M422126 i五、新型說明: 【新型所屬之技術領域】 本創作係關於一種生醫裴置,尤指能夠與可攜式電子 裝置進行資料傳輸與資訊整合的一種可利用耳機插頭執行 資料傳輸的生醫裝置。 【先前技術】 . 目前,各種生醫裝置係廣泛地應用於人_之生活之 Φ中,例如:血糖機、體重機、血壓計、心電圖機、與血氧 濃度量測機。請參閱第一圖,係一種習用血糖機之立體圖, 如第一圖所示,使用者可將—試片2,插入一習用血糖機 1 ,當一血液滴入該試片2,之一反應區21,之後,血糖 機1即開始計算該血液之一血糖濃度值,並於計算完成 之後,於其一螢幕11’之上顯示該血糖濃度值。 通常,如第一圖所示之血糖機丨’,其僅可將血糖濃 φ 度值顯不於該螢幕1 之上’使用者必須使用其它電子設 備’例如’ 一電腦,自行地記錄並追蹤每日的血糖濃度值。 然而’對於使用者而言,自行記錄每日血糖濃度值係相當 的不方便。另一方面’隨著科技之發展,3C產品、生物科 技與醫療資訊之間的關聯性係持續地增加,其中,通常包 含影像、資料庫與網路等跨領域之技術結合,由此可知, 對於使用者而言,將生醫裝置與3C產品與進行資訊整合係 迫切需要的。 3 M422126M422126 i V. New description: [New technical field] This creation is about a biomedical device, especially a kind of earphone plug that can be used for data transmission and information integration with portable electronic devices. Medical device. [Prior Art] At present, various biomedical devices are widely used in the life of human beings, such as blood glucose machines, weight machines, sphygmomanometers, electrocardiographs, and blood oxygen concentration measuring machines. Please refer to the first figure, which is a perspective view of a conventional blood glucose machine. As shown in the first figure, the user can insert the test piece 2 into a conventional blood glucose machine 1. When a blood drops into the test piece 2, one of the reactions Zone 21, after which the blood glucose meter 1 begins to calculate a blood glucose concentration value of the blood, and after the calculation is completed, displays the blood glucose concentration value on a screen 11' thereof. Usually, as shown in the first figure, the blood glucose machine 丨' can only display the blood glucose concentration value above the screen 1. The user must use other electronic devices, such as a computer, to record and track it by himself. Daily blood glucose concentration value. However, it is inconvenient for the user to record the daily blood glucose concentration value by himself. On the other hand, with the development of technology, the correlation between 3C products, biotechnology and medical information continues to increase. Among them, it usually includes the combination of technologies such as images, databases and networks. For users, the integration of biomedical devices and 3C products with information is urgently needed. 3 M422126
因此,製造生醫裝置之相關廠商係提出可與電腦進行 資料傳輸的血糖機。請參閱第二圖,係血糖機與電腦進行 資料傳輸之示意圖,如第二圖所示,一連接纜線12,係被 增設於血糖機Γ之上,由於該連接纜線12, 具有一 USB 連接器12Γ ’故可被連接至一電腦3,的一 USB插孔 -31 ’然後’透過安裝於該電腦3’内的一應用軟體,使 -用者可將每日的血糖濃度值上傳至電腦3,,此外,使用 φ 者亦可透過該應用軟體以自動地執行每日血糖濃度值追 蹤,如此,透過將血糖機Γ與電腦3’連結使用,對於使 用者而言,係可清楚地記錄並追蹤每日血糖濃度值。 於上述的血糖機Γ之中,其雖可透過該連接纜線 12’與該電腦3’進行資料傳輸與資訊整合,然,對於年 長的使用者而言’仍舊存在一個問題,即,無論是桌上型 電腦或是筆記型電腦,年長的使用者皆無法隨身攜帶著電 腦;因此,對於解決此問題,比較可行的作法係使得血糖 機可與時下㈣的隨身多媒體裝置,例如,一智慧型手機, 進订資料傳輸與資訊整合。請參閱第三圖,係血糖機與智 慧型手機進行資料傳輸之示意圖,如第三圖所示,同樣地, 血糖機i,係透過連接瘦線12,連接於該智慧型手機 4 ’然而’不同的是’該連接鏡線12,之終端所具有的 並非該_連接器121,,而是,可連接智慧型手機4,之 -資料傳輸插孔41,的一特定連接器122,,如此,透過 ^2126 、安裝於智慧型手機4,㈣該應用軟體,使用者可將每日 的血糖濃度值上傳至智慧型手機4,,並且,由於智慧型 手機相田輕薄’故’對於年長的使用者而言,隨身攜帶智 慧型手機並不會造成其負擔。 然而,由於市場上具有多種廠牌的智慧型手機,其中, :相異廠牌的智慧型手機之間係、具有不同格式的資料傳輸插 孔,如此,一旦使用者購入一支新智慧型手機但該新智 _慧型手機之廠牌係不同於使用者原本使用的舊手機,則血 糖機即無法使用同一款連接器與新智慧型手機進行資傳 輸。此外,並不是再購買一組可對應於新智慧型手機的連 接器纜線,即可使血糖機與該新智慧型手機進行資料傳 輸’血糖機與智慧型手機彼此間的資料格式,係必須事先 通過手機廠商之認證,並於認證完成之後,血糖機才可被 允許與智慧型手機進行資料傳輸與資訊整合。 _ 因此,經由上述,吾人可以得知,欲透過智慧型手機 (即,隨身多媒體裝置)的資料傳輸插孔與生醫裝置進行跨 領域的資訊整合,係不易實行的,有鑑於此,本案之創作 人為了使得生醫裝置與隨身多媒體裝置之間的跨領域的資 訊整合’可更加容易地被實行,故極力研發出一種可利用 耳機插頭執行資料傳輸的生醫裝置。 【新型内容】 本創作之主要目的’在於提供一種可利用耳機插頭執 =料傳輸的生醫裝置’其中,該生醫裝置具有一標準的 機插頭可插入於一可攜式電子裝置之一耳機插孔,使得 醫裝置可與可攜式電子^進行資料傳輸與資訊整合, 而不需要事先通祕商所規定之傳輸格式認證之程序。 • _此,為了達成本創作之主要目的,本案之創作人係 :提出—種可利用耳機插頭執行資料傳輸的生醫裝置,係包 -括: 一量測單凡’用以連接—待測物以量測該待測物之一生 醫資訊; -微控制單元,接於該量測單元以接收該生醫資 訊,且該微控制單元可將生醫資訊處理成為一生醫資 料; 耳機插頭,可插入一外部可攜式電子裝置的一耳機插 孔,並具有一接地端、—麥克風輸入端、一左聲道輸出 端、與-右聲道輸出端,其中,該麥克風輸入端係耦接 於該微控制單元; 一開關單元,係耦接於該右聲道輸出端與微控制單元, 其中,當該耳機插頭插入該可攜式電子裝置的該耳機插 孔之後,該開關單元可執行訊號切換,以終止可攜式電 子裝置輸出一音頻訊號,使得微控制單元可透過麥克風 輸入端將該生醫資料輸入可攜式電子裝置; 一準位遷移單元,係耦接於開關單元與微控制單元,用 M422126 4 以自開關單元處接收該音頻訊號以將其放大,並將音頻 訊號轉換成一直流訊號並將其輸出至開關單元; 一放大單元,係耦接於開關單元以接收並放大該音頻訊 號;以及 一電源管理單元,係耦接於該左聲道輸出端以透過左聲 : 道輸出端自可攜式電子裝置處接收一電源,並將對該電 •源執行—交流直流轉換而使其成為一直流電源,進而以 鲁 該直流驅動量測單元、微控制單元、開關單元、準位遷 移單元'與放大單元; 其中,當耳機插-頭插入於該耳機插孔之後,藉由該耳 機插頭,可攜式電子裝置可透過開關單元將一設定資料傳 送至微控制單元,之後,微控制單元會經由麥克風輸入端 送出一識別碼至可攜式電子裝置,此時,安裝於可攜式電 子裝置内的一應用軟體會偵測該識別碼,以確認微控制單 • 元與可攜式電子裝置之通訊關係。 本創作之另一目的,在於提供一種可利用耳機插頭執 行資料傳輸的生醫裝置,其中,係藉由一耳機纔線的二耳 機插頭分別插入生醫裝置與可攜式電子裝置的一耳機插 孔’使得生醫裝置可與可攜式電子裝置進行資料傳輸與資 訊整合,而不需要事先通過廠商所規定之傳輸格式認證之 程序。 為了達成上述本創作之另一目的,本案之創作人係提 7 M422126 出一種可利用耳機插頭執 “ 傳輸的生醫裝置,係包括. 量測單元,係用以連接一待 逆稞待測物以量测該 生醫資訊 付列物之一 一微控制單元,係耦接 知、 这量測皁兀以接收該生醫眘 5 ’並將生醫資訊處理成為-生醫資料; —第一耳機插孔; ’ —耳機纜線,係具有一第一 "機插碩與-第二耳機插頭 入該第-耳機插孔與—外部可攜式電子裝置 第二耳機插孔’其中,第一耳機插頭具有一接地 、-麥克風輸入端、一左聲道輸出端、與一右聲道輸 端’且該麥克風輸入端係透過第一耳機插孔麵接於該 微控制單元; —開關單元,係透過第一耳機插孔耦接於該左聲道輸出 端與該右聲道輸出端,並同時_接微控制單it,其中, 當該第一耳機插頭與該第二耳機插頭插入第一耳機插 /、可攜式電子裝置的第二耳機插孔之後,該開關單元 可執行訊號切換,以終止可攜式電子裝置輸出一音頻訊 號,使得微控制單元可透過該麥克風輸入端將該生醫資 剩輪入可攜式電子裝置; 一準位遷移單元’係耦接於開關單元與微控制單元,用 以自開關單元接收該音頻訊號並將其放大,然後,準位 遷移單元會將音頻訊號轉換成一直流訊號並將其輸出Therefore, the manufacturer of the biomedical device is a blood glucose machine that can transmit data to and from a computer. Please refer to the second figure, which is a schematic diagram of data transmission between the blood glucose machine and the computer. As shown in the second figure, a connection cable 12 is added to the blood glucose machine ,, because the connection cable 12 has a USB. The connector 12' can be connected to a USB jack-31 of a computer 3, and then 'by using an application software installed in the computer 3', so that the user can upload the daily blood glucose concentration value to Computer 3, in addition, using φ can also automatically perform daily blood glucose concentration value tracking through the application software. Thus, by connecting the blood glucose machine to the