JP2004048488A - Portable terminal unit and mobile communication terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication terminal that can indicate its consuming current with a simple constitution. <P>SOLUTION: This mobile communication terminal is provided with a radio control section 31 which controls the radio communication with a radio base station BS1 and outputs the states of radio communications as status information, an input-output control section 20 which controls information input-output to and from the user and outputs input-output controlling states as operating modes, and a first consuming current storage section which stores a first consuming current value table 41 correlating the consuming current of the terminal to each radio communication state. This terminal is also provided with a second current consumption table which stores a second current consumption value table 42 correlating the current consumption to each input-output controlling state, a current consumption estimating section 21 which estimates the current consumption by referring to the tables 41 and 42 based on the status information and operating mode information, and a current consumption indicating section 45 which indicates the current consumption of this terminal based on the estimated current consumption. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile terminal device and a mobile communication terminal, and more particularly, to a mobile terminal device capable of displaying current consumption and a mobile communication terminal capable of displaying current consumption for wireless communication.
[0002]
[Prior art]
Generally, a portable terminal device such as a mobile phone has a built-in primary battery or a secondary battery that can be repeatedly charged and discharged, and operates from a power supply from these built-in batteries. The built-in battery discharges with use or with the passage of time to reduce the remaining capacity, and the output voltage gradually decreases accordingly. Then, when the output voltage falls below the predetermined value, the mobile terminal device does not function properly. For this reason, the user needs to check the remaining capacity of the built-in battery, and most portable terminal devices have a function of measuring and displaying the remaining capacity of the built-in battery.
[0003]
FIG. 7 is a block diagram showing a configuration of a main part of a conventional mobile phone 1 ', showing a configuration for displaying a remaining capacity of a built-in battery. In the figure, 10 is a built-in battery, 11 is a battery voltage conversion unit, 12 is an application control unit, and 13 is a display unit.
[0004]
The built-in battery 10 is a primary battery or a secondary battery that supplies a DC voltage to each block of the mobile phone 1 ′, and is built in the housing of the mobile phone 1 ′. The battery voltage converter 11 always detects the power supply voltage supplied from the built-in battery 10, performs A / D conversion, and outputs the data to the application controller 12 as digital data. The application control unit 12 is a microprocessor on which an application program is executed, and performs information input / output control for a user. Based on the A / D converted power supply voltage value, the remaining capacity of the internal battery 10 is determined in consideration of the operation state of the mobile phone 1 ′, and a pictogram indicating the remaining capacity is selected. Display.
[0005]
FIGS. 8A to 8D are diagrams showing pictograms indicating the remaining capacity of the built-in battery, so-called battery marks. Here, four types of pictograms corresponding to four levels of remaining capacity are prepared in advance, and one of the pictograms is selected and displayed according to the remaining capacity of the internal battery 10. The user can confirm the remaining capacity level of the built-in battery by looking at the display of the battery mark.
[0006]
The user who has confirmed the remaining capacity of the built-in battery 10 prepares a spare battery in preparation for discharging the battery or charges the secondary battery before discharging according to the remaining capacity. Further, when it is desired to make the battery 10 last as long as possible while suppressing the discharge and maintaining the remaining capacity, the portable terminal device may be turned off or the current consumption may be reduced according to the remaining capacity of the battery 10 and the necessity of using the terminal. Is switched to the low current consumption mode in which is suppressed.
[0007]
[Problems to be solved by the invention]
In general, the current consumption of a mobile terminal device is not always constant.If the current consumption of the mobile terminal device can be known, the current consumption at that time is taken into consideration in addition to the remaining capacity of the battery and the necessity of using the terminal. Thus, it is possible to turn off the power of the portable terminal device or switch to the low current consumption mode.
[0008]
However, as described above, the conventional portable terminal device only displays the remaining battery capacity of about four levels by the pictogram, and cannot know the current consumption current, that is, the degree of consumption of the battery 10. For this reason, there is a problem that the user has to grasp the operating state of the portable terminal device, estimate the current consumption current based on this, and determine whether or not to suppress battery consumption.
