KR20000074392A - Apparatus and method for displaying of battery remaining capacity - Google Patents

Abstract

PURPOSE: A battery residual capacity displaying apparatus is provided to be capable of displaying a battery residual capacity considering a battery voltage level as well as temperature and load affecting a battery discharge. CONSTITUTION: A battery residual capacity displaying apparatus comprises a battery residual capacity sensing part(50), a micro computer(60) and a battery residual capacity display(70). In the battery residual capacity sensing part(50), a battery voltage sensing part(52) senses a voltage across a battery. A battery temperature sensing part(54) senses a temperature of the battery using a thermistor. A battery current sensing part(56) senses current applied to a system unit from the battery.

Description

Battery remaining capacity display device and method {APPARATUS AND METHOD FOR DISPLAYING OF BATTERY REMAINING CAPACITY}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery residual capacity display device and method for a device operated from a battery and to a battery residual capacity display device and method for a portable cassette tape recorder, a video camera, a portable computer system, and the like.

1 is a perspective view showing the appearance of a general portable computer system.

Referring to FIG. 1, a portable computer system 100 is largely comprised of a portable computer body 44 and a liquid crystal display (LCD) monitor 33 hinged thereto. The power source for operating the portable computer system 100 includes an AC adapter 10 connected to an adapter port 101 mounted on one side of the main body 44 of the portable computer system 100, It is mounted in the main body 44 and supplied by a rechargeable battery 20 rechargeable by the AC adapter 10. The portable computer system 100 often needs to be used in a location where AC power is not available. In this case, the batteries 20 used to power the portable computer 100, such as nickel cadmium (NiCad) and nickel metal hydride (NiMH) batteries, may power the portable system for several hours before being recharged. Can supply

The portable computer system 100 needs to send a warning message to the user when the capacity of the battery 20 used as a power supply becomes low. Because in the portable computer system 100, if the capacity of the battery 20 is reduced below a certain limit, damage to the battery 20 and other system components may occur, which may result in loss of data in operation. Because. Therefore, various kinds of systems have been developed to inform this in advance. For example, the battery's remaining capacity indicator systems to perform the functions described above indicate when the battery capacity is judged to have dropped below the threshold voltage using the voltage across the battery, or the approximate range of battery available. Can be expressed as a percentage.

2 is a battery discharge graph showing a battery remaining capacity display calculation method according to the prior art. The battery remaining capacity display method according to the related art is made by using a discharge graph of the battery 20 as shown in FIG. 2, which is made by dividing the voltage of the battery 20 evenly by the total operation time for a normal normal charging and discharging operation. .

Referring to FIG. 2, the voltage of the battery 20 displayed on the graph is divided into A to F voltages. In each of the divided voltage sections, a corresponding battery remaining capacity is defined. For example, if the voltage of the battery 20 is above the A voltage, the battery remaining capacity is 99%, and if the voltage of the battery 20 is above the E voltage and below the D voltage, the remaining capacity of the battery is defined as 20%. . The remaining capacity value of the battery 20 defined as described above is displayed by a conventional battery remaining capacity display device. If the voltage of the battery 20 is equal to or higher than the F voltage, the conventional battery remaining capacity display device displays a low battery (LB) warning message while displaying the battery remaining capacity as 10%, and below the F voltage, the LLB. (low low battery) After displaying a warning message, save the data of the computer system 100 and allow the system to be turned off.

However, the battery remaining capacity display method as described above has the following problems.

The conventional battery remaining capacity display method calculates and displays a battery remaining capacity in consideration of only a change in the battery 20 voltage over time. However, the variation of the voltage according to the discharge of the battery 20 is a lot of deviation occurs depending on the temperature. For example, the discharge in the state where the temperature of the battery 20 rises is first made little by little and then rapidly in the last step. In addition, the discharge in the state where the temperature of the battery 20 is low has a characteristic of being suddenly made at first and gradually made at the last stage.

