KR20140030711A - Apparatus and method for analyzing of body composition with a smart phone - Google Patents

Abstract

When a body composition is measured by an earphone in a body composition analyzer and a smart device through data communication, the connection between the earphone plug of the body composition analyzer and the earphone port of the smart device is checked. A current is outputted though an electrode which is in direct contact with the body of a testee. A measurement signal is generated by measuring the electrical resistance of the body of the testee by the current of the electrode. The measured signal is changed into a digital data signal. The digital data signal is outputted through the output terminal of the ear phone plug. [Reference numerals] (S710) Check the connection with a smart device through an earphone plug; (S720) Apply current to the body of a testee through an electrode; (S730) Measure the electrical resistance of the body of the testee through the electrode; (S740) Change the measured signal into a digital data signal; (S750) Output the digital data signal through the earphone plug

Description

Body composition measuring device and method that works with smart devices {APPARATUS AND METHOD FOR ANALYZING OF BODY COMPOSITION WITH A SMART PHONE}

The present invention relates to a body composition measuring device and a method for interworking with a smart device such as a mobile.

In modern society, obesity is emerging as a social problem because of the improvement of dietary culture and lack of exercise. In particular, excess body fat stored subcutaneously in the abdomen is carried together when blood travels through the venous tissue to organs such as the liver and pancreas, which can cause problems such as high blood pressure, cholesterol and blood sugar. It is known to cause complications related to diseases and liver, kidney and the like. Accordingly, in recent years, the desire of users to easily measure their body fat from time to time is increasing.

However, conventionally released home body fat analyzers were burdened by the user in terms of size, location and cost, and in particular, it was difficult to visit a medical institution or an obesity clinic center in order to provide a professional body fat measurement service. . In addition, in the case of the conventional portable body fat analyzer, the burden on the size and location has been lowered, but the display screen and the input means are provided on the body fat analyzer itself, and it is troublesome to input data such as the user's condition information using the same. There was this. That is, as the portable body fat analyzer is miniaturized, inconvenience has arisen in the user's operation of the device for inputting data or checking body fat measurement information.

In this regard, Korean Patent Laid-Open Publication No. 10-2003-0042254 (portable body fat measuring device) relates to a body fat measuring device that enables the measurement of the body fat of the subject while carrying it, and the human body component through the bioelectrical impedance analysis (BIA) The present invention discloses a portable body fat analyzer which enables measurement of body fat of a person by the thumb contact of both hands.

The present invention, in order to solve the above-mentioned problems of the prior art, a body composition measuring device that works with a smart device that can easily provide a variety of body composition analysis information, while anyone can easily measure the body composition of their body with a simple device operation And to provide a method.

The body composition measuring device for data communication with a smart device using an earphone according to an aspect of the present invention for achieving the above technical problem, and an output terminal for outputting a data signal to the smart device and input the data signal from the smart device An earphone plug including a receiving input terminal and connected to an earphone port of the smart device; Two or more electrodes in direct contact with the body of the subject to apply a current to the body; A body component signal measuring unit configured to generate a measurement signal by measuring an electrical resistance value of the body of the subject by the current through the electrode; And a data signal output unit converting the measurement signal into a digital data signal and outputting the digital data signal through an output terminal of the earphone plug, when the earphone plug is connected to the earphone port of the smart device. The terminal and the input terminal are respectively connected to the microphone terminal and the speaker terminal of the earphone port, and the electrical resistance value corresponds to the body water amount of the subject.

And the method for measuring the body composition through the data communication with the smart device using the earphone using a body composition measuring device according to another aspect of the present invention, (a) confirming the connection of the earphone plug of the body composition measuring instrument and the earphone port of the smart device Making; (b) outputting a current through an electrode in direct contact with the body of the subject; (c) generating a measurement signal by measuring an electrical resistance value of the body of the subject by the current through the electrode; (d) converting the measurement signal into a digital data signal; And (e) outputting the digital data signal through an output terminal of the earphone plug. When the earphone plug is connected to the earphone port of the smart device, the output terminal is connected to the microphone terminal of the earphone port. The electrical resistance value corresponds to the body water content of the subject, and the measurement signal is used for body composition analysis through a body composition measurement application based on the smart device.