[0009]
However, it is not easy for a user to estimate current consumption of a portable terminal device having various functions. At first glance, even in the same operation state, the actual current consumption may increase or decrease due to various factors.
[0010]
In particular, in the case of a cellular mobile communication terminal, wireless communication is performed with the wireless base station even during standby, and power is consumed by such operations that are not conscious of the user, so that the user himself consumes power. There was a problem that it was difficult to grasp the current.
[0011]
Moreover, the current consumption during standby varies greatly depending on the radio wave environment. For example, when a user is moving at high speed on a train or a car, the cellular mobile communication terminal in a standby state moves between cells one after another, and cell search and handover are performed each time. For this reason, current consumption is larger than that of a stationary cellular mobile communication terminal that is stationary. Even in a stationary state, if the user is in a place where the radio wave condition is poor, the transmission power may increase, and handover may occur repeatedly, thereby increasing current consumption.
[0012]
The present invention has been made in view of the above circumstances, and has as its object to provide a portable terminal device and a mobile communication terminal capable of displaying current consumption. It is another object of the present invention to provide a portable terminal device and a mobile communication terminal capable of displaying current consumption with a simple configuration. It is another object of the present invention to provide a mobile communication terminal capable of displaying current consumption for wireless communication.
[0013]
[Means for Solving the Problems]
A portable terminal device according to the present invention has a plurality of operating states having different average current consumptions, and operates by power supply from a battery. A consumption current storage unit that stores the associated consumption current value table, and a consumption current estimation unit that estimates the consumption current by referring to the consumption current value table based on the operating state, based on the estimated consumption current. An average current consumption calculation unit for calculating an average current consumption in a predetermined period, and a current consumption display unit for performing display based on the average current consumption are provided.
[0014]
A mobile communication terminal according to a second aspect of the present invention controls a wireless communication with a wireless base station and outputs a wireless communication state as status information, and a current consumption corresponding to each wireless communication state. A first current consumption storage unit that stores the attached first current consumption value table, and a current consumption that estimates the current consumption with reference to the first current consumption value table based on status information from the wireless control unit. An estimation unit and a current consumption display unit that performs display based on the estimated current consumption are provided.
[0015]
A mobile communication terminal according to a third aspect of the present invention controls an information input / output to a user and outputs an input / output control state as an operation mode, and a current consumption for each input / output control state. And a second current consumption table that stores a second current consumption value table in which the first and second current consumption value tables are associated with each other based on status information and operation mode information. It is configured to estimate current consumption by referring to a table.
[0016]
A mobile communication terminal according to a fourth aspect of the present invention includes an average current consumption calculation unit for calculating an average current consumption for a predetermined period based on the estimated current consumption, and the average current consumption display unit includes: It is configured to perform display based on.
[0017]
The mobile communication terminal according to the present invention as set forth in claim 5, wherein the status information includes a wireless communication state during standby, and the first current consumption value table corresponds to a wireless communication state during standby. Included current consumption.
[0018]
According to a sixth aspect of the present invention, in the mobile communication terminal according to the present invention, the status information includes a received electric field strength from the base station, and the first current consumption value table is associated with the received electric field strength. Current consumption.
[0019]
In the mobile communication terminal according to the present invention as set forth in claim 7, the operation mode includes a display control state of the display device, and the second current consumption value table corresponds to the display control state of the display device. Current consumption.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a block diagram showing a configuration example of a mobile terminal device according to the present invention. Here, an example of a mobile phone 1 is shown. 2 is an application control unit, 10 is a built-in battery, 11 is a power supply voltage conversion unit, 30 is a wireless unit, 31 is a wireless control unit, 41 and 42 are data tables, 43 is a current consumption storage unit, and 44 is an LED ( Light Emitting Diode (Light Emitting Diode), 45 is an LCD (Liquid Crystal Display), and 46 is a key input unit.