computer 3', it is clear to the user. Record and track daily blood glucose levels. In the above-mentioned blood glucose meter, although the data transmission and information integration can be performed with the computer 3' through the connection cable 12', there is still a problem for an elderly user, that is, regardless of It is a desktop computer or a notebook computer. Older users cannot carry the computer with them; therefore, it is more feasible to solve this problem, so that the blood glucose machine can be connected to the current (4) portable multimedia device, for example, A smart phone, ordering data transmission and information integration. Please refer to the third figure, which is a schematic diagram of data transmission between the blood glucose machine and the smart phone. As shown in the third figure, the blood glucose machine i is connected to the smart phone 4 by connecting the thin wire 12 'however'. The difference is that the connection mirror 12 has a terminal that does not have the connector 121, but a specific connector 122 that can be connected to the smart phone 4, the data transmission jack 41, , through ^2126, installed on the smart phone 4, (4) the application software, the user can upload the daily blood glucose concentration value to the smart phone 4, and, because the smart phone is thin and thin, 'for the elderly For the user, carrying a smart phone with him does not burden him. However, due to the wisdom of mobile phones with a variety of brands on the market, among them: smart phones with different brands and data transmission jacks with different formats, so once the user purchases a new smart phone However, the brand of the Xinzhi_Hui mobile phone is different from the old mobile phone originally used by the user, and the blood glucose machine cannot use the same connector to transmit with the new smart phone. In addition, instead of purchasing a set of connector cables that can correspond to new smart phones, the blood glucose machine can transmit data to the new smart phone. The data format between the blood glucose machine and the smart phone must be It is approved by the mobile phone manufacturer in advance, and after the certification is completed, the blood glucose machine can be allowed to transmit data and integrate information with the smart phone. _ Therefore, through the above, we can know that it is not easy to implement cross-domain information integration through the data transmission jack of the smart phone (ie, portable multimedia device) and the biomedical device. In view of this, the case In order to make the cross-domain information integration between the biomedical device and the portable multimedia device easier to implement, the creator has developed a biomedical device that can perform data transmission using the earphone plug. [New content] The main purpose of this creation is to provide a biomedical device that can transmit by using a headphone plug. The biomedical device has a standard plug that can be inserted into one of the portable electronic devices. The jack enables the medical device to perform data transmission and information integration with the portable electronic device without the need for the transmission format authentication procedure specified by the secret agent. • _This, in order to achieve the main purpose of this creation, the creator of the case: proposed a biomedical device that can use the earphone plug to perform data transmission, the package includes: a measurement of the meter to be used to connect - to be tested Measuring the biomedical information of the test object; - a micro control unit connected to the measuring unit to receive the biomedical information, and the micro control unit can process the biomedical information into a biomedical data; a headphone plug, An earphone jack of an external portable electronic device can be inserted, and has a grounding end, a microphone input end, a left channel output end, and a right channel output end, wherein the microphone input end is coupled The switching unit is coupled to the right channel output end and the micro control unit, wherein the switch unit is executable after the earphone plug is inserted into the earphone jack of the portable electronic device Signal switching to terminate the output of an audio signal by the portable electronic device, so that the micro control unit can input the biomedical data into the portable electronic device through the microphone input terminal; Connected to the switching unit and the micro control unit, the M422126 4 receives the audio signal from the switching unit to amplify the audio signal, and converts the audio signal into a direct current signal and outputs it to the switching unit; an amplifying unit is coupled to The switch unit receives and amplifies the audio signal; and a power management unit is coupled to the left channel output to transmit the left sound: the channel output receives a power from the portable electronic device, and the power is • Source execution—AC-DC conversion makes it a DC power supply, and then the DC drive measurement unit, micro-control unit, switch unit, level shifting unit' and amplification unit; wherein, when the headphone plug-in is inserted After the headphone jack, the portable electronic device can transmit a setting data to the micro control unit through the switch unit, and then the micro control unit sends an identification code to the portable electronic unit through the microphone input end. Device, at this time, an application software installed in the portable electronic device detects the identification