According to any one of the problem solving means of the present invention described above, the portable body composition measuring device measures the body component signal of the subject to be transmitted to the smart device, the body composition analysis and body composition analysis information is provided by the smart device, There is no need to be provided with a display configuration and data input configuration can be miniaturized and the user's operation is easy.

And, according to any one of the problem solving means of the present invention, it is possible to provide various types of body composition analysis information through the body composition measurement application mounted on the smart device, the user can conveniently and efficiently There is an effect that can be confirmed.

Further, according to any one of the problem solving means of the present invention, by using the earphone port to process data communication between the body composition measuring device and the smart device, the body composition using the earphone port that is used universally without using a special data communication protocol It is efficient because it can perform data communication for measurement.

1 is a block diagram showing the configuration of a body composition measuring device to work with a smart device according to an embodiment of the present invention.
2 is a block diagram illustrating the configuration of a body composition analyzer and a smart device according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of an earphone plug of a body composition analyzer and an earphone port of a smart device according to an embodiment of the present invention.
4 is an example of an execution screen of a body composition measurement application that receives condition data of body composition analysis through a smart device according to an embodiment of the present invention.
5 is an example of an execution screen of a body composition measurement application for guiding body composition measurement according to an embodiment of the present invention.
FIG. 6 is an example of an execution screen of a body composition measurement application that provides body component analysis result information according to an exemplary embodiment of the present invention. FIG.
7 is a flowchart illustrating a method of measuring a body composition in a body composition analyzer according to an embodiment of the present invention.
8 is a flowchart illustrating a method of analyzing a body composition by a smart device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "electrically connected" with another part in between . Also, when an element is referred to as "comprising ", it means that it can include other elements as well, without departing from the other elements unless specifically stated otherwise.

1 is a block diagram showing the configuration of a body composition measuring device to work with a smart device according to an embodiment of the present invention.

As shown in FIG. 1, the body composition measuring device 10 according to an exemplary embodiment of the present invention may include a smart device 100 having an earphone port, an earphone plug 210, and a body composition having a plurality of electrodes 220. It is configured to include a meter (200).

In this case, the smart device 100 according to an embodiment of the present invention may output or receive an audio signal through an earphone port, and may be, for example, a smart phone as a device in which various applications are installed and executed. Smart device 100 according to an embodiment of the present invention is equipped with a body composition measurement application that analyzes the body composition based on the body composition signal received from the body composition analyzer 200 and provides the result information.

In addition, the body composition measuring apparatus 200 according to the exemplary embodiment of the present invention is a device that is miniaturized and simplified to be portable, and includes a body of a subject (for example, through two or more electrodes 220 provided to be exposed to the outside). It is a device that measures the body composition signal of the subject by applying a current in direct contact with two-handed thumb and forefinger).

At this time, the body composition analyzer 200 according to an embodiment of the present invention may measure the body composition by a bioelectrical impedance analysis (BIA) method. For reference, BIA (Bioelectrical impedance analysis) is a technique that applies the technique to the body to obtain the volume of the conductor using the length (ie, elongation) and impedance of the conductor (ie, the human body). Specifically, it is the body water that passes the current among the components of the human body. That is, since the human body is made up of 70% or more moisture and is easy to flow electricity, when the current is passed through the human body and the resistance value is measured, the volume of the body water can be obtained. At this time, if the human body is simplified to a cylinder, the volume of the cylinder can be obtained by multiplying the height and cross-sectional area of the cylinder. In addition, since the electrical resistance varies depending on the amount of water, the body water may be obtained using the height (key) information of the subject and the measured impedance. Body moisture correlates with the square of height divided by resistance, which is called the impedance index.

In addition, the body composition measuring apparatus 200 according to an embodiment of the present invention may apply a multi-point contact / multi-electrode method in contact with a human body through two or more electrodes 220.

For example, the two-electrode method is a method of contacting the human body through two electrodes and using the same electrode without separating a current electrode for applying current to the human body and a voltage electrode for measuring human impedance. At this time, in the two-electrode method, the body composition signal can be measured by bringing two electrodes, that is, the + electrode and the-electrode into contact with the contact points.