[0021]
The wireless unit 30 is a wireless communication circuit for performing wireless communication with a wireless base station, is connected to a transmission / reception antenna, and includes a transmission / reception circuit, a modulation / demodulation circuit, and the like. Here, it is assumed that the wireless circuit is a wireless circuit used for wireless communication of a cellular system, in particular, a CDMA (code division multiple access) system. The wireless control unit 31 receives base station information from the wireless unit 30 and outputs a control signal to the wireless unit 30 to control the wireless communication network. Further, it outputs status information indicating a wireless communication state to the application control unit 2 based on base station information or the like from the wireless unit 30.
[0022]
The LED 44 and the LCD 45 are display units for outputting information to the user, and the display control is performed by the application control unit 2. The key input unit 46 is an input unit for the user to input information, and includes a push button, a dial switch, and the like provided on the operation unit of the mobile phone 1. The information input from the key input unit 46 is output to the application control unit 2.
[0023]
Although not shown, the mobile phone 1 includes a speaker as a receiver and a microphone as a transmitter. Transmission voice data is input from the microphone to the application control unit 2, and reception voice data is transmitted from the application control unit 2. Output to the speaker.
[0024]
The application control unit 2 performs various controls other than the wireless communication control for the cellular base station performed by the wireless control unit 31, and controls the terminal body including the user interface. The application control unit 2 is realized as a program executed on a microprocessor, and includes an application processing unit 20, a current consumption estimation unit 21, an accumulation processing unit 22, an average calculation unit 23, and a display control unit 24.
[0025]
The application processing unit 20 is a processing unit that executes an application program for providing various services to the user. For example, the application processing unit 20 provides a user with search of a telephone directory, creation and management of an e-mail, a game, and the like. I have. In addition, it controls each block in the application control unit 2 to perform encoding / decoding of audio data during a call, input / output control for a speaker / microphone, display control of the display units 44 and 45, and the like. Further, the control state such as input / output control and the execution state of the application program is output to the current consumption estimation unit 21 as an operation mode.
[0026]
The current consumption estimation unit 21 estimates the current consumption current value of the mobile phone 1 based on the control states of the application processing unit 20 and the wireless control unit 31. The current consumption value is estimated using data tables 41 and 42 that hold the current consumption values obtained in advance.
[0027]
The accumulation processing unit 22 records the estimated current consumption value in the current consumption accumulation unit 43 together with the operation time at the current consumption value. The current consumption storage unit 43 is a storage unit that records current consumption and operation time.
[0028]
The average calculation unit 23 reads the current consumption and the operation time recorded in the current consumption accumulation unit 43, and calculates the average current consumption based on these data. This average current consumption is obtained by arithmetic processing as the average value of the current consumption values during a predetermined averaging period. At that time, the operation time for each current consumption is considered. For example, in the averaging period up to the present, the sum of the product of the current consumption value and the operation time is obtained, and the result is divided by the sum of the operation time to obtain the average current consumption.
[0029]
The averaging unit 23 needs to be given an averaging period in advance, but the averaging period may be configured so that the user can arbitrarily determine and change the averaging period. For example, the selection can be made in a range from 1 minute to 1 hour, the time can be selected in increments of 1 minute for 10 minutes or less, and in increments of 5 minutes for a longer period. When only the current consumption for the operation time shorter than the averaging period is stored in the current consumption storage unit 43, the average value calculation is not performed, and the display of the current consumption described later is not performed.
[0030]
The display controller 24 controls display of the LED 44 and the LCD 45. Here, the average current consumption calculated by the average calculation unit 23 is converted into a pictogram and displayed on the LCD 45, and the output voltage of the built-in battery 10 calculated by the battery voltage conversion unit 11 is converted into a pictogram and converted to a pictogram. Is displayed.
[0031]
FIGS. 2A to 2D show examples of pictograms for displaying current consumption. Each of the four types of pictograms corresponds to four levels of current consumption and is displayed on the LCD 45 of FIG. Is done. The average current consumption is compared with a predetermined threshold, and one of the pictograms (a) to (d) is selected and displayed. When the current consumption is the smallest, the pictogram (a) is displayed, and as the current consumption increases, the pictogram changes (b) and (c). When the current consumption is the largest, the pictogram (d) is displayed. .
