JP2003163742A - Portable terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a portable terminal device in which a newly determined operation can be performed without directly wearing a device on the body and without performing any special key operation, and further in analog quantity can be comparatively easily instructed. <P>SOLUTION: A portable telephone set 11 is provided with an acceleration sensor 18 and when the acceleration of vibration or the like is applied to the device, this is detected. Then, the continual period of time of applying the acceleration is measured and when a back light 25 or key LED14L is temporarily turned off, time for turning it on again is controlled. Besides, when electronic mail is completely inputted, only by performing operation such as shaking of the portable telephone set 11, preset processing such as the transmission of the mail can be performed as well. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile terminal device such as a mobile phone or a compact information terminal, and more particularly to a mobile terminal device with improved operability.

[0002]

2. Description of the Related Art From the viewpoint of portability, mobile terminal devices represented by mobile phones tend to be smaller in size if they have the same function. However, the smaller the size, the smaller the size of the operation unit or the operation tool such as a key switch or button switch for operation (hereinafter collectively referred to as a key switch), and the smaller the number of key switches. There is a problem that the sex does not always improve.

FIG. 8 shows a proposal for solving such a problem. In this proposal disclosed in Japanese Patent Laid-Open No. 10-200610, the hand 101 or the finger 10 is used.
The movement of No. 2 is detected by the acceleration detector 103 attached to the wrist, and the trigger signal 104 corresponding thereto is generated from the trigger signal generator 105. Then, the trigger signal 104 is input to the command generation circuit 106, the command 107 according to the mode of the trigger signal 104 is output, and the command 107 is input to the telephone transmission / reception circuit 108, so that the operation of telephone transmission / reception is performed. I have to.

In this Japanese Laid-Open Patent Publication No. 10-200610, an acceleration detector is similarly attached to the ears of the operator, which is generated when teeth are engaged with each other and transmitted to the bones of the jaw and the surface of the skin. It also discloses a technique of similarly detecting the acceleration and generating a command based on the same principle to perform a telephone transmission / reception operation. In this case, a telephone transmission / reception operation is performed by the operator's time-series tooth engagement operation.

[0005]

However, in the proposed technique, it is necessary for the operator to attach the acceleration detector to a portion such as an arm or an ear where movement of the hand or teeth is detected. Therefore, as shown in this proposal, it is an effective proposal when the portable terminal device itself is downsized to the size of a wristwatch or a hearing aid, but it is an effective proposal.
In the case of a device such as (personal digital assistants: portable information communication device for personal use) that can be held in a hand and operated, a detector such as a bracelet or an ear cover is further required. For this reason, there is a problem in that it is complicated and requires two systems of power sources because it is necessary to wirelessly transmit and receive signals between the devices, which makes management difficult. Further, if such a device to be worn on the body is forgotten, naturally there is a problem that it cannot function as an auxiliary input device.

Further, in the case of the portable terminal device of such a size that the operator wears it, there is a risk that the transmission / reception operation of the device may be performed by the movement of the wrist or teeth.
In order to prevent this, it is necessary to request the operator to perform a special operation that cannot occur during operation. For this reason,
There is also a problem that the number of commands to be operated is not limited and it is not suitable for an operation that is urgently needed or an operation that is required immediately because it is a special operation.

Although the use of a command is effective for an instruction to start or stop a certain process, it is not necessarily suitable for giving an analog instruction to perform a certain process for an arbitrary length of time. Therefore, even if it is applied to various instructions of an actual mobile terminal device, there is a problem that the applicable range is limited.

Therefore, an object of the present invention is that it is possible to realize a newly defined operation without the need to directly attach it to the body and to perform an operation of a special key, and to relatively easily give an analog amount instruction. It is to provide a portable terminal device capable of performing.

[0009]

According to a first aspect of the present invention, (a) an operation section for performing various operations, (b) illumination means for illuminating this operation section, and (c) acceleration for detecting acceleration. A sensor, and (d) time length measuring means for measuring the time during which the acceleration is detected by the acceleration sensor,
(E) The portable terminal device is provided with an illumination means driving means for driving the illumination means only for a time corresponding to the time length detected by the time length measuring means.

That is, according to the first aspect of the invention, when the acceleration sensor for detecting the acceleration outputs a predetermined output by detecting the acceleration, the time length measuring means measures the time during which the acceleration is detected. The illuminating means is driven only for the time corresponding to the time length detected by the time length measuring means, so that the illumination is performed for the necessary time.

