JP3683170B2 - Battery level display circuit and dual-band mobile phone - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable to display an exact remaining battery capacity under an operation mode in use in a dual-band cellular phone, which selects the frequency range used at the direction of the base station. SOLUTION: The remaining battery capacity display circuit is provided with a subtractor 3 for detecting potential of a resistor 2 connected between a battery pack 1 and a circuit part, a comparator 5 for comparing an output voltage of the subtractor 3 and voltage of threshold voltage source 4, a first battery table 6 generating threshold voltage for dividing the battery voltage into a plurality of voltage ranges in a first operation mode, a second battery table 7 generating threshold voltage for dividing the battery voltage into a plurality of voltage ranges in a second operation mode, changeover switches 81 to 83 selecting output voltage of either the first battery table 6 or the second battery table 7 according to the output level of the comparator 5, and comparators 91 to 93 generating an output indicating the voltage range of either the first battery table or the second battery table on comparison of the outputs of the changeover switches and the battery pack.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a battery remaining amount display circuit in a dual band mobile phone or the like that selects a use frequency band in accordance with an instruction from a base station.
[0002]
[Prior art]
In mobile phones, when the battery as a power source is depleted, calls cannot be made, so the remaining battery power can be displayed so that the user can recognize when to perform a charging operation before it becomes unusable. The method is taken.
On the other hand, some mobile phones are configured so that a plurality of operation modes can be switched and used. In this case, since the device current consumption differs depending on the operation mode, it is necessary to display the remaining battery level based on different criteria depending on the operation mode.
Conventionally, there is a technology described in Japanese Patent Application No. 11-0205217 as shown in FIG.
In this prior art, there are two modes as an operation mode: an analog system and a CDMA (Code Division Multiple Access) system, and the frequency band used varies depending on each operation mode. Since the current consumption is different, the CDMA battery table 101 and the analog battery table 102 are switched and switched via the switch 103 according to the operation mode setting based on the key operation by the user according to the operation mode. It connects to the device 104.
The comparator 104 compares the threshold voltage output from one of the battery tables with the voltage of the battery pack 106 detected via the battery voltage detection means 105, so that it is not shown depending on the comparison result. In the battery remaining amount display portion, the battery remaining amount is displayed.
[0003]
[Problems to be solved by the invention]
On the other hand, in some dual-mode mobile phones, there is a method of selecting a used frequency band according to an instruction from the base station. In this case, the used frequency band is not related to the user's intention. Since the battery remaining amount display method of the above-mentioned prior art is not conscious of the user because it is switched, the remaining battery amount display state is in a different frequency band, so that the remaining amount display is usable. In spite of this, there was a problem that the battery could be exhausted and the call could not be made.
[0004]
The present invention has been made in view of the above circumstances, and in a dual-band mobile phone or the like that switches the used frequency band in response to an instruction from the base station, the operation mode such as the used frequency band is switched. It is an object of the present invention to provide a battery remaining amount display circuit and a dual-band mobile phone that can correctly display a remaining battery amount even when the battery is displayed.
[0005]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, in order to solve the above-mentioned problem, the invention according to claim 1 relates to a battery remaining amount display circuit, a resistor connected between the battery pack and the circuit unit,
Subtracting means for detecting a potential difference between both ends of the resistor;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operation mode;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operation mode;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means and the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; And
The first operation mode is an operation in a first frequency band, and the second operation mode is an operation in a second frequency band .
[0006]
According to a second aspect of the present invention, there is provided a semiconductor switch means for supplying an output current from a battery pack to a power amplifier in a battery remaining amount display circuit;
Subtracting means for detecting a potential difference between both ends of the semiconductor switch means;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operation mode;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operation mode;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means and the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; And
The first operation mode is an operation in a first frequency band, and the second operation mode is an operation in a second frequency band .