Further, a large amount of variation also occurs due to the load (i.e., the amount of current supplied from the battery to the system unit) at the time of displaying the battery remaining capacity. When the load of the system unit is large, that is, when a large amount of current flows from the battery 20 to the system unit, the discharge of the battery 20 occurs rapidly. If the load of the system unit is small, that is, if a small current flows from the battery 20 to the system unit, the discharge of the battery 20 is made gentle.

Therefore, there is a need for an apparatus and method capable of displaying the battery remaining capacity more accurately in consideration of not only voltage but also temperature and load (current) influencing the discharge of the battery 20.

Accordingly, an object of the present invention has been proposed to solve the above-mentioned problems, and in the display of the battery remaining capacity, considering not only the voltage level of the battery but also the temperature and load (current) that affect the discharge of the battery, The present invention provides a battery remaining capacity display device and method that can accurately display.

1 is a perspective view showing the appearance of a typical portable computer system;

2 is a battery discharge graph showing a battery remaining capacity display calculation method according to the prior art;

3 is a block diagram showing a configuration of a portable computer system having a battery remaining capacity display device according to an embodiment of the present invention;

4 is a block diagram showing a configuration of a battery remaining capacity display device according to the present invention;

5 is a block diagram showing the configuration of the microcomputer shown in FIG. 4; And

6 is a flowchart showing a battery remaining capacity calculation procedure according to the present invention.

* Description of the symbols for the main parts of the drawings *

51: battery voltage detector 52: battery temperature detector

53: battery current detection unit 60: microcomputer

70: remaining battery capacity display 100: portable computer system

According to a feature of the present invention for achieving the object of the present invention as described above, the battery remaining capacity display device for a device operating by receiving battery power, the voltage of the battery as a sensing means for detecting the remaining capacity of the battery Voltage sensing means for sensing the level, temperature sensing means for sensing the temperature of the battery, and current sensing means for sensing the amount of current supplied from the battery to the system. The information sensed by the voltage, temperature and current sensing means is input to a battery remaining capacity calculating means for calculating the remaining capacity of the battery to calculate the remaining capacity of the battery. The remaining capacity of the battery calculated from the battery remaining capacity calculating means is displayed by display means such as a liquid crystal display mounted on top of the portable system.

According to another aspect of the present invention for achieving the object of the present invention as described above, the battery remaining capacity display method for a device that is operated by battery power, the voltage detection means and the temperature sensing means of the voltage of the battery and Sensing a temperature, determining a first correction factor based on the detected voltage and temperature, sensing a current of the battery with current sensing means, determining a second correction factor by the detected current Calculating a battery remaining capacity by multiplying the first and second correction factors, and displaying the calculated battery remaining capacity by a display means.

(Example)

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 3 to 6.

The novel battery remaining capacity display device of the present invention includes a battery voltage detector for detecting a voltage level of a battery, a battery temperature detector for detecting a temperature of a battery, and a battery for detecting an amount of current supplied from a battery to a system. It includes a current sensing unit. The battery remaining capacity calculating unit calculating a remaining capacity of the battery in response to the information detected by the battery voltage detecting unit, the battery temperature detecting unit, and the battery current detecting unit, and the remaining battery of the battery calculated from the battery remaining capacity calculating unit. A battery remaining capacity display for displaying the capacity. As a result, unlike the conventional method for displaying battery remaining capacity, which is calculated by considering only the voltage level of the battery, the remaining capacity of the battery is more accurately determined by considering not only the voltage level of the battery but also the temperature and current that affect the discharge of the battery. I can display it.

3 is a block diagram illustrating a configuration of a portable computer system including a battery remaining capacity display device according to an embodiment of the present invention.