As another example, the four-electrode method separates a current electrode for applying current to a human body and a voltage electrode for measuring human impedance, and uses respective voltage electrodes and current electrodes, and the contact resistance can be significantly reduced compared to the two-electrode method. have. Specifically, the body composition analyzer 200 using the four-electrode method is provided with a + electrode and a-electrode as a current electrode, and a + electrode and a-electrode as a voltage electrode. At this time, when both hands of the subject are in contact with the four points of the electrode 220, the current may flow from the right first contact point of the current electrode to the left second contact point, for example, by differentially amplifying the applied current. The sinusoidal signal across the body can be measured as a body component signal.

For reference, the body composition measuring apparatus 200 according to the exemplary embodiment of the present invention may apply various body composition measuring methods in addition to the body component measuring method described above.

Meanwhile, as shown in FIG. 1, the body composition analyzer 200 and the smart device 100 perform data communication using earphones, and the body composition signal measured from the body composition analyzer 200 is transmitted to the smart device 100. The body composition analysis and the resultant are processed through the mark apparatus 100.

Hereinafter, the detailed configuration and operation of the body composition analyzer according to an embodiment of the present invention will be described with reference to FIGS. 2 to 6.

2 is a block diagram illustrating the configuration of a body composition analyzer and a smart device according to an embodiment of the present invention.

And, Figure 3 is a block diagram for explaining the configuration of the earphone plug of the body composition measuring instrument and the earphone port of the smart device according to an embodiment of the present invention.

Hereinafter, the earphone port 110 and the body composition of the smart device 100 before describing the data processing method between the smart device 100 and the body composition analyzer 200 according to an embodiment of the present invention with reference to FIG. The state of the earphone plug 210 of the measuring device 200 will be described first.

As shown in FIG. 3, the earphone port 110 of the smart device 100 includes a speaker terminal 111, a microphone terminal 112, and a ground terminal 114 as shown in FIG. 3. The earphone plug 210 of the body composition analyzer 200 may include a data input terminal 211, a data output terminal 212, and a ground terminal 213.

At this time, when the earphone port 110 of the smart device 100 and the earphone plug 210 of the body composition analyzer 200 are connected to each other, the speaker terminal 111 of the earphone port 110 inputs data of the earphone plug 210. It is connected to the terminal 211. The microphone terminal 112 of the earphone port 110 is connected to the data signal output terminal 212 of the earphone plug 210, and each ground terminal 113 and 213 of the earphone port 110 and the earphone plug 210 is connected. Are connected to each other.

As such, when the earphone port 110 and the earphone plug 210 are connected, signal transmission / reception and data signal processing using the earphone port may be performed between the smart device 100 and the body composition analyzer 200 as follows. For reference, the speaker terminal 111 of the earphone port 110 may be configured with two or more terminals so that the smart device 100 outputs audio signals at both sides (ie, left / right sides) when the smart device 100 outputs the audio signal. have. In addition, the microphone terminal 112 is a terminal through which the smart device 100 receives an audio signal. In one embodiment of the present invention, a data signal from the body composition analyzer 200 is input through the microphone terminal 112 to each part. Is passed on. The ground terminal 113 outputs a ground voltage to the ground terminal 213 of the body composition analyzer 200. For reference, the earphone plug 210 of the body composition analyzer 200 according to the exemplary embodiment of the present invention is generally used when input / output an audio signal (eg, a video sound source and an MP3) with the smart device 100. The earphone plug has the same or similar structure.

2, first, the configuration and operation of the body composition analyzer 200 according to an embodiment of the present invention will be described in detail.

As shown in FIG. 2, the body composition analyzer 200 according to an exemplary embodiment of the present invention includes an earphone plug 210, an electrode 220, a connection checker 230, a body component signal measurer 240, and a data signal. And an output unit 250 and an operation control unit 260.

The earphone plug 210 includes an output terminal for outputting a data signal to the smart device 100 and an input terminal for receiving a data signal from the smart device 220, and is connected to the earphone port 110 of the smart device 100. To receive and output data signals. In this case, the earphone plug 210 may be connected to be inserted into the earphone port 110.