[0008]
According to a third aspect of the present invention, there is provided the remaining battery level display circuit according to the first or second aspect , wherein the first battery table and the second battery table each output a plurality of different threshold voltages. The switching means comprises a plurality of switches, and switches and outputs the respective threshold voltages corresponding to the first battery table and the second battery table, and the second comparing means outputs the plurality of switching devices. Each output from the battery is compared with the battery voltage from the battery pack, and a comparison result output is generated.
[0009]
The invention according to claim 4 relates to a dual-band mobile phone, wherein the resistor is connected between the battery pack and the circuit unit,
Subtracting means for detecting a potential difference between both ends of the resistor;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operating frequency band;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operating frequency band;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means with the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; It is characterized by that.
[0010]
The invention according to claim 5 relates to a dual-band mobile phone, a semiconductor switch means for supplying an output current from the battery pack to a power amplifier,
Subtracting means for detecting a potential difference between both ends of the semiconductor switch means;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operating frequency band;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operating frequency band;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means with the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; It is characterized by that.
[0011]
The invention according to claim 6 relates to the dual-band mobile phone according to claim 4 or 5 , wherein the first battery table and the second battery table each output a plurality of different threshold voltages. The switching means is composed of a plurality of switches, and switches and outputs the corresponding threshold voltages of the first battery table and the second battery table, and the second comparison means has the plurality of switches. Each output from is compared with the battery voltage from the battery pack, and an output as a comparison result is generated.
[0012]
In the configuration of the present invention, the subtraction means detects the potential difference between both ends of the resistor connected between the battery pack and the circuit unit, or the potential difference between both ends of the semiconductor switch means for supplying the output current from the battery pack to the power amplifier. The first comparison means generates different levels of output depending on the magnitude of the output voltage of the subtraction means and the predetermined threshold voltage, and the first battery mode causes the first operation mode ( first A threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the frequency band), and the battery voltage is divided into a plurality of voltage ranges in the second operation mode ( second frequency band) by the second battery table. A threshold voltage for dividing is generated, and the output voltage of the first battery table or the second battery table is selected by the switching means according to the output level of the first comparison means. Then, the second comparison means compares the output voltage from the switching means with the battery voltage from the battery pack to indicate which voltage range is in the first battery table or the second battery table. Since output is generated, the current operation mode (frequency band) is automatically grasped, and the remaining battery level in each operation mode (frequency band) is displayed correctly on the remaining battery level display section. Can do.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. The description will be made specifically with reference to examples.
First Embodiment FIG. 1 is a block diagram showing the configuration of a battery remaining amount display circuit according to a first embodiment of the present invention, FIG. 2 is a diagram illustrating battery voltage discharge characteristics in a dual-band mobile phone, and FIG. These are the figures for demonstrating the battery residual amount display by a battery table.
[0014]
As shown in FIG. 1, the battery remaining amount display circuit of this example includes a battery pack 1, a resistor 2, a subtractor 3, a threshold voltage source 4, a comparator 5, a 800 MHz battery table 6, and 1 .5 GHz battery table 7, selector switches 8 1 to 8 3, and comparators 9 1 to 9 3.
The battery pack 1 contains a battery for supplying power to a mobile phone (not shown), and its output voltage is the negative input of the resistor 2, the subtractor 3, and the negative input of each of the comparators 91 to 93. To be applied. The resistor 2 is for generating a voltage drop in accordance with the magnitude of the current supplied from the battery pack 1 to the circuit unit of the mobile phone (not shown). A positive input is connected to a circuit unit (not shown) of the mobile phone. The subtractor 3 is for generating an output voltage indicating a voltage drop in the resistor 2, and its output is connected to the plus input of the comparator 5. The threshold voltage source 4 generates a threshold voltage for determining the magnitude of the output voltage of the subtracter 3.
