JP5276136B2 - Biomedical device for transmitting information using plug of earphone with microphone and method of information transmission using plug of earphone with microphone - Google Patents

Description

  The present invention relates to a kind of biomedical device, and more particularly, to a biomedical device that transmits information using a plug of an earphone with a microphone and a method of information transmission using the plug of the earphone with a microphone. It is. The present invention enables information transmission and data integration with a portable electronic device by connecting an insertion plug of an earphone with a microphone to an insertion port of the earphone with a microphone.

  Currently, various types of biomedical devices such as blood glucose measuring devices, weight scales, blood pressure monitors, electrocardiogram measuring devices, blood oxygen concentration measuring devices and the like are widely applied to human life. Referring to the three-dimensional view of the conventional blood glucose measuring device of FIG. 1, as shown in FIG. 1, the user inserts the test piece 2 'into the conventional blood glucose measuring device 1' and supplies blood to the test piece 2 '. After spotting the reaction area 21 ', the blood glucose meter 1' starts measuring the blood glucose concentration value of the blood. When the measurement is finished, the blood glucose concentration value is displayed on the screen 11 '.

  Normally, the blood glucose meter 1 'as shown in FIG. 1 simply displays the blood glucose concentration value on the screen 11', and the user uses other electronic equipment such as a personal computer. It is very inconvenient to record and track the blood glucose level every day. On the other hand, with the development of science and technology, the relationship between 3C products and biological science technology and medical information has been increasing continuously. In general, this includes technologies that have worked across fields such as video, databases, and networks. It is. As can be seen from the above, it is clear that the user is required to perform data integration between the biomedical device and the 3C product.

  For this reason, related manufacturers who manufacture biomedical devices have proposed blood glucose meters that can communicate with personal computers. Referring to the conceptual diagram showing the case where the blood glucose meter in FIG. 2 communicates with a personal computer, as shown in FIG. 2, a connection cable 12 ′ is additionally installed on the blood glucose meter 1 ′, and the connection cable Since 12 'includes a USB connector 121', it can be connected to the USB insertion port 31 'of the personal computer 3'. Then, the user can upload the daily blood glucose concentration value to the personal computer 3 'by the application software installed in the personal computer 3'. The user can also automatically perform daily blood glucose level tracking by the application software. In this way, by using the blood glucose meter 1 'connected to the personal computer 3', the user can clearly record and track the daily blood glucose concentration value.

  The blood glucose measuring device 1 'described above can perform information transmission and data integration with the personal computer 3' via the connection cable 12 ', but one problem still exists for elderly users. In other words, whether it is a desktop computer or a laptop computer, older users cannot always have a personal computer. Therefore, in order to solve this problem, a more feasible solution is to make the blood glucose meter perform information transmission and data integration with a currently popular multimedia device such as a smartphone, for example. . Referring to FIG. 3 together with a conceptual diagram showing a case where the blood glucose meter in FIG. 3 communicates information with the smartphone, as shown in FIG. 3, the blood glucose meter 1 ′ is similarly connected to the smartphone 4 ′ via the connection cable 12 ′. However, the difference is that the terminal of the connection cable 12 'is not provided with the USB connector 121' but instead is connected to the information transmission port 41 'of the smartphone 4'. A specific coupler 122 'that can be connected. In this way, the application software installed in the smartphone 4 'allows the user to upload the daily blood glucose concentration value to the smartphone 4', and in addition, the smartphone 4 'is considerably thin and light. For older users, it ’s not a burden to always wear a smartphone.

  However, various brands of smartphones are sold in the market, and among them, different types of smartphones have different types of information transmission outlets. Therefore, once a user purchases a new smartphone, but the brand of the new smartphone is different from the old mobile phone that the user originally used, the blood glucose meter must be connected in the same style. Even if you use it, you will not be able to communicate with a new smartphone. Moreover, if a connector cable that can be used with a new smartphone is purchased, the blood glucose meter may not be able to communicate with the new smartphone. The mutual information format between the blood glucose meter and the smartphone needs to acquire the authentication of the smartphone manufacturer in advance, and the authentication is successful and the blood glucose meter performs information transmission and data integration with the smartphone. Allow.

  As a result, as described above, we cannot easily perform cross-disciplinary data integration with biomedical devices through the information transmission port of smartphones (ie, portable multimedia devices). I understand. In view of this, the inventors of the present application have made extensive efforts to make it easier to perform cross-field data integration between a biomedical device and a portable multimedia device. A biomedical device for transmitting information by using an insertion plug of the earphone and a method of information transmission using the insertion plug of the earphone with microphone have been developed.

  A first object of the present invention is to provide a biomedical device that transmits information using an insertion plug of an earphone with a microphone. The biomedical device includes a standard microphone-equipped earphone plug and can be inserted into a portable electronic device earphone with microphone. As a result, the biomedical device can communicate information with the portable electronic device, and it is not necessary to perform an authentication procedure in a transmission format prescribed by the manufacturer in advance.