According to a second aspect of the invention, the mobile terminal device according to the first aspect is characterized in that the acceleration sensor detects accelerations in all three directions.

That is, according to the second aspect of the invention, since the acceleration sensor is a sensor for detecting accelerations in all three axes, the acceleration sensor is added regardless of the state of the mobile terminal device such as a mobile phone. It is possible to reliably and quickly turn on the illumination of the device and stop the ringing tone by the vibration. Of course, even if a sensor other than a sensor that detects acceleration in all three axes is used, it is sufficient to know the direction in which the acceleration is applied or to devise the direction in which the sensor is arranged. The effect can be obtained.

According to a third aspect of the present invention, the portable terminal device according to the first aspect includes an opening / closing detection sensor for detecting opening / closing of the device, and the lighting means driving means detects the opened state of the device by the opening / closing detection sensor. The illumination means is driven when the acceleration sensor outputs a predetermined output.

That is, according to the third aspect of the present invention, the case of the folding type portable terminal device is dealt with, and the illuminating means is driven under the condition that the open / close detection sensor detects the usage state in which the device is opened. There is. For this reason, highly accurate control can be performed even when the reliability of the output of the acceleration sensor is low, and it is possible to prevent the situation where the device is illuminated when the device is closed and not used, which contributes to power saving. Become.

According to a fourth aspect of the present invention, the portable terminal device according to the first aspect includes an optical sensor for detecting the ambient brightness of the operating portion, and the illumination means driving means has the optical sensor with a predetermined ambient brightness. It is characterized in that the illuminating means is driven when the acceleration sensor outputs a predetermined output when a state of being less than or equal to the value is detected.

That is, according to the invention described in claim 4, the illuminating means is driven under the condition that the optical sensor for detecting the ambient brightness of the operating portion detects that the ambient brightness is dark. For this reason, highly accurate control can be performed even if the reliability of the output of the acceleration sensor is low, and illumination is not possible when the surroundings of the device are bright, which contributes to power saving.

According to a fifth aspect of the present invention, (a) an operation section for performing various operations, (b) an acceleration sensor for detecting acceleration, and (c) for each of one or more specific operation states that the device can adopt. And (d) when the acceleration sensor detects acceleration, the acceleration operation correspondence storage means that stores the acceleration detection operation of the acceleration sensor and the specific operation by the operation unit as a pair. A state determining means for determining whether or not the state corresponds to the operating state, and (e) an operating section stored in the acceleration operation association storage means when the state determining means determines that the state corresponds to one or more specific operating states. The mobile terminal device is provided with an acceleration detection time operation execution unit that executes the same operation as the corresponding specific operation.

That is, in the fifth aspect of the invention, the acceleration operation correspondence storage means stores each specific state of the device and the corresponding operation (or input) by the operation unit (or input unit), and the acceleration sensor When the acceleration is detected, the state determination means determines whether or not it corresponds to a specific one or a plurality of operating states, and if it corresponds to a specific one or a plurality of operating states, the acceleration operation association storage means. The same operation as the operation by the operation unit corresponding to the specific operation state stored in is executed. For example, if an operation such as determination of a specific item in a menu, transmission / reception of an e-mail, or an outgoing / incoming call is stored in the acceleration operation association storage means in association with each situation,
Acceleration is detected by shaking the mobile terminal device or applying an impact to it, and the electronic signal is sent according to the operating state of the device at that time (for example, according to the state that each column of the email is filled in). Actions such as sending an email can be taken.

According to the sixth aspect of the present invention, (a) an operation unit for performing various operations, (b) an acceleration sensor for detecting acceleration, and (c) an operation unit are operated, and items are sequentially selected from a predetermined top menu. A procedure storage area that stores a control procedure that shifts to a mode in which desired work is performed by expanding (1) and a state in which a predetermined work is executed by the control procedure stored in the procedure storage area. The mobile terminal device is provided with top menu restoring means for restoring the operation state to the top menu when the acceleration sensor detects acceleration.

That is, according to the invention of claim 6, the portable terminal device operates the operation part thereof to sequentially expand the items from a predetermined top menu to shift to a mode for performing a desired work. A procedure storage area for storing procedures is provided. For example, if the top menu is the top of the menu display for processing e-mail, and if you write and send an e-mail in the mode to newly write and send an e-mail, shake the device or shock the device. If you give it acceleration, you can easily return to the top menu. This is similar to performing a shaking operation with a mercury column type thermometer before restarting the measurement, and it is easy to understand as an operation.

