KR102261193B1 - Battery charge level indicator using charge and discharge graph - Google Patents

Abstract

An embodiment of the present invention relates to a battery charge amount indicator using a charge/discharge graph. The battery charge amount indicator is arranged to connect a charger and a battery and displays the remaining amount of charge of the battery. The battery charge amount indicator comprises: a connection cable unit for transferring power required for charging from the charger to the battery; a control unit for outputting charging information including a voltage of the battery connected to the connection cable unit, the remaining amount of charge, and an expected time required until full charge based on a charging/discharging trend formula using the remaining amount of charge of the battery as a variable; and a display unit for visually displaying the charging information outputted from the control unit.

Description

Battery charge level indicator using charge/discharge graph {BATTERY CHARGE LEVEL INDICATOR USING CHARGE AND DISCHARGE GRAPH}

The present invention relates to a battery charge strategy indicator using a charge/discharge graph.

In modern society, terminals including smart phones and tablet PCs have become necessities of people, and they are changing to be able to perform all aspects of life, such as work, hobbies, and education, through the terminal.

Accordingly, the technology related to the battery capacity and charging of the terminal is developing every year, and in fact, newly announced new terminals emphasize the technology for improving the battery function, such as increasing the battery capacity and reducing the charging time.

In addition, in addition to various technologies related to the built-in battery of the terminal, technologies that allow the user to check various information of the built-in battery through predetermined software are being developed. A technology for displaying battery information including an estimated time and the like is attracting attention.

However, devices displaying such battery information operate by a simple algorithm, and there is a limitation in that the capacity and remaining charge of the battery cannot be calculated in consideration of information on durability including the number of times the battery is used.

Embodiments of the present invention have been proposed to solve the above problems, and an object of the present invention is to provide a battery charge amount indicator using a charge/discharge graph that can accurately determine the remaining charge amount of the battery in consideration of the performance of the battery.

The battery charge amount indicator using the charge/discharge graph according to an embodiment of the present invention is arranged to connect the charger and the battery, and in the battery charge amount indicator for displaying the remaining amount of charge of the battery, it is required for charging in the direction of the battery from the charger. a connection cable unit that transmits power; a control unit for outputting charging information including a voltage of a battery connected to the connection cable unit, a remaining amount of charge, and an expected time required until fully charged based on a charging/discharging trend expression using the remaining amount of charge of the battery as a variable; and a display unit for visually displaying the charging information output from the control unit.

In addition, the battery charge amount indicator using the charge/discharge graph according to an embodiment of the present invention may further include a user input unit for generating input information including voltage measurement information and battery characteristic information according to a user input.

In addition, the control unit, the charging/discharging trend equation may be stored in advance, and the previously stored charging/discharging trend equation may be a plurality of different function equations to correspond to the battery type.

In addition, the charge/discharge trend formula includes a lipo battery function expression, a lead battery function expression, a lithium ion battery function expression, a nickel cadmium battery function expression, and a nickel metal hydride battery function expression.

In addition, the controller may set the voltage when the battery is fully charged in the charging/discharging trend formula as a threshold voltage value.

In addition, the controller determines the type of the battery according to the battery characteristic information, measures the determined voltage when the battery is fully charged, and sets it as an initial voltage value.

Also, the controller may calculate a correction coefficient by calculating a ratio of a set initial voltage value and a set threshold voltage value.

In addition, the controller calculates a charging/discharging correction trend equation by correcting a charging/discharging trend equation corresponding to the determined battery using the correction coefficient, and outputs the remaining charge amount of the battery determined based on the calculated charging/discharging correction trend equation do.

Also, the controller may calculate an expected time required until fully charged by using the output remaining amount of charge of the battery.

The battery charge amount indicator using the charge/discharge graph according to the embodiments of the present invention has the effect of accurately determining the remaining charge amount of the battery in consideration of the performance of the battery.

1 is a diagram schematically illustrating a battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention.
2 is a block diagram illustrating an operation of a battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention.
3 is a diagram for explaining a voltage graph according to the remaining battery capacity of a battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention.

Other advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only this embodiment serves to complete the disclosure of the present invention, and to obtain common knowledge in the technical field to which the present invention pertains. It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims.