code to confirm the micro control unit and the portable device Communication relationships electronic device. Another object of the present invention is to provide a biomedical device capable of performing data transmission by using a headphone plug, wherein a headphone plug of a headphone cable is respectively inserted into a headphone plug of the biomedical device and the portable electronic device. The hole allows the biomedical device to perform data transmission and information integration with the portable electronic device without the need to pass the transmission format authentication procedure specified by the manufacturer in advance. In order to achieve the other purpose of the above-mentioned creation, the creator of the present invention mentions that M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M Measuring one of the micro-control units of the biomedical information payment item, coupled with the knowledge, the measured saponin to receive the biomedical caut 5' and processing the biomedical information into a biomedical data; Headphone jack; '-phone cable, has a first " machine plug-in and - second headphone plug into the first-headphone jack and - external portable electronic device second headphone jack' a headphone plug has a grounding, a microphone input end, a left channel output end, and a right channel output end, and the microphone input end is connected to the micro control unit through the first earphone jack; The first earphone jack is coupled to the left channel output end and the right channel output end, and simultaneously connected to the micro control unit it, wherein when the first earphone plug and the second earphone plug are inserted a headphone plug/, portable electronic device After the headphone jack, the switch unit can perform signal switching to terminate the output of an audio signal by the portable electronic device, so that the micro control unit can pass the biomedical surplus to the portable electronic device through the microphone input; The level shifting unit is coupled to the switching unit and the micro control unit for receiving the audio signal from the switching unit and amplifying the audio signal, and then the level shifting unit converts the audio signal into a direct current signal and outputs the same.
S M422126 Λ 至開關單元; 一放大單元’係耦接於開關單元以接收並放大該音頻訊 號;以及 一電源管理單元,係電性連接至一電源供應裝置,以將 該電源供應裝置所提供的電源轉換成一系統電源以驅 • 動量測單元、微控制單元、開關單元、準位遷移單元、 * 與放大單元; Φ 其中,當耳機纜線之第一耳機插頭與第二耳機插頭插 入該第一耳機插孔與該第二耳機插孔之後,藉由該耳機纜 線,可攜式電子裝置可透過開關單元將一設定資料傳送至 微控制單元,之後,微控制單元會經由該麥克風輸入端送 出一識別碼至可攜式電子裝置,此時,安裝於可攜式電子 裝置内的一應用軟體會偵測該識別碼,以確認微控制單元 與可攜式電子裝置之通訊關係。 _ 【實施方式】 為了能夠更清楚地描述本創作所提出之一種可利用耳 機插頭執行資料傳輸的生醫裝置,以下將配合圖示,詳盡 說明本創作之實施例。 本創作所提出之一#可利用耳機插頭執行資料傳輸的 生醫裝置係具有多組實施例,請參閱第四圖,係本創作之 一種可利用耳機插頭執行資料傳輸之生醫裝置的第一實方 例之第-架構圖,如第四圖所示’該可利用耳機插頭執行 9 M422126 資料傳輸的生醫裝置i之第一實施例係包括:一量測單元 "、-微控制單元12、一耳機插頭13、一開關單元14、 —準位遷移單元15、一放大單元16、—電源管理單元17、 以及一揚聲單元18。 -其中,該量測單元11係用以連接一待測物2以量測該 _待測物2之生醫資訊,該微控制單元丄2則叙接於量測單 疋11以接收該生醫資訊,並同時將生醫資訊處理成為一生 醫資料。請另外同時參閱第五八圖與第五Β圖,係可利用 耳機插頭執行資料傳輸的生醫裝置與一可攜式電子裝置之 連結示意® ’如第四圖與第五Α圖所示,該耳機插頭Η可 插入-外部可攜式電子裝置3的一耳機插孔31,使得該生 醫裝置1可結合於該可攜式電子裝置3之上。該耳機插頭 U係具有一接地端131、一麥克風輸入端1犯、一左聲道 輸出端I33、與一右聲道輸出端134。 繼續地參㈣Μ ’該麥克風輸人端132係摘於微 控制單το 12 ’且該開關單元14係耦接於該右聲道輸出端 134與該微控制單元12。於該可利用耳機插頭執行資料傳 輸的生醫裝置1的架構中,當耳機插頭13插入可攜式電子 裝置3的耳機插孔31後,開關單元14即執行訊號切換, :、、止可攜式電子裝置3輸出-音頻訊號,此時,微控制 單元12可透過麥克風輪入端132將生醫資料輸入可攜式電 另卜該準位遷移單元15係搞接於開關單元14 M422126 、與微控制單元12 ’準位遷移單元15係用以接收開關單元 14之該音頻訊號,然後’準位遷移單元15會將音頻訊號 轉換成一直流訊號並將其輸出至開關單元14。 請再參閱第四圖’放大單元16係耦接於開關單元14 以接收並放大該音頻訊號。該電源管理單元17則耦接於左 二聲道輸出端133,如此,電源管理單元17可透過左聲道輸 .出端133自可攜式電子裝置3處接收一電源,並對該電源 •執行一交流/直流轉換而使其成為一直流電源,進而以該直 流電源驅動量測單元U、微控制單元12、開關單元14、 準位遷移單元15、與放大單元16。特別的是,於該可利用 耳機插頭執行資料傳輸的生醫裝置丨的第一架構中,係使 用該可攜式電子裝置3之一電池以作為該電源;當耳機插 頭13插入耳機插孔31之後,電源管理單元17即可透過左 聲道輸出端133由該電池獲得電源,並將其轉換成生醫裝 •置1所需要的裝置電源。另外’該揚聲單元Μ係柄接於放 大單疋16以接收被放大單元16所放大的音頻訊號,並輸 出該音頻訊號。 今機插頭13’可攜式電子裝置3可透過開 5又定資料傳送至微控制單元12,同時,微 泛由麥克風輸入端132送出一識別碼至可攜 此時’安裝於可攜式電子裝置3内的一應 必/員特別說明的是,當耳機插頭丨3被插入於耳機插孔 之後,藉由地S M422126 Λ to the switch unit; an amplifying unit is coupled to the switch unit to receive and amplify the audio signal; and a power management unit electrically connected to a power supply device to provide the power supply device The power source is converted into a system power source to drive the dynamic measuring unit, the micro control unit, the switch unit, the level shifting unit, the * and the amplifying unit; Φ wherein the first earphone plug and the second earphone plug of the earphone cable are inserted into the first After the headphone jack and the second headphone jack, the portable electronic device can transmit a setting data to the micro control unit through the switch unit, and then the micro control unit passes through the microphone input end An identification code is sent to the portable electronic device. At this time, an application software installed in the portable electronic device detects the identification code to confirm the communication relationship between the micro control unit and the portable electronic device. EMBODIMENT In order to more clearly describe a biomedical device proposed by the present invention which can perform data transmission using an earphone plug, the embodiments of the present invention will be described in detail below with reference to the drawings. One of the proposals of the present invention is a biomedical device that can perform data transmission by using a headphone plug, and has a plurality of sets of embodiments. Please refer to the fourth figure, which is the first of the biomedical devices that can perform data transmission by using a headphone plug. The first embodiment of the real-world example, as shown in the fourth