless communication processing units 55 and 44, a notification signal is output from the sound source circuit unit 36 to the speaker 17 via the driver 37 in step S82, and a notification sound is generated. In step S83, the display driver 35 displays on the display unit 13 that the image data is ready for transmission. Thereafter, in step S84, a certain period of time is waited for. When a predetermined time has elapsed, the process proceeds to step S90, where a dial signal from the radio signal processing unit 39 to the access point is generated and transmitted from the radio transmission / reception unit 38, and a response from the access point is waited for in step S91. As a result, if there is no response in step S92, the process proceeds to step S98, and if there is a response, the process proceeds to step S93.
[0076]
In step S93, the mailer (mail software) is activated, and the image data transferred to the RAM 32 in step S94 is attached to the mail. After this is modulated by the wireless signal processing unit 39, the other party is connected from the wireless transmitting / receiving unit 38 via the antenna 15. Send to the destination email address. In step S95, it is determined whether or not the transmission of this mail is normally transmitted. If the transmission is successful, OK is displayed in step S96 and the process returns. If the transmission is not successful, an error is displayed in step S97 and the process returns. . On the other hand, if there is no response in step S92 and it is determined in step S98 that the response waiting time has elapsed, the process proceeds to step S97, an error is displayed, and the process returns.
[0077]
If it is determined in step S73 that the mode is not the first mode, the process proceeds to step S86 to determine whether the mode is the third mode. If the mode is not the third mode, the process proceeds to step S89 to perform other processes. If it is in the third mode, the process proceeds to step S87.
[0078]
In step S87, the image obtained by the image pickup unit 4 is displayed through on the display unit 7 by the display driver 58. When the pressing of the shutter button 8 is detected in step S88 during the display period, the process proceeds to step S77.
[0079]
According to the present embodiment, the lid 2 of the wireless communication terminal 1 that can be folded in two can be detachably detached from the main body 3, and the circuit of the lid 2 and the circuit of the main body 3 are short-range Since the connection is always made by the wireless communication function, when the image captured by the imaging unit 4 attached to the lid 2 is transmitted to the other party who is talking, the body 3 covers the subject while talking. Since the image capturing unit 4 can be imaged toward the subject at the best angle by moving the unit 2 freely, the operability at the time of image capturing by the image capturing unit 4 can be remarkably improved. In addition, even when not in a call, the imaging unit 4 can be photographed with the separated lid 2 alone, and the imaging unit 4 can be photographed freely toward the subject. The range can be remarkably expanded, and the operability of photographing alone can be improved.
[0080]
In addition to the state in which the lid portion 2 is opened, the main body portion 3 in a state separated from the lid portion 2 can perform communication at the time of normal outgoing and incoming calls, and the lid portion 2 is closed. Alternatively, it is possible to make a call when receiving an incoming call using only the lid 2.
[0081]
Further, in addition to the display unit 7 arranged on the lid unit 2, a sub display unit 13 is also provided on the main body unit 3, and the display unit 13 is arranged so that it can be seen from the outside even when folded in two. 2 and the charging level of each of the rechargeable batteries 56 and 46 of the main body 3, the telephone number of the other party at the time of incoming call, the received radio wave intensity, etc. are displayed, so that necessary information can be known without opening the lid 2. it can.
[0082]
In addition, even when folded in half, by connecting the earphone microphone 230 to the earphone terminal 21, a call can be made when an incoming call is received, and convenience is improved.
[0083]
Furthermore, since the rechargeable battery 56 mounted on the lid 2 is charged by the rechargeable battery 46 mounted on the main body when folded in half, the rechargeable battery 56 mounted on the lid 2 is not conscious of it. The rechargeable batteries 56 and 46 can be charged only by charging the rechargeable battery 46 from the outside.
[0084]
Further, since the imaging unit 4 is rotatably attached, the imaging lens of the imaging unit 4 is in any state where the lid 2 is open, the lid 2 is closed, or the lid 2 and the main body 3 are separated. Can be taken with the camera facing the subject.
[0085]
(Second Embodiment)
FIG. 16 shows the circuit configuration of the main body according to the second embodiment of the wireless communication terminal of the present invention, and FIG. 17 shows the circuit configuration of the lid according to the second embodiment of the wireless communication terminal of the present invention. It is the block diagram which showed. However, the same parts as those in the first embodiment shown in FIG. 6 are denoted by the same reference numerals, and the description thereof is omitted as appropriate.