[0021] In the invention according to claim 7, (a) immediately before state storing means for storing the state immediately before the top menu restoring means restores the operation state to the top menu,
(B) Time length measuring means for measuring the time during which acceleration is detected by the acceleration sensor, and (c) About the acceleration sensor at the stage where the top menu return means returns the operation state to the top menu and there is no operation input from the operation section. Acceleration after return determining means for determining whether or not the time length measuring means measures a time longer than a predetermined length, and (d) a stage at which the after acceleration returning determination means returns to the top menu and there is no operation input from the operation section. 7. The immediately preceding work returning means for returning to the immediately preceding operating state stored in the immediately preceding state storing means when it is determined that the time length measuring means has measured the time longer than the predetermined length with respect to the acceleration sensor. It is characterized by being further equipped with.

That is, according to the invention of claim 7, in the invention of claim 6, when the top menu restoring means restores to the top menu, and when this is an erroneous operation, the original work can be restored. At this time, since the state of the top menu is stored in the immediately preceding state storage means, it is possible to return to the top menu again by performing an operation of applying acceleration again.

[0023]

DETAILED DESCRIPTION OF THE INVENTION

[0024]

EXAMPLES The present invention will be described in detail below with reference to examples.

FIG. 1 shows an external appearance of a mobile phone as an example of a mobile terminal device according to an embodiment of the present invention. The mobile phone 11 has a display unit 13 formed of a liquid crystal display on the surface of a device body 12, a key and a key LE for illuminating these keys.
An input unit 14 including a D (light emitting diode), a microphone 15, and a speaker 16 are arranged. An acceleration sensor 18 is arranged inside the apparatus body 12. The acceleration sensor 18 is a commercially available triaxial acceleration sensor, and is a package having a height of about 7 mm and a width and depth of a little less than 1 cm when mounted on a substrate (not shown). The acceleration sensor 18 can detect accelerations in the three axis directions of X, Y, and Z. Depending on the device, it may be one that detects acceleration in two axial directions.
Such an acceleration sensor is used, for example, as a sensor for detecting the acceleration at the time of a collision with an airbag device.
In this embodiment, the acceleration is detected when the mobile phone 11 is directly shaken or when a container (not shown) such as a bag accommodating the mobile phone 11 is shaken. A light receiving sensor 19 that detects the brightness around the mobile phone 11 is arranged near the display unit 13.

FIG. 2 shows the main part of the circuit configuration of this portable telephone. The mobile phone 11 includes a control unit 21 for performing various controls. The control unit 21 is a CPU
(Central processing unit) 21C, ROM (read only memory) 21R storing a control program, and RAM (random access memory) for storing various data
Memory) 21A. The control unit 21 uses a wireless unit 22 that performs wireless transmission / reception and outputs detected by the input unit 14 and the acceleration sensor 18 in an analog / digital (A / D) format.
It is connected to the display unit 13, the microphone 15, the speaker 16, the light receiving sensor 19, the backlight 25, the open / close detection circuit 26 and the vibrator 27 via an A / D converter 23 for converting and a predetermined drive circuit or interface circuit not shown. ing.

Here, the backlight 25 is a light source for illuminating the liquid crystal display constituting the display unit 13 from the back side, but in the present embodiment, illumination of the key switch constituting the input unit 14 is also performed by light emission of a diode (not shown). It is like this. The open / close detection circuit 26 includes a sensor for detecting the open / close state of the apparatus main body 12, and is adapted to detect whether the open state or the closed state. Examples of such a sensor include a magnetic sensor, an optical sensor, and a micro switch. The vibrator 27 is a vibration generating means for vibrating instead of ringing a ring tone and notifying it when the mobile phone 11 is set to the so-called manner mode. The A / D converter 23 is a circuit that inputs the three-axis analog output detected by the acceleration sensor 18 and converts the analog output into a digital signal corresponding to the detected output. That is, the acceleration sensor 18 and the A / D converter 23 form an acceleration detection circuit that detects vibration and shake. The control unit 21 is configured to detect that the mobile phone 11 is intentionally shaken when the acceleration detecting circuit detects a "shake" stronger than a vibration that normally occurs in daily life. In the present embodiment, when a predetermined shake is detected, the backlight 25 is turned on according to its duration.