figure, the first embodiment of the biomedical device i that can perform 9 M422126 data transmission using the earphone plug includes: a measuring unit ", - micro control unit 12. A headphone plug 13, a switch unit 14, a level shifting unit 15, an amplifying unit 16, a power management unit 17, and a speaker unit 18. Wherein the measuring unit 11 is configured to connect a test object 2 to measure the biomedical information of the test object 2, and the micro control unit 叙2 is connected to the measurement unit 11 to receive the raw material Medical information, and at the same time the processing of biomedical information into a lifetime medical information. Please also refer to the fifth and fifth diagrams at the same time, which is a connection between a biomedical device that can perform data transmission using a headphone plug and a portable electronic device. As shown in the fourth and fifth figures, The earphone plug can be inserted into a headphone jack 31 of the external portable electronic device 3 so that the biomedical device 1 can be coupled to the portable electronic device 3. The earphone plug U has a grounding end 131, a microphone input terminal 1, a left channel output terminal I33, and a right channel output terminal 134. The microphone input terminal 132 is attached to the micro control unit το 12 ' and the switch unit 14 is coupled to the right channel output terminal 134 and the micro control unit 12. In the architecture of the biomedical device 1 that can perform data transmission by using the earphone plug, after the earphone plug 13 is inserted into the earphone jack 31 of the portable electronic device 3, the switch unit 14 performs signal switching, and is not portable. The electronic device 3 outputs an audio signal. At this time, the micro control unit 12 can input the biomedical data into the portable power through the microphone wheel end 132. The level shifting unit 15 is connected to the switch unit 14 M422126, and The micro-control unit 12 is used to receive the audio signal of the switch unit 14, and then the 'quasi-migration unit 15 converts the audio signal into a direct current signal and outputs it to the switch unit 14. Please refer to the fourth figure again. The amplification unit 16 is coupled to the switch unit 14 to receive and amplify the audio signal. The power management unit 17 is coupled to the left two-channel output terminal 133. Thus, the power management unit 17 can receive a power from the portable electronic device 3 through the left channel output terminal 133, and the power source is An AC/DC conversion is performed to make it a DC power source, and the DC power source drives the measurement unit U, the micro control unit 12, the switch unit 14, the level shifting unit 15, and the amplification unit 16. In particular, in the first architecture of the biomedical device that can perform data transmission using the earphone plug, one of the portable electronic devices 3 is used as the power source; when the earphone plug 13 is inserted into the earphone jack 31 Thereafter, the power management unit 17 can obtain power from the battery through the left channel output terminal 133 and convert it into a device power supply required for the medical device. In addition, the speaker unit is connected to the amplification unit 16 to receive the audio signal amplified by the amplification unit 16, and outputs the audio signal. The current plug 13' portable electronic device 3 can transmit data to the micro control unit 12 through the open 5, and at the same time, an identification code is sent from the microphone input terminal 132 to the portable port. One of the members of the device 3 specifically states that after the earphone plug 3 is inserted into the earphone jack,
11 M422126 ’用軟體會偵測該識別碼,查 即表矛w接”'應用軟體成功偵測識別碼時, 生醫裝置1成功地 訊連姑4㈣番, 與该可攜式電子裝置3完成通 口札運結,生醫裝置1即 。與可攜式電子裝置3進行資 科傳輪與資訊整合。如笫 π貝 第五Β圖所示,當使用者使用該 醫裝置1完成每日的生罄咨1 ° β生醫資料量測工作之後,使用者亦可 透過可攜式電子裝置3將1 每曰所量測的生醫資料上傳至一 雲端資料庫6之中,以作Α、专忙财 作為遠距醫療管理之用。另外,必 須特別說明的是,使用者 者了於該雲端資料庫6所提供之網 路軟體商店中下載該應用軟體, 並直接地將該應用軟體安 裝至可攜式電子裝置3之中。 對於本創作之可利用耳機插頭執行資料傳輸的生醫裝 而。其特徵在於使用一耳機插頭13連結一可搞式電 3因此為了完整地揭露本創作之特徵,以下將 清楚地說明本創作之可利用耳機插頭執行資料傳輸的生醫 裝置1係如何透過耳機插頭13與可播式電子裝置3進 料傳輪與資訊整合。 請繼續參閱第四圖、第五八圖與第五Β圖藉由將耳 :插頭13插入於可揭式電子裝£ 3之耳機插孔3卜可使 得該生醫裝置1與可攜式電子裝置達成通訊連結,其中, 第五Α圖與第五Β圖所示之該生醫裝置i為一血糖機,且, 該待測物2為可插人血糖機之—血糖試片量測裝置(即該 量測單元11)的一血糖試片’·另外’第五A|g與第五B圖 12 M422126 ♦所示之該可攜式電子裝置3為一智慧型手機,該手機内安 裝有該應用軟體,其中,使用者可於Go〇gle所提供之如办⑹ Market之中、於Apple所提供的AppSt〇re、於价^所提供的 Ovi Store、或於BlackBerry所提供之App St〇re購買並下載該應用 軟體’以直接地安裝於其智慧型手機之中。 - 於本創作之該可利用耳機插頭執行資料傳輸的生醫裝 •置1的第一架構中,該右聲道輸出端134可將智慧型手機 • 所輸出之音頻訊號輸入該開關單元14,接著,開關單元14 會將音頻訊號輸入微控制單元12,然後,微控制單元12 會解析音頻訊號之頻率以決定欲輸入智慧型手機的該生醫 資料之頻率。並且,當生醫裝置丨被連接於智慧型手機之 時,智慧型手機係透過右聲道輸出端134將其設定資料傳 送至該微控制單元12,微控制單元12會輸出該識別碼至 智慧型手機,此時,安裝於可攜式電子裝置3内的應用軟 • 體會偵測識別碼,當應用軟體成功偵測該識別碼時,即表 示生醫裝置1成功地與智慧型手機完成通訊連結,使用者 則可開始使用生醫裝置1與可攜式電子裝置3進行資料傳 輪與資訊整合。 請繼續第四圖、第五A圖輿第五B圖,並同時參閱第 六A圖、第六B圖與第六C圖,係可利用耳機插頭執行資 料傳輸的生醫裝置與智慧型手機之訊號時序圖,當該也糖 機(即,本創作之生醫裝置1)透過耳機麥克風插頭13連接 13 M422126 ,至智慧型手機(即,該可攜式電子裝置3)之後,如第六A 圖所示,其中,A訊號表示為左聲道輸出端133所輸出之 訊號,B訊號表示為麥克風輸入端丨32所輪出之訊號,c訊 號則表示為開關單元14輸入於之微控制單元12之訊號。 當該血糖試片(即,待測物2)尚未插入血糠機之時,如第 八A圖所不,A訊號係保持在一高電位,B訊號與[訊號則 維持在一低電位;當血糖試片插入血糖機之後,A訊號仍 籲然維持高電位,且B訊號仍然維持低電位,然而,C訊號 係於時間Tr處突然上升至高準位。 並且,當血液滴入血糖試片之後,血糖機即計算血液 之該血糖濃度值(即,生醫資料)^特別的是,由於智慧型 手機所輪出的音頻訊號之取樣頻率為44.1 kHz;因此,當 該血糖機(即,本創作之生醫裝置υ透過耳機麥克風插頭 U連接至智慧型手機(即,該可攜式電子裝置3)之後透 •過該麥克風輸入端132,微控制單元12係以10kHz之頻率 將血糖濃度值(生醫資料)輸入至智慧型手機,並且,該血 糖農度值(生醫資料)之格式為二元碼。再者,當微控制單 元12輪入血糖濃度值至智慧型手機時,如第六B圖所示, 此時’ A訊號會於時間軸τ f 1處先下降,經一段時間之後 升其中’當A訊號下降經過1〇 ms之後,血糖濃度 值即於時間Tis開始輸入至智慧型手機之内,並於時間Tie 凡成血糖濃度值之輸入,其中,時間Tis與時間Tie之時 M422126 間差為40 ms ^最後,當血糖濃度值(生醫資料)完全被輸 入至智慧型手機後,如第六C圖所示,A訊號即於時間Tf2 下降至低準位;並且,當血糖試片被抽離血糖機之後,c 訊號於時間T f 3下降至低準位。 . 上述係以血糖機為實施例’說明本創作之可利用耳機 :插頭執行資料傳輸的生醫裝置與智慧型手機(即,該可攜式 電子裝置3)進行資料傳輸與資訊整合之過程。然而,由於 目前體脂肪機、血壓計、血氧濃度計、與心電圖機皆已被 微小化,因此,本創作之可利用耳機插頭執行資料傳輸的 生醫裝置,並不以血糖機為限,請參間第七圖,係一血壓 計與可攜式電子裝置之連結示意圖,如第七圖所示本創 作之可利用耳機插頭執行資料傳輸的生醫裝置1亦可為一 血壓計,其中,該量測單元η為一手臂套環,該手臂套環 J用以圈住使用者之手臂,以量測使用者之—血壓值。此 本創作之可利用耳機插頭執行資料傳輸的生醫裝置工 亦可為一心電圖計以量測使用者之一心電圖資料。 卜本創作之可利用耳機插頭執行資料傳輸的生醫 #置的第—實施例係更包括-第二架構,請參閲第八圖, 二本創作之可利用耳機插頭執行資料傳輸的生醫裝置之第 =實施例的第二架構圖’如第八圖所示’相同於第一架構, ::° !l用耳機麥克風插頭傳輸資料之生醫裝置1的第一實 施之第二架構係包括:該量測單元1卜該微控制單元12、 15 M422126 、該耳機麥克風插頭13、該開關單元14、該準位遷移單元 15、該放大單元16、該電源管理單元17、以及該揚聲單元 18 ° 請繼續參閱第八圖’並同時參閱第四圖,其中,相較 於則述第一架構,於第二架構之中,開關單元14係同時耦 -接左聲道輸出端133、右聲道輸出端134與微控制單元12, •且,電源管理單元17並無耦接左聲道輸出端133而係直接 Φ 地耦接至一電源裝置4,如第八圖所示,該電源裝置4為 -電池。因此,於第二架構之中,由於左聲道輸出端133 不需要耦接電源管理單元17’因此,左聲道輸出端133與 右聲道輸出端134係同時用以將音頻訊號傳輸至該生醫裝 置1’或者,用以將該可攜式電子裝置3之設定資料傳送 至微控制單元12。 如此’藉由兩組架構之說明, • 頭執行資料傳輸的生醫裝置的第一 楚地被揭露,並且, ’經由上述’可得知 ’本創作之可利用耳機插 一實施例係已經完整且清 可得知本創作係具有下列 之優點:11 M422126 'Use the software to detect the identification code, check the watch spear w" "Application software successfully detects the identification code, the biomedical device 1 successfully communicates with the 4 (4), and the portable electronic device 3 completes The communication device is connected to the medical device, and the medical device is integrated with the portable electronic device 3. As shown in the fifth figure of the 笫π贝, when the user uses the medical device 1 to complete the daily After the 罄 罄 1 1 ° β biomedical data measurement work, the user can also upload the biomedical data measured by each sputum to a cloud database 6 through the portable electronic device 3 for use as a Α In addition, it must be specifically stated that the user downloads the application software in the online software store provided by the cloud database 6, and directly applies the application software. It is installed in the portable electronic device 3. For the creation of the biomedical device which can perform data transmission by using the earphone plug, it is characterized in that a headphone plug 13 is used to connect a portable electric device 3, so that the present invention is completely disclosed. Features, which will be clearly explained below The biomedical device 1 of the present invention, which can perform data transmission by using the earphone plug, integrates the feed wheel and the information through the earphone plug 13 and the broadcastable electronic device 3. Please continue to refer to the fourth figure, the fifth figure and the fifth. By inserting the ear: plug 13 into the earphone jack 3 of the removable electronic device, the biomedical device 1 can be connected to the portable electronic device, wherein the fifth map and the fifth figure The biomedical device i shown in the figure is a blood glucose meter, and the object to be tested 2 is a blood glucose test piece of the blood glucose test piece measuring device (ie, the measuring unit 11). In addition, the fifth electronic device 3 is a smart mobile phone, and the application software is installed in the mobile phone, wherein the user can access the Go〇gle. Provided by the (6) Market, the AppSt〇re provided by Apple, the Ovi Store provided by the price ^, or the App St〇re provided by the BlackBerry to purchase and download the application software to be directly installed on Among its smart phones - In this creation, the headset plug can be used to execute data. In the first architecture of the transmitted medical device, the right channel output terminal 134 can input the audio signal output by the smart phone into the switch unit 14, and then the switch unit 14 inputs the audio signal into the micro control. Unit 12, then the micro control unit 12 will analyze the frequency of the audio signal to determine the frequency of the biometric data to be input to the smart phone, and when the biomedical device is connected to the smart phone, the smart phone system The setting data is transmitted to the micro control unit 12 through the right channel output terminal 134, and the micro control unit 12 outputs the identification code to the smart phone. At this time, the application software installed in the portable electronic device 3 is soft. Detecting the identification code, when the application software successfully detects the identification code, it means that the biomedical device 1 successfully communicates with the smart phone, and the user can start using the biomedical device 1 and the portable electronic device 3 Data transfer and information integration. Please continue to the fourth figure, the fifth A picture, the fifth B picture, and also refer to the sixth A picture, the sixth B picture and the sixth C picture, which are biomedical devices and smart phones that can perform data transmission by using the earphone plug. The timing diagram of the signal, when the sugar machine (ie, the biomedical device 1 of the present invention) is connected to the M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M In the figure A, the A signal is represented as the signal output by the left channel output terminal 133, the B signal is represented as the signal rotated by the microphone input terminal 丨32, and the c signal is indicated as the input control of the switching unit 14 Signal of unit 12. When the blood glucose test piece (ie, the test object 2) has not been inserted into the blood sputum machine, as shown in FIG. 8A, the A signal is maintained at a high potential, and the B signal and the [signal are maintained at a low potential; After the blood glucose test piece is inserted into the blood glucose machine, the A signal is still held