[0032]
FIG. 3 is a diagram showing a state of wireless communication with a base station by the mobile phone 1 of FIG. BS1 to BS3 in the figure are radio base stations, and C1 to C3 are cells. The base stations BS1 to BS3 provide wireless communication zones called cells C1 to C3, respectively, and perform wireless communication with mobile communication terminals located in the cells C1 to C3. The mobile phone 1 is a cellular mobile communication terminal that performs wireless communication with these base stations BS1 to BS3.
[0033]
Each of the base stations BS1 to BS3 constantly transmits a broadcast signal to the corresponding cells C1 to C3. The mobile phone 1 searches for these notification signals, and the base station BS1 that performs wireless communication is determined based on the power level of the received notification signals. The mobile phone 1 immediately after power-on establishes a wireless link with the base station BS1 by performing such a cell search.
[0034]
Thereafter, the mobile phone 1 enters a standby state, periodically monitors a signal from the base station BS1, and shifts to a talking state when an incoming call signal is received. Further, the reception power level (reception electric field strength) from the base station BS1 is periodically detected, and when the power level falls below a predetermined threshold, the cell search is started again. When a base station BS2 or BS3 having a higher received power level is found by this cell search, a handover process to the base station is performed to establish a radio link with a new base station BS2 or BS3.
[0035]
When such a mobile phone 1 frequently moves between the cells C1 to C3, cell search and handover are frequently performed, and current consumption in the wireless unit 30 of the mobile phone 1 increases. Since the cells C1 to C3 usually have a radius of about several kilometers, for example, when the user moves by train or car, the current consumption of the mobile phone 1 increases.
[0036]
In addition, when the mobile phone 1 is in a location where the radio wave condition is poor, for example, when it is near a cell boundary, frequent cell search or handover occurs, and current consumption increases.
[0037]
The mobile phone 1 controls the transmission power level based on the reception power level from the base station BS1 with which the wireless link has been established. That is, in the call state and the standby state, if the radio wave environment with the base station deteriorates and the reception power level from base station BS1 decreases, mobile phone 1 increases the power level of the transmission signal. Therefore, if the radio wave environment deteriorates, the current consumption of the transmission amplifier in the radio unit 30 increases.
[0038]
As described above, the current consumption in the wireless unit 30 not only fluctuates depending on the call state and the standby state, but also fluctuates depending on the radio wave environment in the call state or in the standby state. For this reason, by displaying the current consumption in the wireless unit 30, when the current consumption is large, the user can judge by himself and turn off the power or switch to the low current consumption mode to make the built-in battery 10 last longer. it can.
[0039]
In particular, in a standby state in which a large amount of current is consumed, turning off the power supply makes it possible to extend the substantial standby time.
[0040]
FIG. 4 is a block diagram showing a detailed configuration example of the current consumption estimation unit 21 of FIG. In the figure, reference numeral 211 denotes a first estimation processing unit, 212 denotes a second estimation processing unit, and 213 denotes a synthesis operation unit.
[0041]
The first estimation processing unit 211 estimates current consumption in the wireless unit 30 with reference to the first data table 41 based on status information output from the wireless control unit 31.
[0042]
FIG. 5 is a diagram showing an example of the first data table 41. The first data table 41 is a data table in which the average current consumption measured in advance is associated with each status information, and is stored in advance in a semiconductor memory or the like. The illustrated data table shows average current consumption values in four standby states A to D as status information.
[0043]
The standby state A is a state in which the reception level of the peripheral base station is measured, the standby state B is a state in which a cell search is performed, and the standby state C is a standby state under a strong electric field level. The standby state D is a standby state under a weak electric field level. In the standby states A and B, the current consumption is larger than in the standby state C, and in the standby state D, the current consumption is further increased. Each of these current consumptions is determined based on a previously measured actual value (average current consumption).
[0044]
It should be noted that the status information output by the wireless control unit 31 can include a call state. Further, the information may be further detailed and detailed wireless communication state information. It is desirable that the first data table 41 associate current consumption with each such status information.