Even if not defined, all terms (including technical or scientific terms) used herein have the same meaning as commonly accepted by common technology in the prior art to which this invention belongs. Terms defined by general dictionaries may be interpreted as having the same meaning as in the related description and/or in the text of the present application, and shall not be interpreted conceptually or excessively formally, even if the expression is not explicitly defined herein. won't

The terminology used herein is for the purpose of describing the embodiments and is not intended to limit the present invention. As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase. As used in the specification, 'comprise' and/or various conjugations of the verb, eg, 'comprising', 'comprising', 'comprising', 'comprising', etc., refer to the referenced composition, ingredient, component, A step, operation and/or element does not exclude the presence or addition of one or more other compositions, components, components, steps, operations and/or elements. As used herein, the term 'and/or' refers to each of the listed components or various combinations thereof.

Meanwhile, terms such as '~ unit', '~ group', '~ block', and '~ module' used throughout this specification may mean a unit that processes at least one function or operation. For example, it can mean software, hardware components such as FPGAs or ASICs. However, '~ part', '~ group', '~ block', and '~ module' are not meant to be limited to software or hardware. '~ unit', '~ group', '~ block', and '~ module' may be configured to reside in an addressable storage medium or to regenerate one or more processors.

Accordingly, as an example, '~ part', '~ group', '~ block', and '~ module' are components such as software components, object-oriented software components, class components, and task components. fields, processes, functions, properties, procedures, subroutines, segments of program code, drivers, firmware, microcode, circuitry, data, databases, data structures, tables, arrays and include variables. The functions provided within the components and '~part', '~gi', '~block', and '~module' are smaller than the number of components and '~bu', '~gi', '~block' ', '~modules' or may be further separated into additional components and '~parts', '~groups', '~blocks', and '~modules'.

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

In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a diagram for schematically explaining a battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention, and FIG. 2 is a view for explaining the operation of a battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention. It is a block diagram for explaining, and FIG. 3 is a diagram for explaining a voltage graph according to the remaining battery capacity of a battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention.

The present invention is a battery charge amount indicator that can display charging information including the remaining charge amount of the battery, voltage, and expected time required until fully charged at the same time as charging batteries such as a built-in battery and auxiliary battery of a mobile communication terminal, and can be miniaturized. .

In addition, the battery supplies power to other driving devices in the terminal and may be configured as a rechargeable battery capable of charging and discharging, where a lipo battery, a lead battery, a lithium ion battery, a nickel cadmium battery, and a nickel metal hydride are capable of high output. It may include a battery.

Specifically, a voltage flows when the battery is charged, and the magnitude of this voltage may vary depending on the degree of the remaining charge of the battery. Using this, the voltage of the battery is measured, and the remaining amount of charge of the battery is calculated from the measured voltage. do. In addition, the expected time remaining until fully charged may be calculated in minutes using the amount of change in the battery voltage and the remaining amount of charge required until the battery is fully charged.

1 to 3 , the battery charge amount indicator 10 using a charge/discharge graph according to an embodiment of the present invention is arranged to connect the charger 20 and the battery 30 , the battery 30 In the battery charge amount indicator for displaying the remaining amount of charge, it may be configured to include a connection cable unit 100 , a control unit 200 , a display unit 300 , and a user input unit 400 .

First, the connection cable unit 100 transmits power required for charging from the charger 20 to the battery 30 .

Specifically, the connection cable unit 100 is a charging cable for charging the battery 30 , and is provided with a battery terminal 110 connected to the battery 30 port at one end, and connected to the charger 20 port at the other end. A charger terminal 120 is provided, and the battery terminal 110 and the charger terminal 120 are from the group consisting of a highly versatile USB terminal, a C-type terminal, a 4-pin terminal, a 6-pin terminal, and an 8-pin terminal. It includes any one or a plurality of terminals selected.

In addition, the connection cable unit 100 includes a cable 100a connected in the direction of the battery terminal 110 and a cable 100b connected in the direction of the charger terminal 120, respectively, with the battery charge indicator 10 of the present invention and It may be configured to be detachable.

The control unit 200 is a charge including the voltage of the battery connected to the connection cable unit 100, the remaining amount of charge, and the expected time required until fully charged based on a charging/discharging trend formula using the remaining amount of charge of the battery 30 as a variable print the information

In addition, the control unit 200 may be configured to include an MCU for outputting the charging information, and specifically, may include an Arduino capable of connecting and controlling various electronic devices such as sensors, motors, and displays.

In addition, the control unit 200 is provided as a separate configuration in the battery charge amount indicator 10 using the charge/discharge graph of the present invention, it is possible to measure the remaining charge of the battery 30, the battery 30 It may be composed of a circuit module electrically connected to the battery cell, and the present invention is not specifically limited thereto.