Referring to FIG. 3, the portable computer system 100 including the battery remaining capacity display device 80 according to the present invention includes an AC adapter 10 for supplying power and a rechargeable battery 20. A battery charging circuit 15 for charging the battery 20 is connected between the AC adapter 10 and the rechargeable battery 20. The AC adapter 10 and the rechargeable battery 20 are commonly connected to an adapter / battery selection circuit 30 for selecting one of the AC adapter 10 or the battery 20 as a main power source. When the main power source is selected by the adapter / battery selection circuit 30, the power from the selected main power source is regulated by a regulator 31, a DC / AC inverter 32, and a DC / DC converter. (DC / DC converter; 34). The regulator 31 adjusts the input DC voltage so that a constant level is always maintained. The adjusted voltage is input to the microcomputer 60 to operate the microcomputer 60. The DC / AC inverter 32 converts the input DC voltage into an AC power suitable for the display of the LCD and outputs the converted AC voltage. The converted AC voltage is supplied to the LCD 33 display connected to the DC / AC inverter 32. . In addition, the DC / DC converter 34 converts the DC voltage level input from the power supply source into a DC level suitable for the respective devices (that is, the system unit) constituting the computer system 100, thereby converting the system unit ( 35).

Detecting a battery remaining capacity between the battery 20 and the microcomputer 60 to display the remaining capacity of the battery 20 used as the main power source of the portable computer system 100 having the above configuration The part 50 is connected. The battery remaining capacity display 70 is connected to the microcomputer 60.

The battery remaining capacity detecting unit 50 detects a plurality of pieces of information for calculating the remaining capacity of the battery, for example, a battery voltage, a battery temperature, and a current applied from the battery to the system unit 35. Do this. The plurality of pieces of sensing information detected by the battery remaining capacity detecting unit 50 are input to the microcomputer 60. The microcomputer 60 calculates a remaining capacity of the battery in response to the plurality of sensing information. The remaining capacity of the battery thus calculated is displayed on the battery remaining capacity display 70.

4 is a block diagram illustrating a configuration of a battery remaining capacity display device according to the present invention.

Referring to FIG. 4, the battery remaining capacity display device 80 according to the present invention includes a battery remaining capacity detecting unit 50, a microcomputer 60, and a battery remaining capacity display 70. The battery remaining capacity detecting unit 50 includes a battery voltage detecting unit 52, a battery temperature detecting unit 54, and a battery current detecting unit 56.

The battery voltage detector 52 is a circuit for detecting a voltage level across the battery 20, and the battery temperature detector 54 detects the temperature of the battery using a thermistor, which is a temperature sensing element. Circuit. The battery current detector 56 is a circuit for sensing a current applied from the battery 20 to the system unit 35, that is, a load of the system, and is generated across a resistance of 20 mΩ to 30 mΩ as a reference. The amount of current (ie load) is detected by measuring the voltage drop. In addition, the battery remaining capacity display 70 may be configured as a liquid crystal display device for displaying the remaining capacity of the battery 20 in percentage, which is separate from the LCD monitor 33. It is mounted to and used to display information of the computer system 100, such as power status information and battery remaining capacity information. Details of the battery voltage detector 52, the battery temperature detector 54, the battery current detector 56, and the battery remaining capacity display 70 constituting the battery remaining capacity detector 50 described above are described in detail. Although the configuration is not shown, its circuit configuration is well known to those of ordinary skill in the art.

The microcomputer 60 is a device for calculating the remaining capacity of the battery 20, and transmits the voltage of the battery 20 transmitted from the battery voltage detector 52 and the battery temperature detector 52. The remaining capacity of the battery 20 is calculated by receiving the temperature of the battery 20 and the current (ie, the load) of the battery 20 transmitted from the battery current sensor 52.

FIG. 5 is a block diagram showing the configuration of the microcomputer 60 shown in FIG.

Referring to FIG. 5, the configuration of the microcomputer 60 can be largely divided into a control unit 61 and a memory 65. This memory includes a first table 62 and a second table 63 used for calculating the battery remaining capacity. Correction coefficients determined by the voltage and temperature of the battery are stored in the first table 62, and correction coefficients determined by the current of the battery are stored in the second table 63. Correction coefficients stored in the first table 62 and the second table 63 are as shown in Table 1 and Table 2, respectively.