FIG. 3 shows the control of the backlight point, etc. in the portable telephone of this embodiment. When the operator opens the apparatus main body 12 as shown in FIG. 1 from the folded state to use the mobile phone 11, the open / close detection circuit 26 detects that it is open (step S31:
Y), interrupt the CPU 21C of the control unit. CP
The U21C thereby determines that the mobile phone 11 has transitioned to the original usage state, and turns on the backlight 25 and the key LED 14L of the input section (step S3).
2). At the same time, the operation of a software timer that counts a clock signal (not shown) is started to start the counting of a predetermined time t ₁ (step S33). When the acceleration detection circuit configured by the acceleration sensor 18 and the A / D converter 23 in this embodiment is configured by hardware that is independently supplied with power, when the backlight 25 or the like is powered on. Then, control is performed so that power is also supplied to this circuit.

Before the timing of time t ₁ is finished, the input unit 14
If key input is performed by (step S34:
Y), the process based on the depression of the key switch is executed (step S35). Such an operation is normally performed.

When the operator continues to perform no operation for some reason (step S34: N), the control unit 14 reduces the power consumption at the time when the time t ₁ is counted (step S36: Y). In order to save money, the backlight 25 and the key LED 14L of the input section are turned off (step S37). However, the backlight 2
5 and the key LED 14L of the input section are turned off, it is difficult for the operator to perform key input after that, especially in a dark place.

In such a case, in the mobile phone 11 of the present embodiment, the operator shakes the apparatus main body 12 relatively strongly so that the backlight 25 and the key LED 14L of the input section are turned on again. That is, when the operator performs such an operation, the control unit 21 determines that the strength of the detection output of the acceleration sensor 18 exceeds a predetermined value (step S3).
8: Y), and measure its duration (step S3).
9). And this is the RAM in the control unit 21 shown in FIG.
21A.

At this time, the control section 21 determines whether or not the detection output of the light receiving sensor 19 has a darkness below a predetermined threshold value (step S40). Then, when it is determined that the surroundings are dark to some extent (Y), the measurement time of the software timer is based on the time t _D when the acceleration of the acceleration sensor 18 stored in the RAM 21A is continuously detected. Are set (step S41). The reset time t ₂ is given, for example, by the following equation (1).

T ₂ = t ₃ + Ct _D (1) Here, the symbol C is a coefficient indicating the magnification. The time t ₃ is an arbitrary time set at the time of factory shipment, and may be, for example, about half the time t ₁ or may be substantially the same as the time t ₁ .

Thereafter, the process returns to step S32 and the backlight 25 and the key LED 14L are turned on. Therefore, the operator must operate the backlight 25 and the key LED 14
When L is extinguished, if the mobile phone 11 is shaken continuously with a swing width according to the time to be turned on, the backlight 25 and the key LED 14L are turned on again for a length corresponding to the swing. Therefore, it is possible to easily perform a work such as key input or reading an unfamiliar mail.

If the backlight 25 and the key LED 14L are turned off again due to time-consuming work such as reading mail (step S36: Y), the mobile phone 11 is restarted.
Shake with the required width.

In this embodiment, the light receiving sensor 19 is arranged to prevent unnecessary lighting of the backlight 25 and the key LED 14L, but each time the operator shakes the apparatus body 12 without preparing the light receiving sensor 19. The backlight 25 and the key LED 14L may be turned on even in a bright place. Further, when the light receiving sensor 19 is arranged, it is also possible not to turn on the backlight 25 and the key LED 14L when the open / close detection circuit 26 detects the opened state of the apparatus body 12 in a bright place.

First Modification

FIG. 4 shows a first modification of the present invention. In the above embodiment, the number of owners of the mobile phone 11 is 1.
The swing width (or swing distance or time) swung each time is measured, and the time when the backlight 25 and the key LED 14L are turned on again is set based on the measured swing width. In the modification, it is possible to shake a plurality of times in a short time, and based on the integrated value, the time that can be further set can be adjusted in a wide range.

That is, when the holder first shakes the mobile phone 11 shown in FIG. 1 (step S38: Y) as in step S38 in FIG. 3, the duration at that time is first measured as the first value. (Step S51). Next in FIG.
The control unit 21 shown in ( ₄ ) monitors whether the mobile phone 11 is shaken again before the relatively short time t ₄ has passed (steps S52 and S53). If it is shaken (step S53: Y), the process returns to step S51 to measure the second duration. Then, it is monitored again whether the mobile phone 11 is shaken before the relatively short time t ₄ has passed. In this way, when the holder shakes the mobile phone 11 a plurality of times in succession, each duration is measured.