[0015]
The comparator 5 is for comparing the output voltage of the subtractor 3 with the threshold voltage. The threshold voltage source 4 is connected to the negative input, and the output of the comparator 5 is changed over from the changeover switch 81 to. It is connected to each control terminal of 83. The 800 MHz battery table 6 outputs three types of threshold voltages for displaying the remaining battery power when the 800 MHz frequency band is used. The battery table 7 for 1.5 GHz outputs three types of threshold voltages for displaying the remaining battery level when using the 1.5 GHz frequency band. The outputs of the 800 MHz battery table 6 and the 1.5 GHz battery table 7 are connected to the input terminals of the changeover switches 81 to 83, respectively. The changeover switches 81 to 83 switch the outputs of the 800 MHz battery table 6 and the 1.5 GHz battery table 7 according to the output of the comparator 5 and connect them to the positive inputs of the comparators 91 to 93, respectively. The comparators 91 to 93 compare the output voltages of the changeover switches 81 to 83 with the battery voltage of the battery pack 1, respectively, and the outputs of the comparators 91 to 93 are sent to a battery remaining amount display section (not shown). Connected and used to display remaining battery power.
[0016]
Hereinafter, the operation of the battery remaining amount display circuit of this example will be described with reference to FIG.
The output DC voltage of the battery pack 1 passes through the resistor 2 and is supplied to a mobile phone circuit unit (not shown). When the mobile phone is transmitting, the subtracter 3 subtracts the voltage across the resistor 2 input to both the positive and negative terminals and outputs a potential difference. The potential difference output from the subtracter 3 is compared with the voltage of the threshold voltage source 4 calculated based on the difference in the current consumption value depending on the used frequency band in advance, thereby generating an output voltage as a comparison result. The output voltage of the comparator 5 is H level if the output potential difference of the subtractor 3 is higher than the threshold voltage, indicating that transmission is being performed in the 1.5 GHz band, and is L level if lower than the threshold voltage. This indicates that transmission is in progress in the 800 MHz band.
Depending on whether the output voltage of the comparator 5 is at the L level or the H level by switching the changeover switches 81 to 83 according to the output voltage of the comparator 5, the battery voltage shown in FIG. The 800 MHz battery table 6 or the 1.5 GHz battery table 7 determined from the discharge characteristics is selected.
The comparators 91 to 93 show three signals indicating the remaining battery level by comparing the voltages of the three output lines of the selected battery table with the battery voltage from the battery pack 1, respectively. Is output to the remaining battery level display unit of the mobile phone, and the remaining battery level is thereby displayed.
[0017]
Next, with reference to FIG.2 and FIG.3, the battery remaining amount display using a battery table in this example is demonstrated in detail.
FIG. 2 shows the discharge characteristics of the battery voltage in the battery pack 1. The relationship between the battery voltage and the discharge time is shown for each of the 800 MHz band and the 1.5 GHz band.
FIG. 3 illustrates a method for displaying the remaining battery level using the battery table based on the battery voltage discharge characteristics shown in FIG.
The remaining battery level is indicated by a battery bar displayed on the remaining battery level display section of the mobile phone. The first voltage range is indicated by three battery bars (|||) in order from the highest battery voltage. The voltage range is indicated by two battery bars (||), the third voltage range is indicated by one battery bar (|), and the fourth voltage range is not indicated by a battery bar. It shall represent that it is in the voltage range.
As for the battery voltage in each voltage range, the first voltage range is 4.15 V or more and the second voltage range is 3.5 V when the mobile phone selects the 800 MHz frequency band from the discharge characteristics of FIG. 6 V or more and less than 4.15 V, the third voltage range is 3.1 V or more and less than 3.6 V, and the fourth voltage range is less than 3.1 V. When the 1.5 GHz frequency band is selected, the first voltage range is 4 V or more, the second voltage range is 3.5 V or more and less than 4 V, and the third voltage range is 3.1 V or more 3 Less than .5V and the fourth voltage range is less than 3.1V.
[0018]
Therefore, a voltage corresponding to the lower end of each voltage range is output as a threshold voltage by three output lines from each battery table. Accordingly, in the 800 MHz frequency band, the threshold voltages are 4.15 V, 3.6 V, and 3.1 V in order from the highest, and in the 1.5 GHz frequency band, similarly, the threshold voltages are 4 V, 3.5 V, and 3.1 V. Become.
