KR100572309B1 - Apparatus and method for verifying accuracy of information correspond to charging/discharging state of smart battery - Google Patents

Abstract

The present invention relates to an apparatus and method for checking a battery charge state of a smart battery. Smart batteries are connected to computer systems and battery testers. An interface device is provided between the smart battery and the computer system. The battery tester charges and discharges a battery according to various charging and discharging conditions, and stores battery remaining information on a predetermined time basis. The computer system stores the battery level information under the same conditions as the battery tester via the interface device. Therefore, the accuracy of the remaining battery information is confirmed by comparing the remaining battery information recorded by the two devices.

Description

Apparatus and method for checking the accuracy of remaining battery information according to the charging and discharging status of a smart battery

The present invention relates to a smart battery used in a portable electronic device, and more particularly, to a device and a method for checking the accuracy of the remaining battery data provided from the smart battery.

In portable electronic devices such as portable computers and portable telephones using batteries, battery level information according to the charge / discharge state of the battery is very important for using the portable electronic device. For example, the state of the battery remaining data according to the charging and discharging of the battery is necessary to store data currently being worked or to protect the electronic device from the low level battery charging state.

 Therefore, various portable electronic devices today use smart batteries that provide battery level information. The portable electronic device using the smart battery notifies the user of the charge / discharge state of the battery in response to the battery remaining information or performs a corresponding operation of the power management system of the electronic device suitable for the battery remaining information. Therefore, since portable electronic devices using batteries have high utilization of battery remaining data, accuracy of battery remaining information is required.

However, the remaining battery data output from the smart battery is less accurate because it is output as a signal of the voltage level.

An object of the present invention is to solve the above problems, and to provide an apparatus and method that can determine the accuracy of the remaining battery information according to the charge and discharge of the smart battery used in the portable electronic device.

According to an aspect of the present invention for achieving the above object, the present invention relates to a method for checking the accuracy of the remaining battery information in response to the state of charge and discharge of the smart battery using a computer system and the battery tester, And setting, by the tester, a plurality of battery charge and discharge conditions, and correspondingly charging and discharging the smart battery. The method may further include storing, by the battery tester, first battery remaining amount information on a predetermined time basis in response to one of the charging and discharging conditions, and by the computer system in response to the same condition as the one condition. And storing second battery level information, comparing the first and second battery level information with each other, and checking the accuracy of the battery level information based on the comparison result. In the comparing step, it is determined whether the second battery remaining information stored in the computer system matches the first battery remaining information based on the first battery remaining information stored in the battery tester.

In a preferred embodiment of this aspect, the method further includes receiving third battery level information input from the battery through the SM bus and converting the second battery level information of the serial communication interface standard.

According to another aspect of the present invention for achieving the above object, in an electronic system for confirming the accuracy of the remaining battery capacity: controlling the battery to charge and discharge corresponding to a plurality of specific conditions, the predetermined time unit according to the result A battery tester configured to receive first battery remaining amount information corresponding to charge / discharge of the battery from the battery and store the received information; An interface device which receives the second battery remaining amount information according to the charging / discharging under the same condition as the specific condition from the battery, converts the second battery remaining amount information into third remaining battery level information, and outputs the third battery remaining amount information; A computer device for receiving and storing the third battery level information; The accuracy of the remaining battery information of the battery is determined by comparing the first and third battery remaining information.

In this case, the interface device converts the second battery remaining information (ie, battery remaining data) into data (Data ') (ie, third battery remaining information) in the form of a serial communication interface, thereby converting the computer device ( Output to the RS-232C port of 100).

Thus, according to the present invention, the smart battery is connected to the computer system and the battery tester. The interface device is then connected to the computer system. The battery tester charges and discharges batteries according to various reference levels, and stores battery level information on a predetermined time basis.

The computer system, like the battery tester, stores battery level information via the interface device. The interface device receives the data from the smart battery through the SM bus and converts the data into data appropriate for the communication interface port of the computer system.

Therefore, by comparing the remaining battery information recorded by the two devices to determine the remaining battery information can determine the accuracy of the remaining battery information.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates an electronic system for confirming accuracy of battery remaining data of a smart battery according to an exemplary embodiment of the present invention.

Referring to the drawings, the electronic system generally includes a smart battery 120, a battery tester 130, a computer device 100, and an interface device 110.

The smart battery 120 is suitable for use in a portable electronic device (for example, a portable computer, a mobile phone, etc.), and the remaining battery amount according to the charge and discharge of the battery to the computer device 100 and the battery tester 130. Output the data. The battery tester 130 controls the charging and discharging of the smart battery 120 through the connection cable 132, and receives the result through the connection cable 132. The remaining battery data data provided to the computer device 100 is transmitted through an SM bus.