When the portable telephone 11 is not shaken even after the time t ₄ , the CPU 21C in the control unit 21 obtains the sum of the respective durations written in the RAM 21A (step S54), With this as the overall duration, the lighting time of the backlight 25 and the key LED 14L is set by using the above-mentioned formula (1).

The width of shaking the mobile phone 11 may be limited depending on the location. According to this modification, even under such a situation, it is possible to set the same duration as when the wrist is swung a plurality of times in small increments and the arm is swung greatly.

Second Modification

FIG. 5 shows an outline of the flow of processing for electronic mail in the portable terminal device in the second modification of the present invention. When carrying out work related to electronic mail, the holder of the mobile phone 11 shown in FIG. 1 operates the input unit 14 to display the top menu for performing various work of electronic mail on the display unit 13 (step S61). In this top menu, various items such as "new creation of e-mail", "reception of e-mail", "edit of address book" are displayed. The owner of the mobile phone 11 operates the input unit 14 (FIG. 2) as necessary to move the cursor (steps S62 and S63), and selects the desired item while the cursor is displaying the desired item. By doing so (step S64: Y), the selected item is executed (step S65). Such a hierarchical processing procedure is stored in the ROM 21R of the control unit in advance.

FIG. 6 shows a flow of processing when a new mail creation and its transmission processing item is selected as an example of the processing of step S65. In this initial state, the backlight 25 and the key LED 14L of the input section are lit. Whether the acceleration by the acceleration sensor 18 is sensed by the control unit 21 (step S71) or the input unit 1
It is monitored whether the operation of 4 is performed (step S72) or whether a predetermined time t ₅ has passed without sensing or inputting these (step S73). If there is an operation of the input unit 14 (step S72: Y), a process corresponding to the operation input is executed (step S74) because the new mail is created and the transmission process is being executed. Then, unless there is an input for instructing the end of the new mail creation and transmission processing (step S75:
N), and the process returns to step S71. If there is an instruction to create a new mail and end the transmission process (step S75: Y), a process for returning to the top menu is performed (step S76).

On the other hand, when the input of the input unit 14 is not performed or the input remains suspended despite the selection of the new mail creation and transmission processing items (step S72: N), the time is the above-mentioned time t
At the time when ₅ has passed (step S73: Y), the backlight 25 and the key LED 14 of the input unit are used for power saving.
It is confirmed whether L is lit (step S7).
7). If they are lit, they are turned off (step S78: Y), and the process returns to step S71. If the backlight 25 and the key LED 14L of the input unit are off at this point (step S77: N), the process immediately returns to step S71.

It is assumed that the acceleration sensor 18 senses an acceleration equal to or higher than a predetermined level at a certain point during such control (step S71: Y). In this case, the control unit 21 controls the backlight 25 and the key LED of the input unit.
It is checked whether 14L is designated as lighting (step S
79). If both of them are not lit (N), they are lit (step S80) and the process is returned to step S71 in a state where the new mail creation and its sending process can be performed without any trouble. At this time, the lighting time of the backlight 25 and the key LED 14L of the input unit may be adjusted according to the mode in which the acceleration such as the integrated value of the acceleration sensor 18 or the acceleration duration is added.

On the other hand, in step S79, the backlight 25
When both the key LEDs 14L of the input section are turned on (Y), the holder shakes the mobile phone 11 not to turn them on. Therefore,
The control unit 21 checks the creation status of the new mail (step S81). This check includes two checks, that is, a check as to whether or not any information is entered as the mail body, and a check as to whether or not at least one destination is entered. If both are entered (Y), it is determined that the owner's action is to send an e-mail, and the e-mail sending operation is executed (step S82). Is by the control program and displayed on the display unit 13 the letters "Are you sure you want to send mail" at this stage, the transmission in case the owner is again, that shook the mobile phone 11 within a predetermined period of time t ₆ It may be done. In this case, if the mobile phone 11 is not shaken after the time t ₆ , the detection result of the acceleration sensor 18 is ignored as a malfunction.