The display unit 300 visually displays the charging information output from the control unit 200 . That is, the display unit 300 may include a display that visually displays charging information including at least one of the voltage of the battery, the remaining amount of charge, and the expected time required until fully charged according to the control signal of the control unit 200 . And, the display is composed of an LED and an LCD display panel, the upper surface of which may be provided with a transparent protective film for protecting the display.

The user input unit 400 generates input information including voltage measurement information and battery characteristic information according to a user input.

Specifically, the user input unit 400 may include a voltage measurement button unit 410 for measuring voltage and a battery setting button unit 420 for setting a battery type, and the voltage measurement button unit 410 . is pressurized by the user, the voltage of the battery 30 according to the pressurization time may be measured.

In addition, the battery setting button unit 420 may include a button having the shape of two arrows and a button having the shape of a circle, and at the present time the battery 30 type connected to the battery charge indicator 10 of the present invention and The same battery 30 type can be set.

For example, when the type of the battery 30 connected to the battery charge indicator 10 is a lipo battery at a specific point in time, the user presses the arrow button of the battery setting button unit 420 to set the battery as the lipo battery.

Hereinafter, an operation of the battery charge amount indicator using a charge/discharge graph according to an embodiment of the present invention will be described with reference to FIGS. 2 to 3 .

First, the control unit 200 may pre-store the charging/discharging trend equation, and may be a plurality of different function equations so that the previously stored charging/discharging trend equation corresponds to the type of the battery 30 .

More specifically, the charge/discharge trend formula may be pre-stored in the memory provided in the control unit 200, and depending on the battery 30 type, a lipo battery function expression, a lead battery function expression, a lithium ion battery function expression, a nickel cadmium battery function expression and a nickel metal hydride battery function formula.

In general, the charging/discharging trend equation according to the well-known battery 30 type is as shown in Equation 1 below.

[Equation 1]

(Lipo Battery) y = -2E ^-09 x ⁵ + 3E ^-07 x ⁴ - 3E ^-05 x ³ + 0.0013x ² - 0.0349x + 4.1819

(lead battery) y = 9E ^-10 x ⁵ - 4E ^-07 x ⁴ + 6E ^-05 x ³ - 0.0043x ² + 0.1696x + 21

(Li-ion battery) y = -0.0007x ⁵ + 0.0209x ⁴ - 0.2215x ³ + 1.101x ² - 2.565x + 5.9968

(nickel cadmium battery) y = -2E ^-05 x ⁵ + 0.0006x ⁴ - 0.0076x ³ + 0.0549x ² - 0.206x + 1.5073

(nickel metal hydride battery)y = -8E ^-05 x ⁵ + 0.0024x ⁴ - 0.0262x ³ + 0.1336x ² - 0.3256x + 1.5371

In Equation 1, y is the voltage (V) of the battery, and x is the remaining charge (%) of the battery.

That is, the control unit 200 may output the remaining amount of charge of the battery 30 by using a charging/discharging trend equation.

Next, the control unit 200 sets the voltage when the battery 30 is fully charged as a threshold voltage value in the charging/discharging trend formula.

For example, when the remaining charge amount of the battery according to the battery 30 type is 100% through Equation 1, the control unit 200 sets the voltage according to each battery 30 type as a threshold voltage value, In Equation 1, when the remaining charge of the lipo battery is 100%, when the voltage of the lipo battery is measured as 100V, the threshold voltage value of the lipo battery is set to 100V.

Thereafter, the controller 200 determines the type of the battery 30 according to the battery characteristic information, measures the determined voltage when the battery 30 is fully charged, and sets it as an initial voltage value.

For example, when the battery 30 connected to the connection cable part 100 is a lipo battery, the user presses the battery setting button part 420 to set the battery type to the lipo battery, and then, the lipo battery When is fully charged, the voltage measurement button unit 410 is pressed. That is, the controller 200 determines the type of the connected battery 30 as a lipo battery according to a user input, and when the voltage when the lipo battery is fully charged is measured as 50 V, the initial voltage value of the lipo battery is set to 50 V. is set

Also, the controller 200 may calculate a correction coefficient by calculating a ratio of a set initial voltage value and a set threshold voltage value.

For example, when the connected battery 30 is a lipo battery, the initial voltage value of the lipo battery is 50V, and the threshold voltage value is 100V, the correction factor of the lipo battery is the initial voltage value of 50V to the threshold voltage value of 100V It can be calculated as 0.5, which is a divided value.