at a high level, and the B signal remains at a low level. However, the C signal suddenly rises to a high level at time Tr. Moreover, when the blood is dripped into the blood glucose test piece, the blood glucose machine calculates the blood sugar concentration value of the blood (ie, the biomedical data). In particular, the sampling frequency of the audio signal rotated by the smart phone is 44.1 kHz; Therefore, when the blood glucose meter (ie, the biomedical device of the present invention is connected to the smart phone (ie, the portable electronic device 3) through the earphone microphone plug U, the microphone input terminal 132 is passed through, the micro control unit The 12 series inputs the blood glucose concentration value (biomedical data) to the smart phone at a frequency of 10 kHz, and the format of the blood glucose agricultural value (biomedical data) is a binary code. Furthermore, when the micro control unit 12 is rotated When the blood glucose concentration value is sent to the smart phone, as shown in Figure B, the 'A signal will drop first on the time axis τ f 1 and then rise after a period of time 'When the A signal drops by 1 〇, The blood glucose concentration value is input into the smart phone at the time Tis, and is input to the blood glucose concentration value at the time Tie, wherein the difference between the time Tis and the time Tie is 40 ms ^ Finally, when the blood glucose concentration value ( Medical information) After being completely input to the smart phone, as shown in Figure C, the A signal drops to a low level at time Tf2; and, after the blood glucose test piece is removed from the blood glucose machine, the c signal is at time T f 3 is lowered to a low level. The above is a description of the use of the blood glucose machine as an embodiment of the present invention: the biomedical device that performs data transmission with the plug and the smart phone (ie, the portable electronic device 3) The process of data transmission and information integration. However, since the body fat machine, sphygmomanometer, blood oxygen concentration meter, and electrocardiograph have been miniaturized, the creation of a biomedical device that can perform data transmission using a headphone plug, It is not limited to the blood glucose machine. Please refer to the seventh figure, which is a connection diagram between a sphygmomanometer and a portable electronic device. As shown in the seventh figure, the biomedical device 1 capable of performing data transmission using the earphone plug is shown in the seventh figure. It can also be a sphygmomanometer, wherein the measuring unit η is an arm collar, and the arm collar J is used to enclose the user's arm to measure the blood pressure value of the user. Headphone plug The biomedical device for data transmission can also measure the electrocardiogram data of one of the users for an electrocardiograph. The first embodiment of the biomedical model that can use the earphone plug to perform data transmission is further included. For the second architecture, please refer to the eighth figure. The second architecture diagram of the second embodiment of the biomedical device that can perform data transmission using the earphone plug is the same as the first architecture, as shown in the eighth figure: The second architecture of the first embodiment of the biomedical device 1 for transmitting data with the earphone microphone plug includes: the measuring unit 1 the micro control unit 12, 15 M422126, the earphone microphone plug 13, the switch unit 14. The level shifting unit 15, the amplifying unit 16, the power management unit 17, and the speaker unit 18 °, please continue to refer to the eighth figure 'and also refer to the fourth figure, wherein the first In the second architecture, the switch unit 14 is coupled to the left channel output terminal 133, the right channel output terminal 134 and the micro control unit 12, and the power management unit 17 is not coupled to the left channel. Output 133 is directly Φ ground Connected to, as shown in an eighth view of a power supply device 4, the power supply device 4 is - battery. Therefore, in the second architecture, since the left channel output terminal 133 does not need to be coupled to the power management unit 17', the left channel output terminal 133 and the right channel output terminal 134 are simultaneously used to transmit the audio signal to the The biomedical device 1' is configured to transmit the setting data of the portable electronic device 3 to the micro control unit 12. Thus, by the description of the two sets of architectures, the first biomedical device that performs data transmission is exposed, and, by the above, it can be known that the present invention can be used to insert an embodiment of the headset. It is clear that this creative department has the following advantages:
子裝置執行資料傳輸與資訊整合。 ^刊*订貧料傳輸的生醫裝置 ,藉由將該耳機插頭插入可攜式 即可使得該生醫裝置與可攜式電 2.承上述第1 透過耳機插頭 使用者可使用具有 16 M422126 *耳機插頭的生醫裝置與任何可攜式電子裝置通訊連結,係 不需要通過廠商的傳輸格式認證程序,對於使用者而言, 係相當方便。 3.承上述第1點,使用者可於G〇〇gk所提供之d -Market之中、於Apple所提供的AppSt〇re、於阶恤所提供的 :〇viStore、或於BlackBeny所提供之AppSt〇re購買並下載該應用 •軟體,以直接地安裝於其智慧型手機之中。 # 4·並且,本創作之可利用耳機插頭執行資料傳輸的生 醫襄置,其裝置電源可由電池或者自可攜式電子裝置處獲 得,因此,使用者使用該生醫裝置之時,係不需要擔心生 醫裝置發生系統電源不足之問題。 5.此外,使用者不僅可將生醫裝置所量測之生醫資料 傳送至可攜式電子裝置儲存外,亦可以藉由可攜式電子裝 將生醫胃料上傳至—雲端資料庫,以作為遠距醫療 • 之用。 並且,本創作所提出之一種可利用耳機插頭執行資料 傳輪的生醫裝置更具有一第二實施例。請參閱第九圖,係 本創作之一種可利用耳機插頭執行資料傳輸之生醫裴置的 〜實施例之架構圖,如第九圖所示,該可利用耳機插碩 執行資料傳輸的生醫裝置i之第二實施例係包括:The sub-device performs data transmission and information integration. The publication of the biomedical device for the transmission of poor materials, by inserting the earphone plug into the portable type, the biomedical device and the portable electric device can be used. The first through the earphone plug user can use 16 M422126 * The biomedical device of the earphone plug is connected to any portable electronic device, and does not need to pass the manufacturer's transmission format authentication program, which is quite convenient for the user. 3. In accordance with the above first point, the user can use the d-Market provided by G〇〇gk, the AppSt〇re provided by Apple, the 〇viStore provided by the syllabus, or the BlackBeny. AppSt〇re purchases and downloads the app•software for direct installation on its smartphone. #4· Moreover, the creation of the biomedical device that can perform data transmission using the earphone plug can be obtained by the battery or the self-portable electronic device. Therefore, when the user uses the biomedical device, There is a need to worry about the lack of system power in biomedical devices. 5. In addition, the user can not only transfer the biomedical data measured by the biomedical device to the portable electronic device, but also upload the biomedical material to the cloud database through the portable electronic device. For use as a telemedicine. Moreover, the biomedical device proposed by the present invention for performing data transfer using the headphone plug has a second embodiment. Please refer to the ninth figure, which is an architectural diagram of an embodiment of the present invention which can perform data transmission using a headphone plug. As shown in the ninth figure, the biomedical device capable of performing data transmission using the earphone plug A second embodiment of apparatus i includes:
嚴- 里期J 疋Ua、一微控制單元12a、一第一耳機插孔13&、一 關留 開 皁元14a、一準位遷移單元15a、一放大單元16&、一 17 M422126 ‘源管理單元17a、一揚聲單元18a、以及一耳機纜線5a ^ 其中,該量測單元1 la用以連接一待測物2a以量測該 待測物2a之一生醫資訊,微控制單元丨2a則耦接於量測單 兀11a以接收該生醫資訊,並同時將生醫資訊處理成為一 生醫資料。請另外同時參閱第十A圖與第十B圖,係可利 :用耳機插頭執行資料傳輸的生醫裝置與可攜式電子裝置之 •連結示意圖,如第九圖與第十A圖所示,耳機纜線5&具有 鲁一第一耳機插頭51a與一第二耳機插頭52a,該第一耳機 插頭51a與該第二耳機插頭52a可分別插入生醫裝置i的 第一耳機插孔13a與一可攜式電子裝置%的一第二耳機插 孔31a。並且,第一耳機插頭51a具有一接地端5Ua、一 麥克風輸入端512a、一左聲道輸出端513a、與一右聲道輸 出端514a,且該麥克風輸入端512a係透過第一耳機插孔 13a耦接於該微控制單元i2a。 • 該開關單元14a係透過第一耳機插孔13a耦接於該左 聲道輸出端513a與該右聲道輸出端514a,並同時耦接微 控制單元12a。於該可利用耳機插頭執行資料傳輸的生醫 裝置1之第二實施例之中,當該第一耳機插頭5U與該第 二耳機插頭52a插入第一耳機插孔13a與可攜式電子裝置 3a的第二耳機插孔31a之後,該開關單元即執行訊號 切換,以終止可攜式電子裝置33輸出一音頻訊號,使得微 控制單元14a可透過該麥克風輸入端512&將該生醫資料輸 18 M422126 *入可攜式電子裝置3a。該準位遷移單元15a係耦接於開關 單兀14a與微控制單元12a,用以自開關單元14&接收該 音頻訊號並將其放大,然後,準位遷移單元15a會將音頻 訊號轉換成一直流訊號並將其輸出至開關單元14a。 . 请繼續參閱第九圖與第十A圖,該放大單元16a係粞 :接於開關單元14a以接收並放大該音頻訊號。該電源管理 :單元17a則電性連接至一電源裝置4a,例如,一電池,以 _將!源裝4 4a所提供的電源轉換成一系统電源以驅動該 量測單元11a、該微控制單元12a、該開關單元Ua、該準 位遷移單元15a、與該放大單元i6a。 與前述第一實施例不同的是,於可利用耳機插頭執行 資料傳輸的生醫裝置1的第二實施例中,當耳機纜線以之 第一耳機插頭51a與第二耳機插頭52a插入該第一耳機插 孔13a與該第二耳機插孔31a之後,藉由該耳機纜線5a, 藝可攜式電子裝置3a可透過開關單元Ua將一設定資料傳送 至微控制單元12a,之後,微控制單元12a會經由該麥克 風輸入端512a送出一識別碼至可攜式電子裝置3a,此時, 安裝於可攜式電子裝置3a内的一應用軟體會偵測該識別 碼,以確認微控制單元12a與可攜式電子裝置3&之通訊關 係;如此,當使用者使用該生醫裝置j完成每曰的生醫資 料量測工作之後’使用者即可將所測得的生醫資料傳送至 可攜式電子裝置3a以進行紀錄、儲存與管理;此外,如第 19 M422126 *十B圖所示,使用者亦可將傳送至可攜式電子裝置3a的生 醫資料進一步地上傳至一雲端資料庫6a之中,以作為遠距 醫療管理之用。 如此,上述詳細說明係已針對本創作可行實施例之進 行了具體說明,並且,該實施例並非用以限制本創作之專 -利範圍,凡未脫離本創作技藝精神所為之等效實施或變 :更,均應包含於本案之專利範圍中。 • 【圖式簡單說明】 第一圖係一種習用血糖機之立體圖; 第二圖係血糖機與一電腦進行資料傳輸之示意圖; 第三圖係血糖機與一智慧型手機進行資料傳輸之示_ ; 第四圖係本創作之一種可利用耳機插頭執行資料傳輸之生 醫裝置的第一實施例之第一架構圖; 第五A圖與第五B圖係可利用耳機插頭執行資料傳輸的生 • 醫裝置與一可攜式電子裝置之連結示意圖; 第六A圖、第六B圖與第六C圖係可利用耳機插頭執行資 料傳輸的生醫裝置與智慧型手機之訊號時序圖; 第七圖係一血壓計與可攜式電子裝置之連結示意圖; 第八圖係本創作之一種可利·用耳播描 』用斗機插碩執行資料傳輸之生 醫裝置的第一實施例之第二架構圖; 第九圖係本創作之一種可利用拖接 扪用斗機插碩執行資料傳輸之生 醫裝置的第二實施例之架構圖;以及 20 M422126 第十A圖與第十B圖係可利用耳機插頭執行資料傳輸的生 醫裝置與可攜式電子裝置之連結示意圖。 【主要元件符號說明】 可利用耳機插頭執行資料傳輸的生醫裝置 11 12 13 14 15 16 17 18 2 3 31 131 132 133 134 4 11a 量測單元 微控制單元 耳機插頭 開關單元 準位遷移單元 放大單元 電源管理單元 揚聲單元 待測物 可攜式電子裝置 耳機插孔 接地端 麥克風輸入端 左聲道輸出端 右聲道輸出端 電源裝置 雲端資料庫 量測單元 21 M422126Yan-Li period J 疋Ua, a micro control unit 12a, a first headphone jack 13&, a closed soap unit 14a, a level shifting unit 15a, an amplifying unit 16&, a 17 M422126 'source management The unit 17a, a speaker unit 18a, and a headphone cable 5a. The measuring unit 1 la is used to connect a test object 2a to measure the biomedical information of the object to be tested 2a. The micro control unit 丨 2a It is coupled to the measurement unit 11a to receive the biomedical information, and simultaneously processes the biomedical information into a biomedical data. Please also refer to the 10th and 11th B drawings at the same time. It is a link diagram of the connection between the biomedical device and the portable electronic device that performs data transmission with the earphone plug, as shown in the ninth and tenth Ath The earphone cable 5& has a first earphone plug 51a and a second earphone plug 52a, and the first earphone plug 51a and the second earphone plug 52a are respectively inserted into the first earphone jack 13a of the biomedical device i and A second earphone jack 31a of a portable electronic device%. Moreover, the first earphone plug 51a has a grounding end 5Ua, a microphone input end 512a, a left channel output end 513a, and a right channel output end 514a, and the microphone input end 512a is transmitted through the first earphone jack 13a. The micro control unit i2a is coupled to the micro control unit. The switch unit 14a is coupled to the left channel output terminal 513a and the right channel output terminal 514a through the first earphone jack 13a, and is coupled to the micro control unit 12a. In the second embodiment of the biomedical device 1 that can perform data transmission using the earphone plug, when the first earphone plug 5U and the second earphone plug 52a are inserted into the first earphone jack 13a and the