  A second object of the present invention is to provide a biomedical device that transmits information using an insertion plug of an earphone with a microphone. The biomedical device includes a power management unit. The power management unit receives an external power supply from a battery or a portable electronic device, and then converts the external power source to a system power source required by the biomedical device. By converting, when the user uses the biomedical device, the biomedical device does not have to worry about system power shortage.

  A third object of the present invention is to provide a method for transmitting biomedical information to a portable electronic device using an insertion plug of an earphone with a microphone. According to the method, the user not only measures his / her biomedical data with the biomedical device, but also performs information transfer and data integration between the biomedical device and the portable electronic device, The user can also input biomedical information into the portable electronic device and record and track daily biomedical information with the portable electronic device.

  Therefore, in order to achieve the first and second objects of the present invention, the inventor of the present application proposes a biomedical device that transmits information using a plug of a kind of earphone with microphone. The apparatus is configured to include a surveying unit, a micro controller unit, an earphone plug with a microphone, a switch unit, a level shift unit, an amplification unit, and a power management unit. .

  The surveying unit is connected to a measurement object and used to measure biomedical data of the measurement object. The micro controller unit is coupled to a surveying unit, receives the biomedical data, and processes the biomedical data to generate biomedical information. The plug of the earphone with microphone can be inserted into the insertion port of the earphone with microphone of the portable electronic device outside, and the plug of the earphone with microphone has a microphone input terminal, a ground terminal, , An audio (left) output end, and an audio (right) output end, of which the microphone input end is connected to the micro controller unit.

  The switch unit is connected to the audio (right) output end and the micro controller unit, and an insertion plug of the earphone with microphone is inserted into an insertion port of the earphone with microphone of the portable electronic device. In this case, the switch unit can stop the portable electronic device from outputting an audio signal by performing signal switching, so that the micro controller unit is connected to the microphone input terminal via the microphone input terminal. Biomedical information can be input into the portable electronic device. The level shift unit is coupled to a switch unit and a micro controller unit, and the level shift unit receives the audio signal from the switch unit and amplifies the audio signal, after which the level shift unit The audio signal received and amplified is converted into a DC signal and transmitted to the micro controller unit.

  The amplification unit is connected to the switch unit and receives and amplifies the audio signal. The power management unit is coupled to the audio (left) output end, and the power management unit can be electrically connected to an external power supply via the audio (left) output end, and the external power supply is connected to the system power supply. By converting, the surveying unit, the micro controller unit, the switch unit, the level shift unit, and the amplification unit can be driven by the converted system power supply.

  When the plug of the earphone with microphone is inserted into the insertion port of the earphone with microphone, the portable electronic device uses the plug of the earphone with microphone to transmit the setting information to the microphone via the switch unit. It becomes possible to transmit to the controller unit, and then the micro controller unit sends the identification code to the portable electronic device via the microphone input terminal, in this case installed in the portable electronic device The application software can confirm the communication relationship between the micro controller unit and the portable electronic device by detecting the identification code.

  Furthermore, in order to achieve the third object of the present invention, the inventor of the present application proposed a method for transmitting biomedical information to a portable electronic device using a plug of a kind of earphone with microphone, The method includes the following flow.

  Step (1) is a step of inserting the insertion plug of the earphone with microphone of the biomedical device into the insertion port of the earphone with microphone of the portable electronic device.

  Step (2) is a step in which the portable electronic device transmits setting information to the micro-controller unit of the biomedical device by the audio (right) output end of the plug of the earphone with microphone.

  Step (3) is a step in which the micro controller unit receives and analyzes the setting information.

  Step (4) is a step in which the micro controller unit transmits the identification code to the portable electronic device by the microphone input terminal of the plug of the earphone with microphone.

  Step (5) is a step of detecting the identification code with application software inside the portable electronic device.

  Step (6) determines whether or not the identification code is detected. If it is determined that the identification code is detected, step (7) is executed. If it is determined that the identification code is not detected, step (1) starts from step (1). It is a step to execute again.

  Step (7) is a step of completing the communication relationship between the micro controller unit and the portable electronic device.

  Step (8) determines whether or not the object to be measured is connected to the surveying unit of the biomedical device, and if it is determined that it is connected, executes Step (9) and determines that it is not connected In this case, step (8) is executed again.

  Step (9) is a step of stopping the portable electronic device from outputting an audio signal by the switch unit of the biomedical device.

  In step (10), it is determined whether or not the object to be measured can be measured. If it is determined that measurement is possible, step (11) is executed. If it is determined that measurement cannot be performed, step (8) is executed again from step (8). It is a step.

  Step (11) is a step in which the surveying unit measures the biomedical data of the measurement object and transmits the biomedical data to the micro controller unit.

  Step (12) is a step in which the micro controller unit processes the biomedical data to generate biomedical information.

  Step (13) is a step in which the micro controller unit transmits the biomedical information to the portable electronic device by the microphone input terminal.

  Step (14) discriminates whether or not the measurement and recording of the biomedical information of the object to be measured is completed. When it is determined that the measurement is completed, step (15) is executed and it is determined that the measurement is not completed. In this case, the step is executed again from step (8).

  Step (15) is a step of removing the measurement object from above the biomedical device.

  Step (16) is a step of removing the biomedical device.

  The above is the basic method flow of the present invention.

A three-dimensional view of a conventional blood glucose meter. The conceptual diagram which shows the case where a blood glucose meter performs information transmission with a personal computer. The conceptual diagram which shows the case where a blood glucose meter performs information transmission with a smart phone. The 1st block diagram of the biomedical apparatus which transmits information using the insertion plug of the earphone with a microphone of this invention. The conceptual diagram which shows the connection of the biomedical apparatus which transmits information using the plug of an earphone with a microphone, and a smart phone. The front view of the plug of an earphone with a microphone. The timing diagram of the biomedical apparatus which transmits information using the insertion plug of the earphone with a microphone of this invention, and a smart phone. The timing diagram of the biomedical apparatus which transmits information using the insertion plug of the earphone with a microphone of this invention, and a smart phone. The timing diagram of the biomedical apparatus which transmits information using the insertion plug of the earphone with a microphone of this invention, and a smart phone. A three-dimensional view of a sphygmomanometer with a body fat meter. The front view of an electrocardiograph. The 2nd block diagram of the biomedical device which transmits information using the plug of the earphone with a microphone of the present invention. The flowchart which shows the flow of the method of transmitting biomedical information to a portable electronic device using the plug of an earphone with a microphone. The flowchart which shows the flow of the method of transmitting biomedical information to a portable electronic device using the plug of an earphone with a microphone. The flowchart which shows the flow of the method of transmitting biomedical information to a portable electronic device using the plug of an earphone with a microphone.

  In a biomedical device for transmitting information using a plug of an earphone with a microphone proposed by the present invention and a method of information transmission using the plug of the earphone with a microphone, the plug of the earphone with a microphone is inserted. The biomedical device for transmitting information using a plug includes a plurality of types of embodiments, and the best features of the present invention can be explained more clearly and in detail. This will be described in detail.

  Referring to the first configuration diagram of the biomedical device that transmits information using the plug of the earphone with microphone of the present invention in FIG. 4, the plug of the earphone with microphone as shown in FIG. The first configuration of the biomedical device 1 that transmits information using a surveying unit 11, a micro controller unit 12, an earphone plug 13 with a microphone, a switch unit 14, and a level shift unit 15 And an amplification unit 16, a power management unit 17, and a speaker unit 18.

  The surveying unit 11 is connected to the measurement object 2 and used to measure biomedical data of the measurement object 2. The micro controller unit 12 is connected to the surveying unit 11, receives biomedical data, and processes the biomedical data to generate biomedical information. The plug 13 of the earphone with microphone can be inserted into the insertion port 31 of the earphone with microphone of the portable electronic device 3 located outside, and the plug 13 of the earphone with microphone is connected to the microphone input end 131. , A grounding terminal 132, a sound (left) output terminal 133, and a sound (right) output terminal 134, and the microphone input terminal 131 is connected to the micro controller unit 12.

  With continued reference to FIG. 4, the switch unit 14 is connected to the audio (right) output end 134 and the micro controller unit 12, and the plug 13 of the earphone with microphone is connected to the portable electronic device 3 with microphone. When inserted into the earphone jack 31, the switch unit 14 can stop the portable electronic device 3 from outputting an audio signal by executing signal switching. In this case, the micro controller unit 12 can input biomedical information to the portable electronic device 3 via the microphone input end 131. The level shift unit 15 is connected to the switch unit 14 and the micro controller unit 12, and the level shift unit 15 receives the audio signal from the switch unit 14 and amplifies the audio signal, and then performs the level shift. The unit 15 converts the audio signal into a DC signal and transmits it to the micro controller unit 12.

  Still referring to FIG. 4, the amplification unit 16 is connected to the switch unit 14 and receives and amplifies the audio signal. The power management unit 17 is connected to the audio (left) output end 133, and the power management unit 17 can be electrically connected to an external power supply via the audio (left) output end 133, and the external power supply is connected to the system. By converting to a power source, the surveying unit 11, the micro controller unit 12, the switch unit 14, the level shift unit 15 and the amplification unit 16 can be driven by the converted system power source. In the first configuration of the biomedical device 1 that transmits information using the plug of the earphone with microphone, the battery of the portable electronic device 3 can be used as an external power source. When the plug 13 is inserted into the insertion port 31 of the earphone with microphone, the power management unit 17 receives the supply of external power from the battery, and then converts it into a system power supply required by the biomedical device 1. Finally, the speaker unit 18 is connected to the amplification unit 16, receives the audio signal amplified by the amplification unit 16, and outputs the audio signal.

  In particular, in the first configuration of the biomedical device 1 that transmits information using the plug of the earphone with microphone, it is necessary to explain the difference between the plug 13 of the earphone with microphone and the difference between the earphone with microphone. When inserted into the slot 31, the plug 13 of the earphone with microphone can transmit the setting information of the portable electronic device 3 to the micro controller unit 12 via the switch unit 14. Then, the micro controller unit 12 transmits the identification code to the portable electronic device 3 via the microphone input terminal 131. In this case, the application software installed in the portable electronic device 3 detects the identification code. can do. When the detection of the application software identification code is successful, that is, the communication connection between the biomedical device 1 and the portable electronic device 3 is successful, and the biomedical device 1 executes information transmission and data integration with the portable electronic device 3. Means start. At the same time, the user can upload biomedical information measured daily with a portable electronic device into the cloud-edge database and use it for telemedicine management. Furthermore, it is particularly necessary to explain that a user can download application software from a network shop provided by the manufacturer of the portable electronic device and install it directly in the portable electronic device.

  A feature of the present invention resides in communication connection with the portable electronic device 3 using the plug 13 of the earphone with microphone. Therefore, in order to fully explain the entire technical features of the present invention, the biomedical device 1 that transmits information using the plug of the earphone with microphone will be described below. Information transmission and data integration via the portable electronic device 3 will be described clearly.

  As shown in FIGS. 4 and 5, with continued reference to FIG. 4, reference is made to the conceptual diagram showing the connection between the biomedical device that transmits information using the plug of the earphone with microphone of FIG. 5 and the smartphone. In addition, the biomedical device 1 for transmitting information using the plug of the earphone with microphone of the present invention includes the plug 13 of the earphone with microphone, and the plug 13 of the earphone with microphone is portable electronic. The biomedical device 1 of the present invention can be communicatively connected to the portable electronic device 3 by inserting it into the insertion port 31 of the microphone-equipped earphone of the device 3, and the biomedical device 1 shown in FIG. It is a blood glucose meter, and the measured object 2 is a blood glucose test piece, and has an enzyme catalyst 21 capable of reacting with the user's blood on the blood glucose test piece. Blood glucose test of measuring device Piece surveying device (i.e., surveying unit 11) to perform the measurement of the blood glucose concentration values in the blood glucose meter by which can be inserted into. Furthermore, the portable electronic device 3 as shown in FIG. 5 is a smartphone, and application software is installed in the smartphone. In addition, the user can purchase and download application software from services such as Android Market provided by Google, App Store provided by Apple, Ovi Store provided by Nokia, and App Store provided by BlackBerry. It can be installed directly in the smartphone.

  4 and 5, the front view of the plug of the earphone with microphone of FIG. 6 is referred to, and as described above, the plug 13 of the earphone with microphone has the microphone input end 131 and the ground end 132. , An audio (left) output end 133 and an audio (right) output end 134. The microphone input end 131 is connected to the micro controller unit 12, and the audio (right) output end 134 is The audio (left) output terminal 133 is connected to the power management unit 17.

  In the first configuration of the biomedical device 1 that transmits information using the plug of the earphone with microphone of the present invention, the audio (right) output terminal 134 inputs an audio signal output from the smartphone to the switch unit 14. To do. Subsequently, the switch unit 14 inputs an audio signal to the micro controller unit 12, and then the micro controller unit 12 analyzes the frequency of the audio signal to thereby input the biomedical information of the smartphone to be input. Determine the frequency. Further, when connecting a smartphone to the biomedical device 1, the smartphone transmits its setting information to the micro controller unit 12 via the audio (right) output end 134, and then the micro controller unit 12 Send the identification code to your smartphone. In this case, the application software installed in the portable electronic device 3 starts to detect the identification code, and when the application software succeeds in detecting the identification code, that is, the biomedical device 1 is completely connected to the smartphone. Successful, the user means the start of information transmission and data integration with the portable electronic device 3 using the biomedical device 1.

Please refer to FIG. 4 and FIG. 5 continuously, and at the same time, refer to timing diagrams of the biomedical device and the smartphone that transmit information using the plug of the earphone with microphone of the present invention of FIG. 7A, FIG. 7B and FIG. After connecting the blood glucose meter (ie, the biomedical device 1 of the present invention) to the smartphone (ie, the portable electronic device 3) via the plug 13 of the earphone with microphone, as shown in FIG. 7A, The A signal indicates a signal output from the audio (left) output end 133, the B signal indicates a signal output from the microphone input end 131, and the C signal indicates the micro controller controller from the switch unit 14. Refers to the signal input to the unit 12. When the blood glucose test piece (that is, the device under test 2) has not yet been inserted into the blood glucose meter, as shown in FIG. 7B, the A signal is held at a high potential. It is maintained at a low potential. When the blood glucose test piece is inserted into the blood glucose meter, the A signal is still maintained at a high potential and the B signal is still maintained at a low potential, but the C signal has a time T _r It rises rapidly from the point where it becomes to the high level.

After the blood is spotted on the enzyme catalyst 21, the blood glucose meter promptly measures the blood glucose concentration value (that is, biomedical information), and the sampling frequency of the audio signal output from the smartphone is 44. Since it is 1 kHz, the micro controller unit 12 inputs the blood glucose concentration value to the smartphone at a frequency of 10 kHz via the microphone input terminal 131, and the format of the blood glucose concentration value (ie, biomedical information) is 2 It is a hexadecimal code. When the micro controller unit 12 inputs the blood glucose concentration value to the smartphone, as shown in FIG. 7B, in this case, the A signal falls after the point where the time axis becomes T _f1 and a predetermined time has elapsed. Rise again. After 10 ms after the A signal has fallen, the blood glucose concentration value starts to be input into the smartphone when the time reaches T _is , and then the input of the blood glucose concentration value is completed before the time reaches T _ie . The time difference between the time T _is and the time T _ie is 40 ms. Finally, after the blood glucose concentration value is completely entered into the smartphone, as shown in FIG. 7C, the A signal falls to a low level when the time reaches T _f2 and after the blood glucose test strip 21 is removed from the blood glucose meter. The A signal falls to a low level when the time reaches T _f3 .

  As described above, with the blood glucose measuring device as an example, information transmission and data integration between the biomedical device 1 that transmits information using the plug of the earphone with microphone of the present invention and the smartphone (that is, the portable electronic device 3). Explained the process of doing. However, at present, since biomedical devices such as body fat measuring devices, blood pressure monitors, blood oximeters, and electrocardiogram measuring devices are all downsized, information can be obtained using the plug of the earphone with microphone of the present invention. The biomedical device 1 that transmits the blood pressure is not limited to a blood glucose meter, and refers to a three-dimensional view of a sphygmomanometer with a body fat meter in FIG. 8, and as shown in FIG. The biomedical device 1 that transmits information using a blood pressure monitor with a body fat meter may be used. In this case, the surveying unit 11 is two cuffs (armbands), and these two cuffs are respectively It is wound around the user's left wrist and right wrist, and the body fat value and blood pressure value of the user are measured. Further, referring to the front view of the electrocardiograph of FIG. 9, as shown in FIG. 9, the biomedical device 1 for transmitting information using the plug of the earphone with microphone of the present invention is an electrocardiograph. In this case, the surveying unit 11 has two electrodes, and the user pushes the index fingers of both the left and right hands over the two electrodes, and the electrocardiograph measures the electrocardiogram information of the user. be able to.

  Furthermore, the biomedical device 1 that transmits information using the plug of the earphone with microphone of the present invention may further have a second configuration. Referring to the second configuration diagram of the biomedical device for transmitting information using the plug of the earphone with microphone of the present invention in FIG. 10, as shown in FIG. 10, as in the first configuration, The second configuration of the biomedical device 1 that transmits information using the plug of the earphone with microphone of the present invention is the surveying unit 11, the micro controller unit 12, and the plug 13 of the earphone with microphone. A switch unit 14, a level shift unit 15, an amplification unit 16, a power management unit 17, and a speaker unit 18.

  In the second configuration as compared with the first configuration of the biomedical device 1 that transmits information using the plug of the earphone with the microphone described above, with reference to FIG. The switch unit 14 is simultaneously connected to the audio (left) output end 133, the audio (right) output end 134 and the micro controller unit 12, and the power management unit 17 is electrically connected only to the external power source. The power management unit 17 is not connected to the audio (left) output end 133. In such a second configuration, the audio (left) output end 133 does not need to be connected to the power management unit 17 to supply external power, so both the audio (left) output end 133 and the audio (right) output end 134 At the same time, it can be used to transmit an audio signal to the biomedical device 1, or to transmit setting information of the portable electronic device 3 to the micro controller unit 12. The blood glucose measuring device can be implemented as an example as well as the first configuration of the biomedical device 1 that transmits information using the plug of the earphone with microphone, and the sphygmomanometer with body fat meter And an electrocardiograph can be implemented as examples.

  As described above, the biomedical device that transmits information using the plug of the earphone with microphone of the present invention has been completely described. Next, the method of transmitting biomedical information to the portable electronic device using the plug of the earphone with microphone will be described in full as follows along with the flowchart. FIG. 11A, FIG. 11B, and FIG. 11C refer to the flow chart showing the flow of the method for transmitting biomedical information to the portable electronic device using the plug of the earphone with microphone of FIG. 11A, FIG. 11B, and FIG. As described above, a method for transmitting biomedical information to a portable electronic device using a plug of an earphone with a microphone includes the following steps.

  First, step (101) is executed, and the plug of the earphone with microphone of the biomedical device is inserted into the insertion port of the earphone with microphone of the portable electronic device. Next, step (102) is executed, and the portable electronic device transmits the setting information to the micro-controller unit of the biomedical device by the audio (right) output end of the plug of the earphone with microphone. Then, step (103) is executed, and the micro controller unit receives and analyzes the setting information. After the micro controller unit completes the analysis of the setting information, execute step (104), and the micro controller unit transmits the identification code to the portable electronic device by the microphone input terminal of the plug of the earphone with microphone. To do. Subsequently, step (105) is executed, and the identification code is detected by the application software inside the portable electronic device. Then, step (106) is executed to determine whether or not an identification code is detected, and if it is determined that it is detected, step (107) is executed while it is determined that it has not been detected. In this case, the processing is executed again from step (101).

  After completing the communication relationship between the micro-controller unit and the portable electronic device, the user begins to use the biomedical device, in which case step (108) is performed and the object to be measured is the biomedical device. If it is determined whether the portable electronic device is connected to the surveying unit, and if it is determined that it is connected, the portable electronic device outputs a voice signal by the switch unit of the biomedical device by executing step (109). On the other hand, if it is determined that it is not connected, it means that there is no object to be measured connected to the surveying unit, so step (108) needs to be executed again.

  Further, after the object to be measured is connected to the surveying unit, step (110) is executed to determine whether the object to be measured can be measured. If it is determined that the object can be measured, step (111) is executed. If the surveying unit measures the biomedical data of the object to be measured and sends the biomedical data to the micro controller unit, on the other hand, if it is determined that the measurement cannot be performed, the processing is executed again from step (108). Then, step (112) is executed, and the micro controller unit processes the biomedical data to generate biomedical information. Then, step (113) is executed, and the micro controller unit transmits biomedical information to the portable electronic device by the microphone input terminal.

  According to steps (101) to (113) described above, information transmission and data integration between the biomedical device and the portable electronic device can be completed. Then, step (114) is subsequently executed to determine whether the measurement and recording of the biomedical information of the object to be measured is completed. If it is determined that the measurement is completed, step (115) is executed to execute the biological If the object to be measured is removed from the top of the medical device and it is determined that it is not completed, the process is executed again from step (108). Finally, following step (115), step (116) is performed to remove the biomedical device.

  In this way, through the steps (101) to (116) described above, the user not only measures his / her biomedical data with the biomedical device, but also the biomedical device and the portable electronic device. By communicating information with and integrating data, users can input biomedical information into a portable electronic device and record and track daily biomedical information with the portable electronic device. It becomes possible.

  As described above, the biomedical device for transmitting information using the plug of the earphone with microphone of the present invention and the method of information transmission using the plug of the earphone with microphone are fully described. As can be seen from the above description, the present invention has the following advantages.

  1. The biomedical device for transmitting information using the plug of the earphone with microphone of the present invention includes the plug of the earphone with microphone, and the earphone with microphone of the portable electronic device as the plug of the earphone with microphone. Information insertion and data integration between the biomedical device and the portable electronic device can be performed by insertion into the plug-in port and application software installed in the portable electronic device.

  2. Based on the above first point, the method of the plug of the earphone with microphone allows the user to communicate and connect with any portable electronic device using a biomedical device having the plug of the earphone with microphone. It is not necessary to go through the manufacturer's transmission format certification procedure, which is very convenient for the user.

  3. Based on the first point, users can purchase and download application software from Android Market provided by Google, App Store provided by Apple, Ovi Store provided by Nokia, and App Store provided by BlackBerry. Therefore, it can be installed directly in the smartphone.

  4). According to the biomedical device that transmits information using the plug of the earphone with microphone of the present invention, the system power supply can be supplied from a battery or a portable electronic device, so that the user can use the biomedical device. When doing so, there is no risk of a system power shortage occurring in the biomedical device.

  5. According to the method of transmitting biomedical information to the portable electronic device using the plug of the earphone with microphone, the user not only measures his / her biomedical data with the biomedical device, but also the biomedical device By communicating information and integrating data between the mobile device and the portable electronic device, the user can input biomedical information into the portable electronic device and record daily biomedical information with the portable electronic device. Can be traced.

  As mentioned above, although the example of suitable embodiment of this invention has been described in detail, referring drawings, this invention is not limited to embodiment mentioned above, That is, it deviates from the range of the technical idea of this invention. Embodiments obtained by combining technical means appropriately changed without departing from the scope of the present invention are also included in the technical scope of the present invention.

1: Biomedical device 1 ′ that transmits information using an plug of an earphone with microphone 1: Conventional blood glucose meter 11: Survey unit 11 ′: Screen 12: Micro controller unit 12 ′: Connection cable 121 ′ : USB connector 122 ′: Specific connector 13: Plug with earphone 131 with microphone 131: Microphone input end 132: Ground end 133: Audio (left) output end 134: Audio (right) output end 14: Switch unit 15 : Level shift unit 16: Amplification unit 17: Power supply management unit 18: Speaker unit 2: Measurement object 2 ′: Test piece 21: Enzyme catalyst 21 ′: Reaction region 3: Portable electronic device 3 ′: Personal computer 31: With microphone Earphone jack 31 ': USB socket 4: Battery 4': Smartphone 41 ': Information transmission sockets 101-116: Method Steps

Claims (20)

A surveying unit connected to the measurement object to measure biomedical data of the measurement object;
A micro controller unit coupled to the surveying unit for receiving the biomedical data and processing the biomedical data to generate biomedical information;
A microphone input terminal, a ground terminal, a sound (left) output terminal, and a sound (right) output terminal, and the microphone input terminal is connected to the micro controller unit and is portable outside. An insertion plug of the earphone with microphone that can be inserted into the insertion port of the earphone with microphone of the electronic device,
When the plug of the earphone with microphone is connected to the audio (right) output end and the micro controller unit, the portable electronic device is inserted into the insertion port of the earphone with microphone of the portable electronic device. A switch unit capable of performing signal switching to stop the device from outputting an audio signal and causing the micro-controller unit to input the biomedical information to the portable electronic device via the microphone input; ,
The micro controller unit is connected to the switch unit and the micro controller unit, receives the audio signal from the switch unit and amplifies the audio signal, and then converts the audio signal into a DC signal. A level shift unit to transmit to,
An amplification unit coupled to the switch unit for receiving and amplifying the audio signal;
The surveying unit, the micro controller unit, the switch unit, the level shifter are connected to the audio (left) output end and can be electrically connected to an external power source via the audio (left) output end. A power management unit that converts the external power to a system power to drive the unit and the amplification unit;
With
When the insertion plug of the earphone with microphone is inserted into the insertion port of the earphone with microphone, the portable electronic device uses the insertion plug of the earphone with microphone to transmit the setting information via the switch unit. Can be transmitted to the controller unit, and then the micro controller unit sends an identification code to the portable electronic device via the microphone input, in which case the application installed in the portable electronic device The software detects information using the plug of the earphone with microphone, wherein the communication relationship between the micro controller unit and the portable electronic device is confirmed by detecting the identification code. Biomedical device to communicate.   The plug-in of the earphone with microphone according to claim 1, further comprising a speaker unit connected to the amplification unit and receiving the audio signal amplified by the amplification unit and outputting the audio signal. A biomedical device that transmits information using plugs.   When the plug of the earphone with microphone is inserted into the plug of the earphone with microphone of the portable electronic device, the signal output from the audio (left) output terminal is maintained at a high potential. A biomedical device that transmits information using the plug of the earphone with microphone according to claim 1.   The plug of the earphone with microphone according to claim 1, wherein the surveying unit is one of a blood glucose test piece surveying device, a body fat surveying device, a blood pressure surveying device, and an electrocardiogram surveying device. A biomedical device that communicates information using a computer.   The biomedical device for transmitting information using an insertion plug of an earphone with a microphone according to claim 1, wherein the measured body is one of a blood glucose test piece and a human body.   The plug of the earphone with microphone according to claim 1, wherein the micro controller unit inputs the biomedical information to the portable electronic device through the microphone input terminal at a frequency of 10 kHz. A biomedical device that communicates information using a computer.   The biomedical device for transmitting information using an insertion plug of an earphone with a microphone according to claim 6, wherein the format of the biomedical information input to the portable electronic device is a binary code. .   The portable electronic device may be any one of a smartphone, a PDA, a portable game machine, a digital photo frame, iPAD (registered trademark), a notebook computer, and a tablet computer. A biomedical device that transmits information using the plug of the earphone with microphone described. A surveying unit connected to the measurement object to measure biomedical data of the measurement object;
A micro controller unit coupled to the surveying unit for receiving the biomedical data and processing the biomedical data to generate biomedical information;
A microphone input terminal, a ground terminal, a sound (left) output terminal, and a sound (right) output terminal, and the microphone input terminal is connected to the micro controller unit and is portable outside. An insertion plug of the earphone with microphone that can be inserted into the insertion port of the earphone with microphone of the electronic device,
Connected to the audio (left) output end, the audio (right) output end, and the micro controller unit, an insertion plug of the earphone with microphone is connected to an insertion port of the earphone with microphone of the portable electronic device. When inserted, the portable electronic device outputs an audio signal and a signal to stop the micro controller unit from inputting the biomedical information to the portable electronic device via the microphone input. A switch unit capable of performing switching, and
The micro controller unit is connected to the switch unit and the micro controller unit, receives the audio signal from the switch unit and amplifies the audio signal, and then converts the audio signal into a DC signal. A level shift unit to transmit to,
An amplification unit coupled to the switch unit for receiving and amplifying the audio signal;
A power management unit that is electrically connected to an external power source and converts the external power source into a system power source to drive the surveying unit, the micro controller unit, the switch unit, the level shift unit, and the amplification unit; ,
With
When the insertion plug of the earphone with microphone is inserted into the insertion port of the earphone with microphone, the portable electronic device uses the insertion plug of the earphone with microphone to transmit the setting information via the switch unit. Can be transmitted to the controller unit, and then the micro controller unit sends an identification code to the portable electronic device via the microphone input, in which case the application installed in the portable electronic device The software detects information using the plug of the earphone with microphone, wherein the communication relationship between the micro controller unit and the portable electronic device is confirmed by detecting the identification code. Biomedical device to communicate.   The plug-in of the earphone with microphone according to claim 9, further comprising a speaker unit connected to the amplification unit and receiving the audio signal amplified by the amplification unit and outputting the audio signal. A biomedical device that transmits information using plugs.   The biomedical apparatus for transmitting information using an insertion plug of an earphone with a microphone according to claim 9, wherein the external power source is one of a battery and a power supply.   The plug of the earphone with a microphone according to claim 9, wherein the survey unit is one of a blood glucose test piece survey device, a body fat survey device, a blood pressure survey device, and an electrocardiogram survey device. A biomedical device that communicates information using a computer.   The biomedical device for transmitting information using an insertion plug of an earphone with a microphone according to claim 12, wherein the measurement object is one of a blood glucose test piece and a human body.   The micro controller unit inputs the biomedical information to the portable electronic device via the microphone input terminal at a frequency of 10 kHz, and the biomedical information is information in a binary code format. A biomedical device that transmits information using the plug of the earphone with microphone according to claim 9.   The portable electronic device according to claim 9, wherein the portable electronic device is one of a smart phone, a PDA, a portable game machine, a digital photo frame, an iPAD, a notebook computer, and a tablet computer. A biomedical device that transmits information using an earphone plug. (1) inserting the plug of the earphone with microphone of the biomedical device into the outlet of the earphone with microphone of the portable electronic device;
The portable electronic device transmits setting information to the micro-controller unit of the biomedical device by the audio (right) output end of the plug of the earphone with microphone; and
Receiving and analyzing the setting information by the micro-controller unit (3);
(4) the micro controller unit transmits an identification code to the portable electronic device by a microphone input terminal of the plug of the earphone with microphone;
(5) detecting the identification code with application software inside the portable electronic device;
Step (7) is executed when it is determined whether or not the identification code is detected. If it is determined that the identification code is detected, Step is executed again from Step (1) when it is determined that it is not detected. (6) and
Completing a communication relationship between the micro controller unit and the portable electronic device (7);
If it is determined whether or not the object to be measured is connected to the surveying unit of the biomedical device, and it is determined that it is connected, step (9) is executed, and if it is determined that it is not connected, Step (8) of executing (8) again;
Stopping the portable electronic device from outputting an audio signal by the switch unit of the biomedical device; and
Step (11) is executed when it is determined whether or not the object to be measured can be measured, and when it is determined that measurement is possible, and step (10) is performed again from step (8) when it is determined that measurement is impossible. ,
The surveying unit measures biomedical data of the object to be measured and transmits the biomedical data to the micro-controller unit;
The micro-controller unit processes the biomedical data to generate biomedical information (12);
Transmitting the biomedical information to the portable electronic device by the micro controller unit via the microphone input (13);
If it is determined whether the measurement and recording of the biomedical information of the object to be measured is completed and it is determined that the measurement is completed, step (15) is executed, and if it is determined that the measurement is not completed, step Step (14) to be executed again from (8);
Removing the measured object from above the biomedical device (15);
Removing the biomedical device (16);
A method for transmitting biomedical information to a portable electronic device using an insertion plug of an earphone with a microphone.   The plug of the earphone with microphone according to claim 16, wherein the survey unit is one of a blood glucose test piece survey device, a body fat survey device, a blood pressure survey device, and an electrocardiogram survey device. A method for transmitting biomedical information to a portable electronic device using a computer. The biomedical information is transferred to a portable electronic device using the plug of the earphone with microphone according to claim 16, wherein the measured body is one of a blood glucose test piece and a human body. How to communicate.   The micro controller unit inputs the biomedical information to the portable electronic device via the microphone input terminal at a frequency of 10 kHz, and the biomedical information is information in a binary code format. A method for transmitting biomedical information to a portable electronic device using the plug of the earphone with microphone according to claim 16.   17. The portable electronic device according to claim 16, wherein the portable electronic device is one of a smart phone, a PDA, a portable game machine, a digital photo frame, an iPAD, a laptop computer, and a tablet computer. A method of transferring biomedical information to a portable electronic device using an earphone plug.

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