[0086]
The wireless communication terminal of this embodiment has a videophone function. Therefore, an encoding / decoding processing unit 47 is provided in the main body 310 of FIG. 16, and an encoding / decoding processing unit 62 is provided in the lid 200 of FIG. A configuration added to the circuit configuration of the first embodiment shown in FIG. 6 is provided, and other configurations are the same as those of the first embodiment.
[0087]
FIG. 18 shows an example of the usage state of the wireless communication terminal 1 in the second embodiment described above, and is used in the third mode in which the lid 200 and the main body 310 are separated. A moving image display area 71 in which a moving image captured by the imaging unit 4 is displayed is set on the display unit 7 of the lid unit 200.
[0088]
Next, the operation of the present embodiment will be described with reference to the flowchart shown in FIG. In step S101, the wireless transmission / reception unit 38 of the main unit 310 transmits the destination telephone number and the control code in the videophone mode from the antenna 15 to the mobile phone system of the communication service provider outside the wireless communication terminal 1 (not shown). ), And in step S102, a negotiation process, that is, a call process to the communication partner connected by the destination telephone number is started. On the other hand, when the communication service provider receives the destination telephone number and the control code from the wireless communication terminal 1, according to the control code, the current call processing is not a normal voice call but a request for communication by a video phone. Judgment is made, and the destination telephone number is sent to the connected videophone system (not shown). When there is a response from the call destination, this is transmitted to the wireless communication terminal 1.
[0089]
In step S103, when the control unit 31 of the main body 310 detects this response via the wireless transmission / reception unit 38 and the wireless signal processing unit 39, the proximity wireless processing unit 44 sends the response detection signal R1 from the antenna 45 to the lid unit in step 104. Output to 200. Unlike the first embodiment, when the control unit 51 of the lid unit 200 detects the reception via the antenna 55 and the proximity wireless processing unit 54, it performs data communication with the main body unit 310 using the file transfer profile. In step S115, the imaging unit 4 and the microphone 10 are activated. This process is the third mode in terms of appearance, but is the fourth mode process because the input of the microphone 10 is different.
[0090]
Thereafter, in step S116, the lid unit 200 sequentially captures images in real time by the imaging unit 4 and captures sound by the microphone 10, and displays the images captured in step S117 in the moving image display area 71 of the display unit 7. At the same time, the encoding / decoding processing unit 62 encodes these image and audio data in step S118, and outputs the radio signal R3 to the main unit 310 by the close proximity wireless processing unit 54 in step S119.
[0091]
On the other hand, in the main unit 310, when the wireless transmission / reception unit 38 receives the moving image data from the other party at the reception timing in step S105, the control unit 31 copies this in step S106, and in step S107, The data is decoded by the encoding / decoding processing unit 47 of the unit 310, and the other data is transferred (R2) from the close proximity wireless communication processing unit 44 to the lid unit 200 by the file transfer profile.
[0092]
At the same time, the audio signal processing unit 41 extracts only audio data from the decoded data in step S108, A / D converts it in step S109, and outputs it by the earphone 23.
[0093]
When the control unit 51 of the lid unit 200 detects that the input of the other data sent from the main body unit 310 is received via the near field communication processing unit 54 in step S120, the control unit 51 performs interrupt processing in step S121. In step S122, the encoding / decoding processing unit 62 decodes the other data. In step S123, the control unit 51 extracts only image (moving image) data from the decoded data. In step S124, the control unit 51 extracts the image (moving image) data from the display driver 58 in the moving image display area 71 of the display unit 7. To display.
[0094]
When the reception (file transfer) from the main body 310 is finished, the lid 200 is subjected to a series of interruption processing (data captured by the imaging unit 4 and the microphone 10 during the interruption processing is buffered in the RAM 52 in step S125. In step S126, it is determined whether or not reception of the file transfer is completed. If reception is not completed, the process returns to step S116. If reception is completed, activation of the imaging unit 4 and microphone 10 is terminated in step S127. .
[0095]
When the control unit 31 of the main body 310 determines in step S110 that the close proximity wireless communication processing unit 44 has received the encoded image and audio data from the lid unit 200 via the antenna 45, and does not detect it. Advances to the process of step S114, and if detected, an interrupt is started in step S111, and the process advances to step S112.