portable electronic device 3a After the second earphone jack 31a, the switch unit performs signal switching to terminate the portable electronic device 33 to output an audio signal, so that the micro control unit 14a can transmit the biomedical data through the microphone input terminal 512 & M422126 * into the portable electronic device 3a. The level shifting unit 15a is coupled to the switch unit 14a and the micro control unit 12a for receiving and amplifying the audio signal from the switch unit 14& and then the level shifting unit 15a converts the audio signal into a continuous stream. The signal is output to the switch unit 14a. Please continue to refer to the ninth and tenth A diagrams. The amplifying unit 16a is connected to the switching unit 14a to receive and amplify the audio signal. The power management: unit 17a is electrically connected to a power supply device 4a, for example, a battery, to _ will! The power supply provided by the source device 4 4a is converted into a system power supply to drive the measuring unit 11a, the micro control unit 12a, the switching unit Ua, the level shifting unit 15a, and the amplifying unit i6a. Different from the foregoing first embodiment, in the second embodiment of the biomedical device 1 capable of performing data transmission using the earphone plug, when the earphone cable is inserted into the first earphone plug 51a and the second earphone plug 52a After the headphone jack 13a and the second headphone jack 31a, the portable electronic device 3a can transmit a setting data to the micro control unit 12a through the switch unit Ua, and then, the micro control The unit 12a sends an identification code to the portable electronic device 3a via the microphone input terminal 512a. At this time, an application software installed in the portable electronic device 3a detects the identification code to confirm the micro control unit 12a. The communication relationship with the portable electronic device 3&; after the user uses the biomedical device j to complete the biomedical data measurement work for each user, the user can transmit the measured biomedical data to the The portable electronic device 3a is used for recording, storing, and managing. In addition, as shown in the 19th M422126 *10B, the user can further upload the biomedical data transmitted to the portable electronic device 3a to a cloud. Among the stock 6a, it is used for remote medical management. As such, the foregoing detailed description has been described with respect to the preferred embodiments of the present invention, and the embodiments are not intended to limit the scope of the present invention. : More, should be included in the patent scope of this case. • [Simple description of the diagram] The first picture is a perspective view of a conventional blood glucose machine; the second picture is a schematic diagram of data transmission between a blood glucose machine and a computer; The third picture shows the data transmission of a blood glucose machine and a smart phone. The fourth figure is a first architecture diagram of the first embodiment of the biomedical device capable of performing data transmission by using the earphone plug; the fifth A picture and the fifth B picture can be used to perform data transmission using the earphone plug • a schematic diagram of the connection between the medical device and a portable electronic device; the sixth, sixth, sixth and sixth C diagrams are signal timing diagrams of the biomedical device and the smart phone that can perform data transmission using the earphone plug; The seventh figure is a schematic diagram of the connection between a sphygmomanometer and a portable electronic device; the eighth figure is a first embodiment of the biomedical device for performing data transmission by using a bucket machine with a bucket machine The second architecture diagram; the ninth diagram is an architectural diagram of a second embodiment of the biomedical device capable of performing data transmission by using a dragging machine; and 20 M422126 10th and 10th B Picture system The biomedical apparatus performs data transmission with an earphone plug connected to a portable electronic device and FIG. [Description of main component symbols] Biomedical device that can perform data transmission using the headphone plug 11 12 13 14 15 16 17 18 2 3 31 131 132 133 134 4 11a Measuring unit Micro control unit Headphone plug switch unit Level shifting unit Amplifying unit Power management unit speaker unit to be tested portable electronic device headphone jack ground terminal microphone input terminal left channel output terminal right channel output terminal power supply device cloud database measurement unit 21 M422126
• 12a 微控制單元 13a 第一耳機插孔 14a 開關單元 15a 準位遷移單元 16a 放大單元 -17a 電源管理單元 '18a 揚聲單元 2a 待測物 3a 可攜式電子裝置 31a 第二耳機插孔 511a 接地端 512a 麥克風輸入端 513a 左聲道輸出端 514a 右聲道輸出端 4a 電源裝置 5a 耳機纜線 6a 雲端資料庫 1, 習用血糖機 2, 試片 21’ 反應區 11, 螢幕 12, 連接纜線 22 M422126 ’121’ USB連接器 122’ 特定連接器 3’ 電腦 3Γ USB插孔 4’ 智慧型手機 ' 41’ 資料傳輸插孔• 12a micro control unit 13a first headphone jack 14a switch unit 15a level shifting unit 16a amplifying unit -17a power management unit '18a speaker unit 2a object to be tested 3a portable electronic device 31a second headphone jack 511a grounded Terminal 512a Microphone input 513a Left channel output 514a Right channel output 4a Power supply 5a Headphone cable 6a Cloud database 1, Conventional blood glucose machine 2, Test strip 21' Reaction zone 11, Screen 12, Connection cable 22 M422126 '121' USB Connector 122' Specific Connector 3' Computer 3Γ USB Jack 4' Smart Phone '41' Data Transfer Jack
II