The connection checker 230 checks the connection with the smart device 100 through the earphone plug 210. Specifically, when the connection confirmation unit 230 receives a connection confirmation signal from the speaker terminal 111 of the smart device 100 through the data input terminal 211, the connection confirmation signal to the connection confirmation signal through the data output terminal 212. Outputs a response signal.

The electrode 220 is provided to be exposed to the outside from the main body (not shown) of the body composition analyzer 200 so as to be in direct contact with the body of the subject, and is generated from a current source (not shown) provided by the body composition analyzer 200 itself. A preset current is output and applied to the body of the subject. In this case, the electrode 220 may be provided with two or more electrodes as described above with reference to FIG. 1.

On the other hand, although not shown in Figure 2, the body composition analyzer 200 according to an embodiment of the present invention may further include a power supply unit (not shown), the power supply unit (not shown) in each part of the body composition measuring unit 200 Can supply power. In addition, the power supply unit (not shown) outputs a predetermined current to the electrode 220 under the control of the operation control unit 260 of the body composition analyzer 200. In this case, the power supply unit (not shown) may generate a sine wave current of a predetermined frequency (for example, 50 KHz) using a voltage-to-current converter, which converts a voltage generated by RC oscillation into a current. have. For reference, the power supply unit (not shown) may include a floating current source circuit so that the body of the subject can be used without being connected to the ground.

The body composition signal measuring unit 240 generates a measurement signal by measuring an electrical resistance value of the body of the subject due to the current applied through the electrode 220. For reference, the electrical resistance value of the subject's body may mean an impedance value corresponding to the body water content of the subject.

In addition, the body composition signal measuring unit 240 converts the electrical resistance value measured by the AC voltage to DC voltage DC, and the voltage signal so that the voltage signal converted into DC voltage can be converted into a digital data signal form. Is determined as a root mean square (RMS) value and transmitted to the data signal output unit 250. For reference, the circuit for measuring the RMS value may be configured to be completed through a low pass filter (LPF) after full-wave rectification.

The data signal output unit 250 converts the measurement signal into a digital data signal through A / D (analog-to-digital) conversion, and converts the digital data signal into a smart data through the data output terminal 212 of the earphone plug 210. Output to the device 100 side.

In this case, the data signal output unit 250 may modulate and output the digital data signal by using a frequency shift keying (FSK) method.

Specifically, when the value of the measurement signal (ie, the digital data signal) is 0, the data signal output unit 250 uses the FSK method, which is a method of varying the frequency of the carrier wave according to the values 0 and 1 of the digital signal. The low frequency of the predetermined frequency is allocated to, and when the measured signal value is 1, the high frequency of the predetermined frequency may be allocated to transmit data.

In addition, the data signal output unit 250 may transmit a digital data signal (measurement signal) to the smart device 100 through a Universal Asynchronous Receiver-Transmitter (UART) communication scheme.

For reference, the auit communication method is a method in which one byte is divided into eight bits and transmitted one bit at a time on the communication line, and the receiving side (that is, the smart device) receives the data through the communication line. Assemble the bits to make one byte. In this case, a start bit and a stop bit may be used to distinguish the one byte range, and the transmitting side (ie, the body composition analyzer) transmits the start bit and then transmits eight data bits, which are actual data. Finally, the end bit is transmitted so that the receiving side can distinguish the data.

The operation controller 260 performs an operation of outputting current through the electrode 220 based on an operation signal generated by an operation of an operation control button (not shown) exposed to the outside of the main body (not shown) of the body composition analyzer 200. The control signal or the data signal output unit 250 is controlled to perform a reset operation on the measurement signal.

In addition, although not shown in Figure 2, the body composition measuring apparatus 200 according to an embodiment of the present invention further includes a static electricity removing unit (not shown) by itself, by removing the static electricity generated from the human body of the subject to measure the body composition signal It is also possible to measure.

Next, the configuration and operation of the smart device 100 according to an embodiment of the present invention will be described in detail.

As shown in FIG. 2, the smart device 100 according to an embodiment of the present invention includes an earphone port 110, a connection checker 120, a body composition measurement signal receiver 130, an application driver 140, and an application. The management unit 150, the body composition analyzer 160, and the display unit 170 are configured to be included.