The battery tester 130 sets a charge / discharge condition for acquiring the remaining battery data through the plurality of charge / discharge conditions of the smart battery 120. The smart battery 120 is charged and discharged by any one of the set conditions. As a result, the battery remaining data is stored in predetermined time units. For example, the charging and discharging conditions may include a full discharge state from a fully charged state, a 90% discharge state from a full charge state, a 90% discharge state from a 90% charge state, and a 90% discharge state from a 90% state of charge. Various conditions are set to suitable conditions that may occur when the battery is used in the actual portable electronic device.

The interface device 110 converts the remaining battery data (eg, SM bus data) Data into data Data ′ in the form of a serial communication interface in synchronization with a clock signal Clock of the SM bus. 100 to the serial input / output port (RS-232C PORT) 102.

In addition, the computer device 100 receives and stores the converted battery residual data Data ′ in the same charging / discharging condition and the same unit of time as the battery tester 130. The remaining amount data Data 'is an amount of electricity present at a certain time in the battery being charged and discharged according to the charge / discharge conditions set in the battery tester 130. The battery residual data Data 'is output through a display device.

Therefore, when the portable electronic device using the smart battery 120 wants to check the accuracy of the battery remaining data of the smart battery 120, the electronic system is configured to test the accuracy of the battery remaining data.

FIG. 2 illustrates a processing procedure for confirming the accuracy of battery remaining data in the electronic system shown in FIG. 1. This procedure shows the process of the electronic system, and confirms the accuracy of the battery remaining data by a program or a user.

Referring to the drawing, in step S200, the battery tester 130 sets a plurality of charge / discharge conditions in order to measure battery remaining data.

In operation S210, the battery tester 130 charges and discharges the smart battery 120 in response to any one of the plurality of charge / discharge conditions.

Subsequently, in step S220, the battery tester 130 receives battery remaining data according to battery charge / discharge on a predetermined time basis and stores these battery remaining data.

In operation S230, the battery remaining amount data output from the smart battery 120 is transmitted to the interface device 110 through the SM bus. The interface device 110 converts the input battery remaining data Data into data Data 'in the form of a serial communication interface and outputs the data to the RS-232C port 102 of the computer device 100.

In operation S240, the computer device 100 receives and stores battery remaining data Data ′ transmitted from the interface device 110. This stores the battery remaining amount data of a predetermined time unit according to the charge and discharge of the smart battery 120 under the same conditions set by the battery tester 130.

In operation S250, the battery remaining data stored in the battery tester 130 and the computer device 100 are compared with each other. In operation S260, the accuracy of the battery remaining data is confirmed through the comparison result. For example, the remaining battery data of the battery tester 130 and the computer device 100 may be compared and confirmed in a percentage (%) unit.

As described above, the present invention grasps the accuracy of the remaining battery information of the battery used in the portable electronic device, so that the portable electronic device responds to the remaining battery information according to the charge and discharge of the battery when the battery is used in a real situation. Will be used. Therefore, the portable electronic device can not only cope with unexpected situations, but also accurately grasp battery level information important for battery use.

1 is a block diagram showing a connection configuration of an apparatus for checking the accuracy of remaining data of a smart battery using a computer system and a battery tester according to an embodiment of the present invention; And

FIG. 2 is a flowchart illustrating a processing procedure for confirming the accuracy of battery remaining data of the smart battery illustrated in FIG. 1.

Explanation of symbols on the main parts of the drawings

100: computer device 102: RS-232C port

110: interface device 120: smart battery

130: battery tester

Claims (4)

A method of using a computer system and a battery tester to verify the accuracy of battery level information in response to a charge / discharge state of a smart battery: Setting a plurality of battery charge / discharge conditions from the battery tester, and charging and discharging the smart battery correspondingly; Storing, by the battery tester, first battery remaining information on a predetermined time basis in response to one of the charging and discharging conditions; Storing, by the computer system, second battery level information on a predetermined basis in response to a condition equal to the one condition; Comparing the first and second battery level information with each other; And confirming the accuracy of the battery remaining information based on the comparison result. The method of claim 1, And receiving the third battery level information input from the battery through the SM bus and converting the third battery level information into the second battery level information of a serial communication interface standard. In an electronic system that checks the accuracy of the remaining battery power: A battery tester configured to control the battery to be charged and discharged according to a plurality of specific conditions, and to receive first battery remaining amount information from the battery and store the first battery remaining amount information at a predetermined time unit according to a result; An interface device which receives the second battery remaining amount information according to the charging / discharging under the same condition as the specific condition from the battery, converts the second battery remaining amount information into the third remaining battery amount information, and outputs the third battery remaining amount information; A computer device for receiving and storing the third battery level information; And comparing the first and third battery remaining information with each other to determine the accuracy of the remaining battery information. The method of claim 3, wherein And the interface device receives the second battery level information through an SM bus and outputs the third battery level information to a serial communication port of the computer device.