When the electronic mail is transmitted in step S82, the process returns to the top menu (step S76). Therefore, if the owner writes the body of the e-mail, he or she fills in the address and shakes his / her wrist shortly, or if the hand holding the mobile phone 11 is lightly touched on the body or desk to generate acceleration, the transmission work is completed. It is possible to confirm the completion of transmission by confirming that the process has been performed and the screen has returned to the top menu at a predetermined time.

In step S81, if no character is entered in the body of the e-mail or the address is not entered (N), the content is shown in the RAM 21A shown in FIG.
Temporarily save (step S83) and return to the top menu. This is to simplify the process when the owner of the mobile phone 11 abandons the creation of a new mail and discards the contents. However, there is a case in which the owner gives a shock to the mobile phone 11 for some reason to sense the acceleration. In that case, the acceleration is detected by shaking the mobile phone 11 again as described above, and the e-mail message is sent. You may make it return a process to the state which is making.

Third Modification

FIG. 7 shows an essential part of the processing of a portable terminal device having a customization function for the detection output of the acceleration sensor as a third modification of the present invention. Various functions can be realized by detecting the acceleration of the mobile phone 11 by the acceleration sensor 18 shown in FIG. 2 as described in the above embodiments and modifications. However, depending on the owner of the mobile phone 11, it may be more convenient to change to a different function in each work situation.
Regarding the relationship between the lighting time of the backlight 25 and the acceleration duration, it may be desired to change the magnification coefficient C or the time t ₃ in the equation (1).

Therefore, in the third modification, the apparatus is provided with a customization mode in which the acceleration can be customized. When the mobile phone 11 shown in FIG. 1 is set to the customize mode (step S91: Y) and the corresponding key setting mode is selected (step S9).
2: Y), the type of the key of the input unit 14 corresponding to the function currently realized when the acceleration is sensed is displayed for confirmation, and the key of the changed input unit 14 or the changed key The function can be set (step S93). The RAM 21A described above is provided with a table (acceleration operation correspondence storage means) that compares each state of the mobile phone 11 when acceleration is detected with the function realized instead of operating the input unit 14. Although the default value is set at the time of factory shipment, the owner of the mobile phone 11 can customize the default value. For example, the e-mail transmission process shown in step S82 of FIG. 6 can be changed to a function convenient for the owner of the mobile phone 11, such as a process of putting the e-mail in the outbox or a process of discarding the e-mail itself. If operations such as deciding a specific item in the menu, sending / receiving e-mail, making / receiving a call, etc. are stored in this table according to each situation, it is possible to accelerate by shaking or giving a shock to the mobile terminal device. Can be detected, and necessary processing can be easily taken according to the operating state of the apparatus at that time.

When the holder selects the time adjustment mode for changing the relationship between the lighting time of the backlight 25 and the acceleration duration (step S94: Y), the current value in the equation (1) is displayed. In addition, the magnification coefficient C and the time t ₃ can be newly input as numerical values or can be changed graphically (step S95). Of course, in a predetermined case, it is also effective to provide a function capable of restoring these default values as factory default values.

Although the folding type portable telephone 11 has been described in the embodiments and the modified examples, the present invention can be similarly applied to a non-folding portable telephone. Of course, the present invention can be similarly applied to various controls of other portable terminal devices such as lighting and output of ringing tones.

[0055]

As described above, the first to fourth aspects of the invention are described.
According to the invention described above, when the acceleration sensor for detecting the acceleration outputs a predetermined output by detecting the acceleration, the time length measuring means measures the time during which the acceleration is detected. It is possible to drive the lighting means only for a time corresponding to the time length detected by the measuring means,
This contributes to power saving as compared with the case where the lighting means is driven for a uniform time each time. Further, since the lighting means can be driven by a simple operation such as shaking the main body of the apparatus, it is possible to prevent the occurrence of an error caused by performing an erroneous operation which is time-consuming.

According to the second aspect of the invention, since a sensor for detecting acceleration in all three axes is used as the acceleration sensor, the portable terminal device such as a portable telephone is placed in any state. With the vibration added to this, it is possible to reliably and quickly turn on the lighting of the device and stop the ringing tone.

Further, according to the third aspect of the present invention, the illuminating means is driven under the condition that the opening / closing detection sensor detects the usage state in which the device is opened. Therefore, the folding device is closed. It is possible to prevent the lighting from being turned on when it is not used, which contributes to power saving.