[0045]
On the other hand, based on the operation mode output from the application processing unit 20, the second estimation processing unit 212 refers to the second data table 42, and refers to each block other than the wireless unit 30, for example, the application control unit 2, The current consumption by the LED 44, the LCD 45, the key input unit 46, the speaker, the microphone, and the like is estimated.
[0046]
FIG. 6 is a diagram showing an example of the second data table 42. The second data table 42 is a data table in which the average current consumption measured in advance is associated with each operation mode, and is stored in advance in a semiconductor memory or the like. In the illustrated data table, the average current consumption value in each of four input / output control states in which the call / standby state as the operation mode, the operation / non-operation of the LCD 45, and the ON / OFF of the backlight of the LCD 45 are combined is shown. It is shown.
[0047]
In a call state, audio output from a speaker, audio input from a microphone, encoding / decoding processing, and the like are performed, and current consumption by input / output control increases. In the standby state, the current consumption by the LCD 45 occupies a large weight. The current consumption increases during the LCD operation compared to when the LCD 45 does not operate, and furthermore, in the case of the backlight system, the current consumption increases when the backlight is ON as compared to when the backlight is OFF.
[0048]
Note that the operation mode output by the application processing unit 20 can include an operation state of the application such as a telephone directory search, editing of an e-mail, and browsing. Further, a more detailed and detailed operation mode can be set. It is desirable that the first data table 41 associate current consumption with each such status information.
[0049]
The combining operation unit 21 obtains the current consumption of the entire mobile phone 1 based on the current consumption obtained by the first and second estimation processing units 211 and 212. For example, the sum of the current consumption obtained by each of the estimation processing units 211 and 212 may be obtained, or the values of both may be substituted into a predetermined arithmetic expression to obtain the current consumption of the entire mobile phone 1. .
[0050]
According to the embodiment of the present invention, current consumption estimating section 21 estimates the current consumption current of mobile phone 1 and displays the average current consumption value in predetermined period on LCD 45. For this reason, the user can check the current consumption current, and can perform an operation such as turning off the power according to the consumption current. In addition, since the mobile phone 1 does not measure the current consumption, it can be realized at low cost, and can be easily realized even in the small and lightweight mobile phone 1.
[0051]
Further, the first estimation processing unit 211 of the current consumption estimating unit 21 estimates the current consumption for wireless communication using the first data table 41 based on the status information from the wireless control unit 31, The display based on the estimated current consumption is performed. Normally, by displaying current consumption for wireless communication that cannot be confirmed by the user, the user can effectively utilize the remaining capacity of the battery. In particular, by displaying the current consumption during standby, the actual standby time can be lengthened.
[0052]
Further, the second estimation processing section 212 of the current consumption estimation section 21 uses the second data table 42 based on the operation mode from the application processing section 20 to use the current consumption for inputting and outputting information to the user. Is estimated, and the combining operation unit 213 obtains the sum with the current consumption value for wireless communication. Therefore, the current consumption of the mobile phone 1 can be more accurately estimated.
[0053]
In this embodiment, an example of a case of a mobile phone has been described, but the present invention can be applied to various mobile communication terminals and is not limited to a terminal device having a call function. For example, the present invention can be applied to a portable terminal device such as a PDA having a data communication function. Further, the present invention can be widely applied to portable terminal devices having no communication function.
[0054]
Further, in this embodiment, an example of a mobile phone that receives power supply from built-in battery 10 has been described. However, the present invention can be applied to a device using a battery and is not limited to a device using a built-in battery.
[0055]
Further, in the present embodiment, an example in which the current consumption is displayed on the LCD 45 has been described. However, the present invention can be applied to a case where the current consumption is displayed using various display devices. It is not limited to displaying. For example, the present invention can be applied to a case where an LED, EL (Electro Luminescence), or another display device is used.
[0056]
【The invention's effect】
The portable terminal device according to the present invention estimates the current consumption with reference to the current consumption value table based on the operation state, and calculates and displays the average current consumption in a predetermined period. Therefore, the current consumption can be obtained without measuring the actual current consumption. Therefore, current consumption can be displayed on the portable terminal device with a simple configuration.