0 ℃ 10 ℃ 20 ℃ 30 ℃ 40 ℃ 50 ℃ 60 ℃ 15 V 100% 100% 100% 100% 100% 100% 100% 14 V 88% 87% 86% 85% 84% 82% 80% 13 V 58% 57% 56% 55% 54% 52% 50% 12 V 38% 37% 37% 35% 34% 32% 30% 11 V 18% 17% 16% 15% 14% 12% 10% 10 V 13% 12% 11% 10% 9% 7% 5%

0.5 A 1.0 A 1.5 A 2.0 A 2.5 A 3.0 A 3.5 A Correction factor 90% 95% 97% 100% 102% 105% 110%

Table 1 shows the correction coefficients for each temperature and voltage as a percentage. And, Table 2 shows the correction coefficients for each current as a percentage. The correction coefficients shown in Tables 1 to 2 are values determined by experiments and may vary slightly depending on the type and characteristics of the rechargeable battery 20.

For example, assuming that the voltage of the battery 20 is 14V, the temperature of the battery 20 is 40 ° C, and the current supplied from the battery 20 to the system unit 35 is 1.5A, The correction coefficient obtained by Table 1 is 84%, and the correction coefficient obtained by Table 2 is 97%. The battery remaining capacity according to the present invention is calculated by multiplying the correction coefficients obtained by Tables 1 and 2 above. Therefore, the battery remaining capacity at this time becomes 81.48% (84% x 97% = 81.48%). The battery remaining capacity calculated in this way is displayed through the battery remaining capacity display 70 for displaying this.

6 is a flowchart showing a battery remaining capacity calculation procedure according to the present invention.

Referring to the drawings, first, the voltage and temperature of the battery are detected by the battery voltage detector 52 and the battery temperature detector 54 in step S100, and the first correction coefficient is determined by the voltage and temperature detected in step S110. Is determined. In operation S120, the current of the battery is detected by the battery current detector 56, and a second correction coefficient is determined by the current detected in operation S130. When the first and second correction coefficients are determined in this manner, in step S140, the battery remaining capacity is calculated by the product of the first and second correction coefficients. Subsequently, in step S150, the calculated battery remaining capacity is displayed through the battery remaining capacity display 70.

The battery remaining capacity display device 80 of the portable system according to the present invention, by the apparatus and method described above, not only the voltage of the battery 20 but also the temperature and load (current) that affect the discharge of the battery 20. It may be displayed more accurately in consideration.

In the above, the configuration and operation of the circuit according to the present invention are shown in accordance with the above description and drawings, but this is merely described, for example, and various changes and modifications are possible without departing from the spirit of the present invention. .

According to the present invention as described above, the battery remaining capacity can be displayed more accurately because it is calculated in consideration of not only the voltage of the battery but also the temperature and load (current) that affect the discharge of the battery.

Claims (4)

In the battery remaining capacity display device for a battery-operated device: Display means for displaying a battery remaining capacity; Voltage sensing means for sensing a voltage level of a battery applied to the device; Temperature sensing means for sensing a temperature of the battery; Current sensing means for sensing the amount of current supplied from the battery to the system; And Connected to the voltage, temperature and current sensing means, respectively, detecting battery voltage, temperature and current values through the voltage, temperature and current sensing means, and calculating the remaining battery capacity based on the detected values. And a microcomputer for displaying the battery remaining capacity as a means. The method of claim 1, And said display means is a liquid crystal display. The method of claim 1, The battery remaining capacity is, The battery remaining capacity includes a battery remaining capacity value determined according to a change in battery voltage and a change in battery temperature; A battery remaining capacity display device, characterized in that determined by a correction factor determined according to a change in battery current. A method of displaying battery remaining capacity for a device that operates on battery power: Sensing the voltage and temperature of the battery with voltage sensing means and temperature sensing means; Determining a first correction factor based on the sensed voltage and temperature; Sensing current of the battery with current sensing means; Determining a second correction factor based on the sensed current; Calculating battery remaining capacity by multiplying the first and second correction factors; And And displaying the calculated battery remaining capacity by means of display.