The earphone port 110 includes a speaker terminal 111 and a microphone terminal 112, and connects to the earphone plug 210 of the body composition analyzer 200. For reference, the earphone port 110 may be a socket having a standard size and shape so that the earphone plug 210 may be inserted and connected.

The connection confirmation unit 120 outputs a connection confirmation signal through the speaker terminal 111 when the earphone plug 210 of the body composition analyzer 200 is connected to the earphone port 110 and through the microphone terminal 112. A response signal corresponding to the connection confirmation signal is received from the body composition analyzer 200 to confirm that the connection with the body composition analyzer 200 is successful.

At this time, the connection confirmation unit 120 according to an embodiment of the present invention may transmit the connection success information with the body composition analyzer 200 to the application driver 140 to execute the body composition measurement application.

The connection confirmation unit 120 according to another embodiment of the present invention checks a connection signal generated by itself according to a physical connection result when the connection between the earphone port 110 and the earphone plug 210, the body composition measuring device 200. It is also possible to check the connection with the.

The application driver 140 receives an execution command for an onboard signal processing application through an input module (not shown) of the smart device 100, or receives connection connection information from the connection checker 120 to execute an application execution command. Signal processing application (i.e., body composition measurement application) according to the above.

For reference, the input module (not shown) is basically included in the smart device 100, and the user of the smart device 100 uses input means (for example, a keyboard, a keypad, a mouse, a touch screen, etc.). Input data generated by physical manipulation can be received. For example, when a user selects (ie, touches) a body composition measurement application from among a plurality of applications displayed on the touch screen of the smart device 100, the application driver 140 may use an input module (not shown). The signal processing application is selected and executed according to the received application selection information (ie, execution command).

The application driver 140 may extract and execute a signal processing application according to the body composition analyzer 200 from the application manager 150.

In this case, the application driver 140 identifies and executes a signal processing application corresponding to the body composition analyzer 200 among the signal processing applications stored through the application manager 150.

The application manager 150 stores and manages various types of signal processing applications registered or mounted in advance for each peripheral device of the smart device 100.

The body composition measurement signal receiver 130 receives a digital data signal (ie, a measurement signal for measuring body composition) from the body composition analyzer 200 through the microphone terminal 112, and receives the received digital data signal from the body composition analyzer 160. To pass.

The body composition analyzer 160 acquires the data signal input from the body composition analyzer 200 through the microphone terminal 112 of the earphone port 110 according to the operation of the body composition measuring application, and the body composition measuring application. The body composition analysis processing is performed based on the data to be output, and the result of the analysis processing is output through a predetermined output module (display unit).

In this case, the body composition analyzer 160 may calculate at least one of body fat mass, body fat percentage, muscle mass, basic metabolic amount, and body mass index (BMI) according to the operation of the body composition measurement application.

The body composition analyzer 160 is, for example, a central processing unit (CPU) of the smart device 100.

The display unit 170 displays body composition analysis information based on a result value according to the body composition analysis operation of the body composition analyzer 160. At this time, the display unit 170 may be processed to output the result of the body composition analysis process on the smart device 100 may be output through an output means (not shown), such as a screen or a speaker of the smart device 100.

Therefore, the user measures the body composition through the body composition analyzer 200 and checks the result of the body composition measurement through the screen of the smart device 100.

Hereinafter, examples of execution operations of the body composition measurement application according to an embodiment of the present invention will be described in detail with reference to FIGS. 4 to 6.

4 is an example of an execution screen of a body composition measurement application that receives condition data of body composition analysis through a smart device according to an embodiment of the present invention.

5 is an example of an execution screen of a body composition measurement application for guiding body composition measurement according to an embodiment of the present invention.

The body composition analyzer 160 performs a body composition analysis operation using the measurement signal received from the body composition analyzer 200 and the body condition information of the subject. To this end, the body composition measurement application may provide a body composition measurement input interface capable of inputting predetermined condition data necessary for analyzing the body composition of the subject, and receive the condition data through an input interface.

For example, (a) of FIG. 4 illustrates an input interface for inputting a gender of a subject, and (b) illustrates an input interface for selecting a body type of a subject, and (c) to (e). ) Shows an input interface for inputting the weight, height, and birth year (or age) of the subject, respectively.

On the other hand, prior to receiving the body composition measurement signal and analyzing the body composition, the body composition measurement application may display information on the use order of the body composition analyzer 200 and measurement progress state information during the measurement operation of the body composition analyzer 200.

For example, FIG. 5A illustrates a screen describing a connection operation between the smart device 100 and the body composition analyzer 200. In FIG. 5A, the connection between the smart device 100 and the body composition analyzer 200 is shown. In order to check whether this is successful, a screen guiding to maximize the speaker volume of the smart device 100 is shown. For reference, when a high voltage connection confirmation request signal is output through the speaker terminal 111, the possibility of communication success increases. In addition, in FIG. 5C, the guide shows a screen to operate the measurement button of the body composition analyzer 200 to start the body composition measurement. In (d) and (e), the measurement operation of the body composition analyzer 200 is performed. And a screen on which information for checking the current measurement progress status is output.

In addition, the body composition measurement application may output the result of the body composition analyzer 160 to process the body component analysis operation as shown in FIG. 6 below.

FIG. 6 is an example of an execution screen of a body composition measurement application that provides body component analysis result information according to an exemplary embodiment of the present invention. FIG.

FIG. 6 (a) shows a screen outputting body composition analysis information such as body fat percentage, body fat mass, muscle mass, basic metabolism calorie, and BMI, and (b) describes and guides the results of body composition analysis and outputs information suggesting alternatives. One screen is shown, and (c) shows the screen outputted to confirm the amount of change by statistically processing the body composition analysis results for each period.

On the other hand, the body composition measurement application according to an embodiment of the present invention may be set to perform various analysis processing and information providing operations in addition to the functions described above. For example, the body composition measurement application uploads or backs up the body composition analysis information to a predetermined web server (for example, an SNS server), or obtains the registered body composition analysis information by matching the information of the subject from the predetermined web server. Can be displayed through the display unit.

Hereinafter, a method for measuring and analyzing body composition of a body composition analyzer according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 7 and 8.

7 is a flowchart illustrating a method of measuring a body composition in a body composition analyzer according to an embodiment of the present invention.

As shown in FIG. 7, the body composition analyzer 200 confirms the connection with the earphone port of the smart device through the earphone plug (S710).

At this time, the output terminal of the earphone plug and the microphone terminal of the earphone port of the smart device is connected. When the connection confirmation signal is received from the speaker terminal of the earphone port through the input terminal of the earphone plug, the connection with the smart device may be confirmed by outputting a response signal to the connection confirmation signal through the output terminal.

Then, by applying a current to the body of the subject in contact with the electrode to measure the body composition signal (S720).

Then, by measuring the electrical resistance value of the subject's body by the current through the electrode, to generate a measurement signal (S730).

At this time, the electrical resistance value of the AC voltage may be converted into a DC voltage, and the voltage signal converted into the DC voltage may be determined and output as a root mean square (RMS) value, and the electrical resistance value is the body water content of the subject. Corresponds to.

Thereafter, the measurement signal is converted into a digital data signal (S740), and the digital data signal is output to the smart device through the earphone plug (S750).

In this case, the digital data signal may be modulated by a frequency shift modulation (FSK) and output. In addition, the digital data signal may be transmitted to the smart device through a UART communication method.

8 is a flowchart illustrating a method of analyzing a body composition by a smart device according to an embodiment of the present invention.

As shown in FIG. 8, the smart device 100 confirms the connection with the body composition analyzer through the earphone port (S810), and executes the body composition measurement application according to the connection of the body composition analyzer 200 (S820).

Thereafter, a body composition measurement signal (ie, a digital data signal) transmitted by the body composition analyzer is received through the microphone terminal of the earphone port (S830), and a body composition analysis process is performed based on the received body composition measurement signal (S840).

The result of the body composition analysis process is output on the screen of the smart device 100 and provided for the user to check (S850).

That is, as the body composition measurement application according to the exemplary embodiment of the present invention is executed, the body component measurement signal received from the body composition analyzer 200 is received along with the condition data necessary for body composition analysis, and based on the body component measurement signal and the condition data. Body composition analysis is performed and body composition analysis information according to the result of the body composition analysis is displayed on the screen for the user to check.

As such, by performing data signal processing using the earphone between the smart device and the body composition measuring instrument, an unnecessary configuration (eg, a display unit or a data information input unit) is not required for the body composition measuring instrument itself, and thus body composition measurement and analysis can be performed easily. In addition, the smart device can perform data signal processing for the body composition analyzer using the earphone port that is configured without a separate device configuration. In addition, the smart device receives and processes the data signal transmitted by the body composition analyzer using the earphone port, and performs signal processing with the body composition analyzer quickly and conveniently by executing a predetermined body composition measurement application according to various body composition measuring instruments. can do.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: Smart devices
110: earphone port
200: body composition meter
210: earphone plug

Claims (9)

In the body composition analyzer for data communication with the smart device using the earphone,
An earphone plug including an output terminal for outputting a data signal to the smart device and an input terminal for receiving a data signal from the smart device, the earphone plug being connected to the earphone port of the smart device;
Two or more electrodes in direct contact with the body of the subject to apply a current to the body;
A body component signal measuring unit configured to generate a measurement signal by measuring an electrical resistance value of the body of the subject by the current through the electrode; And
And converting the measurement signal into a digital data signal and outputting the digital data signal to the smart device through an output terminal of the earphone plug.
When the earphone plug is connected to the earphone port of the smart device, the output terminal and the input terminal are respectively connected to the microphone terminal and the speaker terminal of the earphone port,
The electrical resistance value is a body composition measuring device that works with the smart device corresponding to the body water content of the subject. The method of claim 1,
The body component signal measuring unit,
And a body composition measuring device that converts the electrical resistance value, which is an AC voltage, into a DC voltage, and determines and outputs a voltage signal converted into the DC voltage as a root mean square (RMS) value. The method of claim 1,
The data signal output unit,
A smart device that modulates the digital data signal by using a frequency shift keying (FSK) method and outputs the signal, or transmits the digital data signal to the smart device through a universal asynchronous receiver-transmitter (UART) communication method. Body composition meter in conjunction with. The method of claim 1,
And a connection confirmation unit for outputting a response signal to the connection confirmation signal through the output terminal when the connection confirmation signal from the speaker terminal is input through the input terminal. The method of claim 1,
The smart controller further includes an operation controller configured to control at least one of an output operation of a current through the electrode and a reset operation of the measurement signal based on an operation signal generated by an operation of an operation control button exposed to the outside. Body composition meter to work with the device. In the method for measuring the body composition of the body composition meter in conjunction with the smart device using the earphone,
(a) checking a connection between the earphone plug of the body composition analyzer and the earphone port of the smart device;
(b) outputting a current through an electrode in direct contact with the body of the subject;
(c) generating a measurement signal by measuring an electrical resistance value of the body of the subject by the current through the electrode;
(d) converting the measurement signal into a digital data signal; And
(e) outputting the digital data signal to the smart device through an output terminal of the earphone plug,
When the earphone plug is connected to the earphone port of the smart device, the output terminal is connected to the microphone terminal of the earphone port,
The electrical resistance value corresponds to the body water content of the subject,
And the measurement signal converted into the digital data signal is linked to a smart device used for a body composition analysis operation through a body composition measurement application mounted on the smart device. The method according to claim 6,
The step (c)
The method of measuring body composition in conjunction with a smart device for converting the electrical resistance value of the AC voltage to a DC voltage, and determining and outputting the voltage signal converted to the DC voltage as a root mean square (RMS) value. The method according to claim 6,
The step (e)
A smart device that modulates the digital data signal by using a frequency shift keying (FSK) method and outputs the signal, or transmits the digital data signal to the smart device through a universal asynchronous receiver-transmitter (UART) communication method. Body composition measurement method linked with. The method according to claim 6,
The step (a)
Receiving a connection confirmation signal from a speaker terminal of the earphone port through an input terminal of the earphone plug; And
And outputting a response signal to the connection confirmation signal through the output terminal.

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