By switching with the changeover switches 81 to 83 according to the frequency band used, either of the three threshold voltages is added to the plus input of the comparators 91 to 93, and compared with the voltage of the battery pack 1 at the minus input. Therefore, the output of the three comparators becomes “1” in the first voltage range, and the output of the two comparators becomes “1” in the second voltage range. The output of one comparator is “1” in the voltage range, and “1” output is not generated in the fourth voltage range.
Therefore, by guiding the outputs of the comparators 91 to 93 to a battery remaining amount display unit (not shown) and displaying a battery bar corresponding to the output of “1”, in two frequency bands with different current consumptions, Since each battery level can be displayed, the user can reliably grasp the remaining usable time of the mobile phone.
[0019]
Thus, according to the battery remaining amount display circuit of this example, in the dual-band mobile phone of the method of switching the used frequency band according to the instruction of the base station, while automatically grasping the currently transmitted frequency band, Since the remaining battery level in the frequency band can be known, the user can accurately grasp the remaining callable time.
[0020]
Second Embodiment FIG. 4 is a block diagram showing a configuration of a battery remaining amount display circuit according to a second embodiment of the present invention.
As shown in FIG. 4, the battery remaining amount display circuit of this example includes a battery pack 1, a subtracter 3, a threshold voltage source 4, a comparator 5, a battery table 6 for 800 MHz, and a battery for 1.5 GHz. A table 7, selector switches 8 1 to 83, comparators 9 1 to 93, and an FET (Field Effect Transistor) 10 are schematically configured.
Among them, the battery pack 1, the subtracter 3, the threshold voltage source 4, the comparator 5, the 800MHz battery table 6, the 1.5GHz battery table 7, the changeover switches 81 to 83, and the comparators 91 to 93 are shown in FIG. Therefore, the detailed description thereof will be omitted below.
The FET 10 switches current supply to a power amplifier unit (not shown) for generating transmission power in the mobile phone.
[0021]
Hereinafter, the operation of the battery remaining amount display circuit of this example will be described with reference to FIG.
Usually, in a mobile phone, the current consumption during transmission is larger than that during reception, and most of the current consumption during transmission is consumed in the power amplifier. And it is also a power amplifier part that consumption current changes greatly with frequency bands.
Therefore, in a general mobile phone, voltage is applied to the power amplifier unit for the minimum necessary time, and it is designed to keep current consumption during a call to a minimum. The FET 10 is used to switch the current from the battery so that the battery voltage is applied for the required time.
Since the FET 10 generally has a resistance of several mΩ or more between the drain and the source during energization, a potential difference is generated between the drain and the source, but this potential difference varies depending on the consumption current of the power amplifier.
Therefore, the potential difference between the drain and the source of the FET 10 is detected by the subtracter 3, and the detected potential difference is compared with the threshold voltage of the threshold voltage source 4 in the comparator 5, so that transmission is performed as in the case of FIG. The inside frequency band can be recognized.
[0022]
By doing so, it is possible to recognize the frequency band using an existing circuit without having to provide the resistor 2 in the case of the first embodiment shown in FIG. As in the case of the first embodiment, by comparing the threshold voltage of the 800 MHz battery table 6 and the 1.5 GHz battery table 7 with the battery voltage from the battery pack 1, the battery remaining amount display by the battery bar is displayed. Thus, the user of the mobile phone can accurately grasp the remaining callable time.
[0023]
Thus, according to the battery remaining amount display circuit of this example, in the dual-band mobile phone of the method of switching the used frequency band according to the instruction of the base station, automatically grasps the currently transmitted frequency band, The remaining battery level in the frequency band can be known, which makes it possible for the user to accurately grasp the remaining available call time and, at this time, a new circuit for detecting current consumption. There is no need to add.
[0024]
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and even if there is a design change or the like without departing from the gist of the present invention. Included in the invention. For example, in the embodiment, the use frequency band of the dual-band mobile phone is set to 800 MHz and 1.5 GHz. However, the present invention is not limited to this, and any combination of use frequency bands may be used as long as the current consumption is different. There may be. Further, in the embodiment, an example in which the battery remaining amount display circuit of the present invention is used in a dual-band mobile phone has been shown. However, the present invention is not limited to this, depending on the operating frequency band or other operating modes as factors. The present invention can be applied to any device as long as the power consumption current changes.
[0025]
【The invention's effect】
As described above, according to the battery remaining amount display circuit and the portable telephone of the present invention, in a dual band mobile telephone or the like of the method of switching the operation mode (frequency band) by an instruction of the base station, the current mode of operation in ( Frequency band) and the remaining battery level in each operation mode (frequency band) can be known, so that the user can accurately grasp the remaining usable time.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a battery remaining amount display circuit according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating battery voltage discharge characteristics in a dual-band mobile phone.
FIG. 3 is a diagram for explaining battery remaining amount display by a battery table;
FIG. 4 is a block diagram showing a configuration of a battery remaining amount display circuit according to a second embodiment of the present invention.
FIG. 5 is a diagram showing an example of a battery remaining amount display in a conventional dual mode mobile phone.
[Explanation of symbols]
1 Battery pack 2 Resistance 3 Subtractor (subtraction means)
4 threshold voltage source 5 comparator (first comparing means)
6 800MHz battery table (first battery table)
7 1.5 GHz battery table (second battery table)
81 to 83 switch (switching means)
91 to 93 comparator (second comparing means)
10 FET (semiconductor switch means)

Claims (6)

A resistor connected between the battery pack and the circuit unit;
Subtracting means for detecting a potential difference between both ends of the resistor;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operation mode;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operation mode;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means and the battery voltage from the battery pack to generate an output indicating a voltage range in the first battery table or the second battery table; And
The battery remaining amount display circuit, wherein the first operation mode is an operation in a first frequency band, and the second operation mode is an operation in a second frequency band . Semiconductor switch means for supplying the output current from the battery pack to the power amplifier;
Subtracting means for detecting a potential difference between both ends of the semiconductor switch means;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operation mode;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operation mode;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means and the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; And
The battery remaining amount display circuit, wherein the first operation mode is an operation in a first frequency band, and the second operation mode is an operation in a second frequency band . Each of the first battery table and the second battery table outputs a plurality of different threshold voltages, and the switching means includes a plurality of switches, and the first battery table and the second battery table. Each of the corresponding threshold voltages is switched and output, and the second comparison unit compares each output from the plurality of switches with the battery voltage from the battery pack, and outputs a comparison result. battery indicator circuit according to claim 1 or 2, characterized in that it is configured to generate. A resistor connected between the battery pack and the circuit unit;
Subtracting means for detecting a potential difference between both ends of the resistor;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operating frequency band;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operating frequency band;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means and the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; A dual-band mobile phone characterized by that. Semiconductor switch means for supplying the output current from the battery pack to the power amplifier;
Subtracting means for detecting a potential difference between both ends of the semiconductor switch means;
First comparison means for generating different levels of output depending on the magnitude of the output voltage of the subtraction means and a predetermined threshold voltage;
A first battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the first operating frequency band;
A second battery table for generating a threshold voltage for dividing the battery voltage into a plurality of voltage ranges in the second operating frequency band;
Switching means for selecting the output voltage of the first battery table or the second battery table according to the output level of the first comparison means;
A second comparing means for comparing the output voltage from the switching means and the battery voltage from the battery pack and generating an output indicating a voltage range in the first battery table or the second battery table; A dual-band mobile phone characterized by that. Each of the first battery table and the second battery table outputs a plurality of different threshold voltages, and the switching means includes a plurality of switches, and the first battery table and the second battery table. Each of the corresponding threshold voltages is switched and output, and the second comparison unit compares each output from the plurality of switches with the battery voltage from the battery pack, and outputs a comparison result. The dual-band mobile phone according to claim 4 or 5 , wherein the dual-band mobile phone is configured to generate

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