According to the present invention, the light sensor for detecting the ambient brightness of the operating portion drives the illumination means under the condition that the ambient brightness is low. Even if the reliability is low, highly accurate control can be performed, and since the illumination cannot be turned on when the surroundings of the device are bright, it contributes to power saving.

Further, according to the inventions of claims 5 to 7, it is possible to easily execute a predetermined process even in a crowded place or a place where input operation is difficult such as darkness.

[Brief description of drawings]

FIG. 1 is a perspective view showing an appearance of a mobile phone as an example of a mobile terminal device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a main part of a circuit configuration of the mobile phone of this embodiment.

FIG. 3 is a flow chart showing control of a backlight point and the like in the mobile phone of the present embodiment.

FIG. 4 is a flowchart showing processing of acceleration duration time in the first modified example of the present invention.

FIG. 5 is a flowchart showing an outline of a processing flow of an electronic mail of a mobile terminal device according to a second modified example of the present invention.

FIG. 6 is a flowchart showing the flow of processing when a new mail creation and its transmission processing item is selected in the second modified example.

FIG. 7 is a flowchart showing a main part of a process of a mobile terminal device having a customization function for a detection output of an acceleration sensor as a third modified example of the invention.

FIG. 8 is an explanatory diagram showing a configuration of a conventional device using an acceleration detector.

[Explanation of symbols]

11 mobile phones 13 Display 14 Input section 14K key 14L key LED 18 Accelerometer 21 Control unit 21A RAM 21C CPU 21R ROM 25 backlight 26 Open / close detection circuit

Continuation of front page (51) Int.Cl. ⁷ identification code FI theme code (reference) H04B 7/26 S

Claims (7)

[Claims] 1. An operating section for performing various operations, an illuminating means for illuminating the operating section, an acceleration sensor for detecting acceleration, and a time length measuring means for measuring time during which acceleration is detected by the acceleration sensor. And a lighting means driving means for driving the lighting means for a time corresponding to the time length detected by the time length measuring means. 2. The mobile terminal device according to claim 1, wherein the acceleration sensor detects accelerations in all three axes. 3. An opening / closing detection sensor for detecting opening / closing of the device, wherein the illuminating means driving means detects the opening / closing state of the device when the opening / closing detection sensor outputs a predetermined output. The mobile terminal device according to claim 1, wherein the illuminating means is driven. 4. An optical sensor for detecting the ambient brightness of the operating portion, wherein the illumination means driving means sets the acceleration sensor to a predetermined value when the optical sensor detects a state in which the ambient brightness is less than or equal to a predetermined value. 2. The portable terminal device according to claim 1, wherein the illuminating means is driven when the output of FIG. 5. An operation section for performing various operations, an acceleration sensor for detecting acceleration, an acceleration detection operation of the acceleration sensor and specification by the operation section for each of one or more specific operation states that the device can adopt. An acceleration operation correspondence storage unit that stores the operation and a pair of operations, and a state determination unit that determines, when the acceleration sensor detects acceleration, whether or not it corresponds to the one or more specific operation states. Acceleration detection operation for executing the same operation as the corresponding specific operation by the operation section stored in the acceleration operation association storage means when the state determination means determines that the operation corresponds to the one or more specific operation states. A mobile terminal device comprising: an execution unit. 6. An operation unit for performing various operations, an acceleration sensor for detecting an acceleration, and an operation unit for operating the operation unit to sequentially develop items from a predetermined top menu so that a desired work mode is set. When the acceleration sensor detects acceleration in a procedure storage area that stores a control procedure to be transferred and a predetermined procedure is performed in the control procedure stored in the procedure storage area, the operation state is displayed as the top menu. A mobile terminal device, comprising: a top menu returning means for returning to the above. 7. The immediately-preceding state storage means for storing a state immediately before the top menu restoring means restores an operation state to the top menu, and a time length measurement for measuring a time during which acceleration is detected by the acceleration sensor. Means and the top menu returning means returns the operation state to the top menu and determines whether or not the time length measuring means measures a time longer than or equal to a predetermined length for the acceleration sensor when there is no operation input from the operation unit. The acceleration / non-acceleration determination means after return and the acceleration / non-acceleration determination means after return returns to the top menu and there is no operation input from the operation section, and the time length measuring means measures a time longer than a predetermined length for the acceleration sensor When the determination is made, immediately before work restoring means for returning to the immediately previous operation state stored in the immediately previous state storage means, 7. The mobile terminal device according to claim 6, further comprising: