KR20030096652A - Blood sugar test apparatus using cellular phone and method thereof - Google Patents

Abstract

An apparatus and method for measuring blood sugar using a mobile phone of the present invention provides a blood sugar measuring device and method using a mobile phone, which is not only portable but also economically advantageous by implementing a blood sugar measuring function using elements embedded in a general mobile phone terminal. The purpose is.

In order to achieve the above object, the present invention, a mobile phone, a power supply unit for supplying a power supply voltage; A current sensor having two terminals, detecting a change in the amount of current corresponding to the concentration of analyte between the two terminals, and converting the detected signal into a digital signal; An MSM which receives the digital signal from the current sensor and outputs a control signal to receive a data table to obtain concentration data of an analyte according to the digital signal; A memory unit for storing a data table indicating a current / voltage relationship according to a reagent code, and outputting the data table to the MSM according to a control signal from the MSM; And an LCD display unit for receiving and displaying the concentration data from the MSM.

Description

Blood glucose measurement apparatus and method using a mobile phone {BLOOD SUGAR TEST APPARATUS USING CELLULAR PHONE AND METHOD THEREOF}

The present invention relates to a blood glucose measurement apparatus and method using a mobile phone, and more particularly, to a blood glucose measurement apparatus and method using a mobile phone capable of monitoring a health state by measuring a blood glucose level of a blood sample of a patient.

In general, methods for measuring glucose concentration in the blood to date are known as the hexokinase method, the glucose oxidase-peroxidase method, and the glucose oxidase-Prussian blue method. Glucose Oxidase-PrussianBlue method, Glucose Oxidase-Ferricyanide Electrochemical method, or Glucose Oxidase-Ferrocene Electrochemical method.

In particular, the electrochemical method measures the change in the amount of current between the two terminals of the analytical element by means of a current sensor and uses the change in the measured value correlating to the concentration of the analyte, preferably again using a microprocessor evaluation electronics. This is the method of converting to analytical data (concentration of analyte).

The blood glucose measurement apparatus according to the related art has to be carried separately to measure blood glucose, and also purchased separately despite the fact that the device inside the device is similar to a general terminal, and therefore, a high cost must be paid in terms of economy. There is this.

The present invention has been made to solve the above problems, by implementing a blood glucose measurement function using the elements embedded in a general mobile terminal, to provide a device and method for measuring blood glucose using a mobile phone that is not only portable but also economically advantageous. There is a purpose.

1 is a block diagram showing a blood sugar measuring apparatus using a mobile phone according to an embodiment of the present invention;

Figure 2 is a flow chart showing a blood sugar measurement method using a mobile phone according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: power supply unit 120: current sensor

130: MSM140: memory section

150: LCD display unit

In order to achieve the above object, a blood glucose measurement apparatus using a mobile phone of the present invention includes a power supply unit for supplying a power supply voltage; A current sensor having two terminals, detecting a change in the amount of current corresponding to the concentration of analyte between the two terminals, and converting the detected signal into a digital signal; An MSM which receives the digital signal from the current sensor and outputs a control signal to receive a data table to obtain concentration data of an analyte according to the digital signal; A memory unit for storing a data table indicating a current / voltage relationship according to a reagent code, and outputting the data table to the MSM according to a control signal from the MSM; And an LCD display unit for receiving and displaying the concentration data from the MSM.

In addition, the blood glucose measurement method using the mobile phone of the present invention to achieve the above object, in the menu selection of the mobile phone, recognizing whether the blood glucose measurement mode is selected; If a blood glucose measurement mode is selected, dropping blood onto the strip and then inserting the strip into the mobile phone; Sensing a current between two terminals by electrons generated by the reaction of glucose and enzyme on the strip; Digitally sensing the sensed current and acquiring concentration data indicative of blood glucose values according to the digital signal and data table; And after displaying the obtained concentration data, returning to the step of recognizing whether the blood glucose measurement mode is selected.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

1 is a block diagram showing a blood sugar measuring apparatus using a mobile phone according to an embodiment of the present invention, the blood sugar measuring apparatus using a mobile phone of the present invention, the power supply unit 110, the current sensor 120, MSM (Mobile Station) Mode 130), a memory 140, and an LCD display 150.

The power supply unit 110 serves to supply a power supply voltage to the current sensor 120 to be described later when measuring the blood glucose level. Here, the power supply unit 110 may use a lithium ion secondary battery generally used in a mobile phone.

In addition, the current sensor 120 includes two terminals, and detects a change in the amount of current corresponding to the concentration of analyte between the two terminals, converts the detected signal into a digital signal, which will be described later. It serves to output.

Meanwhile, the MSM 130 receives a digital signal from the current sensor 120 and outputs a control signal to receive a data table from the memory unit 140, which will be described later, and the concentration data of the analyte according to the digital signal value. And to output the concentration data to the LCD display unit 150 to be described later.

In addition, the memory unit 140 stores a data table indicating a current / voltage relationship according to a reagent code, and outputs the stored data table to the MSM 130 according to a control signal from the MSM 130. Do it.

On the other hand, the LCD display unit 150, and receives the concentration data from the MSM 130 serves to display so that the user can recognize.

Referring to the operation of the blood glucose measurement apparatus using a mobile phone of the present invention described above are as follows.

After the user drops blood on the strip and inserts it into the current sensor 120, electrons generated by the reaction of glucose and enzyme on the strip are detected by the current sensor 120. That is, the current sensor 120 senses the current generated by the electrons transferred from the strip between the two terminals, and converts the sensed signal into a digital signal to be suitable for the input terminal of the MSM 130. The digital signal is input to the MSM 130, and the MSM 130 receives the digital signal based on the data (current / voltage relation according to the reagent code) already databased in the memory unit 140. Will be processed. The signal thus processed is displayed by the LCD display unit 150 as a blood glucose level.

2 is a flowchart illustrating a blood glucose measurement method using a mobile phone according to an embodiment of the present invention.

First, in the menu selection of the mobile phone, it is recognized whether the user selects the blood glucose measurement mode (S201), and when the user selects the blood sugar measurement mode, blood is dropped on the strip, and the strip is then applied to the current sensor of the mobile phone. It is inserted into the 120 (S202). When the strip is inserted into the current sensor 120, current flows between the two terminals by the electrons generated by the reaction of glucose and enzyme on the strip, thereby sensing (S203). When the current is sensed, it is digitally signaled and input to the MSM 130, and the MSM 130 acquires concentration data indicating a blood glucose value according to the database of the memory unit 140 (S204). The obtained concentration data is displayed through the LCD display unit 150 so that the user can recognize it, and then, the user returns to the step of recognizing whether the user selects a blood glucose measurement mode (S205).

If the user does not select the blood sugar measurement mode, after performing the general function of the mobile phone is returned to the step of recognizing whether the user selects the blood sugar measurement mode (S206).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

The present invention, by combining the mobile phone and blood glucose meter, not only improves portability, but also has an advantage of economically reducing costs by using almost all of the important parts used in the blood glucose meter as a part used in the mobile phone. have.

Claims (3)

In mobile phones, A power supply unit supplying a power supply voltage; A current sensor having two terminals, detecting a change in the amount of current corresponding to the concentration of analyte between the two terminals, and converting the detected signal into a digital signal; An MSM which receives the digital signal from the current sensor and outputs a control signal to receive a data table to obtain concentration data of an analyte according to the digital signal; A memory unit for storing a data table indicating a current / voltage relationship according to a reagent code, and outputting the data table to the MSM according to a control signal from the MSM; LCD display unit for receiving and displaying the concentration data from the MSM Blood glucose measurement apparatus using a mobile phone comprising a. In the menu selection of the mobile phone, recognizing whether the blood glucose measurement mode is selected; If a blood glucose measurement mode is selected, dropping blood onto the strip and then inserting the strip into the mobile phone; Sensing a current between two terminals by electrons generated by the reaction of glucose and enzyme on the strip; Digitally sensing the sensed current and acquiring concentration data indicative of blood glucose values according to the digital signal and data table; And After displaying the obtained concentration data, returning to the step of recognizing whether the blood glucose measurement mode is selected Blood sugar measurement method using a mobile phone comprising a. The method of claim 2, If the blood glucose measurement mode is not selected, returning to the step of recognizing whether the blood glucose measurement mode is selected after performing a general function of the mobile phone. Blood sugar measurement method using a mobile phone comprising a.