[0096]
In step S112, the control unit 31 buffers the encoded image and audio data in the RAM 32, and transmits the image data to the videophone system from the wireless transmission / reception unit 38 via the antenna 15 through the processing of the wireless signal processing unit 39 at the transmission timing. In step S113, the interrupt is terminated, and the process proceeds to step S114.
[0097]
If the control unit 31 does not detect on-hook or the end of the call from the other party in step S114, the control unit 31 returns to the process of step S105, and if detected, ends the videophone call.
[0098]
According to the present embodiment, the lid 200 of the wireless communication terminal 1 that can be folded in two can be taken away from the main body 310 and the lid 200 can be taken in front of the user to take a picture of the wireless communication terminal. 1 makes it possible to make a videophone call easily and without difficulty.
[0099]
(Third embodiment)
FIG. 20 is a block diagram showing a circuit configuration of the lid according to the third embodiment of the wireless communication terminal of the present invention. However, the same parts as those in the first embodiment shown in FIG. 6 are denoted by the same reference numerals, and the description thereof is omitted as appropriate.
[0100]
The wireless communication terminal according to the present embodiment is an example assuming a portable multimedia player having a wireless LAN connection function and a PDA function in the lid 210, and multimedia data downloaded from a hot spot (not shown) via a wireless LAN. It has a function to play.
[0101]
Therefore, the lid 210 of the wireless communication terminal according to the present embodiment includes an antenna 65 and a wireless communication processing unit 64 for wireless LAN connection (using the IEEE802.11a standard 5 GHz band) instead of the imaging unit and the DSP. In addition, although an operation unit 66 and a ROM 63 are added, other configurations are the same as those in the first embodiment.
[0102]
FIG. 21 shows an example of the appearance of the lid 210 according to the present embodiment. As switches of the operation unit 66, a decision key 661, a cancel key 662, and a seesaw switch 663 (used for menu selection) are provided.
[0103]
FIG. 22 is a schematic diagram showing an example of the memory area of the ROM 63 described above. In the ROM 63, an operating system area 631, a wireless network system area 632, and an application program area 633 are set. In the wireless network system setting program area 632, for example, a program for executing a procedure (such as obtaining an IP address) for connecting to a provider when accessing an arbitrary server on the Internet using an outdoor hot spot Is stored. The application program area 633 stores an Internet browser, a multimedia player, and the like.
[0104]
Next, the operation of the present embodiment will be described. For example, when the lid 210 is brought near a terminal corresponding to a hot spot or a wireless LAN and the wireless communication terminal is set to the multimedia mode, the wireless communication processing unit 64 performs authentication processing from the antenna 65 to the Internet provider. Then, a desired Web server (for example, a music distribution site) is accessed. When the user selects a desired menu displayed on the home page of the accessed site with the seesaw switch 663 of the operation unit 66 and presses the enter key 661, the wireless communication processing unit 64 transmits the antenna via the wireless LAN. The multimedia data corresponding to the menu determined from 65 is downloaded to the RAM 52.
[0105]
Thereafter, when the wireless communication terminal is set to the multimedia playback mode, the control unit 51 reads the multimedia data to be downloaded from the RAM 52, displays the image data on the display unit 7 by the display driver 58, and the audio data by the audio signal processing unit 57. After D / A conversion, output from the speaker 6.
[0106]
The audio data can be transmitted from the close proximity wireless communication processing unit 54 to the main body (not shown) via the antenna 55 and listened to by the earphone attached to the main body.
[0107]
According to the present embodiment, the lid 210 can be removed from the main body and the lid 210 can be used as a portable multimedia player.
[0108]
Although an IP telephone using a wireless LAN has been proposed recently, the IP telephone function can be realized also in the third embodiment. However, it is possible to make a call as an IP phone only in the third mode (10 for the microphone and 6 for the speaker).
[0109]
In addition, this invention is not limited to the said embodiment, In the range which does not deviate from the summary, it can implement according to another various state in a concrete structure, a function, an effect | action, and an effect. For example, as shown in FIG. 23, the lid portion 200 of the second embodiment is attached to the main body 3 of the first embodiment, so that it has not only still image shooting but also movie shooting and mail attachment functions. Alternatively, the lid portion 210 of the third embodiment can be attached to the main body portion 3 of the first embodiment to provide a multimedia player function instead of still image shooting.