[0057]
Further, the mobile communication terminal according to the present invention refers to the first current consumption value table based on the status information from the wireless control unit, and estimates and displays the current consumption. Therefore, the current consumption for wireless communication can be obtained without actually measuring the current consumption. Therefore, current consumption can be displayed on the mobile communication terminal with a simple configuration.
[0058]
Furthermore, the mobile communication terminal according to the present invention estimates the current consumption by referring to the first and second current consumption value tables based on the status information from the wireless control unit and the operation mode from the input / output control unit. To display. Therefore, the current consumption of the mobile communication terminal can be obtained more accurately without actually measuring the current consumption of the mobile communication terminal.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration example of a portable terminal device according to the present invention.
FIGS. 2A to 2D are diagrams illustrating an example of a pictogram for displaying current consumption; FIGS.
FIG. 3 is a diagram illustrating a state of wireless communication with a base station by the mobile phone 1 of FIG. 1;
FIG. 4 is a block diagram showing a detailed configuration example of a current consumption estimating unit 21 of FIG. 1;
FIG. 5 is a diagram showing an example of a first data table 41.
FIG. 6 is a diagram showing an example of a second data table 42.
FIG. 7 is a block diagram showing a configuration of a main part of a conventional mobile phone 1 '.
FIGS. 8A to 8D are diagrams showing pictograms (battery marks) indicating the remaining capacity of the built-in battery.
[Explanation of symbols]
1 mobile phone, 2 application control unit, 10 built-in battery,
11 battery voltage conversion unit, 20 application processing unit,
21 current consumption estimation section, 22 accumulation processing section, 23 average calculation section,
24 display control unit, 30 wireless unit, 31 wireless control unit,
41 first data table, 42 second data table,
43 current consumption storage unit, 44 LED, 45 LCD, 46 key input unit,
211 first estimation processing unit, 212 second estimation processing unit, 213 combining operation unit, BS1 to BS3 base stations, C1 to C3 cells

Claims (7)

In a portable terminal device having a plurality of operating states with different average current consumption and operating by power supply from a battery,
A current consumption storage unit that stores a current consumption value table in which current consumption is associated with each operation state;
A current consumption estimating unit that estimates a current consumption by referring to a current consumption value table based on the operation state;
An average current consumption calculation unit that calculates an average current consumption for a predetermined period based on the estimated current consumption;
A portable terminal device comprising: a current consumption display unit that performs display based on an average current consumption. A wireless control unit that controls wireless communication with the wireless base station and outputs a wireless communication state as status information;
A first current consumption storage unit that stores a first current consumption value table in which current consumption is associated with each wireless communication state;
A current consumption estimating unit that estimates current consumption by referring to the first current consumption value table based on status information from the wireless control unit;
A mobile communication terminal, comprising: a current consumption display unit that performs display based on the estimated current consumption. An input / output control unit that controls information input / output to a user and outputs an input / output control state as an operation mode;
A second current consumption table that stores a second current consumption value table in which current consumption is associated with each input / output control state;
The mobile communication according to claim 2, wherein the current consumption estimating unit estimates the current consumption by referring to the first and second current consumption value tables based on the status information and the operation mode information. Terminal. Based on the estimated current consumption, comprising an average current consumption calculation unit for calculating the average current consumption for a predetermined period,
The mobile communication terminal according to claim 2, wherein the current consumption display unit performs display based on an average current consumption. The status information includes a wireless communication state at the time of standby,
3. The mobile communication terminal according to claim 2, wherein the first current consumption value table includes a current consumption corresponding to a wireless communication state at a standby time. 4. The status information includes the received electric field strength from the base station,
The mobile communication terminal according to claim 2, wherein the first current consumption value table includes a current consumption corresponding to a received electric field intensity. The operation mode includes a display control state of the display device,
The mobile communication terminal according to claim 3, wherein the second current consumption value table includes a current consumption corresponding to a display control state of the display device.

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