Next, the control unit 200 calculates a charging/discharging correction trend equation obtained by correcting the charging/discharging trend equation corresponding to the determined battery 30 using the correction coefficient, and the battery determined based on the calculated charging/discharging correction trend equation. (30) The remaining charge is output.

Specifically, the charging/discharging correction trend equation is a value obtained by multiplying the charging/discharging trend equation of Equation 1 by the calculated correction factor, and as shown in FIG. 3 , the charging/discharging trend equation of Equation 1 is drawn as the charging/discharging trend equation. The graph may be shifted downward according to the charging/discharging correction trend equation.

For example, when the connected battery 30 is a lipo battery and the calculated correction factor is 0.5, the lipo battery correction function of the lipo battery is a value obtained by multiplying the existing lipo battery function by 0.5, and the lipo battery correction function is The drawn charge/discharge graph is shifted downward from the charge/discharge graph drawn with the lipo battery function formula.

In addition, the controller 200 calculates an expected time required until fully charged using the output remaining amount of charge of the battery.

For example, when the connected battery 30 is a lipo battery, and the voltage of the lipo battery is measured using the battery charge indicator 10 of the present invention, when the measured voltage is 25V, the conventional lipo battery function formula When 25V is substituted for the y value of , the remaining charge of the battery may be about 10%.

However, the remaining charge amount of the battery by substituting 25V into the y value of the lipo battery correction function formula using the correction factor of the present invention is calculated as about 50%, and thus, the battery charge amount indicator 10 of the present invention is the battery 30 It is possible to measure the exact remaining charge according to the durability of the battery.

In addition, since the expected time required until the battery is fully charged is calculated using the amount of change in the battery voltage and the required capacity until fully charged, the battery charge indicator 10 of the present invention can measure the accurate remaining amount of the battery, so the battery It is also possible to accurately measure the estimated time required until the battery is fully charged.

The above detailed description is illustrative of the present invention.

In addition, the above description shows and describes preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications, and environments. That is, changes or modifications are possible within the scope of the concept of the invention disclosed herein, the scope equivalent to the written disclosure, and/or within the scope of skill or knowledge in the art. The written embodiment describes the best state for implementing the technical idea of the present invention, and various changes required in specific application fields and uses of the present invention are possible. Accordingly, the detailed description of the present invention is not intended to limit the present invention to the disclosed embodiments. Also, the appended claims should be construed to include other embodiments.

100: connection cable part
200: control unit
300: display
400: user input unit

Claims (9)

In the battery charge amount indicator that is arranged to connect the charger and the battery, and displays the remaining amount of charge of the battery,
a connection cable unit for transferring power required for charging from the charger to the battery;
Based on the charging/discharging trend formula using the remaining amount of charge of the battery as a variable, the charging information including the voltage of the battery connected to the connection cable part, the remaining amount of charge, and the expected time required until fully charged is calculated, and the calculated charging information is visually displayed. a control unit that outputs to be displayed as ;
a display unit for visually displaying the charging information output from the control unit; and
A user input unit for generating input information including voltage measurement information and battery characteristic information according to a user input,
The control unit is
In the charging/discharging trend formula, the voltage when the battery is fully charged is set as a threshold voltage value, the battery type is determined according to the battery characteristic information, and then the voltage when the battery is fully charged with the battery type determined is measured and set as the initial voltage value,
The charging/discharging correction trend equation obtained by calculating the ratio of the set initial voltage value and the set threshold voltage value to calculate a correction factor, and correcting the charging/discharging trend equation corresponding to the battery determined by multiplying the charging/discharging trend equation by the calculated correction factor calculate,
Based on the calculated charge/discharge correction trend formula, the remaining charge amount of the battery for which the battery type is determined is calculated, and the estimated time required until full charge is calculated using the calculated remaining charge amount of the battery and the voltage change amount of the battery with the determined battery type. Battery charge level indicator using charge/discharge graph.
delete The method of claim 1,
The control unit is
The charging/discharging trend equation is stored in advance, and the pre-stored charging/discharging trend equation is a battery charge amount indicator using a charging/discharging graph, which is a plurality of different functional equations to correspond to the battery type.
4. The method of claim 3,
The charging/discharging trend formula is,
A battery charge indicator using a charge/discharge graph including a lipo battery hydrostatic formula, a lead battery hydrostatic formula, a lithium ion battery hydrostatic formula, a nickel cadmium battery hydrostatic formula, and a nickel metal hydride battery functional formula.
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