[0110]
【The invention's effect】
As described in detail above, according to the first and fourth aspects of the invention, when performing a voice call, Recieved Control the voice included in the data to be transmitted to the lid via the proximity wireless communication unit, from the base station Recieved When the data includes video and audio, send this video to the lid via the proximity wireless communication unit Received while Since the voice included in the data is controlled to be output to the main body, the operation of functions other than the voice call can be remarkably improved. Moreover, according to the invention of Claim 3 and Claim 5, , When making a voice call, Recieved When the voice included in the data is controlled to be transmitted to the lid via the proximity wireless communication unit and the moving image is transmitted to the base station, the imaging means Acquired Since control is performed so that a moving image transmitted via the close proximity wireless communication unit is received and transmitted to the base station, operations of functions other than voice calls can be remarkably improved.
[Brief description of the drawings]
FIG. 1 is a plan view and a side view showing a configuration according to a first embodiment of a wireless communication terminal of the present invention.
FIGS. 2A and 2B are a plan view and a side view showing an example of an outer shape when the lid of the wireless communication terminal shown in FIG. 1 is closed and folded.
3 is a view showing a structure example of a rotating portion of a hinge portion that rotatably couples the lid portion and the main body portion shown in FIGS. 1 and 2; FIG.
4 is a plan view showing a state in which the lid portion and the main body portion shown in FIGS. 1 and 2 are separated from each other. FIG.
FIG. 5 is a diagram illustrating a display state of the display unit illustrated in FIGS. 1 and 2;
6 is a block diagram showing a circuit configuration example of the wireless communication terminal shown in FIGS. 1 and 2. FIG.
7 is a configuration diagram showing an example of a storage area of the RAM shown in FIG. 6;
8 is a diagram showing a configuration example of a mode flag area shown in FIG.
9 is a diagram showing an example of data stored in the address book storage area shown in FIG. 7. FIG.
10 is a flowchart showing a charging operation for the rechargeable battery in the lid portion and the main body portion shown in FIG. 6;
FIG. 11 is a flowchart showing an operation when the wireless communication terminal is in the first mode in a state where the lid of the wireless communication terminal is closed with respect to the main body.
FIG. 12 is a flowchart showing an operation in a second mode in which the lid portion is open with respect to the main body portion.
FIG. 13 is a flowchart showing the operation of the terminal in the third mode in which the lid and the main body are separated.
FIG. 14 is a flowchart showing an example of a photographing operation during a call of the wireless communication terminal.
FIG. 15 is a diagram illustrating usage modes of the second mode and the third mode of the wireless communication terminal according to the first embodiment.
FIG. 16 is a block diagram showing a circuit configuration of a main body according to a second embodiment of the wireless communication terminal of the present invention.
FIG. 17 is a block diagram showing a circuit configuration of a lid according to a second embodiment of the wireless communication terminal of the present invention.
FIG. 18 is a diagram illustrating an example of how the wireless communication terminal according to the second embodiment is used in the third mode.
FIG. 19 is a flowchart illustrating an operation procedure of the wireless communication terminal according to the second embodiment.
FIG. 20 is a block diagram showing a circuit configuration of a lid according to a third embodiment of the wireless communication terminal of the present invention.
FIG. 21 is a plan view showing an example of the appearance of a lid according to a third embodiment.
22 is a schematic diagram showing an example of a memory area of the ROM 63 shown in FIG.
FIG. 23 is a diagram showing a form in which a plurality of replacement lids are attached to and detached from the main body of the wireless communication terminal.
[Explanation of symbols]
1 Wireless communication terminal
2, 200, 210 Lid
3, 310 Body
4 Imaging unit
5 Notification lamp
6, 17 Speaker
7, 13 Display section
8 Shutter button
9, 14, 19, 20 connectors
10, 18, 231 microphone
11 Detachable switch
12 Hinge cover
15, 45, 55 Antenna
16 Key operation part
21 Earphone jack
22 Strap connection member
23 Earphone
31, 51 Control unit
32, 52 RAM
33 ROM
34 Key input section
35, 58 Display driver
36 Sound source circuit
37, 61 drivers
38 Wireless transceiver
39 Radio signal processor
40 External interface
41, 57 Audio signal processor
42 detector
43, 53 Power supply monitoring unit
44, 54 Proximity wireless communication processing unit
46, 56 Rechargeable battery
47, 62 Coding / decoding processing unit
59 DSP
60 Shutter button detector
230 Earphone microphone
232 switch
233 pronunciation part
301, 305 Micro switch
400, 500 buses
441, 541 Device ID storage unit

Claims (5)

A main body unit including a wireless communication unit that performs wireless communication with a base station, and a first proximity wireless communication unit that performs close proximity wireless communication with the lid unit to output data communicated by the wireless communication unit A second proximity wireless communication means for performing communication by being connected to the main body by proximity wireless communication, and a first audio output means for outputting a sound included in the data received via the second proximity wireless communication means And a lid provided with a display means for displaying a moving image included in the data transmitted via the second proximity wireless communication means,
The main body is
Second sound output means for outputting sound included in the data received by the wireless communication means;
When performing a voice call using the wireless communication means, the voice included in the received data is controlled to be transmitted to the lid via the first proximity wireless communication means, and is received by the wireless communication means. It was when that contain the video and audio data, while transmitting a video included in the received data to the lid portion through a pre-Symbol first proximity radio communication means, sound included in the received data Control means for controlling the output by the second sound output means;
A wireless communication terminal comprising: The main body further includes a connector for connecting to an earphone,
2. The wireless communication terminal according to claim 1, wherein the second audio output unit outputs audio included in the data received by the wireless communication unit via the connector. A main body unit including a wireless communication unit that performs wireless communication with a base station, and a first proximity wireless communication unit that performs close proximity wireless communication with the lid unit to output data communicated by the wireless communication unit A second proximity wireless communication means for performing communication by being connected to the main body by close proximity wireless communication, a sound output means for outputting a sound included in data received via the second close proximity wireless communication means, In a portable communication terminal comprising a lid provided with an imaging means for acquiring a moving image to be transmitted to a base station via a wireless communication means,
The main body is
When performing a voice call using the wireless communication means, the voice included in the received data is controlled to be transmitted to the lid via the first proximity wireless communication means, and the wireless communication means is used. when sending a video Te receives videos sent via the second proximity wireless communication means is acquired by the imaging means via the first proximity radio communication means, said wireless communication means Control means for controlling to transmit to the base station via
A wireless communication terminal comprising: A wireless communication unit that performs wireless communication with a base station, a first proximity wireless communication unit that performs communication by proximity wireless connection with a lid unit to output data communicated by the wireless communication unit, and the wireless communication unit A main body unit including a first voice output unit that outputs a voice included in the data received by the second unit, a second proximity wireless communication unit that performs near-field wireless communication with the main body unit, and the second A second audio output unit that outputs audio included in the data received via the close proximity wireless communication unit; and a display unit that displays a moving image included in the data received via the second close proximity wireless communication unit. A computer included in the main body portion of the mobile communication terminal including the lid portion provided ,
Wherein when performing voice communication using the radio communication unit, controls to transmit the sound included in the received data to the lid through the first proximity radio communication unit, received by the radio communication unit It was when that contain the video and audio data, while controlling so as to transmit the video included in the data received by the wireless communication unit via the first proximity radio communication unit to the lid, the receiving Control means for controlling the sound included in the data to be output from the first sound output unit;
A communication control program characterized by causing it to function as A main body unit including a wireless communication unit that performs wireless communication with a base station, and a first proximity wireless communication unit that performs close proximity wireless communication with the lid unit to output data communicated by the wireless communication unit A second proximity wireless communication unit that performs communication with a proximity wireless connection to the main body, a voice output unit that outputs a voice included in data received via the second proximity wireless communication unit, A computer included in the main body of the mobile communication terminal including a lid provided with an imaging unit that acquires a moving image to be transmitted to a base station via a wireless communication unit;
Wherein when performing voice communication using the radio communication unit, the sound included in the received data via the first proximity radio communication unit is controlled so as to be transmitted to the lid, using the wireless communication unit when sending a video Te receives videos sent via the second proximity wireless communication unit is acquired by the imaging unit through the first proximity radio communication unit, the radio communication unit Control means for controlling to transmit to the base station via
A communication control program characterized by causing it to function as

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